CN108974890A - Blanking die group and the automatic manufacturing equipment of self-recovery fuse comprising the blanking die group - Google Patents

Abstract

Blanking die group of the invention and the automatic manufacturing equipment of self-recovery fuse comprising the blanking die group pass through setting carrying workbench, blanking pipe and blanking die group.In actual blanking system application process, the self-recovery fuse for having transmission pipeline to transmit is entered in blanking pipe by feed opening, self-recovery fuse is eventually fallen into the material holding tray for being placed on bearing panel, after material holding tray is fully loaded with self-recovery fuse, blanking driving device drives bearing panel mobile to the direction far from carrying workbench, automatic blanking operation is realized to self-recovery fuse, compared to traditional artificial blanking, blanking efficiency greatly improves, and blanking velocity is fast；Further, since the setting of the first guide rail and the second guide rail, so that move in the process of moving more steady of bearing panel and quickly, can be improved blanking rate to a certain extent.

Description

Blanking die group and the automatic manufacturing equipment of self-recovery fuse comprising the blanking die group

Technical field

The present invention relates to self-recovery fuse blanking technical fields, more particularly to a kind of blanking die group and include the blanking The automatic manufacturing equipment of the self-recovery fuse of mould group.

Background technique

Currently, self-recovery fuse, also known as self-recovering type resistance, self-recovery fuse is a kind of overcurrent Electronic Protection member Part, using macromolecule organic polymer under conditions of high pressure, high temperature, vulcanization reaction, after adding particulate materials, by spy Different technique is process.

Common self-recovery fuse has pinned and patch type, the self-recovery fuse of pinned, because of patch The reason of self-recovery fuse of chip is because of its small volume, favors by people.Vehicle is produced in actual self-recovery fuse Between, after carrying out a series of production technology operation to self-recovery fuse, that is, self-recovery fuse is completed after producing, and is needed Blanking operation is carried out to the self-recovery fuse produced, but in existing workshop, for blanking, workshop is usual It configures several blanking personnel and artificial blanking is carried out to self-recovery fuse, the mode of artificial blanking is not only at high cost, needs to configure Several blanking personnel assist blanking, and blanking low efficiency, this undoubtedly increases the operation cost of workshop, reduce output benefit Profit.

Therefore, how to design a equipment that can carry out automatic blanking operation to self-recovery fuse is Corporation R & D people Member's technical problem urgently to be resolved.

Summary of the invention

The purpose of the present invention is overcoming shortcoming in the prior art, self-recovery fuse can be carried out by providing one kind Automatic blanking, and in actual blanking die group application process, the self-recovery fuse for having transmission pipeline to transmit can It is entered in blanking pipe by feed opening, self-recovery fuse is eventually fallen into the material holding tray for being placed on bearing panel On, after material holding tray is fully loaded with self-recovery fuse, blanking driving device can drive bearing panel to far from carrying work The direction for making platform is mobile, for realizing the blanking die group of automatic blanking operation to self-recovery fuse and including the blanking die group The automatic manufacturing equipment of self-recovery fuse.

The purpose of the present invention is achieved through the following technical solutions:

A kind of blanking die group, comprising:

Workbench is carried, offers feed opening on the carrying workbench；

Blanking pipe, the blanking pipe is set on the carrying workbench, and the first end of the blanking pipe It is connected to the feed opening；And

Blanking die group, the blanking die group are set on the carrying workbench, and the blanking die group includes mounting base, One guide rail, the first sliding block, the second guide rail, the second sliding block, bearing panel and blanking driving device, the mounting base are set to On the carrying workbench, first guide rail is set in the mounting base, and first sliding block is slideably positioned in described In first guide rail, second guide rail is set in the mounting base, and second sliding block is slideably positioned in described second In guide rail, the bearing panel is connect with first sliding block and second sliding block respectively, is arranged on the bearing panel There is support division, for the bearing panel for placing material holding tray, the blanking driving device is set to the carrying workbench On, and the telescopic rod of the blanking driving device is connect with the bearing panel, and the blanking driving device is for driving institute It is mobile to the direction close to or far from the carrying workbench to state bearing panel, the second end of the blanking pipe is located at described The top of bearing panel.

In a wherein embodiment, the blanking die group further includes clamp system, and the clamp system includes clamping Driving device, clamping panel and multiple gripping blocks, the driving clamping device are set on the bearing panel, and the clamping is driven The telescopic rod of dynamic device is connect with the clamping panel, the driving clamping device be used to driving the clamping panel to close or Direction of the person far from the support division is mobile, and multiple gripping blocks are respectively arranged on the clamping panel.

In a wherein embodiment, interval is provided between gripping block described in each adjacent two.

In a wherein embodiment, elastic component is provided in the gripping block.

In a wherein embodiment, the elastic component is rubber block.

In a wherein embodiment, the driving clamping device is cylinder.

In a wherein embodiment, the blanking die group includes multiple auxiliary moving assemblies, and multiple auxiliary are moved Dynamic component is respectively arranged on the carrying workbench, in an auxiliary moving assembly, the auxiliary moving assembly packet Support frame and idler wheel are included, the first end of support frame as described above is set on the carrying workbench, and the idler wheel is set to the branch The second end of support, and the idler wheel is rotated relative to support frame as described above.

In a wherein embodiment, the blanking driving device is cylinder.

In a wherein embodiment, the feed opening has the cross section of rectangle.

A kind of automatic manufacturing equipment of self-recovery fuse, including blanking die group described above, further includes: pedestal and transmission System, the Transmission system are set on the pedestal, and the Transmission system is used to carry out feeding transmission to self-recovery fuse Operation, the blanking die group are located at the output end setting of the Transmission system.

This technical solution have compared with the prior art it is following the utility model has the advantages that

Blanking die group of the invention and the automatic manufacturing equipment of self-recovery fuse comprising the blanking die group are held by setting Carry workbench, blanking pipe and blanking die group.In actual blanking system application process, have that transmission pipeline transmits from Restore fuse to enter in blanking pipe by feed opening, self-recovery fuse is eventually fallen into the object for being placed on bearing panel Expect on holding tray, after material holding tray is fully loaded with self-recovery fuse, blanking driving device drives bearing panel to hold to separate The direction for carrying workbench is mobile, realizes automatic blanking operation to self-recovery fuse, compared to traditional artificial blanking, blanking effect Rate greatly improves, and blanking velocity is fast；Further, since the setting of the first guide rail and the second guide rail, so that bearing panel is moving That moves in dynamic process is more steady and quick, and blanking rate can be improved to a certain extent.

Detailed description of the invention

Fig. 1 is the assembling schematic diagram of the automatic manufacturing equipment of self-recovery fuse in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the Transmission system in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of the blanking system in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of the testing agency and sorting mechanism in an embodiment of the present invention.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

Referring to Fig. 1, the automatic manufacturing equipment 10 of self-recovery fuse, including pedestal 100, Transmission system 200 and blanking die Group 300, Transmission system 200 and blanking die group 300 are respectively arranged on pedestal 100.In this way, Transmission system 200 is used for from extensive Double insurance silk carries out feeding transmission operation, and blanking die group 300 is used to carry out blanking operation to self-recovery fuse, by the way that base is arranged Seat 100, Transmission system 200 and blanking die group 300 can carry out automatic charging transmission and automatic blanking to self-recovery fuse Operation, completely instead of manual operation, feeding, transmission and blanking efficiency are all greatly improved, and improve the productivity effect of enterprise.

Further, referring to Fig. 2, in one embodiment, Transmission system 200 includes vibrating disk 210, transmission mechanism 220 and transmission pipeline 230；Vibrating disk 210 is set on pedestal 100；Transmission mechanism 220 is set on pedestal 100, and is transmitted Mechanism 220 is located at below the output end of vibrating disk 210, and transmission mechanism 220 includes mounting bracket 221, transmission slide strips 222, slide strips Driving device 223 and multiple material baffles 224, mounting bracket 221 are set on pedestal 100, and transmission slide strips 222 are set to installation On bracket 221, slide strips driving device 223 is set to mounting bracket 221, the rotation axis and transmission slide strips of slide strips driving device 223 222 transmission connections, slide strips driving device 223 is for driving transmission slide strips 222 to slide with respect to mounting bracket 221, multiple material gears Plate 224 is respectively arranged in transmission slide strips 222, and material rest area 225, object are formed between each adjacent two material baffle 224 Material rest area 225 is for placing self-recovery fuse；Transmission pipeline 230 is set in mounting bracket 221.In this way, actual In 200 application process of Transmission system, vibrating disk 210 is by self-recovery fuse cycling cycling vibration to output end, and then self- recoverage is protected Dangerous silk is fallen into vibration into material rest area 225, and the transmission slide strips 222 of the driving of slide strips driving device 223 at this time are opposite to be installed Bracket 221 slides, and then drives self-recovery fuse to close to the movement of the direction of transmission pipeline 230, and self-recovery fuse is passed It transports in transmission pipeline 230, automation transmission can be carried out to self-recovery fuse, compared to artificial transmission, efficiency of transmission is big Big to improve, transmission speed is fast.

The concrete operating principle of Transmission system 200 is described in detail below:

Self-recovery fuse is put into vibrating disk 210, vibrating disk 210 starts work, and self-recovery fuse is vibrated It is transmitted to the output end of vibrating disk 210, since transmission mechanism 220 is located at the top of vibrating disk 210, in vibrating disk 210 Under effect, self-recovery fuse is fallen into transmission slide strips 222 by the output end of vibrating disk 210, due to setting in transmission slide strips 222 Multiple material baffles 224 are equipped with, are provided with material rest area 225 between each adjacent two material baffle 224, it will be understood that when When self-recovery fuse is fallen on transmission mechanism 220, self-recovery fuse can be dropped on material rest area 225, at this time slide strips The driving transmission slide strips 222 of driving device 223 are rotated relative to mounting bracket 221, and transmission slide strips 222 drive self-recovery fuse transmission To transmission pipeline 230, that is, the direction movement that slide strips 222 drive self-recovery fuse toward close transmission pipeline 230 is transmitted, it will Self-recovery fuse is transmitted to automatically in transmission pipeline 230, and self-recovery fuse is finally fallen by transmission pipeline 230 under again Expect in mould group 300, blanking die group 300 carries out blanking operation to self-recovery fuse.Compared to artificial transmission, vibrating disk is utilized 210, transmission mechanism 220 and transmission pipeline 230 can complete automatic transportation to self-recovery fuse, and efficiency of transmission greatly improves, Transmission speed is fast.

It should be noted that multiple material baffles 224 are separately positioned in transmission slide strips 222, and each adjacent two material Material rest area 225 is provided between baffle 224, so that when self-recovery fuse is fallen into from vibrating disk 210 to transmission slide strips 222 When, guarantee that a self-recovery fuse correspondence falls into a material rest area 225, phase will not be generated between two self-recovery fuses Mutually interference, guarantees to transmit incremental progress with this.

Further, in actual workshop, since Manufacturing Worker and working condition change, for example, different Manufacturing Worker's height can be different, therefore, during Manufacturing Worker is toward 210 feeding self-recovery fuse of vibrating disk, vibration The position height of disk 210 can be adjusted flexibly according to the height condition of actual Manufacturing Worker, in one embodiment, pass Defeated system 200 further includes the first elevating mechanism, and the first elevating mechanism is set on pedestal 100, and the first elevating mechanism includes first Lifting drive and the first lifting panel, the first lifting drive are set on pedestal 100, the first lifting drive Telescopic rod goes up and down panel with first and connect, and the first lifting drive is for driving the first lifting panel to close or separate base The direction of seat 100 is mobile, and vibrating disk 210 is located on the first lifting panel.In this way, in Manufacturing Worker by self-recovery fuse feeding When to vibrating disk 210, if the position height to vibrating disk 210 is needed to be adjusted, start the first elevating mechanism, first liter It is mobile to the direction close to or far from pedestal 100 that the first lifting panel of driving device driving drops, since vibrating disk 210 is located at the It is arranged on one lifting panel, when mobile to the direction close to or far from pedestal 100 when the first lifting panel, vibrating disk 210 It is moved with the movement of the first lifting panel.Realize the adjustment to 210 position height of vibrating disk.Specifically, in an embodiment party In formula, the first lifting drive is cylinder；Specifically, in one embodiment, the first lifting panel has circular transversal Face, it is of course possible to which in conjunction with practical situation, flexible design first goes up and down the shape of panel, for example, the first lifting panel has square The cross section of shape；For another example, the first lifting panel has trapezoidal cross section.

Further, it referring to figure, is placed when self-recovery fuse is fallen into from the output end of vibrating disk 210 to material When area 225, self-recovery fuse falls into the moment of material rest area 225 due to being affected by gravity, in self-recovery fuse, Self-recovery fuse can with transmission slide strips 222 certain physical contact occur, it is, therefore, to be understood that self-recovery fuse with When transmission slide strips 222 are physically contacted, inevitable self-recovery fuse will receive impact force, if impact force is excessive, It is easy for damage self-recovery fuse, for example, inside self-recovery fuse or surface generates slight crack because of collision, is caused certainly Restore fuse can not normal use, therefore, in order to solve this technical problem, in one embodiment, material rest area 225 Upper setting bolster.In this way, due to the setting of bolster, bolster rises when self-recovery fuse falls into material rest area 225 To the effect of buffering, the moment being physically contacted in self-recovery fuse and transmission slide strips 222, self- recoverage are efficiently avoided Fuse is damaged because the impact force being subject to is excessive, is guaranteed the safety of 210 feeding of vibrating disk, is prevented self-recovery fuse from conjunction Lattice product become defective products, to a certain extent can be to avoid the loss of enterprise.Specifically, in one embodiment, bolster is Sponge block, it is of course possible in conjunction with actual production requirement, the material of bolster is flexibly selected, for example, bolster is rubber block；Again Such as, bolster is foam block；In this application, specific limitation is not done to the material of bolster, bolster has pooling feature ?.

Specifically, referring to Fig. 2, in one embodiment, slide strips driving device 223 is motor.

Specifically, referring to Fig. 2, in one embodiment, material baffle 224 has the cross section of rectangle.

Specifically, referring to Fig. 2, in one embodiment, vibrating disk 210 closes on the setting of slide strips driving device 223.

Further, figure is please referred to, in one embodiment, blanking die group 300 includes carrying workbench 310, feeder pipe Road 320 and blanking die group 330；Feed opening 311 is offered on carrying workbench 310；Blanking pipe 320 is set to carrying workbench On 310, and the first end of blanking pipe 320 is connected to feed opening 311；Blanking die group 330 is set to carrying workbench 310 On, blanking die group 330 includes mounting base 331, the first guide rail 332, the first sliding block 333, the second guide rail, the second sliding block, holds Section plate 334 and blanking driving device, mounting base 331 are set on carrying workbench 310, and the first guide rail 332 is set to peace It filling on seat 331, the first sliding block 333 is slideably positioned in the first guide rail 332, and the second guide rail is set in mounting base 331, the Two sliding blocks are slideably positioned in the second guide rail, and bearing panel 334 is connect with the first sliding block 333 and the second sliding block respectively, carrying Support division 3341 is provided on panel 334, for placing material holding tray, blanking driving device is set to holds bearing panel 334 It carries on workbench 310, and the telescopic rod of blanking driving device is connect with bearing panel 334, blanking driving device is for driving Bearing panel 334 is mobile to the direction close to or far from carrying workbench 310, and the second end of blanking pipe 320 is located at carrying The top of panel 334.In this way, in actual 300 application process of blanking die group, have that transmission pipeline 230 transmits from extensive Double insurance silk is entered in blanking pipe 320 by feed opening 311, and self-recovery fuse is eventually fallen into being placed on bearing panel On 334 material holding tray, after material holding tray is fully loaded with self-recovery fuse, blanking driving device drives bearing panel 334 is mobile to the direction far from carrying workbench 310, automatic blanking operation is realized to self-recovery fuse, compared to traditional Artificial blanking, blanking efficiency greatly improve, and blanking velocity is fast；Further, since the first guide rail 332 and the second guide rail are set It sets, so that move in the process of moving more steady of bearing panel 334 and quickly, can be improved blanking to a certain extent Rate.

The concrete operating principle of blanking die group 300 is described in detail below:

When transmitting direction movement of the slide strips 222 by the past close transmission pipeline 230 of self-recovery fuse, it is placed on material and puts The self-recovery fuse for setting area 225 enters transmission pipeline 230, that is, self-recovery fuse flow to feed opening from transmission pipeline 230 311, since feed opening 311 is connected to blanking pipe 320, self-recovery fuse is from 311 blanking of feed opening to blanking pipe 320 In, self-recovery fuse is flow in material holding tray from blanking pipe 320 again.It should be noted that bearing panel 334 is for putting Glove material holding tray, material holding tray is for placing the self-recovery fuse got off from 320 blanking of blanking pipe, when material is placed After disk is fully loaded with self-recovery fuse, blanking driving device drives bearing panel 334 to move to the direction far from carrying workbench 310 It is dynamic, the material holding tray for being fully loaded with self-recovery fuse is transferred to Manufacturing Worker, Manufacturing Worker is manually taking material placement away Disk is put into new and without the material holding tray of self-recovery fuse is loaded on bearing panel 334, then blanking driving device It drives bearing panel 334 to the direction movement close to carrying workbench 310, bearing panel 334 is reset to initial position.

It should be noted that bearing panel 334 is connect with the first sliding block 333 and the second sliding block respectively, and because first is sliding Block 333 is slidably arranged in the first guide rail 332, and the second sliding block is slidably arranged in the second guide rail, when blanking driving device When driving bearing panel 334 mobile to the direction close to or far from carrying workbench 310, blanking driving device will drive first Sliding block 333 slides on the first guide rail 332, and the second sliding block slides on the second guide rail, the first sliding block 333, the first guide rail 332, the setting of the second sliding block and the second guide rail enables to bearing panel 334 in the more steady of mobile process movement With it is quick, to a certain extent improve blanking efficiency.Specifically, in one embodiment, blanking driving device is cylinder.

It should also be noted that, support division 3341 is provided on bearing panel 334, when Manufacturing Worker puts material holding tray It sets when on bearing panel 334, side and the support division 3341 of material holding tray offset, and material holding tray passes through support division 3341 stabilizations are placed on bearing panel 334.

Further, referring to Fig. 3, although being provided with support division 3341 on bearing panel 334 guarantees that material is put The shelf-stability of disk is set, but during blanking driving device driving bearing panel 334 is mobile, is placed on bearing panel Material holding tray on 334 inevitably generates shaking in moving process, if the excessively severity that material holding tray shakes, Material holding tray is easy for deviating from from bearing panel 334, causes self-recovery fuse directly to drop out from material holding tray, pole Easily self-recovery fuse is damaged, therefore, to solve the above-mentioned problems, in one embodiment, blanking die group 300 is also wrapped Clamp system 340 is included, clamp system 340 includes driving clamping device 341, clamps panel 342 and multiple gripping blocks 343, clamps Driving device 341 is set on bearing panel 334, and the telescopic rod of driving clamping device 341 is connect with panel 342 is clamped, and is clamped Driving device 341, which is used to drive, clamps panel 342 to close or direction movement far from support division 3341, multiple gripping blocks 343 are respectively arranged on clamping panel 342.In this way, clamping driving dress when material holding tray is placed on bearing panel 334 It is mobile to set the direction that 341 drivings clamp panel 342 to close support division 3341, that is, driving clamping device 341 drives clamping face Plate 342 is provided with multiple gripping blocks 343 on panel 342 due to clamping, when the face of clamping to close to the movement of the direction of material holding tray When plate 342 is close to material holding tray, multiple gripping blocks 343 are supported with material holding tray, and material holding tray is stablized and is limited On bearing panel 334.When Manufacturing Worker needs replacing material holding tray, the driving of driving clamping device 341 clamps panel 342 It is mobile to the direction far from support division 3341, it is possible to understand that with the separate of panel 342 is clamped, to be arranged in and clamp panel 342 Multiple gripping blocks 343 are no longer abutted against with material holding tray, and Manufacturing Worker can replace without the object for being loaded with self-recovery fuse Expect holding tray.Specifically, in one embodiment, driving clamping device 341 is cylinder.

Further, it referring to Fig. 3, in one embodiment, is provided between each adjacent two gripping block 343 Interval.In this way, being provided with interval between each adjacent two gripping block 343.So that gripping block 343 places the mistake of chuck clamping to material Cheng Zhong, each gripping block 343 are evenly distributed on material holding tray the clamping force of material holding tray.

Specifically, in one embodiment, elastic component is provided in gripping block 343.In this way, elastic component plays the work of buffering With, gripping block 343 clamp material holding tray during, efficiently avoid gripping block 343 because clamp it is excessive due to damage object Expect the surface of holding tray, elastic component is isolated gripping block 343, avoids gripping block 343 that physics directly directly occurs with material holding tray Contact.More specifically, in one embodiment, elastic component is rubber block.It should be noted that in this application, not to elasticity The production material of part specifically limits, and elastic component has the performance of buffering, for example, elastic component is sponge block；For another example, elastic component For foam block.

Further, referring to Fig. 3, in one embodiment, blanking die group 300 includes multiple auxiliary moving assemblies 350, multiple auxiliary moving assemblies 350 are respectively arranged on carrying workbench 310, in an auxiliary moving assembly 350, auxiliary Moving assembly 350 includes mounting rack 351 and idler wheel, and the first end of mounting rack 351 is set on carrying workbench 310, and idler wheel is set It is placed in the second end of mounting rack 351, and idler wheel is rotated relative to mounting rack 351.In this way, multiple auxiliary moving assemblies 350 are set It sets, can be convenient Manufacturing Worker and move blanking die group 330 at any time, Manufacturing Worker can be according to the output end spirit of transmission pipeline 230 Adjustment blanking die group 300 living, allows the output end of 311 aligned transmissions pipeline 230 of feed opening, can allow self-recovery fuse accurately from Transmission pipeline 230 is fallen into feed opening 311.Specifically, in one embodiment, feed opening 311 has the cross section of rectangle.

In actual self-recovery fuse production process, by the description above process it is found that when vibrating disk 210 will be from extensive The vibration of double insurance silk is fallen into when transmitting the material rest area 225 in slide strips 222, and inevitable self-recovery fuse can be with biography Certain physical contact occurs for defeated slide strips 222, that is, self-recovery fuse will receive impact force, if self-recovery fuse because Impact force is excessive, easily generates damage to self-recovery fuse, for example, slight crack is generated in self-recovery fuse, so as to cause When the self-recovery fuse produced is sold on the market, can not the person's of being purchased normal use, therefore in order to prevent self- recoverage protect Occur to generate this technical problem of slight crack due to physical contact when dangerous silk transmits slide strips 222 because falling into, the self-recovery fuse is raw Producing equipment 10 further includes testing agency 400 and sorting mechanism 500, and the testing agency 400 and the sorting mechanism 500 are set respectively It is placed on the pedestal 100, the testing agency 400 is used to carry out self-recovery fuse CCD detection operation；The sorting machine Structure 500 is for drawing the self-recovery fuse.In this way, when self-recovery fuse falls into transmission from the output end of vibrating disk 210 When in slide strips 222, with the movement of transmission slide strips 222, self-recovery fuse enters scheduled detection station, testing agency 400 CCD detection is carried out to self-recovery fuse, when testing agency 400 determines that the self-recovery fuse of current material rest area 225 is deposited In slight crack, corresponding identification signal is exported into sorting mechanism 500, after sorting mechanism 500 receives the identification signal, is opened It starts building to make, the self-recovery fuse of slight crack will be present, that is, unqualified self-recovery fuse picks up, avoid underproof from extensive Double insurance silk is mixed into the self-recovery fuse of qualified product.

Further, Fig. 1 and Fig. 4 are please referred to, in one embodiment, the testing agency 400 includes support frame 410, the first Z axis mobile device 420 and CCD detection device 430, support frame as described above 410 is set on the pedestal 100, described First Z axis mobile device 420 is set to support frame as described above 410, and the first Z axis mobile device 420 includes the first Z axis sliding shoe 421 and the first Z axis moving assembly 422, the first Z axis sliding shoe 421 be slideably positioned on support frame as described above 410, described One Z axis moving assembly 422 is set on support frame as described above 410, the telescopic rod of the first Z axis moving assembly 422 and described the The connection of one Z axis sliding shoe 421, the first Z axis moving assembly 422 is for driving the first Z axis sliding shoe 421 along Z axis side To movement；The CCD detection device 430 is set in the first Z axis mobile device 420, and the CCD detection device 430 is wrapped Include fine tuning installation panel 431, fine tuning sliding shoe 432, fixed column 433, CCD detector 434 and light source assembly 435, the fine tuning Installation panel 431 is set on the first Z axis sliding shoe 421, and the fine tuning installation panel 431 offers multiple first fine tunings Hole 4311, the fine tuning sliding shoe 432 are slideably positioned on the fine tuning installation panel 431, open on the fine tuning sliding shoe 432 Equipped with the second fine tuning hole, the end of the fixed column 433 for sequentially wear the second fine tuning hole and one of them described the One fine tuning hole 4311 is screwed, and the CCD detector 434 is set on the fine tuning sliding shoe 432, the light source assembly 435 It is set on the fine tuning installation panel 431.In this way, the first Z axis mobile device 420 is for adjusting CCD detection device 430 in Z The position of axis direction；CCD detection device 430 is used to carry out CCD detection to self-recovery fuse.

The concrete operating principle of testing agency 400 is described in detail below:

When self-recovery fuse comes scheduled detection station, CCD detection device 430 starts work, light source assembly 435 Self-recovery fuse is irradiated, CCD detector 434 obtains the image information under self-recovery fuse current state, and is divided Analysis processing judges self-recovery fuse with the presence or absence of slight crack, when determining that current detection self-recovery fuse there are when slight crack, sends Enabling signal into sorting mechanism 500, draw underproof self-recovery fuse and shift by sorting mechanism 500.

It should be noted that when needing the height and position to the Z-direction of CCD detection device 430 to be adjusted, starting First Z axis mobile device 420, the first Z axis moving assembly 422 drives the first Z axis sliding shoe 421 to move along Z-direction, to CCD The height and position of the Z-direction of detection device 430 carries out applicability adjustment, so that CCD detection device 430 is in optimal CCD Position is detected, obtains image data the most accurate, and be analyzed and processed.

It should also be noted that, when needing the Z axis height and position to CCD detection device 430 to be finely adjusted, producers The end of fixed column 433 is extracted out from the first fine tuning hole 4311 and the second fine tuning hole, sliding fine tuning sliding shoe 432 will finely tune The end sequence of fixed column 433 is then worn the second fine tuning hole and wherein again to suitable height and position by the fine tuning of sliding shoe 432 One first fine tuning hole 4311 is screwed, and realizes the fine tuning to CCD detection device 430.

Further, it please recombine refering to fig. 1 and Fig. 4, in one embodiment, the sorting mechanism 500 includes holding Carry bracket 510, the first X-axis mobile device 520, the second Z axis mobile device 530, suction means 540 and waste product mounting table 550, institute It states bearing support 510 to be set on the pedestal 100, the first X-axis mobile device 520 is set to the bearing support 510 On, the first X-axis mobile device 520 includes the mobile sliding block 521 of the first X-axis and the mobile driving assembly 522 of the first X-axis, described The mobile sliding block 521 of first X-axis is slideably positioned on the bearing support 510, and the mobile driving assembly 522 of first X-axis is arranged In on the bearing support 510, first X-axis moves the telescopic rod and the mobile sliding block of first X-axis of driving assembly 522 521 connections, the mobile driving assembly 522 of first X-axis is for driving the mobile sliding block 521 of first X-axis to move along the x axis Dynamic, the second Z axis mobile device 530 is set in the first X-axis mobile device 520, the second Z axis mobile device 530 include the second Z axis sliding shoe 531 and the mobile driving assembly 532 of the second Z axis, the sliding of the second Z axis sliding shoe 531 setting In on the mobile sliding block 521 of first X-axis, the mobile driving assembly 532 of second Z axis is set to the mobile cunning of first X-axis On block 521, the telescopic rod of the mobile driving assembly 532 of second Z axis is connect with the second Z axis sliding shoe 531, and described second The mobile driving assembly 532 of Z axis is for driving the second Z axis sliding shoe 531 to move along Z-direction；The suction means 540 is set It is placed on the second Z axis sliding shoe 531, the suction means 540 is for drawing self-recovery fuse；The waste product mounting table 550 are set on the pedestal 100.In this way, the first X-axis mobile device 520 is for adjusting suction means 540 in X-direction Position；Second Z axis mobile device 530 is for adjusting suction means 540 in the position of Z-direction；Suction means 540 is for drawing Self-recovery fuse；Waste product mounting table 550 is for placing unqualified self-recovery fuse.

The detailed operation principle of sorting mechanism 500 is illustrated below:

After self-recovery fuse detects in testing agency 400, to underproof self-recovery fuse, sorting mechanism 500 Start work, the mobile driving assembly 522 of the first X-axis drives the mobile sliding block 521 of the first X-axis to move along the x axis, and dress is drawn in adjustment 540 are set in the position of X-direction, at the same time, the mobile driving assembly 532 of the second Z axis drives the second Z axis sliding shoe 531 mobile, Suction means 540 is adjusted in the position of Z-direction, when suction means 540 is in scheduled absorption station, suction means 540 Start work, underproof self-recovery fuse is drawn, then, the mobile driving assembly 522 of the first X-axis drives the first X again Axis moves sliding block 521, and the mobile driving assembly again of the second Z axis drives the second Z axis sliding shoe 531 mobile, suction means 540 is moved It moves to waste product mounting table 550, the absorption of underproof self-recovery fuse is put into waste product mounting table 550, is waited to be produced Personnel take underproof self-recovery fuse away, complete the sorting to self-recovery fuse and operate, effectively prevent not conforming to The self-recovery fuse of lattice is mixed into qualified self-recovery fuse.

Blanking die group of the invention and the automatic manufacturing equipment of self-recovery fuse comprising the blanking die group are held by setting Carry workbench, blanking pipe and blanking die group.In actual blanking system application process, have that transmission pipeline transmits from Restore fuse to enter in blanking pipe by feed opening, self-recovery fuse is eventually fallen into the object for being placed on bearing panel Expect on holding tray, after material holding tray is fully loaded with self-recovery fuse, blanking driving device drives bearing panel to hold to separate The direction for carrying workbench is mobile, realizes automatic blanking operation to self-recovery fuse, compared to traditional artificial blanking, blanking effect Rate greatly improves, and blanking velocity is fast；Further, since the setting of the first guide rail and the second guide rail, so that bearing panel is moving That moves in dynamic process is more steady and quick, and blanking rate can be improved to a certain extent.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of blanking die group characterized by comprising

Workbench is carried, offers feed opening on the carrying workbench；

Blanking pipe, the blanking pipe is set on the carrying workbench, and the first end of the blanking pipe and institute State feed opening connection；And

Blanking die group, the blanking die group are set on the carrying workbench, and the blanking die group includes mounting base, first draws Guide rail, the first sliding block, the second guide rail, the second sliding block, bearing panel and blanking driving device, the mounting base are set to described It carries on workbench, first guide rail is set in the mounting base, and first sliding block is slideably positioned in described first In guide rail, second guide rail is set in the mounting base, and second sliding block is slideably positioned in second guidance On rail, the bearing panel is connect with first sliding block and second sliding block respectively, be provided on the bearing panel to Portion is held, for placing material holding tray, the blanking driving device is set on the carrying workbench bearing panel, and And the telescopic rod of the blanking driving device is connect with the bearing panel, the blanking driving device is for driving the carrying Panel is mobile to the direction close to or far from the carrying workbench, and the second end of the blanking pipe is located at the loading end The top of plate.

2. blanking die group according to claim 1, which is characterized in that the blanking die group further includes clamp system, described Clamp system includes that driving clamping device, clamping panel and multiple gripping blocks, the driving clamping device are set to the carrying On panel, the telescopic rod of the driving clamping device is connect with the clamping panel, and the driving clamping device is for driving institute It states and clamps panel to close or direction movement far from the support division, multiple gripping blocks are respectively arranged at the clamping On panel.

3. blanking die group according to claim 2, which is characterized in that between being provided between gripping block described in each adjacent two Every.

4. blanking die group according to claim 2, which is characterized in that be provided with elastic component in the gripping block.

5. blanking die group according to claim 4, which is characterized in that the elastic component is rubber block.

6. blanking die group according to claim 2, which is characterized in that the driving clamping device is cylinder.

7. blanking die group according to claim 1, which is characterized in that the blanking die group includes the mobile group of multiple auxiliary Part, multiple auxiliary moving assemblies are respectively arranged on the carrying workbench, in an auxiliary moving assembly, institute Stating auxiliary moving assembly includes support frame and idler wheel, and the first end of support frame as described above is set on the carrying workbench, described Idler wheel is set to the second end of support frame as described above, and the idler wheel is rotated relative to support frame as described above.

8. blanking die group according to claim 1, which is characterized in that the blanking driving device is cylinder.

9. blanking die group according to claim 1, which is characterized in that the feed opening has the cross section of rectangle.

10. a kind of automatic manufacturing equipment of self-recovery fuse, including blanking die group described in any one of claim 1-9, It is characterized by further comprising: pedestal and Transmission system, the Transmission system is set on the pedestal, and the Transmission system is used In carrying out feeding transmission operation to self-recovery fuse, the blanking die group is located at the output end setting of the Transmission system.