CN118023643A

CN118023643A - Spot welding device for processing intelligent watch chip

Info

Publication number: CN118023643A
Application number: CN202410442080.XA
Authority: CN
Inventors: 李平
Original assignee: Shenzhen Zhilian Shengya Electronic Technology Co ltd
Current assignee: Shenzhen Zhilian Shengya Electronic Technology Co ltd
Priority date: 2024-04-12
Filing date: 2024-04-12
Publication date: 2024-05-14

Abstract

The invention provides a spot welding device for processing an intelligent watch chip, which comprises a tin-plating machine, wherein the tin-plating machine comprises a movable sliding table and a mechanical arm, the movable sliding table and the mechanical arm are arranged on the surface of the tin-plating machine, the mechanical arm is arranged at one end of the tin-plating machine and is of a U-shaped structure, the mechanical arm is provided with a tin-feeding machine, the tin-feeding machine is provided with a soldering iron head, and the movable table is provided with a lifting mechanism; according to the invention, the stackable die seats are arranged, chips in the die seats can be processed once, the die seats can be fed once, the die seats can be processed for multiple times, the soldering tin amount is larger, one end is used for being provided with the blanking table, the processed die seats can be blanked in time, automatic blanking is realized, manual contact is not needed, the whole blanking of the die seats is not influenced, the cooling process of the surfaces of the chips in the die seats is not needed, the blanking is not needed after the chips are cooled, the waiting time is shortened, and the tin-plating work progress is accelerated.

Description

Spot welding device for processing intelligent watch chip

Technical Field

The invention belongs to the field of watch spot welding, and particularly relates to a spot welding device for processing an intelligent watch chip.

Background

The welding machine has the welding head with high efficiency to heat the welding rod in small range, and the welding rod is melted to produce special molten pool for welding. In the built-in chip of the intelligent watch, different chips have different functions. The system chip may control and manage various functions including, but not limited to, notification settings, location, payment, and health monitoring, among others. The sensor chip can realize multiple perceptions of the intelligent watch, such as heart rate, blood oxygen, air pressure, temperature, movement and the like.

The built-in chip of intelligent wrist-watch needs to carry out soldering tin work to the component on the chip in the course of working, the pin soldering tin of component is on the surface of chip, because the chip of intelligent wrist-watch is less, and if adopt artifical soldering tin, the volume is too little, then can make the solder joint unstable, consequently, adopt the spot welder to weld, the automatic welding of spot welder, welded standard is the same, welding precision is high, the spot welder is in welded time, for guaranteeing that welded position is unanimous, the chip of soldering tin needs neatly tiling on the mould seat of spot welder, utilize the removal orbit that sets for, carry out soldering tin processing to the chip on the mould seat, and at present spot welder is in soldering tin, in order to guarantee the stability in the spot welding process, prevent that the inaccurate condition of soldering tin from taking place, the mould is usually fixed on removing the slip table, the mode design, though can be in the in-process of soldering tin, increase accurate degree, but also reduced work efficiency on the other hand, the fixed mould seat that sets up, the welding spot in the time need be changed to the chip in the mould seat, take out the chip of accomplishing, the chip that does not take out, the chip that is gone up, the work of unloading is carried out, the time is required to be done, the chip cooling down, the solder joint is just after the completion, the cooling down, the welding rod is required to be completely, the cooling down, the welding rod has just been reached, the welding rod has just been required to be completely, the cooling down, the welding wire welding rod has just been required to be cooled down, and the welding wire has just required to be completely, and the welding wire welding.

In summary, the invention provides a spot welding device for processing a chip of an intelligent watch, so as to solve the above problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides a spot welding device for processing an intelligent watch chip, which solves the problems that in the prior art, a welding spot is not cooled yet, the welding spot is required to be taken out after waiting for cooling, the operation time of soldering tin is increased, a worker is required to perform feeding and discharging operations back and forth, if the welding spot is not solidified, the soldering tin fails, the element cannot be used normally and the like.

The utility model provides a spot welding device is used in processing of intelligence wrist-watch chip, includes some tin machine, including installing removal slip table and the robotic arm at some tin machine surface on the some tin machine, install the movable table on the removal slip table, robotic arm sets up the one end at some tin machine, robotic arm is U type structure, install on the robotic arm and send the tin machine, send the tin machine to install the soldering iron head, install elevating system on the movable table, elevating system's surface is provided with a plurality of mould seats, one side of some tin machine is provided with the unloading platform, the mould seat piles up and sets up on the movable table, the movable table includes the movable bottom plate, movable bottom plate fixed connection is on the surface of removal slip table, be connected with two mutually symmetrical gear strip one on the movable bottom plate perpendicularly, one side of gear strip one is provided with one-to-one and keeps off and be provided with the track slide between the gear strip two respectively, sliding connection has the lifter between the track, lifter plate between the lifter plate's bottom and the movable bottom plate are provided with elevating system of height adjustment.

Further, the mould seat includes mould seat and bed die seat, the surface mounting of going up mould seat has two mutual symmetrical spacer blocks, a plurality of isolation grooves have been seted up on the last mould seat, the clamping position magnetic path is installed to the one end that the spacer block was kept away from to last mould seat.

Further, the lower die seat is arranged on the surface of the lifting plate, two sides of the lower die seat are respectively connected with the surface of the track sliding plate in a sliding mode, a plurality of die fixed-point grooves are formed in the surface of the lower die seat, the die fixed-point grooves and the isolation grooves are arranged in a one-to-one correspondence mode, and two mutually symmetrical clamping magnetic strips are arranged on the surface of the lower die seat.

Further, elevating system includes folding hinge and transmission shaft, folding hinge sets up the both ends at the transmission shaft, folding hinge is including bending board one and bending board two, the both ends of transmission shaft are fixed respectively and are passed the one end of bending board two, the other end of bending board two is connected with bending board one rotation, the one end that keeps away from bending board two on bending board one rotates and is connected with the lift push pedal, the lift push pedal is fixed connection at the both ends of lifter plate respectively.

Further, one end of the second bending plate, which is close to the transmission shaft, is rotationally connected with a transfer block, the transfer block is mounted on the surface of the movable bottom plate, the lifting push plate is rotationally connected with the first bending plate through a positioning shaft, the transmission shaft movably penetrates through the transfer block, one end of the transmission shaft is connected with a driving motor through a coupling, and the driving motor is mounted on the surface of the movable bottom plate.

Further, both sides of the track slide plate are connected to the first gear bar and the second gear bar through stable side plates, a turnover groove is formed in the surface of each stable side plate, and the turnover bars are rotationally connected to the turnover groove.

Further, the blanking table comprises a conveying plate, a conveying belt is arranged on the conveying plate, a chamfer groove is formed in one end, close to the moving table, of the conveying plate, and a supporting leg frame is arranged at the bottom of the conveying plate.

Further, the length of the second gear strip is the same as that of the track sliding plate, the length of the first gear strip is smaller than that of the second gear strip, and the second gear strip is arranged at one end, close to the blanking table, of the movable bottom plate.

Compared with the prior art, the invention has the following beneficial effects:

1. According to the invention, the stackable die seats are arranged, chips in the die seats can be processed once, the die seats can be fed once, the die seats can be processed for multiple times, the soldering tin amount is larger, one end is used for being provided with the blanking table, the processed die seats can be blanked in time, automatic blanking is realized, manual contact is not needed, the whole blanking of the die seats is not influenced, the cooling process of the surfaces of the chips in the die seats is not needed, the blanking is not needed after the chips are cooled, the waiting time is shortened, and the tin-plating work progress is accelerated.

2. According to the invention, the detachable die seats are arranged, the single die seat can limit a plurality of chips, and the upper die seat and the lower die seat which are detachable can be conveniently and quickly separated by the design of the upper die seat and the lower die seat, so that the chip feeding and discharging processes are more convenient and faster.

3. According to the invention, the overturning barrier strip is designed to support the die seat to be processed, the placement position of the die seat is determined, and the positions of the two sides of the die seat are limited by the barrier strip and the track sliding plate, so that the accuracy of the die seat is ensured, and the die seat is more accurate in tin spot.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a perspective view of a mold base of the present invention;

FIG. 4 is a second perspective view of the mold base of the present invention;

fig. 5 is a perspective view of a mobile station of the present invention;

FIG. 6 is a second perspective view of the mobile station of the present invention;

FIG. 7 is a perspective view of the lift mechanism of the present invention;

fig. 8 is a perspective view of a mobile station of the present invention;

fig. 9 is a perspective view of the blanking process of the present invention.

In the figure:

1. A tin plating machine;

2. A mobile station; 201. a movable bottom plate; 202. a first gear bar; 203. stabilizing the side plates; 204. turning over the barrier strips; 205. a track slide plate; 206. a lifting plate; 207. a gear bar II;

3. a blanking table; 301. a transfer plate; 302. a conveyor belt; 303. a chamfer groove; 304. a support leg;

4. A mold base; 401. an upper die holder; 402. a lower die holder; 403. clamping the magnetic stripe; 404. a die fixed-point groove; 405. clamping magnetic blocks; 406. a spacer block;

5. Soldering iron head;

6. a lifting mechanism; 601. lifting the push plate; 602. bending the first plate; 603. a second bending plate; 604. a transmission shaft; 605. a driving motor; 606. positioning a shaft; 607. and a switching block.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

As shown in fig. 1-9, the invention provides a spot welding device for processing an intelligent watch chip, which comprises a spot tin machine 1, wherein the spot tin machine 1 comprises a movable sliding table and a mechanical arm which are arranged on the surface of the spot tin machine 1, the movable sliding table is provided with a movable table 2, the mechanical arm is arranged at one end of the spot tin machine 1, the mechanical arm is of a U-shaped structure, the mechanical arm is provided with a tin feeding machine, the tin feeding machine is provided with a soldering iron head 5, the movable table 2 is provided with a lifting mechanism 6, the surface of the lifting mechanism 6 is provided with a plurality of mold bases 4, one side of the spot tin machine 1 is provided with a blanking table 3, the mold bases 4 are stacked on the movable table 2, the movable table 2 comprises a movable bottom plate 201, the movable bottom plate 201 is fixedly connected to the surface of the movable sliding table, two mutually symmetrical first gear bars 202 are vertically connected to one side of the movable bottom plate 201, two corresponding second gear bars 207 are arranged between the first gear bars 202 and the second gear bars 207, a track 205 is respectively arranged, a lifting plate 206 is connected between the tracks 205 in a sliding manner, and the lifting mechanism 6 is arranged between the bottoms of the lifting plate 206 and the lifting mechanism is arranged between the lifting mechanism and the lifting mechanism 6.

As an embodiment of the present invention, the mold base 4 includes an upper mold base 401 and a lower mold base 402, two mutually symmetrical isolation blocks 406 are installed on the surface of the upper mold base 401, a plurality of isolation grooves are formed on the upper mold base 401, and a clamping magnet 405 is installed at one end of the upper mold base 401 far from the isolation blocks 406.

Wherein, the spacer 406 is disposed on the surface of the upper die holder 401, and is used for stacking a plurality of die holders 4, increasing the space between the die holders 4, facilitating the insertion of the blanking table 3 between two die holders 4, and performing blanking treatment on the die holders 4 on the surface of the blanking table 3.

As an embodiment of the present invention, the lower mold base 402 is disposed on the surface of the lifting plate 206, two sides of the lower mold base 402 are respectively slidably connected to the surface of the track sliding plate 205, a plurality of mold fixed-point grooves 404 are disposed on the surface of the lower mold base 402, the mold fixed-point grooves 404 are disposed in one-to-one correspondence with the isolation grooves, and two mutually symmetrical clamping magnetic strips 403 are mounted on the surface of the lower mold base 402.

The die holder 4 slides up and down in the mobile station 2, the upper die holder 401 and the lower die holder 402 are combined through the clamping magnetic strips 403 and the clamping magnetic blocks 405, the watch chip to be processed is placed in the die fixed point groove 404, the upper die holder 401 is close to the lower die holder 402, each chip to be processed is separated by the isolating groove, and the clamping magnetic strips 403 and the clamping magnetic blocks 405 are adsorbed to prevent the upper die holder 401 from being separated from the lower die holder 402 relatively.

As an embodiment of the present invention, the lifting mechanism 6 includes a folding hinge and a transmission shaft 604, the folding hinge is disposed at two ends of the transmission shaft 604, the folding hinge includes a first bending plate 602 and a second bending plate 603, two ends of the transmission shaft 604 respectively pass through one end of the second bending plate 603, the other end of the second bending plate 603 is rotationally connected with the first bending plate 602, one end of the first bending plate 602 far away from the second bending plate 603 is rotationally connected with a lifting push plate 601, and the lifting push plate 601 is respectively and fixedly connected at two ends of the lifting plate 206.

The design of the first bending plate 602 and the second bending plate 603, which can be folded, can change the angle between the first bending plate 602 and the second bending plate 603 to lift the lifting plate 206.

As one embodiment of the invention, one end of the second bending plate 603, which is close to the transmission shaft 604, is rotatably connected with a transfer block 607, the transfer block 607 is arranged on the surface of the movable bottom plate 201, the lifting push plate 601 is rotatably connected with the first bending plate 602 through a positioning shaft 606, the transmission shaft 604 movably penetrates through the transfer block 607, one end of the transmission shaft 604 is connected with a driving motor 605 through a coupling, and the driving motor 605 is arranged on the surface of the movable bottom plate 201.

Wherein, driving motor 605 drives transmission shaft 604 and rotates, and then the lifter plate 206 at top is restricted by track slide 205 of both sides and can only reciprocate, so when the lifter plate 603 overturns, the lifter plate 206 is risen to the rotation of following of lifter plate 602, thereby also can promote the mould seat 4 at top to rise, carries out material loading and unloading work.

As one embodiment of the invention, both sides of the track slide 205 are connected to the first gear bar 202 and the second gear bar 207 through the stable side plate 203, the surface of the stable side plate 203 is provided with a turnover groove, and the turnover groove is rotationally connected with the turnover baffle bar 204.

The cross section of the turning barrier strip 204 is in a right triangle structure as shown in fig. 6-7, the turning barrier strip 204 is rotationally connected in the turning groove, the right-angle surface of the turning barrier strip 204 is contacted with the side surface of the turning groove, the turning barrier strip 204 can only rotate back and forth within a certain range after being abutted against by the side surface of the turning groove, and due to the principle of downward gravity, when the die holder 4 moves upwards, the turning barrier strip 204 is driven to rotate after contacting one convex end of the turning barrier strip 204, when the die holder 4 moves to the upper side of the turning barrier strip 204, one end of the turning barrier strip 204 is driven to move downwards under the action of gravity, the turning barrier strip 204 is driven to turn to the other direction, but because the turning barrier strip 204 contacts with the turning groove, one side surface of the turning barrier strip 204 is blocked after being contacted with the turning groove, at the moment, the lifting mechanism 6 moves downwards, the die holder 4 moving to the upper end of the turning barrier strip 204 is blocked, the lower end of the die holder 4 cannot be downwards, the tin-plating position of the die holder 4 is limited, the turning barrier strip 204 is supported by the die holder 4, and if the die holder 4 on the surface is finished after the die holder 4 is in the tin-plating position, the two layers are stacked, the two layers of the die holder 4 are pushed to move, the two layers of the carrier 4 are stacked, the carrier 4 is continuously, and the carrier material is stacked, and the material is processed, and the material is continuously, and the material is stacked on the two sides of the carrier material is 4.

As an embodiment of the present invention, the blanking table 3 includes a conveying plate 301, a conveying belt 302 is mounted on the conveying plate 301, a chamfer groove 303 is formed at one end of the conveying plate 301 near the moving table 2, and a supporting leg frame 304 is mounted at the bottom of the conveying plate 301.

As shown in fig. 8, the chamfering groove 303 is used to accurately insert the blanking table 3 between the two die holders 4, and then the conveyor 302 is used to convey the die holders 4 on the top, so that the processed wristwatch chip is conveyed out of the processing area.

As an embodiment of the present invention, the length of the second gear bar 207 is the same as the length of the track slide 205, the length of the first gear bar 202 is smaller than the length of the second gear bar 207, and the second gear bar 207 is disposed on the movable bottom plate 201 near one end of the blanking table 3.

As shown in fig. 5, the heights of the two gear bars are different, so that when the blanking is performed, the die holder 4 is separated from the track slide plate 205 and is not limited by the track slide plate 205, and moves left and right freely, while the first gear bar 202 can still continuously block the advancing direction of the die holder 4, so that the die holder 4 is prevented from being easily pushed to move forward due to the position limitation of the track slide plate 205 when the blanking table 3 is inserted between the two die holders 4, and cannot accurately fall onto the surface of the conveyor belt 302.

As shown in fig. 2, the stacked mold bases 4 are stacked and placed on the mobile station 2, and then limited by the track slide plate 205, two sides are blocked by the first gear strip 202 and the second gear strip 207, when spot welding is performed, the lifting mechanism 6 is started to push the stacked mold bases 4 to lift, so that the top mold bases 4 move above the overturning barrier strips 204, at the moment, the top mold bases 4 move to the top of the track slide plate 205, the spot welding machine 1 performs soldering operation, the soldering iron head 5 heats the soldering iron strips, and the soldering operation is performed on soldering points;

After the soldering is completed, as shown in fig. 9, the lifting mechanism 6 continues to push the lifting plate 206 to lift, then the die holder 4 with the completed soldering is lifted again and supported by the die holder 4 at the bottom, at this time, the uppermost die holder 4 is separated from the track slide plate 205, the moving table 2 moves to the surface of the blanking table 3, the blanking table 3 conveys and blanking the die holder 4 at the top, and the lower unprocessed die holder 4 is exposed and returns to the soldering operation again.

The embodiments of the present invention have been shown and described for the purpose of illustration and description, it being understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made therein by one of ordinary skill in the art without departing from the scope of the invention.

Claims

1. The utility model provides a spot welding device is used in processing of intelligence wrist-watch chip, includes some tin machine (1), including installing removal slip table and the robotic arm on some tin machine (1) surface on some tin machine (1), install mobile station (2) on the removal slip table, robotic arm sets up the one end at some tin machine (1), robotic arm is U type structure, install on the robotic arm and send the tin machine, send to install soldering iron head (5), its characterized in that on the tin machine: install elevating system (6) on mobile station (2), the surface of elevating system (6) is provided with a plurality of mould seat (4), one side of some tin machine (1) is provided with unloading platform (3), mould seat (4) pile up and set up on mobile station (2), mobile station (2) are including removing bottom plate (201), remove bottom plate (201) fixed connection on the surface of removing the slip table, be connected with two gear strip one (202) of mutual symmetry perpendicularly on removing bottom plate (201), one side of gear strip one (202) is provided with one-to-one gear strip two (207), be provided with track slide (205) between gear strip one (202) and gear strip two (207) respectively, sliding connection has lifter plate (206) between track slide (205), be provided with height-adjusting's elevating system (6) between the bottom of lifter plate (206) and the removal bottom plate (201).

2. The spot welding device for processing a chip of a smart watch according to claim 1, wherein: the die seat (4) comprises an upper die seat (401) and a lower die seat (402), two mutually symmetrical isolation blocks (406) are arranged on the surface of the upper die seat (401), a plurality of isolation grooves are formed in the upper die seat (401), and clamping magnet blocks (405) are arranged at one end, far away from the isolation blocks (406), of the upper die seat (401).

3. The spot welding device for processing a chip of a smart watch according to claim 2, wherein: the lower die seat (402) is arranged on the surface of the lifting plate (206), two sides of the lower die seat (402) are respectively connected to the surface of the track sliding plate (205) in a sliding mode, a plurality of die fixed point grooves (404) are formed in the surface of the lower die seat (402), the die fixed point grooves (404) are arranged in one-to-one correspondence with the isolation grooves, and two mutually symmetrical clamping magnetic strips (403) are arranged on the surface of the lower die seat (402).

4. The spot welding device for processing a chip of a smart watch according to claim 1, wherein: elevating system (6) are including folding hinge and transmission shaft (604), folding hinge sets up the both ends at transmission shaft (604), folding hinge is including bending board one (602) and bending board two (603), the one end of bending board two (603) is passed respectively to the both ends of transmission shaft (604), the other end and the bending board one (602) rotation of bending board two (603) are connected, the one end rotation that keeps away from bending board two (603) on bending board one (602) is connected with lift push pedal (601), lift push pedal (601) fixed connection is at the both ends of lifter plate (206) respectively.

5. The spot welding device for smart watch chip manufacturing of claim 4, wherein: one end of the second bending plate (603) close to the transmission shaft (604) is rotationally connected with a transfer block (607), the transfer block (607) is arranged on the surface of the movable bottom plate (201), the lifting push plate (601) is rotationally connected with the first bending plate (602) through a positioning shaft (606), the transmission shaft (604) movably penetrates through the transfer block (607), one end of the transmission shaft (604) is connected with a driving motor (605) through a coupling, and the driving motor (605) is arranged on the surface of the movable bottom plate (201).

6. The spot welding device for processing a chip of a smart watch according to claim 1, wherein: both sides of the track slide plate (205) are connected to the first gear strip (202) and the second gear strip (207) through the stable side plates (203), a turnover groove is formed in the surface of the stable side plates (203), and the turnover baffle strips (204) are rotationally connected in the turnover groove.

7. The spot welding device for processing a chip of a smart watch according to claim 1, wherein: the blanking table (3) comprises a conveying plate (301), a conveying belt (302) is arranged on the conveying plate (301), a chamfer groove (303) is formed in one end, close to the mobile station (2), of the conveying plate (301), and supporting leg frames (304) are arranged at the bottom of the conveying plate (301).

8. The spot welding device for processing a chip of a smart watch according to claim 1, wherein: the length of the second gear strip (207) is the same as that of the track sliding plate (205), the length of the first gear strip (202) is smaller than that of the second gear strip (207), and the second gear strip (207) is arranged at one end, close to the blanking table (3), of the movable bottom plate (201).