CN102969524B - Cell bonding molding device - Google Patents

Abstract

The invention discloses a cell bonding molding device which comprises a base rotating step by step. The base is provided with a ring of molding work stations distributed on a certain circumference which takes a rotary shaft of the base as the center of the circle. Each molding work station comprises a cell positioning clamp installed on the base and a bracket hold-down mechanism, wherein the horizontal position of the bracket hold-down mechanism can change between the state that the horizontal position is right above the cell positioning clamp and the state that the horizontal position deviates from the right above part of the cell positioning clamp, and the vertical position of the bracket hold-down mechanism can ascend and descend relative to the base. The cell bonding molding device provided by the invention is simple in structure, and the molding process can be carried out continuously and compactly due to a skillful turntable structure, so that the molding efficiency is greatly increased, the trouble of manual operation is substantially avoided, and the labor cost is greatly saved. The cell bonding molding device can be matched with other devices, so that the bonding efficiency and machining precision of the cell and a housing bracket are greatly improved.

Description

Battery core bonding forming device

Technical field

The present invention relates to a kind of automatic processing device of battery of mobile phone, be specially a kind of battery core bonding forming device.

Background technology

Battery of mobile phone one of them important step in process of manufacture is the bonding step of battery core and glue shell support, and as shown in Figure 1, in this step, workman needs battery core 100 and glue shell support 200 by the bonding finished product of the bonding firm formation of quick setting cement.At present, this step is all completed by workman's manual operations, and during operation, battery core is fixed on fixture by workman, then is adhered to by glue shell support in the fixing battery core in position, then solidify both waiting for, after solidifying, manual being taken off from fixture by bonding finished product realizes reclaiming again.This manual mode of operation is wasted time and energy, waste of manpower cost.Therefore, need badly now and above-mentioned processing mode is improved, make the bonding process of battery core and glue shell support to realize automation, thus there is higher efficiency, save human cost.

Summary of the invention

For the problems referred to above, the invention provides a kind of simple and ingenious structure, battery core bonding forming device that operating efficiency is high, coordinate other equipment that the bonding step of battery core and glue shell support can be made to realize automation.

The technical scheme that the present invention adopts for its technical problem of solution is:

Battery core bonding forming device, comprise the base rotated in a stepping manner, base is provided be distributed in base shaft be the center of circle certain circumferentially one circle shaping station, each shaping station comprises the battery core positioning fixture be installed on base, and horizontal level and can depart from two states change directly over battery core positioning fixture directly over battery core positioning fixture, upright position can respect thereto lifting support hold-down mechanism, described base is provided with the rail groove that the center of circle to shaping station institute circumferential spread extends in the radial side of each battery core positioning fixture, described support compresses organization establishes also can along rail groove back and forth movement in described rail groove.

Preferably, described support hold-down mechanism comprises slide block, pressing plate bar and pressing plate, pressing plate is arranged on the top of pressing plate bar, slide block is arranged in described rail groove, pressing plate bar is connected in slide block with the mode activity perpendicular to base, and the below of base is provided with the first drive unit of control slide block movement and the second drive unit for controlling the lifting of pressing plate bar.

Preferably, described support hold-down mechanism comprises slide block, pressing plate bar and pressing plate, pressing plate is arranged on the top of pressing plate bar, described base is provided with the rail groove that the center of circle to shaping station institute circumferential spread extends in the side of each battery core positioning fixture, slide block is arranged on also can along rail groove back and forth movement in described rail groove, pressing plate bar is connected in slide block with the mode activity perpendicular to base, and the below of base is provided with the first drive unit of control slide block movement and the second drive unit for controlling the lifting of pressing plate bar.

Preferably, the bottom of pressing plate bar is provided with cushion block protruding laterally, the bottom of cushion block is provided with guiding slice, pressing plate bar is socketed with spring between cushion block and slide block, described base comprises depression bar track plate and is arranged on the platen support dish below depression bar track plate, rail groove is arranged in pressing plate track plate, position corresponding below each rail groove on platen support dish is provided with pressing plate bar lifting auxiliary tank, pressing plate bar lifting auxiliary tank is provided with the open-work passed for cushion block in the end in outside, other parts of pressing plate bar lifting auxiliary tank are set to the trench structure that can pass for guiding slice.

Preferably, described first drive unit comprises the fixing pressing plate in position and retracts mechanism and mechanism pushed open by pressing plate, pressing plate retracts mechanism and is provided with along rail groove direction back and forth movement for pulling support hold-down mechanism towards the tie rod of battery core positioning fixture movement, and pressing plate is pushed mechanism open and is provided with and pushes away bar for promoting support hold-down mechanism away from battery core positioning fixture along rail groove direction back and forth movement.

Preferably, what what described second drive unit comprised that position fixes be located at below shaping station transfers cylinder and jack-up cylinder, transfer cylinder to be provided with and to aim at open-work lifting for what cushion that a bearing plate bar declines and transfer bar, jack-up cylinder is provided with the jack-up bar aimed at open-work lifting and rise for a bearing plate bar.

Preferably, described battery core positioning fixture comprises clamp base, width adjustment plate, Boards wall seat and plural groups battery core chuck, battery core chuck is made up of a pair relative clamping plate, back-moving spring is provided with between often pair of clamping plate, Boards wall seat is fixed in clamp base, the chamber for width adjustment plate mobile lifting is provided with between Boards wall seat and clamp base, width adjustment plate is arranged in chamber, clamping plate are arranged on Boards wall seat, be provided with the relative inclined-plane for abutting to bottom clamping plate in the below of often pair of clamping plate above width adjustment plate, the below of width adjustment plate is provided with the 3rd drive unit driving the lifting of width adjustment plate.

Preferably, the second motor that 3rd drive unit comprises screw rod and is arranged at constant the first motor for drive screw rotating forward rising of base lower position and declines for drive screw reversion, clamp base is provided with screw, base is provided with perforation, the top of screw rod abuts to the below of width adjustment plate, and the other end is bolted through screw also by extending to the below of base after perforation.

Preferably, clamping plate are provided with positioning baffle near the side in the center of circle of shaping station institute circumferential spread, and the arranged outside of base has battery core side push mechanism, battery core side push mechanism be provided with movable telescopic for promoting battery core cutting somebody's hair to positioning baffle movement.

The invention has the beneficial effects as follows: structure of the present invention is simple, its rotation by base can make the position of shaping station constantly rotate change, in rotation process, support hold-down mechanism can play the effect be fixed automatically, coordinate the layout of other equipment, shaping station just can enter into each step of battery core and glue shell bonding process successively, as feeding, point glue, bonding, be fixed and clamped, finished product recovery etc., this turntable structure cleverly can make forming process to carry out to continuous and compact, shaping efficiency increases greatly, substantially the manual trouble of people is eliminated, greatly save human cost, the present invention and other equipment coordinate can improve battery core and the bonding efficiency of glue shell support and machining accuracy greatly.

Accompanying drawing explanation

Be further detailed below in conjunction with the drawings and specific embodiments:

Fig. 1 is battery core and glue shell bonded structure schematic diagram;

Fig. 2 is structural representation of the present invention;

Fig. 3 is the structural representation figure of dispersity of the present invention;

Fig. 4 is the structural representation of support hold-down mechanism;

Fig. 5 is the decomposition texture schematic diagram of battery core positioning fixture.

Embodiment

With reference to Fig. 1, effect of the present invention has been battery core 100 and glue shell support 200 bonding process, makes as feeding, some glue, bonds, is fixed and clamped, the step such as finished product recovery can seamlessly in pipelined fashion be connected in series.Be clearly and completely described below with reference to embodiment and the accompanying drawing technique effect to design of the present invention, concrete structure and generation, to understand object of the present invention, characteristic sum effect fully.Obviously; described embodiment is a part of embodiment of the present invention, instead of whole embodiment, based on embodiments of the invention; other embodiments that those skilled in the art obtains under the prerequisite not paying creative work, all belong to the scope of protection of the invention.

As shown in Figures 2 and 3, battery core bonding forming device of the present invention, comprises the base 1 rotated in a stepping manner.Base 1 forms primarily of the index dial 13 rotated, depression bar track plate 11 and platen support dish 12 simultaneously.Index dial 13 plays the effect of main support.

Base 1 is provided with and is distributed in base 1 rotating shaft certain circle shaping station circumferentially that is the center of circle, each shaping station comprises the battery core positioning fixture 2 be installed on base 1, and horizontal level and can depart from the change of two states directly over battery core positioning fixture 2 directly over battery core positioning fixture 2, upright position can the support hold-down mechanism 3 that is elevated of respect thereto 1.On base 1, the quantity of shaping station 2 is arranged according to the needs of bonding step.In the present embodiment, the quantity of shaping station is 16, is evenly distributed on one circumferentially.Position corresponding to one of them shaping station is start bit, and the position corresponding to another station is then stop bits, and the shaping station in start bit is used for the blowing work of battery core, and the shaping station on stop bits is then for the feeding work of the bonding finished product of battery core.Generally, start bit is located close to the downstream position of stop bits, and namely shaping station can enter into the bonding work that next group battery core is carried out in next circulation after the bonding work completing certain group battery core at once.In normal production routine, the follow-up work position of start bit comprises a glue position, glue shell support blowing position successively, compresses position, and then enters stop bits, because battery core and glue shell support need time of solidifying longer, therefore the quantity compressing position setting should be most, guarantees that both are connected firmly.

When base 1 rotates, shaping station is rotated along with base 1, and when shaping station enters into corresponding working position, the structure on battery core positioning fixture 2 and support hold-down mechanism 3 all can change according to setting.Generally, in start bit, some glue position, glue shell support blowing position, when compressing position, battery core positioning fixture 2 is all in clamped condition to shaping station, and when being only in stop bits, battery core positioning fixture 2 is just in releasing orientation.And support hold-down mechanism 3 is avoided directly over battery core positioning fixture 2 when start bit, some glue position, glue shell support blowing position, and be in raised configuration, be convenient to operate battery core, be in support hold-down mechanism 3 when compressing position and be then pressed in battery core.

For the ease of realizing the action change of support hold-down mechanism 3, as shown in Figure 3, support hold-down mechanism 3 preferably includes slide block 31, pressing plate bar 32 and pressing plate 33.Pressing plate 33 is arranged on the top of pressing plate bar 32, described base 1 is provided with the rail groove 4 that the center of circle to shaping station institute circumferential spread extends in the side of each battery core positioning fixture 2, slide block 31 is arranged on also can along rail groove 4 back and forth movement in described rail groove 4, pressing plate bar 32 is to be connected in slide block 31 perpendicular to the mode activity of base 1, and the below of base 1 is provided with and controls the first drive unit of slide block 31 motion and the second drive unit for controlling pressing plate bar 32 lifting.Just can be realized the change of support hold-down mechanism 3 integral position by control slide block 31 in the position of rail groove 4, and by controlling the lifting of pressing plate bar 32 in slide block 31, then can control the position of pressing plate 33 in vertical height.

Consider in actual conditions, support hold-down mechanism 3 only has the change of two states, to be namely pressed on battery core positioning fixture 2 and to change between the two states raised away from battery core positioning fixture 2.In order to make the composition of the first drive unit and the second drive unit simpler, preferably, the bottom of pressing plate bar 32 is provided with cushion block 34 protruding laterally, the bottom of cushion block 34 is provided with guiding slice 35, pressing plate bar 32 is socketed with spring 36 between cushion block 34 and slide block 31, described base 1 comprises depression bar track plate 11 and is arranged on the platen support dish 12 below depression bar track plate 11, rail groove 4 is arranged in pressing plate track plate 11, position corresponding below each rail groove 4 on platen support dish 12 is provided with pressing plate bar lifting auxiliary tank 5, pressing plate bar lifting auxiliary tank 5 is provided with the open-work 51 passed for cushion block 34 in the end in outside, other parts of pressing plate bar lifting auxiliary tank 5 are set to the trench structure 52 that can pass for guiding slice 35.This structure specific works principle in conjunction with spring is: when slide block 31 is in inside rail groove 4, pressing plate bar 32 is limited on platen support dish 12 in the part of cushion block more than 34, and position under the effect of auxiliary tank 5, now pressing plate bar 32 is in increasing state, drives pressing plate 33 to be also in increasing state; When the first drive unit drives slide block 31 to arrive the outboard end of rail groove 4, cushion block 34 enters into open-work 51, the spacing disappearance of platen support dish 12, and pressing plate bar 32 moves down under the effect of spring 36, and band dynamic pressure plate 33 is pressed on downwards on battery core positioning fixture 2.This structure makes the composition of the first drive unit and the second drive unit be simplified as far as possible, they only need arrange at corresponding working position the state that force side just can change support hold-down mechanism 3, can keep stable state at other working position upper bracket hold-down mechanisms 3.In the present embodiment, first drive unit comprises the fixing pressing plate in position and retracts mechanism 61 and mechanism 62 pushed open by pressing plate, pressing plate retracts mechanism 61 and is provided with along rail groove 4 direction back and forth movement for pulling support hold-down mechanism 3 towards the tie rod 611 of battery core positioning fixture 2 movement, and pressing plate is pushed mechanism 3 open and is provided with and pushes away bar 621 for promoting support hold-down mechanism 3 away from battery core positioning fixture 2 along rail groove 4 direction back and forth movement.What what the second drive unit comprised that position fixes be located at below shaping station transfers cylinder 71 and jack-up cylinder 72, transfer cylinder 71 to be provided with and to aim at open-work 51 and be elevated and transfer bar 711 for what cushion that a bearing plate bar 32 declines, jack-up cylinder 72 is provided with to be aimed at open-work 51 and is elevated the jack-up bar 721 risen for a bearing plate bar 32.

In order to control the action of battery core positioning fixture 2 better, as shown in Figure 5, battery core positioning fixture 2 comprises clamp base 21, width adjustment plate 22, Boards wall seat 23 and plural groups battery core chuck.Battery core chuck is made up of a pair relative clamping plate 24, back-moving spring 26 is provided with between often pair of clamping plate 24, Boards wall seat 23 is fixed in clamp base 21, the chamber for width adjustment plate 22 mobile lifting is provided with between Boards wall seat 23 and clamp base 21, width adjustment plate 22 is arranged in chamber, clamping plate 24 are arranged on Boards wall seat 23, be provided with the relative inclined-plane 221 for abutting to bottom clamping plate 24 above width adjustment plate 22 in the below of often pair of clamping plate 24, the below of width adjustment plate 22 is provided with the 3rd drive unit driving width adjustment plate 22 to be elevated.3rd drive unit comprises screw rod 81 and is arranged at the second motor 83 of constant the first motor 82 for drive screw 81 rotating forward rising of base 1 lower position and decline of reversing for drive screw 81, clamp base 21 is provided with screw 211, the index dial 13 of base 1 is provided with perforation 131, the top of screw rod 81 abuts to the below of width adjustment plate 22, and the other end is bolted through screw 211 and below by extending to base 1 after perforation 131.The mode that this screw rod 81 drives the 3rd drive unit only need be arranged action control that two force motors just can realize the whole course of work, structure is simple, and it is convenient to control.

More accurate in order to make battery core place, clamping plate 24 are provided with positioning baffle 25 near the side in the center of circle of shaping station institute circumferential spread, the arranged outside of base 1 has battery core side push mechanism 9, and what battery core side push mechanism 9 was provided with movable telescopic cuts somebody's hair 91 for promoting battery core to positioning baffle 25 movement.

Below in conjunction with above embodiment, operation principle of the present invention is described.

After battery core puts battery core positioning fixture 2 into, first motor 82 rotating shaft is risen, to fasten after screw rod 81 and to rotate, width adjustment plate 22 jack-up, width adjustment plate 22 jack-up, together with inclined-plane on width adjustment plate is permanently connected to battery core clamping plate again, clamping plate 24 will be promoted battery core is clamped, simultaneously, battery core side push mechanism 9 pushes away battery core positioning baffle 25 backed off after random causing side, base 1 one lattice one lattice rotate, until three battery cores have all played glue, go to glue shell support blowing position, after support installs, after base rotation one lattice, pressing plate retracts mechanism 61 tie rod and protracts, fasten the slide block 31 of support hold-down mechanism, hold-down mechanism is pulled to move, until pressing plate covers above battery core completely, walk under transferring cylinder, pressing plate presses down under the action of the spring, until be pressed onto in battery core.After execution, base rotation, until go to below jack-up cylinder, jack-up cylinder is after hold-down mechanism 3 jack-up, pressing plate is pushed mechanism 62 open and hold-down mechanism 3 is pushed open rear return, jack-up cylinder return, base rotation one lattice, second motor 83 rotates after rising and fastening screw rod 81 and makes width adjustment plate 22 descending, inclined-plane is separated with battery core clamping plate 24, and battery core clamping plate 24 separate to two sides under the effect of back-moving spring, unclamp battery core, recovering mechanism reclaims battery core, completes a work period.

Embodiments of the present invention are not restricted to the described embodiments, as long as it reaches technique effect of the present invention with substantially identical means, all should belong to protection scope of the present invention.

Claims (7)

1. battery core bonding forming device, it is characterized in that comprising the base (1) rotated in a stepping manner, base (1) is provided be distributed in base (1) rotating shaft be the center of circle certain circumferentially one circle shaping station, each shaping station comprises the battery core positioning fixture (2) be installed on base (1), and horizontal level and can depart from two states change directly over battery core positioning fixture (2) directly over battery core positioning fixture (2), upright position can the support hold-down mechanism (3) that is elevated of respect thereto (1), described base (1) is provided with the rail groove (4) that the center of circle to shaping station institute circumferential spread extends in the radial side of each battery core positioning fixture (2), described support hold-down mechanism (3) is arranged on also can along rail groove (4) back and forth movement in described rail groove (4).

2. battery core bonding forming device according to claim 1, it is characterized in that described support hold-down mechanism (3) comprises slide block (31), pressing plate bar (32) and pressing plate (33), pressing plate (33) is arranged on the top of pressing plate bar (32), slide block (31) is arranged in described rail groove (4), pressing plate bar (32) is to be connected in slide block (31) perpendicular to the mode activity of base (1), and the below of base (1) is provided with and controls the first drive unit that slide block (31) moves and for controlling the second drive unit that pressing plate bar (32) is elevated.

3. battery core bonding forming device according to claim 2, it is characterized in that the bottom of pressing plate bar (32) is provided with cushion block (34) protruding laterally, the bottom of cushion block (34) is provided with guiding slice (35), pressing plate bar (32) is socketed with spring (36) between cushion block (34) and slide block (31), described base (1) comprises depression bar track plate (11) and is arranged on the platen support dish (12) of depression bar track plate (11) below, rail groove (4) is arranged in pressing plate track plate (11), platen support dish (12) is provided with pressing plate bar lifting auxiliary tank (5) in the position that each rail groove (4) below is corresponding, pressing plate bar lifting auxiliary tank (5) is provided with the open-work (51) passed for cushion block (34) in the end in outside, other parts of pressing plate bar lifting auxiliary tank (5) are set to the trench structure (52) that can pass for guiding slice (35).

4. the battery core bonding forming device according to Claims 2 or 3, it is characterized in that described first drive unit comprises the fixing pressing plate in position and retracts mechanism (61) and mechanism (62) pushed open by pressing plate, pressing plate retracts mechanism (61) and is provided with and is used for along rail groove (4) direction back and forth movement the tie rod (611) that pulls support hold-down mechanism (3) towards battery core positioning fixture (2) movement, and pressing plate is pushed mechanism (3) open and is provided with and pushes away bar (621) for promoting support hold-down mechanism (3) away from battery core positioning fixture (2) along rail groove (4) direction back and forth movement.

5. battery core bonding forming device according to claim 3, being located at of it is characterized in that described second drive unit comprises that position fixes transfers cylinder (71) and jack-up cylinder (72) below shaping station, transfer cylinder (71) be provided with aim at that open-work (51) lifting is used for that buffering bearing plate bar (32) declines transfer bar (711), jack-up cylinder (72) is provided with to be aimed at open-work (51) lifting and is used for the jack-up bar (721) that a bearing plate bar (32) rises.

6. battery core bonding forming device according to claim 1, it is characterized in that described battery core positioning fixture (2) comprises clamp base (21), width adjustment plate (22), Boards wall seat (23) and plural groups battery core chuck, battery core chuck is made up of a pair relative clamping plate (24), back-moving spring (26) is provided with between often pair of clamping plate (24), Boards wall seat (23) is fixed in clamp base (21), the chamber for width adjustment plate (22) mobile lifting is provided with between Boards wall seat (23) and clamp base (21), width adjustment plate (22) is arranged in chamber, clamping plate (24) are arranged on Boards wall seat (23), width adjustment plate (22) top is provided with the relative inclined-plane (221) for abutting to clamping plate (24) bottom in the below of often pair of clamping plate (24), the below of width adjustment plate (22) is provided with the 3rd drive unit driving width adjustment plate (22) to be elevated.

7. battery core bonding forming device according to claim 6, it is characterized in that the second motor (83) that the 3rd drive unit comprises screw rod (81) and is arranged at constant the first motor (82) for drive screw (81) rotating forward rising of base (1) lower position and declines for drive screw (81) reversion, clamp base (21) is provided with screw (211), base (1) is provided with perforation (131), the top of screw rod (81) abuts to the below of width adjustment plate (22), the other end is bolted through screw (211) and by extending to the below of base (1) after perforation (131).

8.battery core bonding forming device according to claim 6, it is characterized in that clamping plate (24) are provided with positioning baffle (25) near the side in the center of circle of shaping station institute circumferential spread, the arranged outside of base (1) has battery core side push mechanism (9), battery core side push mechanism (9) be provided with movable telescopic for promoting cut somebody's hair (91) of battery core to positioning baffle (25) movement.