Encamên Lêgerînê

Gallery of Manufactured Products by AGS-TECH Inc., Plastic and Rubber Molds & Molding, Metal Castings, Machined Components, Metal Stamping, Sheet Metal AGS-TECH, Inc. ya we ye Çêkerê Xweseriya Gloverî, Integrator, Hevkar, Hevkarê Derveyî. Em ji bo çêkirin, çêkirin, endezyarî, hevgirtin, derxistina derve çavkaniya weya yek-rawest in. Galeriya Berhemên Çêkirî Ji kerema xwe li ser menuyên jêrîn bikirtînin da ku hin hilberên ku me berê ji bo xerîdarên xwe çêkirine bibînin. Berhemên ku me çêdikin qalibên plastîk û gomîkî, parçeyên şilandî, rijandinên metal û hêmanên makînekirî, çîpkirin, extrusyon, stendin û hêman û meclîsên çêkirî yên metal, meclîsên mekanîkî, meclîsên elektrîkî û elektronîkî, optîk, fiber optîk, optomekanîk, hêmanên optoelektronîk hene. û meclîs, alavên xwerû, pergalên otomasyonê, amûrên ceribandin û metrolojiyê û alavên ji bo navê çend. SEREDANA GALERÎ Molds & Molding Plastic SEREDANA GALERÎ Çûçik û Elastomer Molds & Molding SEREDANA GALERÎ Metal û Metal Alloy Castings SEREDANA GALERÎ Pêkhateyên Makînekirî & Milling & Zivirandin SEREDANA GALERÎ Metal Stamping & Sheet Metal Fabrication SEREDANA GALERÎ Meclîsên Mekanîk SEREDANA GALERÎ Meclîsên Elektrîk û Elektronîkî SEREDANA GALERÎ Meclîsên Optomechanical SEREDANA GALERÎ Prototyping Electronic SEREDANA GALERÎ Meclîsên Product LED RÛPERA BERÊ

Custom Optics, Fiberoptic, Optoelectronic Optomechanical Manufacturing, Fiber Optic and Free Space Optical Assemblies, Solar Devices, Optic Connectors, Filters Meclîsên Optîk û Fiber Optîk û Optoelektronîk ên Xweser Read More Coatings Optical & Parzûna Manufacturing Read More Girêdanên Optîkî & Berhemên Têkilî Read More Berhemên Fiber Optîk Read More Meclîsên Optomekanîkî yên Xweserkirî Read More Hilberîn & Civîna Pergalên Kamera Xweserkirî Read More Hilberîn & Civîna Pêkhateyên Optîk ên Pasîf Read More Hilberîn & Civîna Pêkhateyên Optîk ên Çalak Read More Hilberîna Hilber û Pergalên Holografîk Read More Çêkirin & Civîna Dîmender, Dîmender, Çavdêrên Optîkî Read More Çêkirin û Civîna Pergalên Enerjiya Rojê ya Xweserkirî Em bala xwe didin ser OPTIKA CUSTOM, FIBER OPTICS, OPTOMECHANICAL û OPTOELEKTRONIK pêkhateyên, binecivîn û meclîsên hilberê yên bêkêmasî. Zanîna meya teknîkî û karsaziyê rê dide me ku em hêmanên rast hilbijêrin û hilberên li gorî taybetmendiyên we berhev bikin. Derfetên hilberîna xwerû bêdawî ne. Ji me re vebêjin ka dijwariyên we çi ne û bihêlin em ji we re hilberên optîkî û fiber optîk sêwiran û çêkin. Berhemên me di ISO9001: 2000, QS9000, ISO14001, TS16949 hawîrdorên pejirandî de têne çêkirin, xwedî CE, nîşana UL an pejirandina FDA (gava ku hewce be) û standardên pîşesaziyê yên din bicîh tînin. Berhemên me yên fiber optîk ên têlefonê standardên Telcordia derbas dikin. Endezyarên me yên optîk xwedan ezmûna gelek salan in ku bi nermalavên sêwirana optîkî yên Zemax û Code V re dixebitin. Pisporiya wan optîka cîhê belaş, optîka pêla rêberî, amûr û pergalên optîkî, sêwirandin û pêşkeftina pêlavên optîkî yên pirreng li deverên cûda yên spektral vedigire. Em ne tenê hilberan peyda dikin. Pargîdaniya me li ser peymanên endezyariya xwerû dixebite ku em têne ser malpera we, projeya we li ser malperê dinirxînin û pêşniyarek projeyek xwerû ya ku ji we re hatî çêkirin pêş dixe. Dûv re em ekîba xwe ya pispor dişînin da ku projeyê bicîh bînin. Mînakên karê peymanê sazkirina pergala vedîtina fiber optîk e ku zirarê bide boriyên we. Em prototîpkirina pîvana piçûk û projeyên pêşkeftina hilberên nû û her weha projeyên mezin di asta pîşesaziyê de digirin. Heke hûn bi piranî li şûna kapasîteyên hilberînê bi kapasîteyên me yên endezyar û lêkolîn û pêşkeftinê re eleqedar in, wê hingê em we vedixwînin ku biçin malpera meya endezyariyê http://www.ags-engineering.com CLICK Product Finder-Locator Service RÛPERA BERÊ

Mechanical Assembly, Joining and Fastening, Welded Metal Subassembly, Subassemblies, Contract Manufacturing, Custom Manufacturing and Assembling Meclîsên Mekanîk Meclîsa Mekanîk Meclîsên Mekanîkî yên Ji Kulên Pola, Bihar û Pêkhateyên Makînekirî pêk tên Parçeyên metal ên welded ên ku ji hêla AGS-TECH ve têne çêkirin Meclîsên mekanîkî yên ku hemî cûrbecûr guheztinên ji-raf û xwerû yên çêkirî bikar tînin Civînên mekanîkî yên bi kilîtên xwerû, têl û hêmanên makîneyê Meclîsa Steel Welded ji hêla AGS-TECH Inc. Mirror Finish Stainless Steel Welded Meclîsa ji hêla AGS-TECH Inc. Civîna Mekanîkî ya Parçeyên Rastî ji hêla AGS-TECH Inc. CNC hêmanên makînasyon, qirçîn, xêzkirin û komkirin Parçeyên tûncê yên nikelkirî yên ku li lûleyekê hatine berhev kirin Meclîsa Mekanîkî ya Xweser ji hêla AGS-TECH Inc. Meclîsa dial û gemarê ya makînekirî - AGS-TECH Inc. Ji bo pîvangên zextê yên ku ji hêla AGS-TECH Inc. Meclîsa nut Hexagon Manufacturing nut hexagon Meclîsa Parçeyên Metal ên Welded ji hêla AGS-TECH Inc. Meclîsa Pump Meclîsa Mekanîkî - AGS-TECH Inc. Meclîsa Hilgirtina Pin Pin Bearings ji AGS-TECH Inc. Hilgirtina Meclîsa Meclîsa Hilgirtina ji AGS-TECH Inc. Meclîsên Mekanîkî yên Rast ji bo Serlêdanên Pîşesaziyê - AGS-TECH Inc Ji bo Serlêdanên Mohkirinê Perçeyên Çêkirî û Çêkirî yên Rast - AGS-TECH Inc Meclîsa Mekanîk Carbon Fiber Wing-I Tîpa ji bo Otomobîlan Civîna Mekanîkî û Welding - AGS-TECH Meclîsên Birêkûpêk ji Pêlên Hinges Springs û Pêkhateyên Din - AGS-TECH Inc Meclîsa zincîra Custom - AGS-TECH Meclîsên Mekanîk Carbon Fiber Wing-E Type Civîna zincîra Custom Hilberîn û Civîna Mekanîkî ya Germên Zexta Xweser ji hêla AGS-TECH Inc. Aliyê paşiya Meclîsên Pîvana Zexta Xweser RÛPERA BERÊ

General Sales Terms for Manufactured Parts & Products at AGS-TECH Inc.- a Flexible Global Custom Manufacturer, Fabricator, Consolidator, Engineering Integrator. Mercên Firotanê yên Giştî li AGS-TECH Inc Below you will find the GENERAL SALES TERMS AND CONDITIONS of AGS-TECH Inc. Seller AGS-TECH Inc. does submit a copy of these terms and conditions along with offers and quotes to its customers. These are general sales terms and conditions of seller AGS-TECH Inc. and should not be considered to be valid for every transaction. However please note that for any deviations or modifications to these general sales terms and conditions, buyers need to contact AGS-TECH Inc and obtain approval in writing. If no mutually agreed modified version of sales terms and conditions exist, these terms and conditions of AGS-TECH Inc. stated below shall apply. We also want to emphasize that the primary goal of AGS-TECH Inc. is to provide products and services that meet or exceed customers expectations, and make its customers globally competitive. Therefore the relationship of AGS-TECH Inc. will always be more of a long term sincere relationship and partnership with its customers and not one that is based on pure formality. 1. ACCEPTANCE. This proposal does not constitute an offer, but is an invitation to the Buyer to place an order which invitation shall be open for thirty (30) days. All orders are made subject to final written acceptance by AGS-TECH, INC. (hereinafter referred to as “seller”) The terms and conditions herein shall apply to and govern buyer’s order, and, in case of any inconsistency between these terms and conditions and buyer’s order, the terms and conditions herein shall prevail. Seller objects to the inclusion of any different or additional terms proposed by the buyer in its offer and if they are included in buyer’s acceptance, a contract for sale will result upon seller’s terms and conditions stated herein. 2. DELIVERY. The quoted delivery date is our best estimate based upon present scheduling requirements and may be deviated from without liability by a reasonably longer period at Seller’s discretion due to manufacturing contingencies. Seller shall not be liable for failure to deliver on any specific date or dates within any specific period of time in the event of hardships or causes beyond its control including, but not limited to, acts of God or the public enemy, governmental orders, restrictions or priorities, fires, floods, strikes, or other work stoppages, accidents, catastrophes, war conditions, riot or civil commotion, labor, material and/or transportation shortages, legal interferences or prohibitions, embargoes, defaults or delays of subcontractors and suppliers, or similar or different causes which render performance or timely delivery difficult or impossible; and, in any such event Seller shall not incur or be subject to any liability whatsoever. Buyer shall not by reason of any such cause, have any right of cancellation, nor any right to suspend, delay or otherwise prevent Seller from manufacturing, shipping or storing for Buyer’s account any material or other goods purchased hereunder, nor to withhold payment therefore. Buyer’s acceptance of delivery shall constitute a waiver of any claim for delay. If goods ready for shipment on or after the scheduled delivery date cannot be shipped because of Buyer’s request or for any other reason beyond Seller’s control, payment shall be made within thirty (30) days after Buyer has been notified that the same are ready for shipment, unless otherwise agreed in writing between Buyer and Seller. If at any time shipment is deferred or delayed, Buyer shall store the same at Buyer’s risk and expense and, if Buyer fails or refuses to store the same, Seller shall have the right to do so at Buyer’s risk and expense. 3. FREIGHT/RISK OF LOSS. Unless otherwise indicated, all shipments are made FOB, place of shipment and Buyer agrees to pay all charges for transportation, including insurance. Buyer assumes all risk of loss and damage from the time the goods are deposited with the carrier 4. INSPECTION/REJECTION. Buyer shall have ten (10) days after receipt of goods to inspect and either accept or reject. If goods are rejected, written notice of rejection and the specific reasons therefore must be sent to seller within such ten (10) day period after receipt. Failure to reject goods or to notify Seller of errors, shortages, or other non-compliance with the agreement within such ten (10) day period shall constitute irrevocable acceptance of goods and admission that they fully comply with the Agreement. 5. NON-RECURRING EXPENSE (NRE), DEFINITION/PAYMENT. Whenever used in the Seller’s quotation, acknowledgement or other communication, NRE is defined as a one-time Buyer borne cost for (a) the modification or adaptation of Seller owned tooling to allow manufacturing to Buyer’s exact requirements, or (b) the analysis and precise definition of the Buyer’s requirements. Buyer shall further pay for any necessary repairs or replacements to tools after tool life specified by Seller. At such time that Non-Recurring Expenses are specified by the Seller, Buyer shall pay 50% thereof with its Purchase Order and the balance thereof upon Buyer’s approval of the design, prototype or samples produced. 6. PRICES AND TAXES. Orders are accepted on the basis of prices listed. Any added expense incurred by the Seller because of delays in receipt of details, specifications, or other pertinent information, or because of changes requested by the Buyer shall be chargeable to the Buyer and payable upon invoice. The Buyer in addition to the purchase price shall assume and pay any and all sales, use, excise, license, property and/or other taxes and fees together with any interest and penalties thereon and expenses in connection therewith growing out of, relating to, affecting or pertaining to, the sale of property, service other subject matter of this order, and Buyer shall indemnify Seller and save and hold Seller harmless from and against any claim, demand or liability for and such tax or taxes, interest or 7. PAYMENT TERMS. Items ordered will be billed as shipments made and payment to Seller shall be net cash in United States funds, thirty (30) days from date of shipment by the Seller, unless otherwise specified in writing. No cash discount will be allowed. If Buyer delays manufacture or shipment, payment of the percentage of completion (based on the contract price) shall become immediately due. 8. LATE CHARGE. If invoices are not paid when due, Buyer agrees to pay late charges on the unpaid delinquent balance at the rate of 1 ½% thereof per month. 9. COST OF COLLECTION. Buyer agrees to pay any and all costs including but not limited to all attorney's fees, in the event Seller must refer Buyer’s account to an attorney for collection or enforcement of any of the terms and conditions of sale. 10. SECURITY INTEREST. Until payment is received in full, Seller shall retain a security interest in the goods hereunder and the Buyer authorizes Seller to execute on Buyer’s behalf a standard financing statement setting forth Seller’s security interest to be filed under the applicable filing provisions or any other document necessary to perfect Seller’s security interest in the goods in any state, country or jurisdiction. Upon Seller’s request, Buyer shall promptly execute any such documentation. 11. WARRANTY. Seller warrants that the component goods sold will meet the specifications set forth in writing by Seller. If Buyer’s order is for a complete optical system, from image to object, and Buyer provides all information to its requirements and use, Seller also warrants performance of the system, within the characteristics set forth in writing by Seller. Seller makes no warranty of fitness or merchantability and no warranty oral or written, express or implied, except as specifically set forth herein. The provisions and specifications attached hereto are descriptive only and are not to be understood as warranties. Seller’s warranty shall not apply if persons other than the seller have without written consent of seller performed any work or made any alteration in the goods supplied by the seller. Seller shall under no circumstances be liable for any loss of profits or other economic loss, or any special, indirect consequential damages arising from the loss of production or other damages or losses owing to the failure of seller’s goods or the supply by the seller of defective goods, or by reason of any other breach of this contract by seller. Buyer hereby waives any right to damages in the events it rescinds this contract for breach of warranty. This warranty extends only to the original buyer. No subsequent buyer or user is covered. 12. INDEMNIFICATION. Buyer agrees to indemnify Seller and save it harmless from and against any claim, demand or liability arising out of or in connection with the sale of the goods by Seller or the use of the goods by Buyer and this includes but is not limited to damage to property or persons. Buyer agrees to defend at its expense any suit against Seller respecting infringement (including contributory infringement) of any United States or other patent covering all or parts of the goods furnished under an order, its manufacture and/or its use and will pay costs, fees and/or damages awarded against Seller for such infringement by any final court decision; provided Seller notifies Buyer promptly of any charge of or suit for such infringement and tenders Buyer the defense of such suit; Seller having the right to be represented in such defense at Seller’s expense. 13. PROPRIETARY DATA. All specifications and technical material submitted by Seller and all inventions and discoveries made by Seller in carrying out any transaction based thereon are the property of Seller and are confidential and shall not be disclosed to or discussed with others. All such specifications and technical material submitted with this order or in carrying out any transaction based hereon shall be returned to Seller on demand. Descriptive matter furnished with this order is not binding as to detail unless certified correct by Seller in acknowledging an order relating thereto. 14. AGREEMENT MODIFICATIONS. The terms and conditions contained herein and any other terms and conditions stated in Seller’s proposal or specifications attached hereto, if any, shall constitute the complete agreement between Seller and Buyer and shall supersede all prior oral or written statements or understandings of any kind whatsoever made by the parties or their representatives. No statement subsequent to the acceptance of this order purporting to modify the said terms and conditions shall be binding unless consented to in writing by a duly authorized officer or manager of Seller. 15. CANCELLATION AND BREACH. This order shall not be countermanded, cancelled or altered by the Buyer, nor shall the Buyer otherwise cause the work or shipment to be delayed, except with the written consent and upon the terms and conditions approved by the Seller in writing. Such consent will be granted if at all, only upon the condition that Buyer shall pay Seller reasonable cancellation charges, which shall include compensation for the costs incurred, overhead, and lost profits. In event that the Buyer cancels this contract without Seller’s written consent or breaches this contract by failing to adhere to Seller for breach of contract and shall pay Sellers damages resulting from such breach including, but not limited to, lost profits, direct and indirect damages, costs incurred and attorneys’ fees. If Buyer is in default under this or any other contract with the Seller, or if Seller at any time shall not be satisfied with Buyer’s financial responsibility, Seller shall have the right, without prejudice to any other legal remedy, to suspend deliveries hereunder until such default or condition is remedied. 16. PLACE OF CONTRACT. Any contract arising out of the placing of any orders and the acceptance thereof by Seller, shall be a New Mexico contract and shall be interpreted and administered for all purposes under the laws of State of New Mexico. The Bernalillo County, NM is hereby designated as the place of trial for any action or proceeding arising out of or in connection with this Agreement. 17. LIMITATION OF ACTION. Any action by the Buyer against the Seller for the breach of this contract or the warranty described herein will be barred unless commenced within one year after the date of delivery or invoice, whichever is earlier. RÛPERA BERÊ

Drive and Driving Shafts Manufacturing - Propeller Prop Cardan Shaft, Drive Train, Splined Shaft, Tapered Shaft, Assembly - AGS-TECH Inc., New Mexico - USA Shafts Manufacturing A drive shaft, driveshaft, driving shaft, propeller shaft (prop shaft), or Cardan shaft is defined as a mechanical component for transmitting rotation and torque, generally deployed to connect other components of a drive train that cannot be connected directly because of distance or the need to allow for relative movement between them. Generally speaking, there are mainly two types of shafts: Transmission shafts are used to transmit power between the source and the machine absorbing power; e.g. counter shafts and line shafts. On the other hand, machine shafts are the integral part of the machine itself; e.g. crankshaft. To allow for variations in the alignment and distance between the driving and driven components, drive shafts frequently incorporate one or more universal joints, jaw couplings, rag joints, a splined joint or a prismatic joint. We sell shafts for transportation industry, industrial machinery, work equipment. According to your application, the proper material is chosen with appropriate weight and strength. While some applications require lightweight shafts for lower inertia, others necessitate very strong materials to stand the extremely high torques and weight. Call us today to discuss your application. We use a variety of techniques to assemble shafts with their mating parts. According to the environment and application, here are a few of our techniques for engaging shafts and their mating parts: SPLINED SHAFT: These shafts have multiple grooves, or key-seats cut around its circumference for a portion of its length in order that a sliding engagement may be made with corresponding internal grooves of a mating part. TAPERED SHAFT: These shafts have a tapered end for easy and strong engagement with the mating part. Shafts may also be connected to their mating parts by other means such as setscrews, press fit, sliding fit, slip fit with key, pins, knurled joint, driven key, brazed joint…etc. SHAFT & BEARING & PULLEY ASSEMBLY: This is another area where we have the expertise to manufacture reliable assemblies of bearings and pulleys with shafts. SEALED SHAFTS: We seal shafts and shaft assemblies for grease and oil lubrication and protection from dirty environments. MATERIALS USED FOR MANUFACTURING SHAFTS: The materials we use for ordinary shafts is mild steel. When high strength is required, an alloy steel such as nickel, nickel-chromium or chromium-vanadium steel is used. We form shafts generally by hot rolling and finish them to size by cold drawing or turning and grinding. OUR STANDARD SHAFT SIZES: Machine shafts Up to 25 mm steps of 0.5 mm Between 25 to 50 mm steps of 1 mm Between 50 to 100 mm steps of 2 mm Between 100 to 200 mm steps of 5 mm Transmission shafts Between 25 mm to 60 mm with 5 mm steps Between 60 mm to 110 mm with 10 mm steps Between 110 mm to 140 mm with 15 mm steps Between 140 mm to 500 mm with 20 mm steps The standard lengths of the shafts are 5 m, 6 m and 7 m. Please click on highlighted text below to download our relevant catalogs and brochures on off-shelf shafts: - Round and square shafts for linear bearings & linear shafting CLICK Product Finder-Locator Service RÛPERA BERÊ

Manufacturing Knowledge Center, Learn about manufacturing, technology, production methods, international standards related to manufacturing and products. AGS-TECH, Inc. ya we ye Çêkerê Xweseriya Gloverî, Integrator, Hevkar, Hevkarê Derveyî. Em ji bo çêkirin, çêkirin, endezyarî, hevgirtin, derxistina derve çavkaniya weya yek-rawest in. Navenda Zanînê Li ser vê rûpelê, hûn ê lînkên agahdariya bikêr di derbarê pêşkeftina hilberan, çêkirinê, agahdariya teknîkî ya têkildarî hilberînê de wekî standardên navxweyî û gerdûnî…hwd. Zanîn hêz e, ji ber vê yekê vê rûpelê bikin yek ji bijareyên xwe û gava ku hûn hewceyê alîkariyê bin, biçin wê. Li vir bikirtînin, Pirs Bipirsin û Bersivên Tavilê bistînin RÛPERA BERÊ

Electronic Assembly, Cable Harness, PCBA, PCB, Optoelectronic Manufacturing, Transformer Assembly, Motion Detector Meclîsên Elektrîk û Elektronîkî Meclîsa Elektronîkî - AGS-TECH, Inc. Civîna elektronîkî ya sobeya bijîşkî Hilberîn û komkirina hilberên elektronîkî ji hêla AGS-TECH, Inc. Kabloya têlefonê ya capacitive ku ji hêla AGS-TECH Inc ve hatî çêkirin û çêkirin. Pêşveçûn û çêkirina kabloya têlefonê ya kapasîtîf PCBA Optoelektronîk Lijneyên PCB Civînên PCB yên Xweser ji hêla AGS-TECH ve Prototîpa robotek optoelektronîkî ya bi qonaxek zivirî û tilt - ji bo şopandin û tomarkirina otomatîk Transformatorê çêkirî û berhevkirî Transformatorên xwerû yên ku ji hêla AGS-TECH ve têne çêkirin Meclîsa Drill Elektrîkî ji hêla AGS-TECH Inc. Transformatorên xwerû yên çêkirî yên ku ji hêla AGS-TECH ve ji bo hilberînerek grill têne çêkirin Meclîsên PCBA - Meclîsên Elektronîkî yên Elektrîkî Doza çavan bi detektorên tevgerê AGS-TECH, Inc. Doza çavê bi senzorên tevgerê ku bi tevahî ji hêla AGS-TECH, Inc. ve hatî çêkirin û civandin. AGS-TECH hilberên we li gorî tercîh û hewcedariyên we paket dike Meclîsa Alternator ji hêla AGS-TECH Inc. Civîna Destpêkê ji hêla AGS-TECH Inc. Destpêka Elektrîkê ji hêla AGS-TECH Inc. Meclîsên PCB û SMT AGS-TECH Inc. Gûzên tîrêjê yên bi pêlên têl ên ku ji hêla AGS-TECH Inc. Panelên PCB yên yekane û pirreng ji AGS-TECH Inc Printed Circuit Board Meclîsên PCBA Hilberîna xwerû ya PCBA AGS-TECH, Inc. Hilberîna panela PCB AGS-TECH Em li gorî sêwirana we an sêwirana xwe ya li gorî hewcedariyên we meclîsên panelê yên çapkirî çêdikin RÛPERA BERÊ

Rapid Electronic Prototyping, Custom Robot Assembly, Optomechanical Prototype Manufacturing, AGS-TECH Prototyping Electronic Prototîpa robotê elektronîkî bi detektorên infrared ên nêzîk, qonaxa zivirandinê û serê tiltê ya tîpê Prototîpa elektronîkî ya bilez PCB çar qat bi RO4003C li ser zêrê binavbûyî ya qatê Prototîpa PCB ji bo projeya rojê Sêwirana Prototîpa PCBA-ya Du Layer û Layout Robotê prototîpa optoelektronîk Xizmetên Prototyping PCBA Prototyping PCBA Board Multilayer Prototyping Meclîsa Lijneya Circuit Printed Prototîpa Meclisa Têlên Elektronîkî Prototyping Amplifier Custom Prototyping Amplifier Electronic RÛPERA BERÊ

Pneumatic Reservoirs, Hydraulic Reservoir, Vacuum Chambers, Tanks, High Vacuum Chamber, Hydraulics & Pneumatics System Components Manufacturing at AGS-TECH Inc. Reservoir & Odeyên ji bo Hîdraulîk & Pneumatîk & Vacuum New designs of hydraulic and pneumatic systems require smaller and smaller RESERVOIRS than the traditional ones. We specialize in reservoirs that will meet your industrial needs and standards and are as compact as possible. High vacuum is expensive, and therefore the smallest VACUUM CHAMBERS that will fulfill your needs are the most appealing in most cases. We specialize in modular vacuum chambers and equipment and can offer you solutions on an ongoing basis as your business grows. HYDRAULIC & PNEUMATIC RESERVOIRS: Fluid power systems require air or liquid to transmit energy. Pneumatic systems use the air as the source for reservoirs. A compressor takes in atmospheric air, compresses it and then stores it in a receiver tank. A receiver tank is similar to a hydraulic system’s accumulator. A receiver tank stores energy for future use similar to a hydraulic accumulator. This is possible because air is a gas and is compressible. At the end of the work cycle the air is simply returned to the atmosphere. Hydraulic systems, on the other hand, need a finite amount of liquid fluid that must be stored and reused continually as the circuit works. Reservoirs are therefore part of almost any hydraulic circuit. Hydraulic reservoirs or tanks may be part of the machine framework or a separate stand-alone unit. The design and application of reservoirs is very important. The efficiency of a well-designed hydraulic circuit can be greatly reduced by poor reservoir design. Hydraulic reservoirs do much more than just providing a place to store fluid. FUNCTIONS OF PNEUMATIC & HYDRAULIC RESERVOIRS: In addition to holding in reserve enough fluid to supply a system's varying needs, a reservoir provides: -A large surface area for transferring heat from the fluid to the surrounding environment. -Sufficient volume to let returning fluid slow down from a high velocity. This allows heavier contaminants to settle down and facilitates air escape. Air space above the fluid can accept air that bubbles out of the fluid. Users get access to remove used fluid and contaminants from the system and can add new fluid. -A physical barrier separating fluid entering the reservoir from fluid entering the pump suction line. -Space for hot-fluid expansion, gravity drain-back from a system during shutdown, and storage of large volumes needed intermittently during peak periods of operation -In some cases, a convenient surface to mount other system components and components. COMPONENTS OF RESERVOIRS: The filler-breather cap should include a filter media to block contaminants as the fluid level lowers and rises during a cycle. If the cap is used for filling, it should have a filter screen in its neck to catch large particles. It is best to pre-filter any fluid entering reservoirs. The drain plug is removed and tank emptied when the fluid needs to be changed. At this time, the clean-out covers should be removed to provide access to clean out all stubborn residue, rust, and flaking that may have accumulated in the reservoir. The clean-out covers and internal baffle are assembled together, with some brackets to keep the baffle upright. Rubber gaskets seal the clean-out covers to prevent leaks. If the system is seriously contaminated, one must flush all pipes and actuators while changing the tank fluid. This can be done by disconnecting the return line and placing its end in a drum, then cycling the machine. Sight glasses on reservoirs make it easy to visually check fluid levels. Calibrated sight gauges provide even more accuracy. Some sight gauges include a fluid-temperature gauge. The return line should be located in the same end of the reservoir as the inlet line and on the opposite side of the baffle. Return lines should terminate below fluid level to reduce turbulence and aeration in reservoirs. The open end of the return line should be cut at 45 degrees to eliminate the chances of stopping flow if it gets pushed to the bottom. Alternatively the opening can be pointed toward the side wall to get the maximum heat-transfer surface contact possible. In cases where hydraulic reservoirs are part of the machine base or body, it may not be possible to incorporate some of these features. Reservoirs are occasionally pressurized because pressurized reservoirs provide the positive inlet pressure required by some pumps, usually in line piston types. Also pressurized reservoirs force fluid into a cylinder through an undersized pre-fill valve. This may require pressures between 5 and 25 psi and one cannot use conventional rectangular reservoirs. Pressurizing reservoirs keeps out contaminates. If the reservoir always has a positive pressure in it there is no way for atmospheric air with its contaminants to enter. Pressure for this application is very low, between 0.1 to 1.0 psi, and may be acceptable even in rectangular model reservoirs. In a hydraulic circuit, wasted horsepower needs to be calculated in order to determine heat generation. In highly efficient circuits the wasted horsepower could be low enough to use the reservoirs cooling capacities to keep maximum operating temperatures below 130 F. If heat generation is slightly higher than what standard reservoirs can handle, it may be best to oversize the reservoirs rather than adding heat exchangers. Oversized reservoirs are less expensive than heat exchangers; and avoid the cost of installing water lines. Most industrial hydraulic units operate in warm indoor environments and therefore low temperatures are not a problem. For circuits that see temperatures below 65 to 70 F., some sort of fluid heater is recommended. The most common reservoir heater is an electric-powered immersion type unit. These reservoir heaters consist of resistive wires in a steel housing with a mounting option. Integral thermostatic control is available. Another way to electrically heat reservoirs is with a mat that has heating elements like electric blankets. This type heaters require no ports in the reservoirs for insertion. They evenly heat the fluid during times of low or no fluid circulation. Heat can be introduced through a heat exchanger by using hot water or steam The exchanger becomes a temperature controller when it also uses cooling water to take away heat when needed. Temperature controllers are not a common option in most climates because the majority of industrial applications operate in controlled environments. Always consider first if there is any way to reduce or eliminate unnecessarily generated heat, so it does not have to be paid for twice. It is costly to produce the unused heat and it is also expensive to get rid of it after it enters the system. Heat exchangers are costly, the water running through them is not free, and maintenance of this cooling system can be high. Components such as flow controls, sequence valves, reducing valves, and undersized directional control valves can add heat to any circuit and should be carefully thought about when designing. After calculating wasted horsepower, review catalogs that include charts for given size heat exchangers showing the amount of horsepower and/or BTU they can remove at different flows, oil temperatures, and ambient air temperatures. Some systems use a water-cooled heat exchanger in the summer and an air-cooled one in the winter. Such arrangements eliminate plant heating in summer weather and save on heating costs in the winter. SIZING OF RESERVOIRS: The volume of a reservoir is a very important consideration . A rule of thumb for sizing a hydraulic reservoir is that its volume should equal three times the rated output of the system's fixed-displacement pump or mean flow rate of its variable-displacement pump. As an example, a system using a 10 gpm pump should have a 30 gal reservoir. This is nevertheless only a guideline for initial sizing. Due to modern day system technology, design objectives have changed for economic reasons, such as space saving, minimizing oil usage, and overall system cost reductions. Regardless of whether you choose to follow the traditional rule of thumb or follow the trend toward smaller reservoirs, be aware of parameters that may influence the reservoir size required. As an example, some circuit components such as large accumulators or cylinders may involve large volumes of fluid. Therefore, larger reservoirs may be needed so that fluid level does not drop below the pump inlet regardless of pump flow. Systems exposed to high ambient temperatures also require larger reservoirs unless they incorporate heat exchangers. Be sure to consider the substantial heat that can be generated within a hydraulic system. This heat is generated when the hydraulic system produces more power than is consumed by the load. The size of reservoirs, therefore, is determined primarily by the combination of highest fluid temperature and highest ambient temperature. All other factors being equal, the smaller the temperature difference between the two temperatures, the larger the surface area and hence the volume needed to dissipate heat from fluid to the surrounding environment. If the ambient temperature exceeds the fluid temperature, a heat exchanger will be needed to cool the fluid. For applications where space conservation is important, heat exchangers can reduce reservoir size and cost significantly. If reservoirs are not full at all times, they may not be dissipating heat through their full surface area. Reservoirs should contain at least 10% additional space of fluid capacity. This allows for thermal expansion of the fluid and gravity drain-back during shutdown, yet still provides a free fluid surface for deaeration. Maximum fluid capacity of reservoirs are marked permanently on their top plate. Smaller reservoirs are lighter, more compact, and less expensive to manufacture and maintain than one of traditional size and they are environmentally more friendly by reducing the total amount of fluid that can leak from a system. However specifying smaller reservoirs for a system must be accompanied by modifications that compensate for the lower volumes of fluid contained in the reservoirs. Smaller reservoirs have less surface area for heat transfer, and therefore heat exchangers may be necessary to maintain fluid temperatures within requirements. Also, in smaller reservoirs contaminants will not have as much opportunity for settling, so high-capacity filters will be required to trap contaminants. Traditional reservoirs provide the opportunity for air to escape from fluid before it is drawn into the pump inlet. Providing too small reservoirs could result in aerated fluid being drawn into the pump. This could damage the pump. When specifying a small reservoir, consider installing a flow diffuser, which reduces the velocity of return fluid, and helps prevent foaming and agitation, thus reducing potential pump cavitation from flow disturbances at the inlet. Another method you can use is to install a screen at an angle in the reservoirs. The screen collects small bubbles, which join with others to form large bubbles that rise to the fluid's surface. Nevertheless the most efficient and economical method to prevent aerated fluid from being drawn into the pump is to prevent aeration of fluid in the first place by paying careful attention to fluid flow paths, velocities, and pressures when designing a hydraulic system. VACUUM CHAMBERS: While it is sufficient to manufacture most of our hydraulic and pneumatic reservoirs by sheet metal forming due to the relatively low pressures involved, some or even most of our vacuum chambers are machined from metals. Very low pressure vacuum systems must endure high external pressures from the atmosphere and cannot be made of sheet metals, plastic moulds or other fabrication techniques that reservoirs are made of. Therefore vacuum chambers are relatively more expensive than reservoirs in most cases. Also sealing of vacuum chambers is a greater challenge as compared to reservoirs in most cases because gas leaks into the chamber is hard to control. Even minute amounts of air leak into some vacuum chambers can be disastrous while most pneumatic and hydraulic reservoirs can tolerate some leakage easily. AGS-TECH is a specialist in high and ultra high vacuum chambers and equipment. We provide our clients the highest quality in engineering and fabrication of high vacuum and ultra high vacuum chambers and equipment. Excellence is assured through control of the entire process from; CAD design, fabrication, leak-testing, UHV cleaning and bake-out with RGA scan when required. We do provide off the shelf catalogue items, as well as work closely with clients to provide custom vacuum equipment and chambers. Vacuum Chambers can be manufactured in Stainless steel 304L/ 316L & 316LN or machined from Aluminum. High vacuum can accommodate small vacuum housings as well as large vacuum chambers with several meters of dimensions. We offer fully integrated vacuum systems-manufactured to your specifications, or designed & built to your requirements. Our vacuum chamber manufacturing lines deploy TIG welding and extensive machine shop facilities with 3, 4 & 5 axis machining to process hard to machine refractory material such as tantalum, molybdenum to high temperature ceramics such as boron and macor. In addition to these complex chambers we are always ready to consider your requests for smaller vacuum reservoirs. Reservoirs and canisters for both low and high vacuum can be designed and supplied. As we are the most diverse custom manufacturer, engineering integrator, consolidator and outsourcing partner; you can contact us for any of your standard as well as complicated new projects involving reservoirs and chambers for hydraulics, pneumatics and vacuum applications. We can design reservoirs and chambers for you or use your existing designs and turn them into products. In any case, getting our opinion on hydraulic and pneumatic reservoirs and vacuum chambers and accessories for your projects will only be to your benefit. - Hydraulic Reservoirs with Private Label (We can put your company name as the brand and your company logo on these. This way you can market your brand name when selling or using these) CLICK Product Finder-Locator Service RÛPERA BERÊ

Service and Repair Kits for Pneumatics Hydraulics and Vacuum Systems - Replacement Parts - Refurbishing Rebuilding Pneumatic Hydraulic and Vacuum Equipment Kîtên Xizmet û Tamîrkirinê ji bo Pneumatîk & Hîdraulîk û Vacuum We make your pneumatic, hydraulic and vacuum equipment and systems last longer, operate more efficiently and more economically, by supplying you the most reliable and high quality service & repair kits and products. Our service and repair kits are easy to be used by experienced technical staff. We offer original service and repair kits, generic brand name kits and custom designed and manufactured service and repair kits. Custom service & repair kits are produced, assembled and packaged according to your needs and if desired we can include instruction materials inside. Besides service and repair kits, we offer other products and services: REPLACEMENT PARTS SERVICE and REPAIR KITS for PUMPS SERVICE and REPAIR KITS FOR PNEUMATIC and HYDRAULIC RESERVOIRS FILTER SERVICE & REPAIR KITS PNEUMATIC CYLINDER SERVICE and REPAIR KITS HYDRAULIC CYLINDER SERVICE and REPAIR KITS SERVICE and REPAIR KITS FOR DISTRIBUTION COMPONENTS SERVICE and REPAIR KITS for VACUUM SYSTEMS and LINES REBUILD & REFURBISH KITS CUSTOM MANUFACTURED & OFF-SHELF FILTER ELEMENTS CUSTOM CNC MACHINED and OFF-SHELF SEALS & O-RINGS MOLDED RUBBER and CUSTOM MACHINED PARTS SERVICE and REPAIR KITS for PNEUMATIC & HYDRAULIC and VACUUM TOOLS Here is what we can offer you: - Supply you ORIGINAL service and repair kits, original replacement components and products of some well known pneumatic, hydraulic and vacuum system manufacturers for the list prices or lower. - Supply you GENERIC BRAND NAME service and repair kits, replacement components and products of some well known pneumatic, hydraulic and vacuum system manufacturers for lower prices. Even though lower in price as compared to original kits, our generic brand name service and repair kits are at least as reliable and good in quality as the originals. - REFURBISH & REBUILD your existing systems to make them at least of the same quality as original or even better. - DESIGN and CUSTOM MANUFACTURE service and repair kits, replacement components and pneumatic, hydraulic and vacuum system products for competitive prices and highest quality to make you more competitive in the global markets. CLICK ON BLUE HIGHLIGHTED TEXT TO DOWNLOAD CATALOGS: - Private Label Gauges, Filters, Regulators, Temperature Instruments (We private label these with your brand name and logo if you wish) - Private Label Pneumatic Compressed Air Hoses Fittings (We private label these with your brand name and logo if you wish) - Private Label Pneumatic Couplings, Plugs and Nipples (We private label these with your brand name and logo if you wish) Please note that even though our service and repair kits are easy to use, we strongly recommend that you have professional staff that handles your equipment. The service and repair kits can turn out to be of no use or you may even damage your equipment in case the kits are not used professionally by experienced personnel. Pneumatic, hydraulic and vacuum equipment requires professional handling, and instructions included in our service and repair kits alone may not be sufficient for an inexperienced person to understand and use them. In situations where you cannot afford the cost or production downtime caused by shipping your equipment to us for service and repair, or if you do not need or choose to have our technicians come to your site we will be glad to help you over the phone or teleconferencing system, but you may still need a local professional to carry out the instructions, unless your system is simple enough for anyone to fix. All components in our service and repair kits have industry standard warranties and you are assured full satisfaction or money back guarantee. For details on warranty and other issues related to our service and repair kits, please contact our professional service staff at +1-505-550-6501 / +1-505-565-5102 or email: technicalsupport@agstech.net CLICK Product Finder-Locator Service RÛPERA BERÊ

Seals - Fittings - Connections - Adaptors - Flanges for Pneumatics Hydraulics and Vacuum - AGS-TECH Inc. Mohr & Têkilî & Girêdan & Girêdan & Adapter & Flange & Hevgirêdanên Lezgîn Vital components in pneumatic, hydraulic and vacuum systems are SEALS, FITTINGS, CONNECTIONS, ADAPTERS, QUICK COUPLINGS, CLAMPS, FLANGES. Depending on the application environment, standards requirements, and geometry of the application area there are a wide spectrum of these products readily available from our stock. On the other hand, for customers with special needs and requirements we are custom manufacturing seals, fittings, connections, adaptors, clamps and flanges for every possible pneumatics, hydraulics and vacuum application. If components within hydraulic systems never needed to be removed, we could simply braze or weld connections. However, it is inevitable that connections must be broken to allow servicing and replacing, so removable fittings and connections are a necessity for hydraulic, pneumatic and vacuum systems. Fittings seal fluids within hydraulic systems by one of two techniques: ALL-METAL FITTINGS rely on metal-to-metal contact, while O-RING TYPE FITTINGS rely on compressing an elastomeric seal. In both cases, tightening threads between mating halves of the fitting or between fitting and component forces two mating surfaces come together to form a high-pressure seal. ALL-METAL FITTINGS: Threads on pipe fittings are tapered and rely on the stress generated by forcing the tapered threads of the male half of the fittings into the female half of fittings. Pipe threads are prone to leakage because they are torque-sensitive. Over-tightening all-metal fittings distorts the threads too much and creates a path for leakage around the fittings threads. Pipe threads on all-metal fittings are also prone to loosening when exposed to vibration and wide temperature fluctuations. Pipe threads on fittings are tapered, and therefore repeated assembly and disassembly of the fittings aggravate the leakage problems by distorting the threads. Flare-type fittings are superior to pipe fittings and likely will remain the design of choice used in hydraulic systems. Tightening the nut draws the fittings into the flared end of the tubing, resulting in a positive seal between the flared tube face and the fitting body. The 37 degree flare fittings are designed for use with thin-wall to medium-thickness tubing in systems with operating pressures up to 3,000 psi and temperatures from -65 to 400 F. Because thick-wall tubing is difficult to form to produce the flare, it is not recommended for use with flare fittings. It is more compact than most other fittings and can easily be adapted to metric tubing. It is readily available and one of the most economical. The flareless fittings, gradually are gaining wider acceptance, because they require minimal tube preparation. Flareless fittings handle average fluid working pressures up to 3,000 psi and are more tolerant of vibration than other types of all-metal fittings. Tightening the fitting's nut onto the body draws a ferrule into the body. This compresses the ferrule around the tube, causing the ferrule to contact, then penetrate the outer circumference of the tube, creating a positive seal. Flareless fittings need to be used with medium or thick-walled tubing. O-RING TYPE FITTINGS: Fittings using O-rings for leak-tight connections continue to gain acceptance by equipment designers. Three basic types are available: SAE straight-thread O-ring boss fittings, face seal or flat-face O-ring (FFOR) fittings, and O-ring flange fittings. The choice between O-ring boss and FFOR fittings usually depends on such factors as fitting location, wrench clearance…etc. Flange connections generally are used with tubing that have an outer diameter greater than 7/8-inch or for applications involving extremely high pressures. O-ring boss fittings seat an O-ring between threads and wrench flats around the outer diameter (OD) of the male half of the connector. A leak-tight seal is formed against a machined seat on the female port. There are two groups of O-ring boss fittings: adjustable and non-adjustable fittings. Non-adjustable or non-orientable O-ring boss fittings include plugs and connectors. These are simply screwed into a port, and no alignment is needed. Adjustable fittings on the other hand, such as elbows and tees, need to be oriented in a specific direction. The basic design difference between the two types of O-ring boss fittings is that plugs and connectors have no locknuts and require no back-up washer to effectively seal a joint. They depend on their flanged annular area to push the O-ring into the port's tapered seal cavity and squeeze the O-ring for sealing the connection. On the other hand, adjustable fittings are screwed into the mating member, oriented in the required direction, and locked in place when a locknut is tightened. Tightening the locknut also forces a captive backup washer onto the O-ring, which forms the leak-tight seal. Assembly is always predictable, technicians need only make sure that the backup washer is firmly seated on the port's spot face surface when the assembly is completed and that it is tightened properly. The FFOR fittings form a seal between a flat and finished surface on the female half and an O-ring held in a recessed circular groove in the male half. Turning a captive threaded nut on the female half draws the two halves together while compressing the O-ring. Fittings with O-ring seals offer some advantages over metal-to-metal fittings. All-metal fittings are more susceptible to leakage because they must be tightened to within a higher, yet narrower torque range. This makes it easier to strip threads or crack or distort fitting components, which prevents proper sealing. The rubber-to-metal seal in O-ring fittings does not distort any metal parts and provides a feel on our fingers when the connection is tight. All-metal fittings tighten more gradually, so technicians may find it more difficult detecting when a connection is tight enough but not too tight. Disadvantages are that O-ring fittings are more expensive than all-metal fittings, and care must be exercised during installation to ensure that the O-ring doesn't fall out or get damaged when the assemblies are connected. In addition, O-rings are not interchangeable among all couplings. Selecting the wrong O-ring or reusing one that has been deformed or damaged can result in leakage in fittings. Once an O-ring has been used in a fitting, it is not reusable, even though it may appear free of distortions. FLANGES: We offer flanges individually or as a complete set for a number of applications in a range of sizes and types. Stock is kept of Flanges, Counter-flanges, 90 degree flanges, Split flanges, Threaded flanges. Fittings for tubing larger than 1-in. OD have to be tightened with large hexnuts which requires a large wrench to apply sufficient torque to tighten the fittings properly. To install such large fittings, the necessary space needs to be given to workers to swing large wrenches. Worker strength and fatigue could also affect proper assembly. Wrench extensions may be needed for some workers to exert an applicable amount of torque. Split-flange fittings are available so that they overcome these problems. Split-flange fittings use an O-ring to seal a joint and contain pressurized fluid. An elastomeric O-ring sits in a groove on a flange and mates with a flat surface on a port - an arrangement similar to the FFOR fitting. The O-ring flange is attached to the port using four mounting bolts that tighten down onto flange clamps. This eliminates the need for large wrenches when connecting large-diameter components. When installing flange connections, it is important to apply even torque on the four flange bolts to avoid creating a gap through which the O-ring can extrude under high pressure. A split-flange fitting consists generally of four elements: a flanged head connected permanently (generally welded or brazed) to the tube, an O-ring that fits into a groove machined into the end face of the flange, and two mating clamp halves with appropriate bolts to connect the split-flange assembly to a mating surface. The clamp halves do not actually contact the mating surfaces. A critical operation during assembly of a split-flange fitting to its mating surface is to make sure that the four fastening bolts are tightened gradually and evenly in a cross pattern. CLAMPS: A variety of clamping solutions for hose and tube are available, with either a profiled or smooth inner surface in a wide range of sizes. All necessary components can be supplied according to the specific application including, Clamp jaws, Bolts, Stacking bolts, Weld plates, Top plates, Rail. Our hydraulic and pneumatic clamps enable a more efficient installation, resulting in a clean pipe layout, with effective vibration and noise reduction. AGS-TECH hydraulic and pneumatic clamping products ensure repeatability of clamping and consistent clamping forces to avoid part movement and tool breakage. We stock a wide variety of clamping components (inch and metric-based), precision 7 MPa (70 bar) hydraulic clamping systems and professional-grade pneumatic work-holding devices. Our hydraulic clamping products are rated up to 5,000 psi operating pressure that can securely clamp parts in many applications ranging from automotive to welding, and from consumer to industrial markets. Our selection of pneumatic clamping systems provide air-operated holding for high-production environments and applications that require consistent clamping forces. Pneumatic clamps are used for holding and fixturing in assembly, machining, plastics manufacturing, automation and welding applications. We can help you determine work-holding solutions based on your part size, amount of clamp forces needed and other factors. As the World’s most diverse custom manufacturer, outsourcing partner and engineering integrator, we can design and manufacture custom pneumatic and hydraulic clamps for you. ADAPTERS: AGS-TECH offers adapters that provide leak free solutions. Adapters include hydraulic, pneumatic & instrumentation. Our adapters are manufactured to meet or exceed the industrial standards requirements of SAE, ISO, DIN, DOT and JIS. A wide range of adapter styles are available including: Swivel Adapters, Steel and Stainless Steel Pipe Adapters and Industrial Fittings, Brass Pipe Adapters, Brass and Plastic Industrial Fittings, High Purity and Process Adapters, Angled Flare Adapters. QUICK COUPLINGS: We offer quick connect / disconnect couplings for hydraulic, pneumatic and medical applications. Quick disconnect couplings are used to connect and disconnect hydraulic or pneumatic lines quickly and easily without using any tools. Various models are available: Non spill and double-shut-off quick couplings, Connect under pressure quick couplings, Thermoplastic quick couplings, Test port quick couplings, agricultural quick couplings,….and more. SEALS: Hydraulic and pneumatic seals are designed for the reciprocating motion which is common in hydraulic and pneumatic applications, such as cylinders. Hydraulic and pneumatic seals include Piston seals, Rod seals, U-cups, Vee, Cup, W, Piston, Flange packings. Hydraulic seals are designed for high-pressure dynamic applications such as hydraulic cylinders. Pneumatic seals are used in pneumatic cylinders and valves and are usually designed for lower operating pressures compared to hydraulic seals. Pneumatic applications demand however higher operating speeds and lower friction seals compared to hydraulic applications. Seals may be used for rotary and reciprocating motion. Some hydraulic seals and pneumatic seals are composite and are two-or multi-part manufactured as an integral unit. A typical composite seal consists of an integral PTFE ring and an elastomer ring, providing the properties of an elastomeric ring with a rigid, low friction (PTFE) working face. Our seals can have a variety of different cross sections. Common sealing orientation and directions for hydraulic and pneumatic seals include 1.) Rod Seals which are radial seals. The seal is press-fit into a housing bore with the sealing lip contacting the shaft. Also referred to as a shaft seal. 2.) Piston seals which are radial seals. The seal is fit onto a shaft with the sealing lip contacting the housing bore. V-rings are considered external lip seals, 3.) Symmetric seals are symmetrical and work equally well as a rod or piston seal, 4.) An axial seal seals axially against a housing or machine component. Sealing direction is relevant to hydraulic and pneumatic seals used in applications with axial motion, such as cylinders and pistons. The action can be single or double. Single acting, or unidirectional seals, offer an effective seal in one axial direction only, whereas double acting, or bi-directional seals, are effective when sealing in both directions. In order to seal in both directions for a reciprocating motion, more than one seal must be used. Features for hydraulic and pneumatic seals include spring loaded, integral wiper, and split seal. Some important dimensions to consider when you specify hydraulic and pneumatic seals are: • Shaft outer diameter or seal inner diameter • Housing bore diameter or seal outer diameter • Axial cross section or thickness • Radial cross section Important service limit parameters to consider when purchasing seals are: • Maximum operating speed • Maximum operating pressure • Vacuum rating • Operation temperature Popular material choices for rubber sealing elements for hydraulics and pneumatics include: • Ethylene Acrylic • EDPM Rubber • Fluoroelastomer and Fluorosilicone • Nitrile • Nylon or Polyamide • Polychloroprene • Polyoxymethylene • Polytetrafluoroethylene (PTFE) • Polyurethane / Urethane • Natural Rubber Some seal material choices are: • Sintered Bronze • Stainless Steel • Cast Iron • Felt • Leather Standards related to seals are: BS 6241 - Specifications for dimensions of housing for hydraulic seals incorporating bearing rings for reciprocating applications ISO 7632 - Road vehicles - elastomeric seals GOST 14896 - Rubber U-packing seals for hydraulic devices You can download relevant product brochures from the links below: Pneumatic Fittings Pneumatic Air Tubing Connectors Adapters Couplings Splitters and Accessories Private Label Pneumatic Compressed Air Hoses Fittings (We private label these with your brand name and logo if you wish) Private Label Pneumatic Quick Couplings, Plugs and Nipples (We private label these with your brand name and logo if you wish) Information on our facility producing ceramic to metal fittings, hermetic sealing, vacuum feedthroughs, high and ultrahigh vacuum and fluid control components can be found here: Fluid Control Factory Brochure CLICK Product Finder-Locator Service RÛPERA BERÊ

Gears and Gear Drives, Gear Assembly, Spur Gears, Rack & Pinion & Bevel Gears, Miter, Worms, Machine Elements Manufacturing at AGS-TECH Inc. Gears & Gear Drive Meclîsa AGS-TECH Inc. offers you power transmission components including GEARS & GEAR DRIVES. Gears transmit motion, rotating or reciprocating, from one machine part to another. Where necessary, gears reduce or increase the revolutions of the shafts. Basically gears are rolling cylindrical or conic-shaped components with teeth on their contact surfaces to ensure positive motion. Please note that gears are the most durable and rugged of all mechanical drives. Most heavy-duty machine drives and automobiles, transportation vehicles preferably use gears rather than belts or chains. We have many kinds of gears. - SPUR GEARS: These gears connect parallel shafts. Spur gear proportions and teeth shape are standardized. Gear drives need to be operated under a variety of conditions and therefore it is very difficult to determine the best gear set for a particular application. The easiest is to select from stocked standard gears with an adequate load rating. Approximate power ratings for spur gears of various sizes (number of teeth) at several operating speeds (revolutions/minute) are available in our catalogs. For gears with sizes and speeds not listed, ratings can be estimated from values shown on special tables and graphs. Service class and factor for spur gears is also a factor in the selection process. - RACK GEARS: These gears convert spur gears motion to reciprocating or linear motion. A rack gear is a straight bar with teeth that engage the teeth on a spur gear. The specifications for the teeth of the rack gear are given in the same manner as for spur gears, because rack gears can be imagined as spur gears having an infinite pitch diameter. Basically, all circular dimensions of spur gears become linear fir rack gears. - BEVEL GEARS (MITER GEARS and else): These gears connect shafts whose axes intersect. The axes of bevel gears may intersect at an angle, but the most common angle is 90 degrees. The teeth of bevel gears are the same shape as spur gear teeth, but taper toward the cone apex. Miter gears are bevel gears having the same diametral pitch or module, pressure angle and number of teeth. - WORMS and WORM GEARS: These gears connect shafts whose axes do not intersect. Worm gears are used to transmit power between two shafts that are at right angles to each other and are nonintersecting. Teeth on the worm gear are curved to conform with the teeth on the worm. The lead angle on worms should be between 25 and 45 degrees to be efficient in power transmission. Multi-thread worms with one to eight threads are used. - PINION GEARS: The smaller of the two gears is called pinion gear. Often a gear and pinion are made of different materials for better efficiency and durability. The pinion gear is made of a stronger material because the teeth on the pinion gear come into contact more times than the teeth on the other gear. We have standard catalog items as well the capability to manufacture gears according to your request and specifications. We also offer gear design, assembly and manufacturing. Gear design is very complicated because designers need to be dealing with problems such as strength, wear and material selection. The majority of our gears are made of cast iron, steel, brass, bronze or plastic. We have five levels of tutorial for gears, please read them in the given order. If you are not familiar with gears and gear drives, these tutorials below will help you in designing your product. If you prefer, we can also assist you in choosing the right gears for your design. Click on highlighted text below to download the relevant product catalog: - Introductory guide for gears - Basic guide for gears - Guide for practical use of gears - Introduction to gears - Technical reference guide for gears To help you compare applicable standards related to gears in different parts of the World, here you can download: Equivalency Tables for Standards of Raw Material and Gear Precision Grade Once more, we would like to repeat that in order to purchase gears from us, you do not need to have a particular part number, size of gear….etc handy. You do not need to be an expert in gears and gear drives. All you need is really to provide us as much information as possible regarding your application, dimensional limitations where the gears need to be installed, maybe photos of your system…and we will help you. We use computer software packages for the integrated design and manufacture of generalized gear pairs. These gear pairs include cylindrical, bevel, skew-axis, worm and worm wheel, along with non-circular gear pairs. The software we use is based on mathematical relations that differ from established standards and practice. This enables the following features: • any face width • any gear ratio (linear & nonlinear) • any number of teeth • any spiral angle • any shaft center distance • any shaft angle • any tooth profile. These mathematical relations seamlessly encompass different gear types to design and manufacture gear pairs. Here are some of our off-shelf gear and gear drive brochures and catalogs. Click on colored text to download: - Gears - Worm Gears - Worms and Gear Racks - Slewing Drives - Slewing Rings (some have internal or external gears) - Worm Gear Speed Reducers - WP Model - Worm Gear Speed Reducers - NMRV Model - T-Type Spiral Bevel Gear Redirector - Worm Gear Screw Jacks Reference Code: OICASKHK CLICK Product Finder-Locator Service RÛPERA BERÊ