CN108545239A - Thermistor chip braid equipment - Google Patents

Abstract

A kind of thermistor chip braid equipment includes：Board, braid transport mechanism, chip conveying precompressed mechanism, chip coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism, braid transport mechanism, chip conveying precompressed mechanism, chip coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism are separately mounted on board.The thermistor chip braid equipment of the present invention conveys precompressed mechanism, chip coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism by the way that board, braid transport mechanism, chip is arranged, to complete the braid process operation to thermistor chip, thus instead of the artificial mode of production, production efficiency and the quality of production can be effectively improved.

Description

Thermistor chip braid equipment

Technical field

The present invention relates to thermistor manufacturing technology fields, more particularly to a kind of thermistor chip braid equipment.

Background technology

Thermistor is one kind of sensing element, is divided into posive temperature coefficient thermistor and subzero temperature according to temperature coefficient difference Spend coefficient resistance.The typical feature of thermal resistor is to show different resistance at temperature sensitive, different temperature Value.Posive temperature coefficient thermistor resistance value when temperature is higher is bigger, and negative tempperature coefficient thermistor gets over Gao Shi electricity in temperature Resistance value is lower, they belong to semiconductor devices.

In thermistor, mostly important component is resistance chip, and resistance chip needs in manufacture produces It is processed operation by multiple working procedures such as welding, pin cutting, insulating layer package and electrical property detections, and in order to make resistor core The manufacturing of piece adapts to automated production operation, generally first can carry out braid processing to chip, i.e., be adhered to chip in turn In braid, multiple arrangements of chips can be adhered on corresponding production jig or locating clamp plate by braid in this way so that Subsequent chip manufacture can be convenient for operate.Traditional chip braid operation is the artificial braid operation by manually being operated Not only production efficiency is high, and spacing of each chip in braid has larger deviation, to be grasped to subsequent chip manufacture Certain influence is brought, processing defective products is easy tod produce.

Invention content

The purpose of the present invention is overcoming shortcoming in the prior art, providing one kind can replace manually carrying out chip Braid operates, and the thermistor chip braid equipment that spacing of each chip in braid can be made consistent.

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

A kind of thermistor chip braid equipment includes：Board, braid transport mechanism, chip conveying precompressed mechanism, chip Coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism, the braid transport mechanism, the chip convey precompressed Mechanism, chip coding mechanism, chip detection barcode scanning mechanism and the chip braid laminating mechanism are separately mounted to institute It states on board；

The braid transport mechanism is used for braid feeding to chip conveying precompressed mechanism, and the chip conveying is pre- Press mechanism is used to be delivered to chip coding mechanism to chip, and chip coding mechanism is used to carry out stamp behaviour to chip Make, chip detection barcode scanning mechanism is used to carry out barcode scanning operation to the chip in chip coding mechanism, and the chip is compiled It is used for the chip pressing after barcode scanning in braid material block with laminating mechanism；

The braid transport mechanism includes feeding supporting rack, feeding rotation axis, feeding actuator, the first feeding position limiting clamp Plate, the second feeding limit clamping plate, limitation locking component and feeding guidance set, the feeding supporting rack are mounted on the board On, the feeding rotation axis is rotatably installed on the feeding supporting rack, and the feeding actuator connects with the feeding rotation axis It connects, the feeding actuator is for driving the feeding rotation axis to be rotated relative to the feeding supporting rack, on described first Material limit clamping plate is symmetrically mounted in the feeding rotation axis with second feeding limit clamping plate, the first feeding limit Braid installing zone is provided between position clamping plate and second feeding limit clamping plate, the braid installing zone is for installing braid volume Cylinder, the limitation locking component are mounted in the feeding rotation axis, and the feeding guidance set is supported mounted on the feeding Frame is on the one side of the feeding rotation axis；

The first feeding limit clamping plate is provided with multiple positioning on the one side that second feeding limits clamping plate Pillar, the second feeding limit clamping plate are equipped with multiple snubber elastomerics on the one side that first feeding limits clamping plate Part, each positioning convex column are corresponded with each snubber elastomeric part；

The limitation locking component includes limit casing and adjusting screw, and the limit casing is screwed on the feeding rotation On the one end of axis far from the feeding actuator, the adjusting screw is screwed togather with the limit casing；

The feeding guidance set includes the first feeding guide roller and the second feeding guide roller, and first feeding is led Way roller is mutually parallel with the second feeding guide roller on the feeding supporting rack, and the feeding rotation axis is located at The lower section of the first feeding guide roller and the second feeding guide roller.

The feeding actuator is motor in one of the embodiments,.

Each positioning convex column limits the center of clamping plate in a ring around first feeding in one of the embodiments, Array distribution.

The positioning convex column is cylindrical structure in one of the embodiments,.

Each snubber elastomeric part is in ring around the center of second feeding limit clamping plate in one of the embodiments, Shape array distribution.

The snubber elastomeric part is spring in one of the embodiments,.

The first feeding guide roller and the second feeding guide roller are unidirectional in one of the embodiments, Idler wheel.

The first feeding limit clamping plate is disc structure in one of the embodiments,.

The second feeding limit clamping plate is disc structure in one of the embodiments,.

The limit casing is straight screw sleeve in one of the embodiments,.

Compared with prior art, the present invention has at least the following advantages：

The thermistor chip braid equipment of the present invention conveys preformer by the way that board, braid transport mechanism, chip is arranged Structure, chip coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism, to complete the volume to thermistor chip Band process operation can effectively improve production efficiency and the quality of production thus instead of the artificial mode of production.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural schematic diagram of the thermistor chip braid equipment of one embodiment of the invention；

Fig. 2 is that the chip of the thermistor chip braid equipment in Fig. 1 conveys the structural schematic diagram of precompressed mechanism；

Fig. 3 is that the chip in Fig. 2 conveys the first of the precompressed mechanism structural schematic diagram for flattening briquetting；

Fig. 4 is the structural schematic diagram of the chip coding mechanism of the thermistor chip braid equipment in Fig. 1；

Fig. 5 is that the chip of the thermistor chip braid equipment in Fig. 1 detects the structural schematic diagram of barcode scanning mechanism；

Fig. 6 is the structural schematic diagram of the chip braid laminating mechanism of the thermistor chip braid equipment in Fig. 1.

Specific implementation mode

To facilitate the understanding of the present invention, below with reference to relevant drawings to invention is more fully described.In attached drawing Give the better embodiment of the present invention.But the present invention can realize 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 when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be 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 offered as being unique embodiment.

Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention The normally understood meaning of technical staff is identical.Used term is intended merely to description tool in the description of the invention herein 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 Items.

In one embodiment, a kind of thermistor chip braid equipment includes：Board, braid transport mechanism, chip conveying Precompressed mechanism, chip coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism, the braid transport mechanism, institute State chip conveying precompressed mechanism, chip coding mechanism, chip detection barcode scanning mechanism and the chip braid pressing machine Structure is separately mounted on the board；The braid transport mechanism is used for braid feeding to chip conveying precompressed mechanism On, chip conveying precompressed mechanism is used to be delivered to chip coding mechanism to chip, and chip coding mechanism uses In carrying out stamp operation to chip, the chip detection barcode scanning mechanism is for sweeping the chip in chip coding mechanism Code operation, the chip braid laminating mechanism are used for the chip pressing after barcode scanning in braid material block；The braid conveyer Structure includes feeding supporting rack, feeding rotation axis, feeding actuator, the first feeding limit clamping plate, the second feeding limit clamping plate, limit Locked component and feeding guidance set, the feeding supporting rack are mounted on the board, the feeding rotation axis rotational installation On the feeding supporting rack, the feeding actuator rotates axis connection with the feeding, and the feeding actuator is for driving The feeding rotation axis is rotated relative to the feeding supporting rack, and the first feeding limit clamping plate is limited with second feeding Position clamping plate is symmetrically mounted in the feeding rotation axis, the first feeding limit clamping plate and the second feeding position limiting clamp Braid installing zone is provided between plate, for installing braid reel, the limitation locking component is mounted on the braid installing zone In the feeding rotation axis, the feeding guidance set is mounted on the feeding supporting rack close to the side of the feeding rotation axis On face；The first feeding limit clamping plate is provided with multiple convexes on the one side that second feeding limits clamping plate Column, the second feeding limit clamping plate are equipped with multiple snubber elastomerics on the one side that first feeding limits clamping plate Part, each positioning convex column are corresponded with each snubber elastomeric part；The limitation locking component includes limit casing and tune Screw is saved, the limit casing is screwed on the one end of the feeding rotation axis far from the feeding actuator, the adjusting spiral shell Nail is screwed togather with the limit casing；The feeding guidance set includes the first feeding guide roller and the second feeding guide roller, The first feeding guide roller is mutually parallel with the second feeding guide roller on the feeding supporting rack, described Feeding rotation axis is located at the lower section of the first feeding guide roller and the second feeding guide roller.The temperature-sensitive electricity of the present invention It hinders chip braid equipment and conveys precompressed mechanism, chip coding mechanism, chip inspection by the way that board, braid transport mechanism, chip is arranged Barcode scanning mechanism and chip braid laminating mechanism are surveyed, to complete the braid process operation to thermistor chip, thus instead of people The mode of production of work can effectively improve production efficiency and the quality of production.

In order to preferably be illustrated to above-mentioned thermistor chip braid equipment, to more fully understand above-mentioned thermistor The design of chip braid equipment.Referring to Fig. 1, a kind of thermistor chip braid equipment 10 includes：Board 100, braid transmission Mechanism 200, chip conveying precompressed mechanism 300, chip coding mechanism 400, chip detection barcode scanning mechanism 500 and chip braid pressing Mechanism 600, braid transport mechanism 200, chip conveying precompressed mechanism 300, chip coding mechanism 400, chip detection barcode scanning mechanism 500 and chip braid laminating mechanism 600 be separately mounted on board 100.

Braid transport mechanism is used for braid feeding to chip conveying precompressed mechanism, chip convey precompressed mechanism for pair Chip is delivered in chip coding mechanism, and chip coding mechanism is used to carry out stamp operation to chip, and chip detects barcode scanning mechanism For carrying out barcode scanning operation to the chip in chip coding mechanism, chip braid laminating mechanism is used for the chip pressing after barcode scanning On braid material block.

It should be noted that braid transport mechanism 200 is transmitted for installing braid reel, and by the braid in braid reel To the output end of chip conveying precompressed mechanism 300, when chip is sent out from the output end of conveying precompressed mechanism 300, braid Adherency is fitted on chip.Chip conveying precompressed mechanism 300 by chip progress feeding for being sent to chip coding mechanism 400 On, chip coding mechanism 400 is used to carry out stamp operation to the chip for pasting braid, after completing stamp number, chip detection Barcode scanning mechanism 500 carries out barcode scanning operation, so as to track and record the postorder process operation of each chip, after completing barcode scanning, Braid material block is pressed together on chip by chip braid laminating mechanism 600 so that and the braid on chip conforms on braid material block, by This makes multiple chips be arranged in "-" type on braid material block, consequently facilitating the automation process operation of post-order process.

Referring to Fig. 1, braid transport mechanism 200 includes feeding supporting rack 210, feeding rotation axis 220, feeding driving Part 230, the first feeding limit clamping plate 240, the second feeding limit clamping plate 250, limitation locking component 260 and feeding guidance set 270, feeding supporting rack 210 is mounted on board 100, and feeding rotation axis 220 is rotatably installed on feeding supporting rack 210, feeding Actuator 230 is connect with feeding rotation axis 220, and feeding actuator 230 is for driving feeding rotation axis 220 with respect to feeding supporting rack 210 are rotated, and the first feeding limits clamping plate 240 and the second feeding limit clamping plate 250 is symmetrically mounted on feeding rotation axis On 220, braid installing zone, braid installing zone are provided between the first feeding limit clamping plate 240 and the second feeding limit clamping plate 250 For installing braid reel, limitation locking component 260 is mounted in feeding rotation axis 220, and feeding guidance set 270 is mounted on upper Expect supporting rack 210 on the one side of feeding rotation axis 220.

It should be noted that the braid reel equipped with braid is mounted on braid installing zone, i.e. braid reel socket installation In feeding rotation axis 220, meanwhile, clamping plate 240 is limited by the first feeding and the second feeding limits clamping plate 250 to braid reel Carry out position restriction, to make braid reel in the rotation will not there is a phenomenon where braid falls off or deviates, thereby, it is possible to Enable chip proper alignment when carrying out braid attaching.After installing braid reel, feeding actuator 230 drives feeding rotation Axis 220 is rotated, and to drive braid reel to carry out rotation operation, so that braid is orderly completed feeding operation, is led to Crossing feeding actuator 230 drives feeding rotation axis 220 to be rotated, and the speed so as to be operated to chip braid is controlled System, to improve the precision of chip braid processing.

Referring to Fig. 1, the first feeding limits clamping plate 240 and is set on the one side that the second feeding limits clamping plate 250 Multiple positioning convex columns 241 are equipped with, the second feeding limits clamping plate 250 and installed on the one side that the first feeding limits clamping plate 240 There are multiple snubber elastomeric parts 251, each positioning convex column 241 to be corresponded with each snubber elastomeric part 251.

It should be noted that after installation is complete for braid reel, the first feeding limits clamping plate 240 and the second feeding position limiting clamp Plate 250 carries out limit clamping to braid reel, at this point, in each positioning convex column 241 and second on the first feeding limit clamping plate 240 Each snubber elastomeric part 251 on material limit clamping plate 250, which corresponds, to abut, to make the first feeding limit clamping plate 240 and second Feeding limit clamping plate 250 between can generate mutually exclusive elastic force, thus, it is possible to prevent the first feeding limit clamping plate 240 with Second feeding limit 250 mounting distance of clamping plate closely causes very much the braid on braid reel that can not smoothly carry out rotation feeding, energy The fluency for enough improving the operation of braid feeding, reduces failure.

Referring to Fig. 1, limitation locking component 260 includes limit casing 261 and adjusting screw 262, limit casing 261 It is screwed on the one end of feeding rotation axis 220 far from feeding actuator 230, adjusting screw 262 is screwed togather with limit casing 261.

It should be noted that after the first feeding limit clamping plate 240 and the second feeding limit clamping plate 250 complete installation, pass through Installation limit casing 261 is abutted with the second feeding limit clamping plate 250, so as to limit the position of clamping plate 250 to the second feeding It is fixed, meanwhile, by adjusting position of the limit casing 261 in feeding rotation axis 220, so as to limit the first feeding Position clamping plate 240 limits the distance between clamping plate 250 with the second feeding and is finely adjusted, and completes after adjusting, will by adjusting screw 262 The position of limit casing 261 is locked, to complete limitation locking operation.By the way that adjusting screw 262 and limit casing is arranged 261, it is operated so as to the convenient disassembling, assembling and replacing to braid reel, meanwhile, it is capable to adjust the first feeding limit clamping plate 240 and the Two feedings limit the distance between clamping plate 250, enable adaptation to the installation operation of the braid reel of different in width so that equipment The scope of application it is wider.

Referring to Fig. 1, feeding guidance set 270 includes the first feeding guide roller 271 and the second feeding orienting roll Wheel 272, the first feeding guide roller 271 and the second feeding guide roller 272 are mutually parallel on feeding supporting rack 210, Feeding rotation axis 220 is located at the lower section of the first feeding guide roller 271 and the second feeding guide roller 27.

It should be noted that the first feeding guide roller 271 and the second feeding guide roller 272 are when braid feeding operates Play the role of guiding so that braid is more smooth when feeding operates, meanwhile, feeding rotation axis 220 is located at the first feeding The lower section of guide roller 271 and the second feeding guide roller 282, i.e. braid are oriented to from braid reel feeding and by the first feeding When idler wheel 271 and the second feeding guide roller 272, the first feeding guide roller 271 and the second feeding guide roller 272 are in one A higher position can in advance separate a part of braid from braid reel, in such manner, it is possible to which braid feeding is made to operate When it is more smooth, while can give braid certain tensile force, and the space of 220 top of feeding rotation axis can be utilized, make The overall structure for obtaining equipment is more compact.

In one embodiment, feeding actuator is motor；For another example, each positioning convex column is around the center of the first feeding limit clamping plate Circular array is distributed；For another example, positioning convex column is cylindrical structure；For another example, each snubber elastomeric part surrounds the second feeding position limiting clamp The center circular array distribution of plate；For another example, snubber elastomeric part is spring；For another example, the first feeding guide roller and the second feeding Guide roller is one-way rolling；For another example, the first feeding limit clamping plate is disc structure；For another example, the second feeding limit clamping plate is Disc structure；For another example, limit casing is straight screw sleeve, so, it is possible to improve whole structural strength, and make braid feeding What is operated is more efficient.

As shown in Fig. 2, being illustrated below to the concrete structure of chip conveying precompressed mechanism 300：

A kind of chip conveying precompressed mechanism 300 includes：It is whole that chip conveys erecting bed 310, chip conveying device 320 and chip Leveling device 330, chip conveying device 320 are set in sequence in chip conveying along chip conveying direction with chip apparatus for leveling 330 and pacify It fills on platform 310.

Referring to Fig. 2, chip conveying device 320 includes that chip conveying jig 321, first conveys runner 322, second Runner 323, feed drive part 324 and preload component 325 are conveyed, the first conveying runner 322 turns respectively with the second conveying runner 323 The dynamic both ends that erecting bed 310 is conveyed mounted on chip, it is defeated mounted on the first conveying runner 322 and second that chip conveys jig 321 Between sending runner 323, feed drive part 324 is connect with the first conveying runner 322, and feed drive part 324 is defeated for drive first 322 opposite chip of runner conveying erecting bed 310 is sent to be rotated, preload component 325 is used for the core on the first conveying runner 322 Piece conveying jig 321 carries out pre- press operation.

Further, chip conveying jig 321 offers conveying card slot on the one side of the first conveying runner 322, Conveying fixture block is provided on the lateral surface of first conveying runner 322, conveying card slot is mutually clamped or detaches with conveying fixture block.Conveying Card slot be provided with it is multiple, it is each convey card slot and be arranged in chip in "-" type along chip conveying direction convey on jig.Convey fixture block It is provided with multiple, each center circular array distribution for conveying fixture block and conveying runner around first.

It should be noted that offering multiple chip placing grooves, the setting of each chip placing groove interval on chip conveying jig On chip conveying jig, the chip that chip feeding is placed on to chip conveying jig by artificial or corresponding feeding device is put It sets on slot, for example, feeding device straight-line oscillation disk or conveyer belt etc..When the chip conveying jig 321 equipped with chip passes through first When conveying runner 322, the driving of feed drive part 324 first conveying runner 322 is rotated, to make the first conveying runner 322 On conveying fixture block and chip conveying jig on the constantly engaging of conveying card slot with detach, thus make chip conveying jig towards the The direction of two conveying runners 323 carries out linear transmission operation.Conveying card slot is equipped with conveying fixture block so that chip conveys Jig can carry out linear transmission operation, and will not shift in transmit process.

Further, the first limit annulus and the second limit annulus are provided on the lateral surface of the second conveying runner 323, the One limit annulus and the second limit annulus are symmetrically set on the second conveying runner, and the first limit annulus and the second limit are justified Limit delivery area is provided between ring, chip conveys jig and is located on limit delivery area.

It should be noted that the second conveying runner 323 plays the role of guiding in chip conveys jig transmit process, make Obtaining chip conveying jig can be passed between the second conveying runner 323 and first conveys runner 322, meanwhile, the first limit The setting of annulus and the second limit annulus so that chip conveys the position of jig in transmit process by the first limit annulus and the Two limit annulus limit, to make chip conveying jig beat will not occur in transmit process, can make in this way chip into Precision higher when row braid is sticked, the interval error between each chip is small, the quality higher for making braid process.

Referring to Fig. 1, preload component 325 includes precompressed support plate 325a, precompressed directive slide track 325b, precompressed lifting Sliding block 325c and pre- pressing roller 325d, precompressed support plate 325a are mounted on the one side of chip conveying erecting bed 310, and precompressed is led It is vertically mounted on precompressed support plate 325a to sliding rail 325b opposite chips conveying erecting bed 310, precompressed lifting slider 325c is slided Dynamic to be mounted on precompressed directive slide track 325b, pre- pressing roller 325d is rotatably installed on precompressed lifting slider 325c, precompressed lifting Sliding block 325c is used to drive pre- pressing roller 325d to carry out the movement closer or far from the first conveying runner 322, pre- pressing roller 325d Outer surface be provided with cushioning elastomeric layer.

It should be noted that when the first conveying runner 322 carries out conveying operations to chip conveying jig, chip conveys jig By preload component 325, at this point, pre- pressing roller 325d is abutted with chip conveying jig, and as chip conveys the transmission of jig Operation is rotated, so as to play the role of guiding；Meanwhile chip conveying jig pass through pre- pressing roller 325d when, due to Precompressed lifting slider 325c is slidably mounted on precompressed directive slide track 325b, from can be by precompressed lifting slider 325c and pre- The pressing roller 325d gravity of itself carries out pre- press operation to the chip on chip conveying jig, and thus chip placement is in transmission process In bounce, ensure chip can position on the correct position that chip conveys jig.

Referring to Fig. 2, chip apparatus for leveling 330 includes leveling support plate 331, leveling elevator 332, leveling lifting Actuator 333 and leveling assembly 334, leveling support plate 331 are mounted on the one side of chip conveying erecting bed 310, leveling branch Leveling riser guide is provided on fagging 331, leveling elevator 332 is slidably mounted on leveling riser guide, and leveling lifting is driven Moving part 333 is connect with leveling elevator 332, and leveling lifting actuator 333 is for driving leveling elevator 332 to be led in leveling lifting Reciprocating is carried out on rail, leveling assembly 334 connects with one side of the leveling elevator 332 far from leveling lifting actuator 333 It connects.

Further, leveling assembly 334 includes leveling mounting blocks 334a, the first leveling briquetting 334b, the second leveling briquetting 334c and multiple spring 334d, each spring 334d are connect with leveling mounting blocks 334a and leveling elevator 332 respectively, the first leveling The levelings of briquetting 334b and second briquetting 334c is arranged at intervals on one sides of the leveling mounting blocks 334a far from leveling elevator 332 On, the first leveling briquetting 334b is identical as the second leveling briquetting 334c structures and is symmetrically set；Flatten mounting blocks 334a with Multiple spring 334d are set between leveling elevator 332, cushioning effect can be played, prevent pressure from causing very much the damage of chip greatly It is bad.

As shown in figure 3, it is provided with leveling convex block 334e on the first one sides of the leveling briquetting 334b far from leveling mounting blocks, Pressure sensor 334f is installed, leveling convex block 334e is connect with pressure sensor 334f on the first leveling briquetting 334b.

Need to illustrate when, by chip apparatus for leveling 330 after the chip on chip conveying jig completes pre- press operation When, the leveling lifting driving leveling elevator 332 of actuator 333 declines, to make leveling assembly 334 on chip conveying jig Chip carries out compression operation；Leveling assembly 334 is defeated to chip respectively by the first leveling briquetting 334b, the second leveling briquetting 334c It send the both ends of the chip on jig to be pressed, beat or tilting occurs in bonding processes so as to chip placement, to Chip can be made completely to be pressed together in chip conveying jig, the setting of leveling convex block 334e can be reduced and chip contact surface Product, convenient for the stitching operation of the chip to small size, meanwhile, connected by the way that pressure sensor 334f and leveling convex block 334e is arranged It connects, so as to be monitored to the pressure force for flattening convex block 334e, thus, it is possible to prevent pressure is excessive from chip is damaged by pressure.Ability Field technique personnel can need to select the model or specification of pressure sensor 334f according to the production of realization, as long as can The sensor that pressure to flattening convex block 334e is tested.

Referring to Fig. 2, chip apparatus for leveling 330 further includes braid compact heap 335, and braid compact heap 335 is mounted on Chip conveys on erecting bed 310, and chip conveying jig 321 is located between braid compact heap 335 and chip conveying erecting bed 310, Braid locating slot 335a is offered on the one side of braid compact heap 335, and it is fixed that the first braid is provided in braid locating slot 335a Position clamp bar and the second braid position clamp bar, and the first braid positions clamp bar and the second braid positioning clamp bar is arranged in parallel in braid In locating slot；It is cylindrical structure that first braid, which positions clamp bar and the second braid positioning clamp bar,.

It should be noted that after chip conveying jig 321 completes leveling stitching operation, braid compact heap 335 can be passed through The Transfer pipe formed with chip conveying erecting bed 310, at this point, that braid feeding is sent to chip is whole for braid transport mechanism 200 On the braid compact heap 335 of leveling device 330, braid positions clamp bar and second by the first braid on braid locating slot 335a and compiles Band positioning clamp bar is clamped fixation, to make braid that there is enough tensile forces, meanwhile, it is defeated that one end of braid extends to chip It send on jig 321, when chip conveying jig 321 carries out conveying operations and passes through braid compact heap 335, due to the gap of setting It is sufficiently small so that the first braid positions clamp bar and can be attached on corresponding chip with the braid on the second braid positioning clamp bar, and With the chip conveying conveying of jig 321 movement so that the chip that is attached on of braid neatly conveys on each chip of jig 321, thus Complete the adhering operation of braid.

In one embodiment, feed drive part is motor；For another example, chip conveying jig is strip structure；For another example, pre- nip drum Wheel is individual event scroll wheel；For another example, cushioning elastomeric layer is rubber elastic layer；For another example, leveling lifting actuator is cylinder；In this way, energy It is enough to improve whole structural strength, and whole working efficiency higher.

The chip conveying precompressed mechanism 300 of the present invention conveys erecting bed 310, chip conveying device 320 by the way that chip is arranged And chip apparatus for leveling 330, conveying and flattening operation to completion to chip can thus instead of the artificial mode of production It is effective to improve production efficiency and chip is made to keep smooth in conveying operations so that the quality higher of production and processing.

As shown in figure 4, being illustrated below to the concrete structure of chip coding mechanism 400：

A kind of chip coding mechanism 400 includes：Coding installation pedestal 410, coding component 420, horizontal mobile device 430, Lifting gear 440 and coding positioning device 450, horizontal mobile device 430 are separately positioned on coding peace with coding positioning device 450 It fills on pedestal 410, lifting gear 440 is connect with horizontal mobile device 430, and coding component 420 is connect with lifting gear 440.

It should be noted that coding component 420 is moved to by the drive of horizontal mobile device 430 and lifting gear 440 On corresponding coding position, installation fixation is then carried out to the position of coding component 420 by coding positioning device 450 again, it is complete After fixation, coding component 420 carries out coding operation.

Referring to Fig. 4, coding positioning pressuring plate 411, coding positioning pressuring plate 411 are provided in coding installation pedestal 410 In coding installation pedestal 410, it is logical that coding transmission is provided between coding positioning pressuring plate 411 and coding installation pedestal 410 Road, coding positioning pressuring plate 411 are provided with flexibly positioned layer, coding positioning pressuring plate on the one side of coding installation pedestal 410 Coding location hole 411a is offered on 411, coding location hole 411a is connected to coding Transfer pipe with coding location hole.

Further, braid coding locating piece 411b, the braid are installed on one end of the coding positioning pressuring plate 411 The cross section of coding locating piece 411b is ramp structure.

It should be noted that coding positioning pressuring plate 411 is connected with braid compact heap 335, braid coding locating piece 411b In in braid locating slot 335a, when chip conveying jig 321, which is sent to, carries out braid operation at braid compact heap 335, braid Coding locating piece 411b is for compressing braid so that braid can be tightly conforms on chip conveying jig 321.It is complete It is further transmitted at the chip conveying jig 321 after braid fitting processing, to enter chip by coding Transfer pipe Coding mechanism 400 enterprising rower code operation, at this point, the flexibly positioned layer on coding positioning pressuring plate 411 can convey chip and control Chip on tool 321 plays the role of protection, and chip is prevented to be subject to crushing in transmit process or scratch surface.When chip conveys When jig 321 is sent to coding location hole 411a, coding component 420 carries out coding behaviour to the chip on chip conveying jig 321 Make.

Referring to Fig. 4, horizontal mobile device 430 includes being transversely mounted support plate 431, sliding laterally block 432, is lateral Actuator 433, the first laterally driven runner 434, the second laterally driven runner 435 and laterally driven synchronous belt 436, are transversely mounted Support plate 431 is mounted in coding installation pedestal 410, and the first laterally driven runner 434 and the second laterally driven runner 435 are distinguished Be rotatably installed in and be transversely mounted in support plate 431, laterally driven synchronous belt 436 respectively with the first laterally driven runner 434 and Two laterally driven runners 435 connect, and slide laterally block 432 and are slidably installed and are transversely mounted in support plate 431, laterally driven part 433 It is connect with the first laterally driven runner 434, laterally driven part 433 is for driving 434 relatively transverse peace of the first laterally driven runner Dress support plate 431 is rotated, and the first laterally driven runner 434 is for driving laterally driven synchronous belt 436 and the second laterally drive Turn wheel 435 is rotated, and is slid laterally to be provided on block 432 and is slid laterally rack, slide laterally rack be mounted on it is laterally sliding Close to being transversely mounted on the one side of support plate, sliding rack engages motion block with laterally driven synchronous belt.

It should be noted that the first laterally driven runner 434 carries out rotation operation under the driving of laterally driven part 433, So as to make the first laterally driven runner 434 and the second laterally driven runner 435 carry out together by laterally driven synchronous belt 436 Motor performance is walked, is operated into reciprocating type mobile by the rack that slides laterally on laterally driven synchronous belt 436 at this time, to drive cross Reciprocating type mobile is carried out on being transversely mounted support plate 431 to sliding shoe 432, thus, it is possible to the positions to sliding laterally block 432 It is adjusted.By the way that laterally driven part 433, the first laterally driven runner 434, the second laterally driven runner 435 and transverse direction is arranged The position for sliding laterally block 432 is adjusted in the driving structure that driving synchronous belt 436 is combined into, and can improve the essence of adjusting Degree so that position degree of regulation higher when coding.

Referring to Fig. 4, it is transversely mounted in support plate 431 and is provided with cross spacing block 431a, cross spacing block 431a Mounted on support plate 431 is transversely mounted close to sliding laterally on the one side of block 432, opened on the one side of cross spacing block 431a Equipped with bayonet is mounted, it is mounted in bayonet and absorption phase magnet block is installed.

Further, it slides laterally block 432 and is provided with limit magnet strip 432a, limit magnet strip 432a is mounted on laterally sliding Motion block 432 is on the one side of cross spacing block 431a, limit magnet strip 432a and limit installation bayonet corresponding matching.

It should be noted that after sliding laterally the movement of block 432 in place, by being arranged on being transversely mounted support plate 431 Cross spacing block 431a, to be coordinated by cross spacing block 431a and limit magnet strip 432a so that limit magnet strip 432a Be mounted bayonet corresponding matching, and by be mounted bayonet in absorption phase magnet block complete positioning, so as to It prevents from sliding laterally block 432 and moving that position offset occurs afterwards in place, thus improves the precision of coding processing.

Referring to Fig. 4, lifting gear 440 includes lifting moving plate 441, the lifting lifting rotation of actuator 442, first The 443, second lifting rotating wheel 444 of wheel and lifting synchronous belt 445, lifting moving plate 441, which is slidably mounted on, slides laterally block 432 On, the first lifting lifting rotating wheel 444 of rotating wheel 443 and second is rotatably installed in respectively to be slid laterally on block 432, and lifting synchronizes Band 445 lifts rotating wheel 444 with the first lifting rotating wheel 443 and second respectively and connect, and the lifting lifting of actuator 442 and first turns Driving wheel 443 connects, and lifting actuator 442 is rotated for driving first to lift 443 relatively transverse sliding shoe 432 of rotating wheel, First lifting rotating wheel 443 is rotated for driving lifting synchronous belt 445 and second to lift rotating wheel 444, lifting moving plate Be provided with lifting tooth stick 441a on 441, lifting synchronous belt 445 be arranged in lifting tooth stick 441a and with lifting tooth stick 441a Engagement.

It should be noted that after sliding laterally the movement of block 432 in place, driving the first lifting rotation of lifting actuator 442 Wheel 443 is rotated, and is carried out rotation operation to drive lifting synchronous belt 445 and second to lift rotating wheel 444, is thus made lifting Movable plate 441 carries out elevating movement operation on sliding laterally block 432, so as to the coding position of coding component 420 into Row is adjusted.

Referring to Fig. 4, coding component 420 includes coding mounting blocks 421, coding control panel 422 and labelling head 423, Coding mounting blocks 421 are mounted on lifting moving plate 441, and coding control panel 422 is mounted on coding mounting blocks 421, labelling head 423 connect with coding control panel 421, and labelling head 423 is corresponded with coding location hole 411a, and labelling head 423 is used for coding Chip in location hole 411a carries out coding operation.

It should be noted that after lifting moving plate 441 completes lift adjustment so that labelling head 423 is located at the mark of setting On code position, then labelling head 423 is controlled by coding control panel 422, to be positioned to coding by labelling head 423 Chip in the 411a of hole carries out coding operation.

Referring to Fig. 4, coding positioning device 450 include coding positioning base 451, the first coding positioning fixture block 452, Second coding positions fixture block 453 and coding fixture block actuator 454, and coding positioning base 451 is mounted on coding installation pedestal 410 On, coding fixture block actuator 454 is mounted on coding positioning base 451, and the first coding positions fixture block 452 and the positioning of the second coding Fixture block 453 is connect with coding fixture block actuator 454 respectively, and coding fixture block actuator 454 is for driving the first coding to position fixture block 452 and second coding positioning fixture block 453 carry out movement close to each other or separate, the first coding positions the mark of fixture block 452 and second Code positioning 453 structure of fixture block is identical and is symmetrically set.First coding positions one that fixture block positions fixture block close to the second coding Clamping card slot is offered on side, the surface for clamping card slot is provided with elastic clamping layer.

It should be noted that when labelling head 423 carries out mark process operation, labelling head 423 is in mark in order to prevent Position offset occurs in journey, causes the precision that mark operates not high, to be used when labelling head 423 carries out mark process operation First coding positions fixture block 452 and the second coding positioning fixture block 453 is clamped fixation to labelling head 423, so as to beat Header 423 will not influence that position offset occurs due to extraneous factor when carrying out mark process operation.

In one embodiment, flexibly positioned layer is rubber elastic layer；For another example, laterally driven part is motor；For another example, coding controls Plate is touch screen control panel；For another example, labelling head is laser marking head；For another example, coding fixture block actuator is clamping cylinder；Again Such as, elastic clamping layer is rubber layer；For another example, coding mounting blocks are cuboid structure；For another example, coding positioning base is cuboid knot Structure so, it is possible to improve whole structural strength, and can improve the processing efficiency of coding operation.

The chip coding mechanism 400 of the present invention is filled by the way that coding installation pedestal 410, coding component 420, transverse shifting is arranged 430, lifting gear 440 and coding positioning device 450 are set, to complete the coding operation to chip, thus instead of artificial mark Code mode of operation, can prevent spill tag code or repeat coding the case where occur, effectively improve production efficiency and coding processing Precision.

As shown in figure 5, being illustrated below to the concrete structure of chip detection barcode scanning mechanism 500：

Chip detect barcode scanning mechanism 500 include detection supporting rack 510, CCD imagings code reader 520, detection mounting plate 530, It is imaged reflector 540 and light source assembly 550, the detection supporting rack 510 is mounted on board 100, the detection mounting plate 530 It is mutually perpendicular on the one end for being mounted on the detection supporting rack 510 with the imaging reflector 540, the CCD is imaged code reader 520 are mounted on the detection mounting plate 530, and the light source assembly 550 is mounted on the detection supporting rack 510, and is located at The lower section of the CCD imagings code reader 520.

The light source assembly 550 includes moving block 551, light source holder 552 and multiple LED lamps bubble, the moving block 551 It is rotatably installed on the detection supporting rack 510, the light source holder 552 is mounted on the moving block 551, each described LED lamp bubble is installed in the light source holder 552.

It should be noted that after chip completes coding operation in chip coding mechanism 400, chip detects barcode scanning mechanism 500 by CCD be imaged code reader 520 to complete coding after chip carries out imaging and barcode scanning operate, to by image-forming information with Barcode scanning information corresponds, meanwhile, appearance detection can be carried out to chip by imaging, to detect on corresponding coding number Chip whether meet production and processing require, be achieved in the policer operation to each chip, when a problem occurs, can quickly look for To the scheme in the place and solution that go wrong.

The setting of imaging reflector 540 can make the imaging effect of CCD imaging code readers 520 more preferable, be rotated by adjusting The angle of block 551 can be conveniently operated adjusting, further so as to adjust the direction of illumination that LED lamp steeps in light source holder The imaging effect for improving CCD imaging code readers 520 is more preferable.

As shown in fig. 6, being illustrated below to the concrete structure of chip braid laminating mechanism 600：

A kind of chip braid laminating mechanism 600 includes：Press workbench 610, braid pressing transmission device 620, pressing material Block feeding device 630 and material block pressing device 640, braid press transmission device 620 and are mounted on pressing workbench 610, pressing The direction of transfer that material block feeding device 630 and material block pressing device 640 press transmission device 620 along braid is set in sequence in pressing On workbench 610.

Referring to Fig. 6, it includes that pressing conveyer belt 621, first presses delivery roller that braid, which presses transmission device 620, 622, the second pressing delivery roller 623 and pressing transmission actuator 624, the first pressing pressing transmission of delivery roller 622 and second Idler wheel 623 be rotatably installed in respectively pressing workbench 610 on, pressing conveyer belt 621 respectively with first pressing delivery roller 622 and Second pressing delivery roller 623 connects, and pressing transmission actuator 624 is connect with the first pressing delivery roller 622, and pressing transmission is driven Moving part 624 is for driving the first pressing delivery roller 622 to be rotated relative to pressing workbench 610, the first pressing delivery roller 622 are rotated for driving pressing conveyer belt 624 and second to press delivery roller 623.

Further, the first pressing delivery roller 622 and second is provided with pressing support cross between pressing delivery roller 623 Item, pressing support horizontal stripe are mounted on pressing workbench 610 on the one side of pressing conveyer belt 621, pressing support horizontal stripe position In the lower section of pressing conveyer belt 621.

It should be noted that pressing conveyer belt 621 is used to carry out reception transmission to chip conveying jig 321, when chip is defeated After sending jig 321 to complete coding and barcode scanning detection operation at chip coding mechanism 400 and chip detection barcode scanning mechanism 500, into Enter the stitching operation that material block and braid is carried out at chip braid laminating mechanism 600.Specifically, chip conveying jig 321 enters pressure After closing conveyer belt 621, the driving of actuator 624 first pressing delivery roller 622 is transmitted by pressing and is rotated, to dynamic pressure It closes conveyer belt 621 and operation is transmitted to chip conveying jig 321 so that chip conveying jig 321 can be transferred into pressing Expect on block feeding device 630 and material block pressing device 640.Pressing support horizontal stripe setting can chip convey jig 321 into Pressing conveyer belt 621 is supported when row material block stitching operation, to prevent pressing conveyer belt 621 from deforming so that stitching operation There is error, thereby guarantees that the precision of braid stitching operation.

Referring to Fig. 6, pressing material block feeding device 630 include material block conveyer belt 631, material block transmission actuator 632, Expect block pushing plate 633, material block push actuator 634, material block feeding pressing plate 635 and material block absorbent module 636, expects block conveyer belt 631 are mounted on pressing workbench 610, and material block conveyer belt 631 is located at the side of pressing conveyer belt 621, and material block transmits actuator 632 connect with material block conveyer belt 631, and material block transmission actuator 632 is for driving material block conveyer belt 631 in pressing workbench 610 Upper carry out translatory movement, material block pushing plate 633 are slidably mounted on pressing workbench 610, material block push actuator 634 and material block Pushing plate 633 connects, and material block push actuator 634 is close for driving material block pushing plate 633 to be carried out on pressing workbench 610 Or the reciprocating far from material block conveyer belt 631 so that on 20 feeding of material block to pressing conveyer belt on material block conveyer belt 631 621, material block feeding pressing plate 635 is arranged on pressing workbench 610, and material block feeding pressing plate 635 is located at the upper of pressing conveyer belt 621 Side, material block absorbent module 636 are mounted on material block feeding pressing plate 635.Expect that block absorbent module 636 includes that multiple material blocks adsorb gas nozzle 636a, it is each to expect that block absorption gas nozzle 636a is arranged at intervals on material block feeding pressing plate 635.

Further, transmission limited block 631a is provided on material block conveyer belt 631, transmission limited block 631a is located at material block and passes On the output end for sending band 631, after expecting that block conveyer belt 631 will expect the transmission of block 20 in place, transmission limited block 631a can be to expecting block 20 position is defined, and being thus material block 20 can accurately feeding extremely press on conveyer belt 621.

Further, push horizontal stripe 633a is provided on material block pushing plate 633, push horizontal stripe 633a is located at material block pushing plate 633 on the one side of material block conveyer belt 631, and push horizontal stripe 633a is offered on the one side of material block conveyer belt 631 Limiting groove is pushed, push limiting groove can carry out position limit when expecting that block pushing plate 633 carries out push operation to material block 20 It is fixed, prevent material block 20 from position offset occurring during push.Push horizontal stripe 633a setting can more accurately with material block 20 are abutted, to enable material block to be smoothly pushed to pressing conveyer belt 621.

It should be noted that material block 20 is expected by expecting that block conveyer belt 631 is sent on 633 corresponding position of block pushing plate, Material block pushing plate 633 is moved under the driving that material block pushes actuator 634, to expect the material block on block conveyer belt 631 20 push on pressing conveyer belt 621, and material block feeding pressing plate 635 is arranged in the top of pressing conveyer belt 621, when material block 20 is pushed away When sending to pressing conveyer belt 621, material block absorbent module 636 is adsorbed gas nozzle 636a by multiple material blocks and is adsorbed to material block 20 Operation so that material block 20 is attracted on material block feeding pressing plate 635.It is passed when chip conveys jig 321 by pressing conveyer belt 621 After being sent to position, material block adsorbs gas nozzle 636a and is adjusted to outlet operation from suction operation, thus will expect the material on block feeding pressing plate 635 Block 20 is placed and is pressed in advance on chip conveying jig 321, completes the feeding precompressed manipulator of material block 20, chip conveys jig 321 Material block is carried out into pan feeding block pressing device 640 compress operation under the transmission of pressing conveyer belt 621.Expect block feeding pressing plate 635 with The setting of material block absorbent module 636 is not only able to make on 20 accurate feeding of material block to chip conveying jig 321, while can complete The pre- press operation for expecting block prevents chip conveying jig 321 from expecting that position offset occurs for block in transmit process.

Referring to Fig. 6, material block pressing device 640 includes that material block compresses pedestal 641, material block compresses holder 642, compresses Elevator 643 and compression lifting actuator 644, material block compress the setting of pedestal 641 on pressing workbench 610, and material block compresses branch The setting of frame 642 is compressed in material block on pedestal 641, and compression lifting actuator 644 is mounted on material block and compresses on holder 642, and compression rises Drop actuator 644 is connect with compression elevator 643, and it is close for driving compression elevator 643 to carry out to compress lifting actuator 644 Or the reciprocating far from pressing conveyer belt 621.

Further, it compresses and is provided with multiple compression bullets on one side of the elevator 643 far from compression lifting actuator 644 Property column 643a, it is each compress elastic 643a and be arranged at intervals on compress on elevator 643.

Referring to Fig. 6, material block pressing device 640 further includes that the first compression positioning component 645 and second compresses positioning Component 646, the first compression positioning component 645 and second compress two that positioning component 646 is separately positioned on material block compression pedestal 641 End, the first compression positioning component 645 is identical as the second compression 646 structure of positioning component and is symmetrically set.First compression is fixed Hyte part 645 includes compressing positioning plate 645a and compressing Locating driver part 645b, compresses positioning plate and connects with Locating driver part is compressed It connects, compresses Locating driver part and be used to drive compression positioning plate to be carried out closer or far from pressing conveyer belt on material block compression pedestal Reciprocating.

It should be noted that after chip conveying jig 321 transmits in place, compresses positioning plate 645a and compressing Locating driver It is moved under the driving of part 645b, is defined to convey the position of one end of jig 321 to chip, similarly, the second pressure The position for the other end that tight positioning component 646 conveys chip jig 321 is defined, to keep chip conveying jig 321 solid It is scheduled between the first compression positioning component 645 and second compression positioning component 646, chip conveys jig 321 and completes after fixing, pressure Tight lifting actuator 644 driving compresses elevator 643 and carries out downward motion, to by compressing each compression on elevator 643 Elastic 643a into operation is compressed, thus makes material block 20 be attached in braid, to make the material block on chip conveying jig 321 Neat being arranged in of chip in braid is expected on block, in this way, completing chip braid stitching operation.

The chip braid laminating mechanism 600 of the present invention presses workbench 610 by setting, braid presses transmission device 620, Pressing material block feeding device 630 and material block pressing device 640, to complete on the chip pressing after braid to material block, thus Instead of artificial mode of operation, working efficiency can be effectively provided and enable the chip to proper alignment on material block.

In one embodiment, pressing transmission actuator is motor；For another example, pressing support horizontal stripe is cuboid structure；For another example, expect It is motor gear driving structure that block, which transmits actuator,；For another example, material block push actuator is cylinder；For another example, lifting actuator is compressed Cylinder is driven for lifting；For another example, elastic is respectively compressed in "-" type to be arranged in compression elevator；For another example, it is rubber to compress elastic Glue elasticity column；For another example, it is compression cylinder to compress Locating driver part, so, it is possible to improve whole structural strength so that chip is compiled Band pressing process operation precision higher.

Compared with prior art, the present invention has at least the following advantages：

The thermistor chip braid equipment 10 of the present invention is defeated by the way that board 100, braid transport mechanism 200, chip is arranged Precompressed mechanism 300, chip coding mechanism 400, chip detection barcode scanning mechanism 500 and chip braid laminating mechanism 600 are sent, to complete The braid process operation of pairs of thermistor chip, thus instead of the artificial mode of production, can effectively improve production efficiency and The quality of production.

Several embodiments of the invention above described embodiment only expresses, 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 the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of thermistor chip braid equipment, which is characterized in that including：Board, braid transport mechanism, chip convey precompressed Mechanism, chip coding mechanism, chip detection barcode scanning mechanism and chip braid laminating mechanism, the braid transport mechanism, the core Piece conveys precompressed mechanism, chip coding mechanism, chip detection barcode scanning mechanism and the chip braid laminating mechanism point It An Zhuan not be on the board；

The braid transport mechanism is used for braid feeding to chip conveying precompressed mechanism, and the chip conveys preformer Structure is used to be delivered to chip coding mechanism to chip, and chip coding mechanism is used to carry out stamp operation to chip, Chip detection barcode scanning mechanism is used to carry out barcode scanning operation, the chip braid pressure to the chip in chip coding mechanism Mechanism is closed to be used for the chip pressing after barcode scanning in braid material block；

The braid transport mechanism includes feeding supporting rack, feeding rotation axis, feeding actuator, the first feeding limit clamping plate, the Two feedings limit clamping plate, limitation locking component and feeding guidance set, and the feeding supporting rack is mounted on the board, described Feeding rotation axis is rotatably installed on the feeding supporting rack, and the feeding actuator rotates axis connection with the feeding, described Feeding actuator is for driving the feeding rotation axis to be rotated relative to the feeding supporting rack, the first feeding position limiting clamp Plate and second feeding limit clamping plate are symmetrically mounted in the feeding rotation axis, the first feeding limit clamping plate with It is provided with braid installing zone between the second feeding limit clamping plate, the braid installing zone is described for installing braid reel Limitation locking component is mounted in the feeding rotation axis, and the feeding guidance set is mounted on the feeding supporting rack close to institute On the one side for stating feeding rotation axis；

The first feeding limit clamping plate is provided with multiple positioning convex columns on the one side that second feeding limits clamping plate, The second feeding limit clamping plate is equipped with multiple snubber elastomeric parts on the one side that first feeding limits clamping plate, respectively The positioning convex column is corresponded with each snubber elastomeric part；

The limitation locking component includes limit casing and adjusting screw, and it is remote that the limit casing is screwed on the feeding rotation axis On one end from the feeding actuator, the adjusting screw is screwed togather with the limit casing；

The feeding guidance set includes the first feeding guide roller and the second feeding guide roller, the first feeding orienting roll Wheel is mutually parallel with the second feeding guide roller on the feeding supporting rack, and the feeding rotation axis is located at described The lower section of first feeding guide roller and the second feeding guide roller.

2. thermistor chip braid equipment according to claim 1, which is characterized in that the feeding actuator is electricity Machine.

3. thermistor chip braid equipment according to claim 1, which is characterized in that each positioning convex column surrounds institute State the center circular array distribution of the first feeding limit clamping plate.

4. thermistor chip braid equipment according to claim 3, which is characterized in that the positioning convex column is cylinder Structure.

5. thermistor chip braid equipment according to claim 1, which is characterized in that each snubber elastomeric part surrounds The center circular array distribution of the second feeding limit clamping plate.

6. thermistor chip braid equipment according to claim 5, which is characterized in that the snubber elastomeric part is bullet Spring.

7. thermistor chip braid equipment according to claim 1, which is characterized in that the first feeding guide roller It is one-way rolling with the second feeding guide roller.

8. thermistor chip braid equipment according to claim 1, which is characterized in that first feeding limits clamping plate For disc structure.

9. thermistor chip braid equipment according to claim 1, which is characterized in that second feeding limits clamping plate For disc structure.

10. thermistor chip braid equipment according to claim 1, which is characterized in that the limit casing is straight spiral shell Line sleeve.