|Material:||Copper||Type Of Die:||Compound Die|
|Cavity:||One Row||Heat Treatment Capability:||Annealing|
|Tolerance:||0.02MM||Processing Methods:||CNC Milling And Turning|
progressive die components,
progressive stamping tool,
Automatic Sheet Metal Progressive Die
12345678 Custome automatic progressive stamping die for all kinds of electronic components
parts and computer parts
Metal Stamping Die Capability
· Die Insert Tolerence: +/-0.005mm
· Stamping Speed: 1000SPM/min
· Tooling Life: 50-300 million times
A: The min. pitch: 0.5mm
B: Highest stamping speed: 600SPM/min or more
C: Precision: ±0.003mm
D: Rate of hole diameter and thickness 0.85:1
E: Stamping material thickness:0.05-2.0mm
F: zero or less loss of material use.
Progressive dies are used in higher-volume production and are designed to operate at high rates of speed. MTS manufactures high-quality, reliable and cost-effective progressive dies for the automotive, appliance, office furniture, and aerospace industries. We have the expertise and technology to design, test and manufacture progressive tools that meet a broad range of manufacturing challenges
Progressive stamping is a metalworking method that can encompass punching, coining, bending and several other ways of modifying metal raw material, combined with an automatic feeding system.
The feeding system pushes a strip of metal (as it unrolls from a coil) through all of the stations of a progressive stamping die. Each station performs one or more operations until a finished part is made. The final station is a cutoff operation, which separates the finished part from the carrying web. The carrying web, along with metal that is punched away in previous operations, is treated as scrap metal. Both are cut away, knocked down (or out of the dies) and then ejected from the die set, and in mass production are often transferred to scrap bins via underground scrap material conveyor belts.
The progressive stamping die is placed into a reciprocating stamping press. As the press moves up, the top die moves with it, which allows the material to feed. When the press moves down, the die closes and performs the stamping operation. With each stroke of the press, a completed part is removed from the die.
Since additional work is done in each "station" of the die, it is important that the strip be advanced very precisely so that it aligns within a few thousandths of an inch as it moves from station to station. Bullet shaped or conical "pilots" enter previously pierced round holes in the strip to assure this alignment since the feeding mechanism usually cannot provide the necessary precision in feed length.
Progressive stamping can also be produced on transfer presses. These are presses that transfer the components from one station to the next with the use of mechanical "fingers". For mass production of stamped parts which do require complicated in-press operations, it is always advisable to use a progressive press. One of the advantages of this type of press is the production cycle time. Depending upon the part, productions can easily run well over 800 parts/minute. One of the disadvantages of this type of press is that it is not suitable for high precision deep drawing which is when the depth of the stamping exceeds the diameter of the part. When necessary, this process is performed upon a transfer press, which run at slower speeds, and rely on the mechanical fingers to hold the component in place during the entire forming cycle. In the case of the progressive press, only part of the forming cycle can be guided by spring-loaded sleeves or similar, which result in concentricity and ovality issues and non uniform material thickness. Other disadvantages of progressive presses compared to transfer presses are: increased raw material input required to transfer parts, tools are much more expensive because they are made in blocks with very little independent regulation per station; impossibility to perform processes in the press that require the part leave the strip (example beading, necking, flange curling, thread rolling, rotary stamping etc.).
The dies are usually made of tool steel to withstand the high shock loading involved, retain the necessary sharp cutting edge, and resist the abrasive forces involved.
The cost is determined by the number of features, which determine what tooling will need to be used. It is advised to keep the features as simple as possible to keep the cost of tooling to a minimum. Features that are close together produce a problem because it may not provide enough clearance for the punch, which could result in another station. It can also be problematic to have narrow cuts and protrusions.
Pierce & Cut Die Stamping is a very cost-effective way to quickly stamp flat, “rectangular” shaped parts such as shims, spacers, and plates. A benefit of Pierce & Cut Die Stamping is that raw material is better utilized reducing the total amount of scrap material produced over other stamping methods.
Parts are produced when the feed system pushes (strip or coil stock) of raw material into the Pierce & Cut Die; at each stroke or cycle a finished flat part will be cut off the end of the strip. This type of die requires that the raw material width is cut to the size needed for the part. The feed rate of the material is determined by the length of the part. Longer parts need more time per stroke to get the strip in position for the next stroke. Thickness also influences that feed rate. Thicker parts need the press to run a bit slower than thinner parts. Pierce & Cut Dies punch out holes and notches on the first stroke, and then the second and final stroke is the cut-off, where the completed part is cut from the strip. Once cut from the strip finished parts will be exit the die and will fall onto a chute or slider where they flow into the collection bin. The scrap is typically punched through the die and is collected under the press, or next to the press using chutes or slides.
METS can design and build “bending and forming” tools, usually considered a secondary operation where a flat blank or part is placed into the tool and formed and bent with one or more operation or single press cycle, Usually lower volume parts will be formed and produced from secondary bending and forming tools.
Bend/Form Dies are used to bend, form, or draw the material or part into a variety of angles and shapes. This can be done as a secondary tool and operation, or it can be built into a progressive die.
METS Precision-Tool uses a variety of 2D and 3D cad/cam Software to develop, design, and plan the layout of our dies. (see below for the full software list & details). We have the resources to build a die for any application. When high volumes of production are expected, we can build a dependable tool with longevity in mind. We can also produce low-cost tools for prototyping and sampling applications. Die protection is always on our mind, and DACO Precision-Tool can build in sensors that will help prevent costly damage to the die.
Brackets (Computer & Mounting). Brackets for various Computer applications. PC Card Computer Brackets - Various standard and custom designs; Mounting brackets - threaded and non threaded style all could punch in our factory.
Riveting die is a sturdy and attractive way to make one part joins in custom metal . This tooling add one vibrating disk.The center small parts will be in the progressive die by vibrating disk. Here you'll find this riveting tools is easy riveting and the speed is very fast,neerly 120ps/munite.
Compound Die Stamping is the process where the die separates or blanks the part from a steel strip in one stroke. A Compound Die will perform multiple cuts or punches in one stroke, as compared to multiple strokes. This is a very cost effective method for stamping medium to high volume parts while keeping labor and die costs down. Compound Dies are often used to stamp simpler flat parts such as washers.
Here at METS Precision-Tool it’s our goal to design and build our Compound Dies to exceed 100 strokes per minute to support high volume production. We can achieve this by building in sensors and other accessories to protect the die from damage. Cycle time is always kept in mind when designing and building our Compound Die tooling. We can build the die to stamp the part at the accuracy you need.
Parts are produced when the feed system pushes (strip or coil stock) of raw material into the Compound Die; at each stroke or cycle a finished flat part will blanked or released from the raw material. The feed rate of the material is determined by the size of the part. Larger parts need more time to exit the die, where smaller parts exit quicker allowing for faster run times. Typically, compound dies do not require a cut-off station because the parts are blanked through from the strip, but many times is added to help manage scrap material. Finished parts will be removed from the die by a knock-out and will fall onto a chute or slider where they flow into the collection bin. The scrap will exit the die in strip form or in piece form depending on if you’ve included a scrap cut-off station. Scrap can be collected in bins or hoppers on the exit end of the die
Electronic component mould
We manufacture many kinds of Electronic components stamping die ,For electrical terminals or leads. These leads connect to create an electronic circuit with a particular function (for example an amplifier, radio receiver, or oscillator). Basic electronic components may be packaged discretely, as arrays or networks of like components, or integrated inside of packages such as semiconductor integrated circuits, hybrid integrated circuits, or thick film devices. The following list of electronic components focuses on the discrete version of these components, treating such packages as components in their owner right.All the toolings is very precision and assemblies well.
Designs, tests and manufactures metal stamping dies using innovative, cost-effective engineering solutions for medium to large complex tooling systems. Our manufacturing capabilities include the production of progressive dies, transfer dies, line dies and more. Custom stamping dies can be created for various applications in industries such as automotive and aerospace
Terminal Blocks - Headers, Plugs and Sockets,PCB Terminal Blocks,
Special Type Terminal Blocks, all those toolings could make as progressive die.The tool room was designed and developed to support the needs of our team by providing the best in class tooling to our discerning client base. At the heart of this venture is a CNC machining cell that was engineered using lean principles. The team that developed the cell focused on the elimination of waste. In addition to the CNC cell, the tool room is supported by several Wire EDMs, and waterjet cutting that can create development blanks as well as speed up the tool machining process.
Metal Stamped Parts & Components
We stamp metal parts ranging from small precision parts, such as electronic equipment and musical instruments, to large precision components, including processing equipment and architectural components that are decorative and functional. All-New Stamping has the capability to work in quantities from prototype runs to full production runs.
Our stock thickness for our ferrous and non-ferrous metals ranges from 0.01mm to 2mm and the stock width ranges from 10mm to 1000mm with pre-plated and finishing options. We also work with a complete range of materials to offer customers a large choice in specifications, including:
Metal stamping includes a variety of sheet-metal forming manufacturing processes, such
as punching using a machine press or stamping press, blanking, embossing, bending, flan
ging, and coining. This could be a single stage operation where every stroke of the press pro
duce the desired form on the sheet metal part, or could occur through a series of stages.
Lead frames are the metal structures inside a chip package that carry signals from the die to the outside.
Leadframe for a QFP package
The die inside the package is typically glued to the lead frame, and then bond wires attach the die pads to the leads. In the last stage of the manufacturing process, the lead frame is moulded in a plastic case, and outside of the lead frame is cut-off, separating all leads.
Progressive die for lead frame:
-- Discrete device lead frame dies: TO-92,TO-196,ITO-220,TO-252,TO-247,TO-3P etc.
-- IC lead frame dies:DIP-8L,DIP-16L,DIP-18L,DIP-28L,SOP-8L,SOP-16L,SOP-28L,SSOP-8L,SSOP-18L etc.
-- SMT lead frame dies: SOT-23,SOT-143 etc.
A. Material:0.2mm, 0.25mm, 0.3 mm thick brass, copper or stainless steel
B. Finishing:silver,gold ,palladium,tin ,nickel plated
C. Size: customized
D. Packing method: Polybag, carton box
Motor stator and rotor Stampings
We can manufacture laminations in all grades of silicon steel including fully or semi processed steel in the form of Stators & Rotors, Field & Armatures in loose as well as Interlocked & Auto Riveting Cores, AC/DC motor stator and rotor, induction motor stator, brushless motor stator and rotor, stepper motor stator and rotor,SR motor stator and rotor, PM motor stator and rotor, universinal motor stator and rotor, etc.
Dimensions of EI,Stator and rotor core lamination tooling.with riveting or no riveting,You make stamping ,die here.If the production sheets quantity is no so much.Like some custom-made eltrical stator and rotor core.We also could punch the cores for you too.
General Draw Radius Guideline
|Metal Thickness||Minimum Radius||Maximum Radius|
|.015 to .020||.156||.250|
|.021 to .030||.187||.281|
|.031 to .040||.187||.312|
|.041 to .050||.187||.343|
|.051 to .062||.250||.375|
|.063 to .093||.312||.437|
|.094 to .125||.344||.468|
As a general rule, 3 times of metal thickness can be used for a start point. If the part shows evidence of cracked, the tool has been machined metal safe, thus allowing for additional radius. The part specification may require a small radius under the flange that may be achieved with one draw, as opposed to several draws to size the radius.
Tool&Die Profile A
Spare parts for Dies and insets
Accept JIS, AISI, DIN standard. From MISUMI, PUNCH, Mold Master, LKM to DANLY, FIBRO, Dyton press and so on
Progressive deep drawing die ,progressive tool, stamping forming die,compound die, ect.
YG15,YG20,DC53, SKH-9, SKH51, SKD11,D2,
Home appliance (automotive parts, household metal parts,electric metal parts,terminal block parts)
Cold rolled steel,stainless steel,copper,aluminum
Milling, Grinding, CNC, EDM, WEDM, Forming Machine, Precision flat milling,Punching machine,
High precision machining, minimum 0.003mm
Trial out press
First trial sample
5-10 sets free
Tool&Die Profile B
|General Capabilities||Design Modeling 2D, 3D,processing,assembling||Die Location Technical Support||Inspection|
|Detail Tooling Documentation||DFMEA/PFMEA||Quick Building Prototypes|
|Die Types||Forming Dies||Precision Progressive Stamping Dies||Secondary Dies|
|High Speed Steel Stamping Dies||Precision Blanking Dies||Forming Die|
|Tooling Life||50 Million to 1000 Million Times|
|Die Concept||2-Plate Die||3-Plate Die||Module Die|
|Production Equipment||CNC||SODICK Nice Surface EDM||P/G|
|Drill||SODICK Wire Cutting Machine||J/G|
|Milling Machine||WAIDA Profile Grinder Machine|
|Stamping Product||Custom Stamping||SIM shrapnel||Spring clip|
|Battery shrapnel||Shield Drawing||Press-Fit Terminal|
|Lead Frame||Power Contact Terminal||PC Terminal parts|
|Additional Services Provided||Custom Packing||Packaging||Heat Treat|
|Delivery||3-5 Week||3-6 Week||4-7 Week|
Product description C
|Mould material||D2,DC53,YG15,YG20,SKD11/51/61,SKH-9,Cr12mov, Cr12,45#, etc.|
|Product material||copper, brass, metal, stainless steel, BeCu,aluminum|
|Processing methods||Forings,CNC milling and turning,Grinding,Broaching,etc.|
|Processing equipment||CNC machine,Automotic lathe machine,EDM machine,Stamping lathes,Wire-cutting machine,Milling/Grinding machine,Punching/Drilling machine,Ultrasonec cleaning machine,etc.|
|Detection equipment||Projector,Calliper,Height gauge,Screw gauge,Hardness gauge,etc.|
|Application||Electronic:Vehicle parts,CNC machining parts,Wireless receiver metal parts, 3G/4G Modem Wireless Network metal parts,USB housing. Automotive interior parts: connector, navigation frame, car key. All kinds of connectors, digital parts.|
|surface treatment||Plating,Painting,Powder coating,Anodization|
|Vibration grinding,Polishing,Brushing.or according to customer’s requests.|
|Design software||PROE ,,UG,SOLIDWORK, CAD,etc.|
|Cavity||Single / Multi per request|
|Mould life||1-30million shots|
|Specification||Many years machining parts processing experience;Precision tolerance less than 0.001mm;Depends on customer’s requirements.|
|Delivery||Normally within 7-45 days (according to customer drawing, quantity and material) special case will be sooner|
Wooden case or as customer's requirements
Tool&Die Profile D
|Tool&Die Material||SKD11 DC53 45# steel Cr12mov P20|
|Capacity||Tool &die :30 sets/month part :1million /month|
|Design software||3D: Pro-E|
|2D: auto CAD|
|Surface Treatment||Powder coating,Hot galvanized,Painting,Polishing,Brushing,Chrome,|
|Test Equipment||Hardness tester,Chemical analysis,Digital Measuring Projector, Dynamic Balancing Tester,|
|universal testing machine & Coordinate-Detector|
|Thickness||0.1-2.0mm or other special available|
|Lead time||15-55 days according to products Max: 2 Weeks (On Initial Order)|
|Equipment||1) Stamping machine|
|2) CNC milling and turning, grinding, honing, lapping, broaching and other secondary machining.|
|3) integral CNC machineries & four machining centers, such as milling, broaching, drilling,|
|turning, planning, grinding machinery and three-axle machining centers.|
|Productions Cover||Sheet metal auto parts, Auto stamping parts,Home Electrics stampingparts, Device stamping parts|
Tool&Die Profile E
|Production Material||Brass, Copper, steel, Stainless steel, Steel alloy, Aluminum alloy|
|Surface treatments||Anodize or Nickel plating or as per customer's requirement|
|Processing methods||Forgings, CNC milling and turning, Grinding, casting, Broaching, etc.|
|Heat treatment capability||Annealing, Normalizing , Nitriding, Tempering ,Carbonitriding, Carburizing and induction hardening|
|Processing machine||CNC machines, Automatic lathe machine, Stamping Lathes, Milling/ Grinding machine, Drilling/ Boring/ Honing machine, Ultrasonic cleaning machine and other advanced production equipments.|
|Inspection machine||Projector, Caliper, Universal testing machine, Surfagauge and screw gauge|
|shipping||5--10 work days after received order and deposit|
|Payment Terms||T/T or L/C|
|Main Export Markets||North America, Europe, Mid East, Asia, Australia, Central/South America, etc|
|Application||Vehicle, Car, Electronic components, Household, Hardware, etc.|
How to start a new mould business? F
|1.Quote||According to samples/picture/design, 2/3 D drawing and specification|
|2.Discussion||Mould core/base material, cavity number, runner type, price, payment, etc|
|3.PI||Approval for all terms|
|4. Deposit||50% by T/T|
|5.Product Design||Our engineer will check product drawing, and pick up the unreasonable terms|
|6.Mould Design||Our engineer will do DFM and send PPT to customers for approval|
|7.Mould making||We start to make mould after customers confirmed the drawing|
|8.Mold Testing||We will express trial samples to customers by DHL for confirmation|
|9. Mould repair||We will modify the mould according to customer’s feedback|
|10. Mould approval||Express trial samples by DHL again till products approval|
|11.Balance payment||50% by T/T before delivery|
|12.Delivery||Delivery by sea or air, all documents as customer required|
Mould building process G
|Step||Item||high speed stamping die|
|1||Quotation||Quote competitive price according to your details (drawing or sample, and related requirements).|
|2||Order||Sign agreement after confirming price|
|3||Mould design||Design the mould structure drawing according to your product drawing or sample,|
|then send the tooling drawings to you for confirmation.|
|4||Mould making||After your confirmation of our drawing, we begin to make the moulds,|
|during manufacturing program,|
|we send you mould building progress with pictures every week, for you to know our process.|
|5||First trial||We will make the stamping die first trial on time, then send you video or picture|
|and trial samples for you to confirm.|
|Or you can also come to our factory .And we will inspect them and issue the report.|
|6||Quality confirm||You will confirm our stamping die quality according to sample.|
|If you need to adjust the product structure, we can help you to change it further.|
|7||Delivery||Ship the stamping die after it is completely OK, packed by wooden case.|
Stator and rotor core profile H
|Product Name||Stamping motor core stator , rotor,lamination sheets|
|Part material||Silicon steel|
|Grade||B35A300,B50A470,M530-65A,B50A600,B50A800 .M270-50A,M530-65A,M800-50A,50CS1300, 50CS800, 50CS600, 50CS470, 35CS550steel,copper,aluminum|
|Die type||Interlocked Progressive die ,Auto riveting progressive tool, stamping die,compound die, ect.|
|cavity||Single / Multi per request|
|Stacking||loose sheets,or Auto interlocked Stacking|
|Die material||YG15,YG20,DC53, SKH-9, SKH51, SKD11,D2,|
|Die use||Water pump, Industrial motor, Fan motor, Generator, Compressor and Car...etc.|
|Machinery Equipment||Milling, Grinding, Boring, CNC, EDM, WEDM, Forming Machine, Precision flat milling, Saw machine, Punching machine,|
|Die precision||High precision machining, minimum 0.003mm|
|Trial out press||25~160T|
|First trial sample||5-10 sets free|
We accept your any request on shipment.By air, by sea,and by Express are acceptable.
|By Express||By Air||By Sea|
|West Europe||3-5 days||4-6 days||22-30days|
|USA &Canada||3-4days||5-6 days||16-27days|
|South Asia||3-5 days||3-7 days||12-20 days|
|Japan&South Korea||2-3 days||3-4 days||10-13 days|
First Step Wrapping by PE film to anti-rust.
Second wooden case without need of fumigation.Or as your required.
Q: What’s your manufacture capability?
---- We use Sodick/Charmilles to frabricate die inserts,dimension we can do is +/-0.002mm.
Q: Can you make all the dimensions are according to our design/samples?
---- We can guarantee that all the dimensions are made according to your drawing/sample.Please notice that dimension tolerence we can do is +/-0.003mm.
Q: Did the stamping die suit for my press machine?
--- The stamping die is made according to your press machine’s specification.Before start making die parts,we will send the design for your approval.
Q: What’s your advantage compare with other supplier’s on the market?
---- We are stamping factory,have a team contains die design,making,maintance and stamping production.We know how important the good mold for stamping production.
---- All our engineers are with more than 10 years working experience.They are more professional on precision stamping field.
---- All the die parts we made are by Slow-speed wire EDM,can gurantee the dimension.Many of them make it by middle-speed wire EDM/fast-speed wire EDM
1.Q: Are you a factory or trading company?
A: We are a factory,a professional metal stamping die and hardware stamping manufactuer.
2.Q: Where is your factory located? How can I visit there?
A: Our factory is located in Xiamen, Fujian Province, China,We warmly welcome all our clients, from home or abroad, to visit us!
3.Q: What is the material of your tooling?
A: The material are D2,YG15,DC53,SKD11,D2,SKH-9,SKH-51
4.Q: The maximum press your fatory have available ?
A: There are 25T,35T,45T,60T,80T,110T,160T punching machines in our factory.
5.Q: What about the machines of your factory?
A: Our factory owns a full set of Machining equipment, include large CNC machning center,Sodic EDM machning,import EDM-HS,Radial drilling machines,Milling machines,Grinders,three-D inspection etc.
6.Q: How does your factory do regarding quality control?
A: Quality is priority. METS people always attach great importance to quality controlling from the very beginning to the very end. All the moulds,the QC measure with three-D measuring equipments regularly.
To get quick response, please contact us by mail directly
Q: How can I get quotation quickly
A: Please send your inquiry and technical details to email email@example.com Our sales Consultand will contact you in 24hrs on business time.
Q: How can I get technical support from you when we are designing a new product?
A: Please feel free to contact with the same email .There will be an exclusive engineer available for you.
Q: How can I contact you when I have some suggestion about your products or service?
A: Please feel free to contact email or phone.We will follow on your suggestion and try our best to make you satisfied.
Contact Person: kelly