CN108637542A - Thermistor chip welding equipment - Google Patents

Abstract

A kind of thermistor chip welding equipment includes：Weld board, chip feed mechanism, chip transmission spot-welding mechanism and chip switching mechanism.Chip feed mechanism is used to chip feeding to chip transmitting spot-welding mechanism, chip transmission spot-welding mechanism is for being subjected to chip, chip transmits there are two spot-welding mechanism settings, chip switching mechanism is located between two chips transmission spot-welding mechanisms, and chip switching mechanism, which is used to the chip overturning on one of chip transmission spot-welding mechanism being carried to another chip, transmits spot-welding mechanism.The thermistor chip welding equipment of the present invention welds board, chip feed mechanism, chip by setting and transmits spot-welding mechanism and chip switching mechanism, so as to complete the positive and negative welding processing operation of thermistor chip, thus instead of artificial welding manner, the production efficiency of welding processing and the precision of welding processing can be effectively improved.

Description

Thermistor chip welding equipment

Technical field

The present invention relates to thermistors to produce and process technical field, is set more particularly to a kind of welding of thermistor chip It is standby.

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.

Thermistor needs to be subjected to the chip of thermistor, traditional welding during manufacturing Mode is to use manually to be welded, and worker is welded in the front of thermistor chip first by welding gun, is then led to again It crosses welding gun to be welded in the reverse side in thermistor chip, to complete welding operation.Traditional welding manner not only produces It is inefficient, and be easy to cause thermistor chip since temperature is higher in the welding process and be damaged, to influence temperature-sensitive The total quality of resistance processing.

Invention content

The purpose of the present invention is overcoming shortcoming in the prior art, providing one kind can replace manually to thermistor Chip is subjected to, while can improve welding precision and the thermistor chip welding equipment of welding quality.

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

A kind of thermistor chip welding equipment, which is characterized in that including：Board, chip feed mechanism, chip is welded to pass Send spot-welding mechanism and chip switching mechanism, the chip feed mechanism, chip transmission spot-welding mechanism and chip overturning Mechanism is separately positioned on the welding board；

The chip feed mechanism is used to chip feeding to the chip transmitting spot-welding mechanism, and the chip transmits point Welding mechanism is for being subjected to chip, and there are two the chip transmission spot-welding mechanism settings, the chip switching mechanism Between two chip transmission spot-welding mechanisms, the chip switching mechanism is used to one of them chip transmitting point Chip overturning on welding mechanism is carried on another chip transmission spot-welding mechanism；

The chip feed mechanism includes chip transfer apparatus, chip guider and chip pusher, the chip Transmission device includes chip transmission holder, chip conveyer belt and chip transmission actuator, and the chip conveyer belt is mounted on described Chip transmits on holder, and the chip conveyer belt is connect with chip transmission actuator, and the chip transmission actuator is used for The relatively described chip transmission holder of the chip conveyer belt is driven to be moved；

The chip guider includes chip guide pressing plate, chip guiding pinboard, the first limited block and the second limit Block, the chip guide pressing plate are mounted on chip transmission holder, and the chip conveyer belt is located at the chip and is oriented to pressure Between plate and chip transmission holder, the chip guide pressing plate is offered on the one side of the chip conveyer belt and is led To limiting slot, the extending direction of the guide and limit slot is identical as the direction of transfer of chip conveyer belt, and the chip is oriented to Chip feeding groove is further opened on pressing plate, the chip feeding groove is connected to the guide and limit slot, chip feeding groove position In the chip guide pressing plate on the one side of the chip conveyer belt discharge end, the chip is oriented to pinboard and is mounted on The chip guide pressing plate is on the one side of the chip feeding groove, first limited block and second limited block point Not An Zhuan the chip be oriented on pinboard, it is logical that chip feeding is formed between first limited block and second limited block Road, chip feeding channel are connected to the chip feeding groove；

The chip pusher includes chip push actuator, chip promotion sliding block and chip catch bar, the chip It pushes actuator to be mounted on one side of the chip guide pressing plate far from the chip conveyer belt, the chip push driving Part pushes sliding block to connect with the chip, and the chip push actuator is for driving the chip to push sliding block along the core The extending direction of piece feeding groove carries out reciprocating, and the chip catch bar pushes sliding block to connect with the chip, the core Piece catch bar is located in the chip feeding groove, and the chip pushes sliding block for driving the chip catch bar in the chip Reciprocating is carried out in feeding groove；

The chip pushes sliding block to be provided with slide-and-guide column, the sliding on the one side of the chip feeding groove Guide post is slidably fastened in the chip feeding groove；

The chip catch bar offers promotion bayonet, the promotion bayonet on one end far from chip promotion sliding block For carrying out engaging limit to the chip in the chip feeding groove.

The chip transmission actuator is motor gear transfer structure in one of the embodiments,.

The chip conveyer belt is antistatic transfer belt in one of the embodiments,.

The chip guide pressing plate is rectangular parallelepiped structure in one of the embodiments,.

It is rectangular parallelepiped structure that the chip, which is oriented to pinboard, in one of the embodiments,.

The chip push actuator is push cylinder in one of the embodiments,.

The slide-and-guide column is cylindrical structure in one of the embodiments,.

The promotion bayonet is arc bayonet in one of the embodiments,.

The surface for pushing bayonet is provided with buffering convex particle agglomerate in one of the embodiments,.

The buffering convex particle agglomerate is silica gel convex particle agglomerate in one of the embodiments,.

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

The thermistor chip welding equipment of the present invention welds board, chip feed mechanism, chip by setting and transmits point Welding mechanism and chip switching mechanism, so as to complete the positive and negative welding processing operation of thermistor chip, thus instead of people The welding manner of work can effectively improve the production efficiency of welding processing and the precision of welding processing.

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 welding equipment of one embodiment of the invention；

Fig. 2 is the structural schematic diagram of the chip feed mechanism of the thermistor chip welding equipment in Fig. 1；

Fig. 3 is the structural schematic diagram of the chip apparatus for welding and positioning of the thermistor chip welding equipment in Fig. 1；

Fig. 4 is the structural schematic diagram of the welding transfer assembly of the chip apparatus for welding and positioning in Fig. 3；

Fig. 5 is the knot of the weldment limit assembly of the weldment feeding device of the thermistor chip welding equipment in Fig. 1 Structure schematic diagram；

Fig. 6 is that the weldment of the weldment feeding device of the thermistor chip welding equipment in Fig. 1 carries the knot of component Structure schematic diagram；

Fig. 7 is the structural schematic diagram of the die-bonding device of the thermistor chip welding equipment in Fig. 1；

Fig. 8 is the structural schematic diagram of the chip switching mechanism of the thermistor chip welding 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 welding equipment, including：Weld board, chip feed mechanism, chip Spot-welding mechanism and chip switching mechanism are transmitted, the chip feed mechanism, chip transmission spot-welding mechanism and the chip turn over Rotation mechanism is separately positioned on the welding board；The chip feed mechanism is used to chip feeding to the chip transmitting point On welding mechanism, the chip transmission spot-welding mechanism is for being subjected to chip, the chip transmission spot-welding mechanism setting There are two, the chip switching mechanism is located between two chip transmission spot-welding mechanisms, and the chip switching mechanism is used for Chip overturning on one of them described chip transmission spot-welding mechanism is carried on another chip transmission spot-welding mechanism；Institute It includes chip transfer apparatus, chip guider and chip pusher, the chip transfer apparatus packet to state chip feed mechanism Chip transmission holder, chip conveyer belt and chip transmission actuator are included, the chip conveyer belt is mounted on chip transmission branch On frame, the chip conveyer belt is connect with chip transmission actuator, and the chip transmission actuator is for driving the core The relatively described chip transmission holder of piece conveyer belt is moved；The chip guider includes that chip guide pressing plate, chip are led To pinboard, the first limited block and the second limited block, the chip guide pressing plate is mounted on chip transmission holder, described Chip conveyer belt is located between the chip guide pressing plate and chip transmission holder, and the chip guide pressing plate is close to described Guide and limit slot, the extending direction of the guide and limit slot and the chip conveyer belt are offered on the one side of chip conveyer belt Direction of transfer it is identical, be further opened with chip feeding groove in the chip guide pressing plate, the chip feeding groove and the guiding Limiting slot is connected to, and the chip feeding groove is located at one side of the chip guide pressing plate close to the chip conveyer belt discharge end On, the chip is oriented to pinboard and is mounted on the chip guide pressing plate on the one side of the chip feeding groove, described First limited block and second limited block are separately mounted to the chip and are oriented on pinboard, first limited block with it is described Chip feeding channel is formed between second limited block, chip feeding channel is connected to the chip feeding groove；The chip Pusher includes chip push actuator, chip promotion sliding block and chip catch bar, and the chip push actuator is mounted on On one side of the chip guide pressing plate far from the chip conveyer belt, the chip push actuator is pushed with the chip Sliding block connects, and the chip push actuator is used to drive the extension side that the chip pushes sliding block along the chip feeding groove To reciprocating is carried out, the chip catch bar pushes sliding block to connect with the chip, and the chip catch bar is located at described In chip feeding groove, the chip pushes sliding block, and for driving the chip catch bar, the interior progress of hopper is reciprocal on the chip Formula moves；The chip pushes sliding block to be provided with slide-and-guide column, the sliding on the one side of the chip feeding groove Guide post is slidably fastened in the chip feeding groove；The chip catch bar pushes one end of sliding block far from the chip On offer promotion bayonet, the promotion bayonet to the chip in the chip feeding groove for carrying out engaging limit.The present invention Thermistor chip welding equipment board, chip feed mechanism, chip are welded by setting transmit spot-welding mechanism and chip and turn over Rotation mechanism, so as to complete the positive and negative welding processing operation of thermistor chip, thus instead of artificial welding manner, energy Enough effectively improve the production efficiency of welding processing and the precision of welding processing.

In order to preferably be illustrated to above-mentioned thermistor chip welding equipment, to more fully understand above-mentioned thermistor The design of chip welding device.As shown in Figure 1, a kind of thermistor chip welding equipment 10 includes：Weld board 100, chip Feed mechanism 200, chip transmission spot-welding mechanism 300 and chip switching mechanism 400, chip feed mechanism 200, chip transmit spot welding Mechanism 300 and chip switching mechanism 400 are separately positioned on welding board 100.

Chip feed mechanism 200 is used to chip feeding to chip transmitting spot-welding mechanism 300, and chip transmits spot-welding mechanism 300 for being subjected to chip, and chip transmits there are two the settings of spot-welding mechanism 300, and chip switching mechanism 400 is located at two Between a chip transmission spot-welding mechanism 300, chip switching mechanism 400 is used to one of chip transmitting spot-welding mechanism 300 Chip overturning be carried on another chip transmission spot-welding mechanism 300.

It is sent on transmission spot-welding mechanism 300 it should be noted that chip carries out feeding by chip feed mechanism 200, After transmission spot-welding mechanism 300 receives chip, the one of welding surface of chip is welded, after completing welding operation, chip Switching mechanism 400 is sent to the chip overturning being welded on spot-welding mechanism 300 is transmitted on another spot-welding mechanism 300, so Another welding surface of chip is subjected to by another spot-welding mechanism 300 afterwards, to complete the positive and negative weldering to chip Connect operation.

As shown in Fig. 2, chip feed mechanism 200 is pushed away including chip transfer apparatus 210, chip guider 220 and chip It includes that chip transmission holder 211, chip conveyer belt 212 and chip transmit actuator to send device 230, chip transfer apparatus 210 213, chip conveyer belt 212 is mounted on chip transmission holder 211, and chip conveyer belt 212 connects with chip transmission actuator 213 It connects, chip transmission actuator 213 is for driving 212 opposite chip of chip conveyer belt transmission holder 211 to be moved.

In the present embodiment, chip transmission actuator is motor gear transfer structure, is tied to be transmitted by motor gear Structure driving chip conveyer belt 212 is moved, and feeding transmission is carried out from there through 212 driving chip of chip conveyer belt.Chip passes It is antistatic transfer belt to send band 212, so as to play the role of antistatic, reduces chip and generates electrostatic in transmit process.

In order to solve the problems, such as that chip is stacked on top of each other in transmit process chips, and enable the chip to along direction initialization It is transmitted, multiple transmission vibrating mass is installed on the transmission one side of the holder 211 far from the chip conveyer belt 212 Multiple transmission vibrator 211b are mounted on 211a, each transmission vibrating mass 211a, each transmission vibrator 211b is in "-" type is arranged on the transmission vibrating mass 211a, and each transmission vibrating mass 211a is along the chip conveyer belt 212 Direction of transfer be arranged, vibration proof blob of viscose 211c is installed on chip transmission holder 211.

It should be noted that while chip carries out feeding transmission by chip conveyer belt 212, it is each to transmit vibrating mass 211a On transmission vibrator 211b carry out vibration operation, to make chip on chip conveyer belt 212 that vibration operation occur so that phase The chip separation being mutually overlapped.Meanwhile the vibration frequency of each transmission vibrator 211b on each transmission vibrating mass 211a is passed step by step Increase so that the chip on chip conveyer belt 212 is moved along the direction that vibration frequency enhances, to make the arc-shaped biography of chip It sending to the feed end of chip guider 220, so so that chip orderly in turn can enter in chip guider 220, And blockage phenomenon, chip it will not transmit and vibration proof glue is installed on holder 211 on the feed end of chip guider 220 Block 211c, can improve chip transmission holder 211 whole vibrationproof fatigue resistance so that chip can along setting direction of transfer into Row transfer operation in an orderly manner.

Referring to Fig. 2, chip guider 220 includes that chip guide pressing plate 221, chip are oriented to pinboard 222, the One limited block 223 and the second limited block 224, chip guide pressing plate 221 are mounted on chip transmission holder 211, chip conveyer belt 212 are located between chip guide pressing plate 221 and chip transmission holder 211, and chip guide pressing plate 221 is close to chip conveyer belt 212 One side on offer guide and limit slot 221a, the transmission of the extending direction and chip conveyer belt 212 of guide and limit slot 221a Direction is identical, and chip feeding groove 221b, chip feeding groove 221b and guide and limit slot are further opened in chip guide pressing plate 221 221a is connected to, and chip feeding groove 221b is located at chip guide pressing plate 221 on the one side of 212 discharge end of chip conveyer belt, Chip is oriented to pinboard 222 and is mounted on chip guide pressing plate 221 on the one side of chip feeding groove 221b, the first limited block 223 and second limited block 224 be separately mounted to chip be oriented to pinboard 222 on, the first limited block 223 and the second limited block 224 Between form chip feeding channel 225, chip feeding channel 225 is connected to chip feeding groove 221b.

In the present embodiment, chip guide pressing plate is rectangular parallelepiped structure；For another example, it is cuboid knot that chip, which is oriented to pinboard, Structure；It so, it is possible to improve whole structural strength so that the operation of chip feeding makes more smooth sequential.

It should be noted that when chip is transmitted to chip guider 220 by chip conveyer belt 212, chip is oriented to pressure Plate 221 stops a part of chip, in addition, matching resultant motion by be arranged each transmission vibrating mass 211a so that chip to The direction of guide and limit slot 221a is moved, and to be further transmitted operation by guide and limit slot 221a, is thus made One single chip can be sent on chip feeding groove 221b from guide and limit slot 221a.When chip reaches chip feeding groove 221b Afterwards, push operation is carried out to chip by chip pusher 230, to make chip enter core along chip feeding channel 225 Piece transmits in spot-welding mechanism 300, and the first limited block 223 and the second limited block 224 that chip is oriented on pinboard 222 play position The effect of restriction so that chip can be transmitted accurately on spot-welding mechanism 300 feeding to chip.

Referring to Fig. 1, chip pusher 230 include chip push actuator 231, chip push sliding block 232 and Chip catch bar 233, chip push actuator 231 and are mounted on one side of the chip guide pressing plate 221 far from chip conveyer belt 212 On, chip pushes actuator 231 and pushes sliding block 232 to connect with chip, and chip push actuator 231 is slided for driving chip to push Block 232 carries out reciprocating along the extending direction of chip feeding groove 221b, and chip catch bar 232 pushes sliding block with chip 232 connections, chip catch bar 233 are located in chip feeding groove 221b, and chip pushes sliding block 232 for driving chip catch bar 233 carry out reciprocating in chip feeding groove 221b.

Further, chip pushes sliding block 232 to be provided with slide-and-guide column on the one side of chip feeding groove 221b (not shown), slide-and-guide column are slidably fastened in chip feeding groove 221b；Chip catch bar 233 is pushed far from chip and is slided It is offered on one end of block 232 and pushes bayonet (not shown), bayonet is pushed to be used to carry out the chip in chip feeding groove 221b Engaging limit.

In the present embodiment, chip push actuator is push cylinder；For another example, slide-and-guide column is cylindrical structure；Again Such as, it is arc bayonet to push bayonet；For another example, the surface of bayonet is pushed to be provided with buffering convex particle agglomerate；For another example, buffering convex particle agglomerate is silicon Glue convex particle agglomerate；It so, it is possible to improve whole structural strength, and the push operation of chip is more accurate.

It should be noted that after chip is located at chip feeding groove 221b, chip pushes 231 driving chip of actuator and pushes Sliding block 232 is slided along chip feeding groove 221b, and to drive chip catch bar 233 to carry out push campaign, chip pushes Bar 233 pushes bayonet by setting, is defined so as to the position to chip so that chip can be in chip catch bar It carries out pushing feeding operation under 233 drive.The setting of slide-and-guide column can make chip push the slide of sliding block 232 more Add smooth, pushes the setting of bayonet, the position of chip can be defined, to improve the precision of chip feeding.

The chip feed mechanism 200 of the present invention is by being arranged chip transfer apparatus 210, chip guider 220 and chip Pusher 230, thus instead of artificial mode of operation, effectively improves the upper of chip to complete the feeding operation to chip Expect efficiency and feeding precision.

As shown in figure 3 in conjunction with Fig. 1, in the following, the concrete structure for transmitting spot-welding mechanism to chip illustrates：

A kind of chip transmission spot-welding mechanism 300 includes：Chip apparatus for welding and positioning 310, weldment feeding device 320 and core Welding device 330, weldment feeding device 320 are mounted on the side of chip apparatus for welding and positioning 310, die-bonding device 330 are mounted on chip apparatus for welding and positioning 310, and chip apparatus for welding and positioning 310 is used to carry out welding positioning and biography to chip It send, weldment feeding device 320 is used for weldment feeding to chip apparatus for welding and positioning 310, and die-bonding device 330 is used It is subjected in the chip on chip apparatus for welding and positioning 310.

As shown in figure 3, chip apparatus for welding and positioning 310, which includes welding positioning table 311, first, welds locating piece 312, second Locating piece 313, welding Locating driver part 314 and welding transfer assembly 315 are welded, the first welding locating piece 312 is fixedly mounted on It welds on positioning table 311, the second welding locating piece 313 is slidably mounted on welding positioning table 311, the second welding locating piece 313 It is connect with welding Locating driver part 314, welding Locating driver part 314 is for driving the second welding locating piece 313 to be positioned in welding The reciprocating closer or far from the first welding locating piece 312 is carried out on platform 311, welding transfer assembly 315 is arranged first Between welding the welding locating piece 313 of locating piece 312 and second, welding transfer assembly 315 is used for the core on welding positioning table 311 Piece is transmitted operation.

Further, the side of the first welding locating piece 312 offers half slot 312a of the first limit, the second welding locating piece 313 side, which offers the second limit half slot 313a, the first half slot 312a of limit and with second limits half slot 313a and correspond, to be set It sets；

In the present embodiment, the first half slot of limit and the second half slot of limit are both provided with multiple, the welding Locating driver Part 314 is clamping cylinder.

It should be noted that chip feed mechanism 200 is by chip feeding to chip apparatus for welding and positioning 310, at this point, core Piece is located between the first welding locating piece 312 and second on welding positioning table 311 welds locating piece 313, when being welded When connecing operation, welding Locating driver part 314 drives the second welding locating piece 313 to be moved, to which chip is pushed to first It welds on locating piece 312, at this point, the first welding locating piece 312 and second, which welds locating piece 313, passes through the first half slot 312a of limit And second limit half slot 313a the position of chip is defined, thus to chip carry out position fix so that chip exists Position offset will not occur in welding process, ensure the welding precision of chip.

As shown in figure 4, welding transfer assembly 315 includes welding transmission mounting plate 315a, welding transmission sliding block 315b, welding Elevator 315c, welding transmission actuator 315d, welding transmission lifters 315e and multiple welding transmission absorption bar 315f are transmitted, Welding transmission sliding block 315b is slidably mounted on welding transmission mounting plate 315a, and welding transmission mounting plate 315a is mounted on welding and passes It send on elevator 315c, welding transmission actuator 315d is connect with welding transmission sliding block 315b, and welding transmission actuator 315d is used In driving welding transmission sliding block 315b to carry out reciprocating on welding transmission mounting plate 315a, welding transmits lifters 315e It is connect with welding transmission elevator 315c, welding transmission lifters 315e is close for driving welding transmission elevator 315c to carry out Or the movement far from welding positioning table 311, each welding transmission absorption bar 315f are arranged at intervals on welding transmission sliding block 315b, respectively One end of welding transmission absorption bar 315f is between the first welding locating piece 312 and second welds locating piece 313.Welding transmission Absorption mounting hole has been offered on absorption bar 315f, has adsorbed in mounting hole and absorption gas nozzle is installed；

In the present embodiment, welding transmission actuator is welding transmission cylinder.Welding transmission lifters are lifting cylinder.

It is used it should be noted that completing welding operation on chip apparatus for welding and positioning 310 when chip, welding transmission lifting Part 315e driving welding transmission elevator 315c carries out ascending motion so that absorption gas nozzle on welding transmission absorption bar 315f with Chip abuts, and then carries out absorption fixation to chip by adsorbing gas nozzle, after completion absorption is fixed, the second welding locating piece 313 Movement, from making the first welding locating piece 312 and second welding locating piece 313 be detached with chip, at this point, welding transmission actuator 315d driving welding transmission sliding block 315b movements, to which the chip being welded movement is placed on half slot of next first limit Between half slot 313a of the limits of 312a and second, the transfer operation to chip is thus completed.

In conjunction with shown in Fig. 1, Fig. 5 and Fig. 6, weldment feeding device 320 includes weldment elevating hopper 321, weldment transmission Track 322, weldment limit assembly 323 and weldment carry component 324, and weldment elevating hopper 321 is used for weldment in turn On feeding to weldment transmission track 322, weldment transmission track 322 is connected with the discharge end of weldment elevating hopper 321, welding Part limit assembly 323 is used to carry out position restriction, weldment limit assembly 323 to the weldment on weldment transmission track 322 Positioned at one end of weldment transmission track 322, weldment is carried component 324 and is used for the welding on weldment transmission track 322 Part is carried on chip apparatus for welding and positioning 310.

As shown in figure 5, weldment limit assembly 323 includes weldment postive stop baffle 323a and barrier driving cylinder 323b, The weldment postive stop baffle 323a is mounted on one of the weldment transmission track 322 far from the weldment elevating hopper 321 On end, the barrier driving cylinder 323b is connect with the weldment postive stop baffle 323a, and the barrier driving cylinder 323b is used It is slided on the weldment transmission track 322 in driving the weldment postive stop baffle 323a.

As shown in fig. 6, it includes carrying supporting table 324a, carrying rotating disc 324b, carry driving that weldment, which carries component 324, Part 324c, first carry bull stick 324d, the second carrying bull stick 324e and third and carry bull stick 324f, carry rotating disc 324b rotations It mounted on carrying on supporting table 324a, carries actuator 324c and is connect with rotating disc 324b is carried, carry actuator 324c and be used for Driving is carried the opposite supporting table 324a that carry of rotating disc 324b and is rotated, and the first carrying bull stick 324d, second, which carry, to be turned Bar 324e and third are carried bull stick 324f and are separately positioned on carrying rotating disc 324b, carry actuator 324c and are carried for driving Rotating disc 324b is opposite, and the supporting table 324a that carries is rotated so that first carries bull stick 324d, the second carrying bull stick 324e and third carry bull stick 324f and pass through weldment transmission track 322 and welding positioning table 311 respectively.

In the present embodiment, the first carrying bull stick, the second carrying bull stick and third, which are carried, is mounted on carrying suction on bull stick Attached gas nozzle carries absorption gas nozzle and is used to the weldment on weldment transmission track carrying out absorption fixation；For another example, weldment feeding Bucket is vibrating disk；For another example, it is motor to carry actuator, so, it is possible to improve whole structural strength, and the feeding effect of weldment Rate and precision higher.

It should be noted that weldment is by weldment elevating hopper 321 vibration feeding to weldment transmission track 322, Weldment is enable to carry out transfer operation on weldment transmission track 322 in turn.By in weldment transmission track 322 Weldment postive stop baffle 323a is set on one end, is defined so as to the position to weldment, to be that weldment can It is accurately positioned in the upper discharge position of weldment transmission track 322.After completing the feeding operation of a weldment, barrier driving Cylinder 323b driving weldment postive stop baffle 323a movements, to be abutted to next weldment, thus, it is possible to prevent down One weldment rapidly enters in the upper discharge position of weldment transmission track 322.

When weldment is located in the upper discharge position of weldment transmission track 322, carries rotating disc 324b and driven by carrying Moving part 324c drives are rotated, to make the first carrying bull stick 324d, second carry bull stick 324e or third carrying bull stick 324f by weldment transmission track 322 upper discharge position top, then by first carry bull stick, second carry bull stick or Third carries the carrying absorption gas nozzle butt welding fitting on bull stick and carries out absorption fixation, thus by weldment from weldment transmission track 322 carryings are transferred on chip apparatus for welding and positioning 310, thus complete the carrying transfer operation of weldment.

As shown in fig. 7, die-bonding device 330 includes Weld-supporting seat 331, welding lifting slider 332, welding lifting drive Moving part 333, welding control panel 334, the first temperature conduction block 335, second temperature conductive block 336, plumb joint 337 and temperature sense Device 338, welding lifting slider 332 are mounted on Weld-supporting seat 331, welding lifting actuator 333 and welding lifting slider 332 Connection, welding lifting actuator 333 for drive welding lifting slider 332 carried out on Weld-supporting seat 331 closer or far from Weld the movement of positioning table 311, welding control panel 334 is mounted on welding lifting slider 332, the first temperature conduction block 335 with Second temperature conductive block 336 is separately mounted on welding control panel 334, plumb joint 337 be mounted on the first temperature conduction block 335 with Between second temperature conductive block 336, temperature inductor 338 respectively with the first temperature conduction block 335 and second temperature conductive block 336 Connection, welding control panel 334 are connect with temperature inductor 338.

In the present embodiment, welding lifting actuator 333 is cylinder；For another example, welding control panel 334 is integrated circuit board； For another example, temperature inductor 338 is temperature sensor, and certainly, those skilled in the art can need according to actual production to temperature The type and model for spending inductor are selected, and the existing temperature sensor that can complete to incude temperature is applicable in.

It should be noted that after chip apparatus for welding and positioning 310 fixes chip, welding lifting actuator 333 driving welding 332 slide downwards of lifting slider, at this point, being subjected to chip by plumb joint 337, to complete Welding operation to chip and weldment.First temperature conduction block 335 being capable of butt joint with second temperature conductive block 336 Temperature on 337 is transmitted, and to be monitored in real time by the stabilization of 338 butt joint 337 of temperature inductor, works as temperature When higher or lower than setting value, the temperature by welding 334 butt joint 337 of control panel is controlled, and thereby guarantees that welding temperature The accuracy of degree so that welding processing quality effectively improves, meanwhile, chip will not be damaged due to high temperature.

The chip transmission spot-welding mechanism 300 of the present invention is by being arranged chip apparatus for welding and positioning 310, weldment feeding device 320 and die-bonding device 330, to complete to be feeding operation to chip and weldment, meanwhile, it is capable to pass through chip welding dress Accurate welding operation can be carried out to chip by setting 330, be not only able to improve the efficiency of welding processing as a result, and can improve weldering The precision for connecing processing prevents chip to be damaged since welding temperature is excessively high.

As shown in figure 8, in the following, being illustrated to the concrete structure of chip switching mechanism 400：

A kind of chip switching mechanism 400 includes：Overturn fixed seat 410, overturning drive device 420, overturning guider 430 And turn-over transportation device 440, overturning drive device 420, overturning guider 430 and turn-over transportation device 440 are separately mounted to It overturns in fixed seat 410.Overturning drive device 420 is connect with overturning guider 430, and turn-over transportation device 440 is mounted on and turns over Turn on guider 430.

Referring to Fig. 8, the bottom of overturning fixed seat 410 is provided with the first fixed support block 411 and second and fixes branch Bracer 412, the first fixed support block 411 are symmetrically set with the second fixed support block 412, the first fixed support block 411 with Multiple adjusting mounting holes 413 are offered in second fixed support block 412, and it is fixed that multiple installations are offered in overturning fixed seat 410 Position hole 414, each to adjust mounting hole 413 and 414 corresponding matching of each mounting-positioning holes, the first fixed support block 411 and second is fixed Adjusting graduation mark is both provided in supporting block 412.

In the present embodiment, the first fixed support block and the second fixed support block 412 are cuboid structure, be so, it is possible Improve whole structural strength.

It should be noted that overturning fixed seat 410 by the first fixed support block 411 and the second fixed support block 412 into Row installation is fixed, and mounting hole 413 and mounting-positioning holes 414 are adjusted by setting, so as to use the fixed mode pair of screw Fixed operation, the disassembling operations enhanced convenience for being thus are installed.It is in different size due to different chip products, by Setting adjusts graduation mark in first fixed support block 411 and the second fixed support block 412.So as to overturning fixed seat 410 Position accurately adjusted, thus, it is possible to adapt to the turning operation of the chip product of no-go gage lattice, it is whole to improve equipment The precision of applicability and turning operation prevents from whom causing bad chip product.

Referring to Fig. 8, overturning drive device 420 includes installation locating piece 421, push sliding block 422, push actuator 423, guide rail 424 and push rack 425 are pushed, installation locating piece 421 is mounted in overturning fixed seat 410, and push is oriented to Track 424 is mounted in overturning fixed seat 410, and push sliding block 422 is slidably mounted on push guide rail 424, pushes rack 425 are slidably mounted on push guide rail 424, and the one end for pushing rack 425 is connect with push sliding block 422, pushes actuator 423 connect with push sliding block 422, and push actuator 423 is carried out for driving push sliding block 422 on push guide rail 424 Reciprocating.

Further, it is provided with push spacing block set 422a on one side of the push sliding block 422 far from push rack 425, The surface of push spacing block set 422a is provided with buffering abutting layer.It is provided with the first guiding on push guide rail 424 and abuts block It is oriented to second and abuts block, first, which is oriented to abutting block, is oriented to the both ends for abutting block and being separately positioned on push guide rail with second.

In the present embodiment, push sliding block is cuboid structure；For another example, push actuator is cylinder；For another example, buffering abuts Layer is layer of silica gel, so, it is possible to improve whole structural strength.

It should be noted that when overturning drive device 420 is worked, push actuator 423 drives push to slide Block 422 is slided on push guide rail 424, to enable push rack 425 to be carried out along push guide rail 424 Reciprocating, so as to drive overturning guider to carry out guiding work.The setting of push spacing block set 422a can rise To the effect of position restriction, when pushing spacing block set 422a and the first guiding abutting block or the second guiding abuts block abutting, energy Thus enough shift positions for limiting push sliding block 422 make the movement of restriction push sliding block 422 more accurate, similarly, when push tooth Item 425 can limit the shift position of push sliding block 422 with when the first guiding abuts block or the second guiding abuts block abutting, by This keeps the movement of restriction push sliding block 422 more accurate.It so, it is possible to improve turning operation mass motion precision.Buffering abuts Layer can play the role of buffering, prevent restriction push sliding block 422 from being damaged since cushion effect is excessive.

Referring to Fig. 8, overturning guider 430 include the first guide support seat 431, the second guide support seat 432, Guided rotation axis 433, rotate gear 434 and installation fixation kit 435, the first guide support seat 431 and the second guide support seat 432 are symmetrically mounted in overturning fixed seat 410, and guided rotation axis 433 is rotatably installed in the first guide support seat 431 and the Between two guide support seats 432, rotate gear 434 is socketed in guided rotation axis 433 on one end of push rack 425, turns Moving gear 434 is engaged with push rack 425, and installation fixation kit 435 is mounted on guided rotation axis 433.

Further, installation fixation kit 435 includes installation axle sleeve 435a, the first installation fixing clip 435b and the second peace Fixing clip 435c is filled, installation axle sleeve 435a is fixedly mounted on guided rotation axis 433, and the one of the first installation fixing clip 435b End and one end of the second installation fixing clip 435c are separately mounted on guided rotation axis 433, the first installation fixing clip 435b It is symmetrically set with the second installation fixing clip 435c.

It should be noted that when pushing the progress slide of rack 425, due to rotate gear 434 and push rack 425 Engagement, so as to drive rotate gear 434 to be rotated, is thus rotated guided rotation axis 433, to make guiding turn Installation fixation kit 435 on moving axis 433 carries out rotation operation.Fixation kit 435 is installed, axle sleeve 435a is installed by setting, from And can be needed according to actual production to the position of the first installation fixing clip 435b and the second installation fixing clip 435c into Row is adjusted, and thus, it is possible to adapt to the overturning process operation of products of different specifications.

Referring to Fig. 8, turn-over transportation device 440 includes that the first carrying fixture block 441, second carries fixture block 442 and folder Actuator 443 is held, clamping actuator 443 is mounted on the first installation fixing clip 441 and second and installs in fixing clip 442, the One carrying fixture block 441 connect with clamping actuator 443 respectively with the second carrying fixture block 442, and clamping actuator 443 is used for driving the One carrying fixture block 441 and second carries fixture block 442 and carries out movement close to each other or separate.First carries fixture block 441 and second It carries and offers clamp groove 444 on fixture block 442, two clamp grooves 444 are symmetrically set.The madial wall of clamp groove On be provided with clamping buffer layer, the surface that buffer layer is clamped is provided with the convex grains of multiple bufferings.

In the present embodiment, clamping actuator 443 is gripper cylinder.Clamping buffer layer is cushion rubber layer, is respectively buffered convex The rectangular distribution of grain is arranged on the surface of clamping buffer layer.

It should be noted that when chip transmission spot-welding mechanism 300 by the chip for completing spot weld operation be transmitted to for after, first It carries the carrying fixture block 442 of fixture block 441 and second and carries out clipping operation under the driving of clamping actuator 443, to pass through two Clamp groove 444 grips chip, and clamping buffer layer is provided on the madial wall of clamp groove, can be risen to chip To protective effect, prevent clamping force is excessive from being damaged to chip, the surface that buffer layer is clamped is provided with multiple convex grains of buffering, The aid dynamics that clamp groove can be improved prevents from being detached from overturning handling process chips.

After the first carrying fixture block 441 and second carries fixture block 442, and chip is gripped, overturning drive device 420 drives Dynamic overturning guider 430 is moved, in the case where rotate gear 434 and push rack 425 are with resultant motion so that overturning is carried In the overturning of device 440 to another chip transmission spot-welding mechanism 300, at this point, first carries the carrying fixture block 442 of fixture block 441 and second It unclamps so that chip is placed on the welding post of another chip transmission spot-welding mechanism 300, then transmits mash welder by chip Structure 300 is subjected to another welding surface of chip, thus completes the overturning of chip and the welding operation of positive and negative.

The chip switching mechanism 400 of the present invention overturns fixed seat 410, overturning drive device 420, overturning guiding by setting Thus device 430 and turn-over transportation device 440 enable the chip to complete positive and negative so as to the turning operation to chip Welding operation, and the pad on welding surface will not be touched, it so, it is possible the efficiency for improving chip welding processing and welding matter Amount.

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

The thermistor chip welding equipment 10 of the present invention welds board 100, chip feed mechanism 200, core by setting Piece transmits spot-welding mechanism 300 and chip switching mechanism 400, so as to complete the positive and negative welding processing behaviour of thermistor chip Make, thus instead of artificial welding manner, the production efficiency of welding processing and the precision of welding processing can be effectively improved.

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 welding equipment, which is characterized in that including：Weld board, chip feed mechanism, chip transmission Spot-welding mechanism and chip switching mechanism, the chip feed mechanism, chip transmission spot-welding mechanism and the chip tipper Structure is separately positioned on the welding board；

The chip feed mechanism is used to chip feeding to the chip transmitting spot-welding mechanism, and the chip transmits mash welder Structure is for being subjected to chip, and there are two the chip transmission spot-welding mechanism settings, and the chip switching mechanism is located at Between two chip transmission spot-welding mechanisms, the chip switching mechanism is used to one of them chip transmitting mash welder Chip overturning on structure is carried on another chip transmission spot-welding mechanism；

The chip feed mechanism includes chip transfer apparatus, chip guider and chip pusher, the chip transmission Device includes that chip transmission holder, chip conveyer belt and chip transmission actuator, the chip conveyer belt are mounted on the chip It transmits on holder, the chip conveyer belt is connect with chip transmission actuator, and the chip transmission actuator is for driving The relatively described chip transmission holder of the chip conveyer belt is moved；

The chip guider includes chip guide pressing plate, chip guiding pinboard, the first limited block and the second limited block, institute Chip guide pressing plate is stated on chip transmission holder, the chip conveyer belt is located at the chip guide pressing plate and institute Between stating chip transmission holder, the chip guide pressing plate offers guide and limit on the one side of the chip conveyer belt Slot, the extending direction of the guide and limit slot is identical as the direction of transfer of chip conveyer belt, in the chip guide pressing plate It is further opened with chip feeding groove, the chip feeding groove is connected to the guide and limit slot, and the chip feeding groove is located at described On the one side of the chip conveyer belt discharge end, the chip is oriented to pinboard and is mounted on the core chip guide pressing plate Piece guide pressing plate on the one side of the chip feeding groove, install respectively by first limited block and second limited block It is oriented on pinboard in the chip, forms chip feeding channel, institute between first limited block and second limited block Chip feeding channel is stated to be connected to the chip feeding groove；

The chip pusher includes chip push actuator, chip promotion sliding block and chip catch bar, the chip push Actuator is mounted on one side of the chip guide pressing plate far from the chip conveyer belt, chip push actuator with The chip pushes sliding block connection, and the chip push actuator is for driving the chip to push sliding block along the chip The extending direction of hopper carries out reciprocating, and the chip catch bar pushes sliding block to connect with the chip, and the chip pushes away Lever is located in the chip feeding groove, and the chip pushes sliding block for driving the chip catch bar to expect on the chip Reciprocating is carried out in slot；

The chip pushes sliding block to be provided with slide-and-guide column, the slide-and-guide on the one side of the chip feeding groove Column is slidably fastened in the chip feeding groove；

The chip catch bar offers promotion bayonet on one end far from chip promotion sliding block, and the promotion bayonet is used for Engaging limit is carried out to the chip in the chip feeding groove.

2. thermistor chip welding equipment according to claim 1, which is characterized in that the chip transmits actuator and is Motor gear transfer structure.

3. thermistor chip welding equipment according to claim 1, which is characterized in that the chip conveyer belt is anti-quiet Transmit electrically band.

4. thermistor chip welding equipment according to claim 1, which is characterized in that the chip guide pressing plate is length Cube structure.

5. thermistor chip welding equipment according to claim 1, which is characterized in that the chip is oriented to pinboard and is Rectangular parallelepiped structure.

6. thermistor chip welding equipment according to claim 1, which is characterized in that the chip pushes actuator and is Push cylinder.

7. thermistor chip welding equipment according to claim 1, which is characterized in that the slide-and-guide column is cylinder Body structure.

8. thermistor chip welding equipment according to claim 1, which is characterized in that the promotion bayonet is arc card Mouthful.

9. thermistor chip welding equipment according to claim 1, which is characterized in that the surface for pushing bayonet is set It is equipped with buffering convex particle agglomerate.

10. thermistor chip welding equipment according to claim 9, which is characterized in that the buffering convex particle agglomerate is silicon Glue convex particle agglomerate.