CN212161548U - Inductor bonding device - Google Patents

Abstract

The utility model relates to an inductance bonding device, including operation panel, substrate, rubber coating structure, pay-off structure, air-dry structure and blanking structure, its characterized in that: be provided with two electrode slices on the substrate side by side, the end to end of substrate forms the baseband, the baseband is placed just on the operation panel slides, the rubber coating structure is including setting up the rubber coating seat on the operation panel, set up side by side the rubber coating needle that just wears out the rubber coating seat on the rubber coating seat, set up on the operation panel and be used for driving the first cylinder that the rubber coating seat slided, set up and be in just be used for the rubberizing subassembly toward the rubberizing of rubber coating needle tip rubberizing on the operation panel, rubber coating seat slide back rubber coating needle tip can paste the electrode slice on the tight baseband. The utility model discloses the effect that has: when the electrode plate is bonded with the base material, the base material and the position of the electrode plate can be accurately positioned, and the yield of products is improved.

Description

Inductor bonding device

Technical Field

The utility model belongs to the technical field of the technique of inductance and specifically relates to an inductance bonding device is related to.

Background

The inductor is an element capable of converting electric energy into magnetic energy to be stored, and in the process of producing and assembling the inductor element, as shown in fig. 1, an electrode plate is fixed on a base material, after the electrode plate is fixed, a coil needs to be wound on the base material, and finally the base material is packaged to form a complete inductor.

The existing mode of fixing the electrode plate on the substrate is generally to manually coat glue on the substrate, then place the electrode plate on the substrate, and solidify the glue on the substrate in a hot air drying mode, so as to fix the electrode plate on the substrate, and then perform subsequent processing.

The above prior art solutions have the following drawbacks: when adopting above-mentioned mode to fix the electrode slice on the substrate, through artifical glue of scribbling and placing the electrode slice, the staff places the electrode slice on the substrate, can influence electrode slice position accuracy nature to influence the yield of inductance, to this condition remain to further improve.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing an inductance bonding device when bonding electrode slice and substrate, can improve the yield of product with the accurate location in position of substrate and electrode slice.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

an inductor bonding device comprises an operation table, a substrate, a gluing structure, a feeding structure, an air drying structure and a discharging structure, two electrode plates are arranged on the substrate side by side, the substrate is connected end to form a base band, the base band is placed on the operating platform and slides on the operating platform, the gluing structure comprises a gluing seat arranged on an operation table, gluing needles arranged on the gluing seat side by side and penetrating out of the gluing seat, a first air cylinder arranged on the operation table and used for driving the gluing seat to slide, a gluing component arranged on the operation table and used for gluing the end parts of the gluing needles, the end parts of the gluing needles can be tightly attached to electrode plates on a base band after the gluing seat slides, the feeding structure is used for placing the base material on the base band, the air-drying structure is used for solidifying glue on the base band, and the blanking structure is used for cutting off the electrode plate from the base band.

By adopting the technical scheme, when the electrode plate is bonded on the base material, the glue is brushed on the electrode plate by the glue brushing needle, then the base material is placed on the base band by the feeding device, the positions of the electrode plate and the base material are aligned, then the electrode plate and the base material are subjected to air drying structure, so that the glue is solidified, the purpose of fixing the electrode plate and the base material is achieved, and the electrode plate and the base material on the base band can be taken down by the arranged blanking device; through the process, the purpose of accurately positioning the electrode plate and the base material can be achieved, and the yield of products can be improved.

The present invention may be further configured in a preferred embodiment as: the rubberizing subassembly includes glue box, first motor and send the rubber tyer, the glue box sets up on the operation panel and keep away from operation panel one side and open, first motor sets up on the operation panel, first motor output shaft with send rubber tyer fixed connection, send rubber tyer week side wall can with glue contact, two in the glue box glue application needle tip with send rubber tyer week side lateral wall butt.

Through adopting above-mentioned technical scheme, through the glue box that sets up, when sending the rubber tyer to rotate, can be stained with glue sending the rubber tyer week lateral wall, can be stained with glue at the tip of rubber coating needle this moment, through the first cylinder that sets up, can order about the rubber coating seat and remove for electrode slice butt on two rubber coating needles and the baseband, alright reach the purpose of coating glue on the electrode piece.

The present invention may be further configured in a preferred embodiment as: pay-off structure is including setting up conveying strip on the operation panel, seting up just can supply on the conveying strip the groove that slides of substrate, setting are in just be used for on the operation panel toward the inslot vibration dish, the setting of carrying the substrate that slides are in just be used for on the operation panel the substrate to send the pay-off subassembly on the baseband to the conveying strip, the vibration dish with slide and connect through the connecting pipe between the groove, the connecting pipe inner chamber with the substrate shape is unanimous.

Through adopting above-mentioned technical scheme, through vibration dish and the connecting pipe that sets up, can carry a plurality of substrates to in the groove that slides to neatly arrange in the groove that slides, send the base band to via the pay-off subassembly again on, and place on two electrode slices, alright in order to reach the purpose of placing the substrate on the electrode slice.

The present invention may be further configured in a preferred embodiment as: the feeding assembly comprises a feeding table, a second air cylinder, a connecting part and a first sucker, the feeding table is arranged on the operating table in a sliding mode, the second air cylinder is used for driving the feeding table to slide, the connecting part is arranged on the feeding table in a sliding mode, the first sucker is arranged at the bottom of the connecting part, the first sucker is arranged towards the conveying strip, and the connecting part slides in the vertical direction of the feeding table through a rodless air cylinder.

Through adopting above-mentioned technical scheme, through the first sucking disc that sets up, can hold the substrate on the conveying strip, through the second cylinder and the rodless cylinder that set up, can reach the purpose that drives first sucking disc position switch to order about first sucking disc and remove to the baseband on, then first sucking disc loosens the substrate, alright place the substrate on two electrode plates.

The present invention may be further configured in a preferred embodiment as: the operation panel just is located be provided with the location strip between conveying strip and the baseband, the connecting portion bottom is provided with the second sucking disc.

Through adopting above-mentioned technical scheme, through the location strip that sets up, the second sucking disc, in actual course of working, the second sucking disc will convey the substrate on the strip and deliver to the location strip on, first sucking disc can deliver to the baseband with the substrate on the strip of location on, and at this in-process, the second sucking disc can play the effect of location to the position of first sucking disc, and first sucking disc also has the effect of location to the second chassis simultaneously, ensures that the second sucking disc can deliver to the location strip with the substrate from the conveying strip on.

The present invention may be further configured in a preferred embodiment as: the first sucker and the second sucker are connected with the connecting portion in a sliding mode through the connecting rod, a groove for the connecting rod to slide is formed in the bottom end of the connecting portion, and a spring is sleeved on the connecting rod.

Through adopting above-mentioned technical scheme, at the in-process of the substrate of holding of first sucking disc, second sucking disc, order about connecting portion when sliding in vertical direction at no pole cylinder, through the recess and the spring that set up, can play the cushioning effect.

The present invention may be further configured in a preferred embodiment as: the air-dry structure is through the tunnel furnace to the baseband rubberizing water air-dry, the tunnel furnace body includes epitheca and inferior valve, the epitheca with rotate between the inferior valve and be connected, the epitheca is provided with the handle on rotating end one side relatively.

By adopting the technical scheme, the glue on the base band can be solidified in the base band conveyor belt tunnel furnace through the arranged tunnel furnace, so that the aim of fixing the electrode plate and the base material is fulfilled; through setting up the tunnel furnace into epitheca and inferior valve, the staff can open the epitheca by the handle, makes things convenient for the staff to regularly inspect the equipment condition in the tunnel furnace.

The present invention may be further configured in a preferred embodiment as: the blanking structure comprises a blanking table arranged on one side of the operating table, a blanking port formed in the blanking table, a third air cylinder arranged on one side of the operating table, a connecting block connected to an output shaft of the third air cylinder, and blades arranged on one side of the third air cylinder and far away from the connecting block.

Through adopting above-mentioned technical scheme, when the baseband conveys electrode slice and substrate to the unloading platform, through the third cylinder and the connecting block that set up, can order about the blade and cut electrode slice and the baseband junction on the unloading platform, alright in order to reach the purpose that substrate and electrode slice take off from the baseband.

The present invention may be further configured in a preferred embodiment as: the blades of the two blades are obliquely arranged towards the direction of the joint of the electrode plate and the substrate.

Through adopting above-mentioned technical scheme, through the blade with the blade setting towards the direction slope of electrode slice and substrate junction, when the blade cuts, along with down sliding of connecting block, the blade can carry out a bit by a bit cutting electrode slice and substrate junction, and not cut once, can play better cutting effect, avoids appearing the condition that does not cut off.

The present invention may be further configured in a preferred embodiment as: a collecting tank is arranged on one side of the blanking table, and a collecting box is arranged in the collecting tank in a sliding mode.

Through adopting above-mentioned technical scheme, through collecting vat and the collecting box that sets up, can make things convenient for the staff to collect from feed opening electrode slice and substrate that drop, improve collection efficiency.

To sum up, the utility model discloses a following at least one useful technological effect:

when the electrode plate is bonded on the base material, the glue coating needle can brush glue on the electrode plate, then the base material can be placed on the base band by the feeding device, the positions of the electrode plate and the base material are aligned, then the electrode plate and the base material are subjected to air drying structure, the glue is solidified, the purpose of fixing the electrode plate and the base material is achieved, and the electrode plate and the base material on the base band can be taken down by the arranged blanking device; through the process, the purpose of accurately positioning and fixing the electrode plate and the base material can be achieved, and the yield of products can be improved.

Through the positioning strip and the second sucker, the base material can be positioned when being placed on the base band.

Through the collecting tank and the collecting box, the electrode plates and the base materials cut by the blades can be conveniently collected, and subsequent processing is facilitated.

Drawings

FIG. 1 is a front and rear comparison view of a substrate bonded with an electrode sheet;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is an enlarged view of part A of FIG. 2, showing the glue cartridge and the glue needle;

fig. 4 is a partial structural schematic diagram of the present invention;

FIG. 5 is an enlarged partial view of portion B of FIG. 4, illustrating the first suction cup, the second suction cup and the spring;

fig. 6 is a partial structural schematic diagram of the present invention;

FIG. 7 is an enlarged partial view of section C of FIG. 6 showing the collection container, connection block;

fig. 8 is an enlarged partial view of portion D of fig. 7, showing the blade and the feed opening.

In the figure, 1, a substrate; 2. an electrode sheet; 3. an operation table; 4. a substrate; 5. gluing structure; 6. a feeding structure; 7. air-drying the structure; 8. a blanking structure; 9. a winding wheel; 10. a drive wheel; 11. gluing seats; 12. gluing needles; 13. a first cylinder; 14. a gluing component; 15. a glue box; 16. a first motor; 17. a rubber conveying wheel; 18. a transfer bar; 19. a sliding groove; 20. a vibrating pan; 21. a feeding assembly; 22. a feeding table; 23. a second cylinder; 24. a connecting portion; 25. a first suction cup; 26. a positioning bar; 27. a second suction cup; 28. a connecting rod; 29. a spring; 30. an upper shell; 31. a lower case; 32. a grip; 33. a blanking table; 34. a feeding port; 35. a third cylinder; 36. connecting blocks; 37. a blade; 38. collecting tank; 39. and a collection box.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 2, in order to provide the inductance bonding device disclosed by the present invention, when bonding the electrode plate 2 to the substrate 1, the positions of the substrate 1 and the electrode plate 2 can be accurately positioned, so as to improve the yield of the product; the automatic feeding device comprises an operation table 3, a substrate 4, a gluing structure 5, a feeding structure 6, an air-drying structure 7 and a blanking structure 8, wherein two electrode plates 2 are arranged on the substrate 4 side by side, the substrate 4 is connected end to form a base band, before processing, the base band is wound in a winding wheel 9, the other end of the base band is connected to a driving wheel 10 on the operation table 3, the base band is rolled and pulled through the driving wheel 10, and the driving wheel 10 is driven by a second motor on the operation table 3; the base tape is placed on the table 3 and slid on the table 3.

Referring to fig. 2 and 3, in the present embodiment, the glue spreading structure 5 includes a glue spreading base 11 sliding on the operation table 3, glue spreading needles 12 arranged side by side on the glue spreading base 11 and penetrating through the glue spreading base 11, a first cylinder 13 installed on the operation table 3 and used for driving the glue spreading base 11 to slide, and a glue spreading assembly 14 arranged on the operation table 3 and used for spreading glue to the ends of the glue spreading needles 12, and after the glue spreading base 11 slides, the ends of the glue spreading needles 12 will be closely attached to the electrode plates 2 on the base band, so that the glue of the glue spreading needles 12 can be spread on the two electrode plates 2, the feeding structure 6 is used for placing the substrate 1 on the base band, the air drying structure 7 is used for solidifying the glue on the base band, and the blanking structure 8 is used for cutting the electrode plates 2 from the base.

Referring to fig. 4 and 5, in the present embodiment, the glue applying assembly 14 includes a glue box 15, a first motor 16 and a glue feeding wheel 17, the glue box 15 is disposed on the operation table 3, and one side of the glue box 15 away from the operation table 3 is open, the first motor 16 is mounted on the operation table 3, and an output shaft of the first motor 16 is fixedly connected with the glue feeding wheel 17, a side wall on the circumferential side of the glue feeding wheel 17 contacts with glue in the glue box 15, and end portions of the two glue applying needles 12 abut against a side wall on the circumferential side of the glue feeding wheel 17.

When the first motor 16 drives the glue feeding wheel 17 to rotate, glue is adhered to the side wall of the circumferential side of the glue feeding wheel 17, the end parts of the two glue coating needles 12 are abutted to the outer wall of the circumferential side of the glue feeding wheel 17, glue is adhered to the end parts of the two glue coating needles 12, then the first air cylinder 13 drives the glue coating seat 11 to slide on the operation table 3, and along with the sliding of the glue coating seat 11, the end parts of the two glue coating needles 12 respectively slide on the surfaces of the two electrode plates 2 on the base belt, so that the purpose of coating the glue on the electrode plates 2 can be achieved.

After glue is coated on the electrode plates 2, the substrate 1 can be placed on the two electrode plates 2 coated with the glue through the feeding structure 6, in this embodiment, the feeding structure 6 includes a conveying strip 18, a sliding groove 19, a vibration plate 20 and a feeding assembly 21, the conveying strip 18 is integrally formed on the operation table 3, the sliding groove 19 is formed on the conveying strip 18, the sliding groove 19 can be used for sliding the substrate 1, the vibration plate 20 is installed on the operation table 3 and used for conveying the substrate 1 into the sliding groove 19, the vibration plate 20 is connected with the sliding groove 19 through a connecting pipe, the inner cavity of the connecting pipe is consistent with the shape of the substrate 1, the feeding assembly 21 includes a feeding table 22, a second air cylinder 23, a connecting portion 24 and a first suction cup 25, the feeding table 22 slides on the operation table 3, the second air cylinder 23 is installed on the operation table 3 and used for driving the feeding table 22 to slide, the connecting portion 24 slides on one side of the feeding table 22, and the connecting portion 24 is slid in the vertical direction of the feeding table 22 by a rodless cylinder, the first suction cup 25 is mounted on the bottom of the connecting portion 24, and the first suction cup 25 is disposed toward the conveying belt 18.

Referring to fig. 5, in order to ensure that the first suction cups 25 can place the substrate 1 on the transfer bar 18 on the base tape, a positioning bar 26 is provided between the transfer bar 18 and the base tape on the operation table 3, and a second suction cup 27 is mounted on the bottom of the connection portion 24; meanwhile, the first suction cup 25 and the second suction cup 27 are connected with the connecting portion 24 in a sliding manner through the connecting rod 28, a groove for the connecting rod 28 to slide is formed in the bottom end of the connecting portion 24, and the connecting rod 28 is sleeved with a spring 29.

When the substrate 1 is placed, a substrate 1 is placed on the positioning strip 26 in advance, a large number of substrates 1 are placed in the vibration disc 20, then the substrates 1 are conveyed into the sliding groove 19 through the connecting pipe under the action of the vibration disc 20 and slide out of the sliding groove 19, at the moment, the rodless cylinder drives the connecting part 24 to slide downwards on the feeding table 22, at the moment, the first suction cup 25 abuts against the substrate 1 on the conveying strip 18 and sucks the substrate 1, the second suction cup 27 abuts against the substrate 1 on the positioning strip 26 and sucks the substrate 1, then the rodless cylinder drives the connecting part 24 to slide upwards, the second cylinder 23 drives the feeding table 22 to slide, the second suction cup 27 is positioned above the base band, and at the moment, the rodless cylinder drives the connecting part 24 to slide downwards again, the substrate 1 on the second suction cup 27 is placed on the two electrode plates 2 on the base band, the substrate 1 on the first suction cup 25 is placed at the end part of the positioning strip 26, can reach the purpose of placing substrate 1 at two electrode slices 2, along with first sucking disc 25 and the second sucking disc 27 lifts up once more, the second cylinder 23 can order about pay-off platform 22 and reset, along with the baseband of drive wheel 10 pulling once, can repeat above-mentioned step, alright in the past the baseband constantly placed substrate 1.

Referring to fig. 6, after the substrate 1 is placed, the glue on the base band needs to be dried and solidified through the drying structure 7, so that the purpose of fixing the substrate 1 and the two electrode plates 2 can be achieved, in this embodiment, the drying structure 7 is to perform hot drying on the glue on the base band through a tunnel furnace, and the tunnel furnace body comprises an upper shell 30 and a lower shell 31, so as to facilitate the regular inspection of the tunnel furnace by a worker, the upper shell 30 is rotatably connected with the lower shell 31, and a handle 32 is arranged on one side of the upper shell 30 opposite to the rotating end; when the apparatus is not used in ordinary times, the upper case 30 is rotated away by the handle 32, the internal components are inspected, and after the base material 1 and the two electrode sheets 2 are fixed, the electrode sheets 2 need to be removed by the blanking structure 8.

Referring to fig. 7 and 8, in the present embodiment, the blanking structure 8 includes a blanking table 33 disposed on one side of the operation table 3, a blanking port 34 formed in the blanking table 33, a third cylinder 35 mounted on one side of the operation table 3, a connecting block 36 connected to an output shaft of the third cylinder 35, and blades 37 disposed side by side on one side of the connecting block 36 away from the third cylinder 35, when the electrode sheet 2 is pulled onto the blanking table 33 by the base band, the third cylinder 35 drives the connecting block 36 to move downward, at this time, the two blades 37 on the connecting block 36 move downward together, one side of the blade 37 of each of the two blades 37 abuts against two ends of the electrode sheet 2, and a connection between the electrode sheet 2 and the base band is cut off; in order to ensure that the connection between the electrode sheet 2 and the base tape can be cut, the blades 37 of the two blades 37 are obliquely arranged towards the connection between the electrode sheet 2 and the substrate 4; meanwhile, a collecting groove 38 is formed in one side of the blanking table 33, and a collecting tank 39 is slidably moved in the collecting groove 38.

The implementation principle of the embodiment is as follows: after the base band is placed on the operation table 3, the second motor drives the driving wheel 10 to rotate, at the same time, the base band is pulled, the first motor 16 drives the glue feeding wheel 17 to rotate, glue in the glue box 15 is fed to the end parts of the two glue applying needles 12, the first air cylinder 13 drives the glue applying base 11 to slide on the operation table 3, the two glue applying needles 12 are contacted with the two electrode plates 2 on the base band, the glue on the glue applying needles 12 can be brushed on the surfaces of the two electrode plates 2 through the back and forth driving of the first air cylinder 13, the driving wheel 10 continues to pull the base band, meanwhile, the vibration disc 20 conveys the base material 1 to the transmission strip through the connecting pipe and the sliding groove 19, the rodless air cylinder 25 and the second suction disc 27 respectively abut against and suck the base material 1 on the transmission strip 18 and the base material 1 on the positioning strip 26, then the connecting part 24 slides upwards, the feeding table 22 is driven to slide through the second air cylinder 23, the first suction cup 25 can be aligned with the positioning strip 26, the substrate 1 on the second suction cup 27 can be located between two electrode plates 2 on the base band, then the rodless cylinder can drive the connecting part 24 to slide downwards, the substrate 1 on the first suction cup 25 can be placed on the positioning strip 26, the substrate 1 on the second suction cup 27 can be placed between the two electrode plates 2, the primary positioning effect of the substrate 1 and the electrode plates 2 is achieved, the driving wheel 10 can pull the base band and pull the base band into the tunnel furnace, after hot air passing through the tunnel furnace is dried, glue on the electrode plates 2 can be solidified, the purpose of fixing the substrate 1 and the two electrode plates 2 can be achieved, when the substrate 1 is pulled to the discharging port 34 of the discharging table 33 along with the base band, the third cylinder 35 can drive the connecting block 36 to slide downwards, along with the downward sliding of the connecting block 36, the connecting part of the electrode plates 2 and the base band can be, and cutting the ends of the two electrode plates 2, and the base materials 1 on the two electrode plates 2 drop into the collecting box 39 from the feed opening 34; through the process, when the electrode plate 2 is bonded with the base material 1, the positions of the base material 1 and the electrode plate 2 can be accurately positioned, and the yield of products is improved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides an inductance bonding device, includes operation panel (3), substrate (4), rubber coating structure (5), pay-off structure (6), air-dry structure (7) and blanking structure (8), its characterized in that: the improved base band gluing machine is characterized in that two electrode plates (2) are arranged on the substrate (4) side by side, the substrate (4) is connected end to form a base band, the base band is placed on the operating platform (3) and slides on the operating platform (3), the gluing structure (5) comprises a gluing seat (11) arranged on the operating platform (3), a gluing needle (12) arranged on the gluing seat (11) side by side and penetrating out of the gluing seat (11), a first air cylinder (13) arranged on the operating platform (3) and used for driving the gluing seat (11) to slide, a gluing component (14) arranged on the operating platform (3) and used for gluing the end part of the gluing needle (12), the end part of the gluing needle (12) can tightly attach to the electrode plate (2) on the base band after the gluing seat (11) slides, the feeding structure (6) is used for placing the substrate (1) on the base band, and the air-drying structure (7) is used for solidifying glue on the base band, the blanking structure (8) is used for cutting the electrode plate (2) from the base band.

2. An inductive bonding apparatus according to claim 1, wherein: rubberizing subassembly (14) are including glue box (15), first motor (16) and send rubber tyer (17), glue box (15) set up on operation panel (3) and keep away from operation panel (3) one side open, first motor (16) set up on operation panel (3), first motor (16) output shaft with send rubber tyer (17) fixed connection, send rubber tyer (17) week side wall can with the contact of glue in glue box (15), two scribble rubber needle (12) tip with send rubber tyer (17) week side wall butt.

3. An inductive bonding apparatus according to claim 2, wherein: pay-off structure (6) are including setting up conveying strip (18), seting up on operation panel (3) conveying strip (18) are gone up and can supply sliding groove (19), the setting that substrate (1) slided are in just be used for on operation panel (3) and carry vibration dish (20), the setting of substrate (1) toward sliding groove (19) in carry material (21) on operation panel (3) and be used for going up substrate (1) with conveying strip (18) and send pay-off subassembly (21) on the substrate band, vibration dish (20) with connect through the connecting pipe between sliding groove (19), the connecting pipe inner chamber with substrate (1) shape is unanimous.

4. An inductive bonding apparatus according to claim 3, wherein: the feeding assembly (21) comprises a feeding table (22) arranged on the operating table (3) in a sliding mode, a second air cylinder (23) arranged on the operating table (3) and used for driving the feeding table (22) to slide, a connecting portion (24) arranged on the feeding table (22) in a sliding mode, and a first suction disc (25) arranged at the bottom of the connecting portion (24), wherein the first suction disc (25) faces the conveying strip (18), and the connecting portion (24) slides in the vertical direction of the feeding table (22) through a rodless air cylinder.

5. An inductive bonding apparatus according to claim 4, wherein: the operation panel (3) is located and is provided with location strip (26) between conveying strip (18) and the baseband, connecting portion (24) bottom is provided with second sucking disc (27).

6. An inductive bonding apparatus according to claim 5, wherein: first sucking disc (25) with second sucking disc (27) all slide through connecting rod (28) and connecting portion (24) and be connected, can supply seted up in connecting portion (24) bottom the recess that connecting rod (28) slided, the cover is equipped with spring (29) on connecting rod (28).

7. An inductive bonding apparatus according to claim 1, wherein: air-dry structure (7) are through the tunnel furnace to the baseband rubberizing water air-dry, the tunnel furnace body includes epitheca (30) and inferior valve (31), epitheca (30) with rotate between inferior valve (31) and connect, epitheca (30) are provided with handle (32) on holding one side for rotating.

8. An inductive bonding apparatus according to claim 1, wherein: blanking structure (8) are including setting up blanking platform (33) on operation panel (3) one side, set up feed opening (34) of blanking platform (33), setting are in third cylinder (35) on operation panel (3) one side, connect and be in connecting block (36) on third cylinder (35) output shaft, set up side by side connecting block (36) are kept away from blade (37) on third cylinder (35) one side.

9. An inductive bonding apparatus according to claim 8, wherein: the blades (37) of the two blades (37) are obliquely arranged towards the direction of the joint of the electrode plate (2) and the substrate (4).

10. An inductive bonding apparatus according to claim 9, wherein: a collecting tank (38) is arranged on one side of the blanking table (33), and a collecting box (39) is arranged in the collecting tank (38) in a sliding mode.

Images