CN214770206U - Battery assembling device - Google Patents

Abstract

The utility model discloses a battery assembling device belongs to battery equipment technical field. The method comprises the following steps: the first positioning mechanism comprises a slope adjusting mechanism and a positioning plate for fixing the battery installation carrier, the positioning plate is arranged on the slope adjusting mechanism, and the position of the positioning plate is adjustable. The assembly mechanism comprises a battery adsorption component and a rotary driving device, the output end of the rotary driving device is connected with the battery adsorption component in a driving mode, the battery adsorption component comprises an overturning adsorption plate, and the overturning adsorption plate comprises an adsorption portion used for adsorbing a battery. The assembling mechanism is arranged on one side of the first positioning mechanism in a left-right moving mode so as to enable the overturning adsorption plate to move to a working position or return to a waiting position. The utility model discloses a set up slope adjustment mechanism and prop up the locating plate, can target in place the battery equipment with the rotation driving device and the battery absorption subassembly cooperation that the level set up again, such setting makes the operation comparatively convenient.

Description

Battery assembling device

Technical Field

The utility model relates to a battery equipment technical field, concretely relates to battery assembly device.

Background

In the battery assembly of the smart watch, before an operator assembles the battery in place, the flat cable needs to be assembled on the battery. In the prior art, when the battery is assembled, the installation station is usually placed horizontally, the battery clamping and transplanting assembly is clamped by the assembling mechanism through the arrangement of the clamping and transplanting mechanism, then the flat cable is installed manually, the battery is moved to the position needing to be installed by clamping and transplanting the side faces of the battery, and finally the battery is pressed and assembled manually. Such an assembly mechanism is limited by factors such as use conditions and cost, and is difficult to flexibly operate, which is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a battery assembly device, it can realize using conveniently, compares and gets transplanting formula subassembly in clamp, and its operation is got up more in a flexible way, and the suitability is better.

In order to achieve the technical purpose, the embodiment of the present invention specifically provides the following technical solutions:

a battery assembly apparatus comprising:

the first positioning mechanism comprises a gradient adjusting mechanism and a positioning plate for fixing a battery installation carrier, the positioning plate is arranged on the gradient adjusting mechanism, and the position of the positioning plate on the gradient adjusting mechanism is adjustable;

the assembly mechanism comprises a battery adsorption component and a rotary driving device, wherein the output end of the rotary driving device is in driving connection with the battery adsorption component, the battery adsorption component comprises an installation part installed on the output end and an overturning adsorption plate installed on one side of the installation part, and the overturning adsorption plate comprises an adsorption part for adsorbing a battery;

the assembling mechanism is arranged on one side of the first positioning mechanism in a left-right moving mode so as to enable the overturning adsorption plate to move to a working position or return to a waiting position.

Further, slope adjustment mechanism includes two supporting seats of parallel arrangement, the locating plate is located between two supporting seats, every the supporting seat includes first supporting part and second supporting part, the height of second supporting part is greater than the height of first supporting part, be equipped with slope adjustment mouth on the second supporting part, the one end of locating plate with first supporting part rotates to be connected, the other end of locating plate can be movably located in the slope adjustment mouth.

Further, the locating plate is located install the connecting rod on the tip in the slope adjustment mouth respectively, the connecting rod periphery is fixed with the plunger, the plunger includes narrow portion, fixed part and handheld portion, narrow portion is located with moving in the slope adjustment mouth, the radial length of fixed part is greater than the radial length of narrow portion.

Furthermore, the connecting rod is a uniform thin rod, and the connecting rod is in interference fit with the mounting position on the positioning plate; or the connecting rod is a screw rod and is in threaded connection with the end part of the positioning plate.

Furthermore, the shape of the slope adjustment port is an arc-shaped structure, the slope adjustment port comprises a sliding port for the sliding of the narrow part and a matching part for the positioning plate to be fixed in place, and the matching part is matched and fixed with the fixing part.

Furthermore, the radial length of the matching part is greater than that of the slideway port, and at least one position is arranged on the matching part.

Further, still include battery fixed establishment, battery fixed establishment includes the fixed plate of vertical setting, be provided with the battery on the fixed plate and place the mouth, the articulated upset clamp plate that is equipped with in fixed plate one side, the battery is placed a mouthful upper end and is offered the breach that is used for exposing the battery.

Further, the first positioning mechanism is arranged on the workbench, and a pressure maintaining mechanism for maintaining the pressure of the battery which is installed in place on the positioning plate is further installed on the workbench.

Furthermore, the wire arranging device further comprises a second positioning mechanism, and the second positioning mechanism is used for positioning the battery during wire arranging.

Furthermore, the second positioning mechanism comprises a fixed seat arranged on the positioning plate and a turnover positioning plate hinged on the fixed seat, and a positioning opening matched with the shape of the battery is formed in the turnover positioning plate.

Compared with the prior art, the utility model has the advantages of: the utility model discloses a set up slope adjustment mechanism and prop up the locating plate, can target in place the battery equipment with the rotation driving device and the battery absorption subassembly cooperation that the level set up again, such setting makes the operation comparatively convenient.

Drawings

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

Fig. 1 is a schematic view of an overall structure in an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a structure at a in fig. 1 according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of a structure at B in fig. 1 according to an embodiment of the present invention.

Fig. 4 is an enlarged schematic view of a structure at C in fig. 1 according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the plunger according to the embodiment of the present invention.

Fig. 6 is another schematic structural diagram in the embodiment of the present invention.

Fig. 7 is a schematic structural diagram of an assembling mechanism according to an embodiment of the present invention.

Fig. 8 is an enlarged schematic view of a structure at D in fig. 7 according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a rotation driving device according to an embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a battery adsorption assembly according to an embodiment of the present invention.

Fig. 11 is another schematic structural diagram of the assembling mechanism according to the embodiment of the present invention.

Wherein the reference numerals are as follows:

10-a battery; 20-flat cable; 30-a bearing connector; 40-a magnetic component; 50-a tool box;

100-a first positioning mechanism; 110-a grade adjustment mechanism; 1101-a support base; 1102-a first support part; 1103 — a second support; 1104-slope adjustment port; 1105-a gate opening; 1106-mating part; 120-positioning plate; 1201-connecting rod; 1202-a plunger; 1203-stenosis; 1204-a stationary part; 1205-a handpiece;

200-an assembly mechanism; 210-a battery adsorption assembly; 2101-turning over the adsorption plate; 2102-an adsorption section; 2103-a mounting portion; 2104-gas tube fitting; 2105-air holes; 220-a rotation drive; 2201-output end; 230-a support frame; 240-drive mounting plate; 2401-a knob; 2402-a retaining pin; 250-a drive rod; 260-turning over a handle; 2601-a stop; 2701-slide rail; 2702-stop block; 2703-connecting plate; 280-mounting plate; 2801-a handle; 290-a base plate; 3001-an elastic member; 3002-a drawing pin; 3003-a support base; 3004-a clamping block; 3005-a clamping part; 3006-stenosis; 3007-a handle; 400-a battery securing mechanism; 410-a fixed plate; 420-battery placement port; 430-turning over the press plate; 510-a fixed seat; 520-overturning the positioning plate; 530-positioning the port; 600-a workbench; 700-pressure maintaining mechanism.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When a component is said to be "disposed on" another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly connected to the other element or intervening elements may also be present. The terms "left", "right", "front", "rear" and similar expressions are used herein for the purpose of illustration only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Referring to fig. 1 to 11, an embodiment of the battery assembling apparatus of the present invention includes:

as shown in fig. 1, the first positioning mechanism 100 includes a slope adjusting mechanism 110 and a positioning plate 120 for fixing the battery mounting carrier, the positioning plate 120 is disposed on the slope adjusting mechanism 110, and the position of the positioning plate 120 on the slope adjusting mechanism 110 is adjustable.

As shown in fig. 7, the assembly mechanism 200 includes a battery suction module 210 and a rotation driving device 220, an output end 2201 of the rotation driving device 220 is drivingly connected to the battery suction module 210, the battery suction module 210 includes a mounting portion 2103 mounted on the output end and an inverted suction plate 2101 mounted on one side of the mounting portion 2103, and the inverted suction plate 2101 includes a suction portion 2102 for sucking the battery 10.

Specifically, as shown in fig. 10, an air pipe joint 2104 is provided on one side of the inverted suction plate 2101, a vacuum pump is externally connected to the air pipe joint 2104 to suck the vacuum negative pressure of the battery 10 by the suction portion 2102, and an air hole 2105 communicating with the air pipe is provided in the suction portion 2102.

As shown in fig. 6, the assembling mechanism 200 is provided on one side of the first positioning mechanism 100 so as to be movable in the left-right direction, and moves the turnover absorbing plate 2101 to the working position or the retreat waiting position. The purpose of this design is: the assembly mechanism 200 may be retracted to a waiting position to avoid interference.

During actual work, operating personnel mobilizes slope adjustment mechanism to drive locating plate 120 and prop up, the first upset of absorption portion 2102 is placed up on locating plate 120, battery 10 adsorbs and is fixed in here, operating personnel installs winding displacement 20 to battery 10 on, the installation is accomplished the back, start drive arrangement 120 and drive upset absorption assembly 200 and rotate to battery installation department, as shown in fig. 11 this moment, the upset of absorption portion 2102 is down, operating personnel presses absorption portion 2102 and installs battery 10 in place. Through setting up slope adjustment mechanism 110 and propping up locating plate 120, can put the battery into place with the rotatory drive arrangement 200 and the cooperation of battery absorption subassembly 210 of level setting again, such setting up makes the operation get up comparatively conveniently.

The advantage of the flip absorption plate 2101 being installed on the side of the mounting portion 2103 is that: because the turnover adsorption plate 2101 is arranged on one side of the installation part 2103, compared with the situation that the turnover adsorption plate 2101 is arranged in the center of the installation part 2103, the turnover radius of the turnover adsorption plate 2101 is increased, the battery 10 can be turned to a remote subsequent processing station, and interference with other stations or components is avoided.

Referring to fig. 1, the slope adjusting mechanism 110 includes two supporting seats 1101 arranged in parallel, the positioning plate 120 is located between the two supporting seats 1101, each supporting seat 1101 includes a first supporting portion 1102 and a second supporting portion 1103, the height of the second supporting portion 1103 is greater than the height of the first supporting portion 1102, a slope adjusting opening 1104 is provided on the second supporting portion 1103, one end of the positioning plate 120 is rotatably connected to the first supporting portion 1101, and the other end of the positioning plate 120 is movably disposed in the slope adjusting opening 1104. It is understood that the slope adjustment mechanism may also be a handset-like support, a single support base 1101 directly behind the positioning plate 120, or any other mechanism that can achieve slope adjustment as known in the art. By arranging two supporting seats 1101, a better fixing effect on the positioning plate 120 can be achieved.

Referring to fig. 2 and 5, the positioning plate 120 is provided with a connecting rod 1201 at each end thereof disposed in the slope adjustment port 1104, a plunger 1202 is fixed to the periphery of the connecting rod 1201, the plunger 1202 includes a narrow portion 1203, a fixing portion 1204 and a hand-held portion 1205, the narrow portion 1203 is movably disposed in the slope adjustment port 1104, and the radial length of the fixing portion 1204 is greater than that of the narrow portion 1202.

Referring to fig. 2, the slope adjustment opening 1104 is shaped as an arc, the slope adjustment opening 1104 includes a sliding opening 1105 for the narrow portion 1203 to slide and a fitting portion 1106 for the positioning plate 120 to be fixed in place, and the fitting portion 1106 is fitted and fixed with the fixing portion 1204. Further, the radial length of the fitting portion 1106 is greater than that of the chute port 1105, and at least one place is provided for the fitting portion 1106. In this embodiment, the engagement portion 1106 is provided at two positions, which are respectively located at the start point and the end point of the slope adjustment port 1104. It should be noted that the slope adjustment opening 1104 may not be configured as an arc structure, and other shapes that can achieve the same function in the prior art may also be configured as an arc structure, so that the advantage of the arc structure is that the slope adjustment opening can play a better role in supporting and guiding when the position of the positioning plate 120 is changed.

Further, the connecting rod 1201 is a uniform thin rod, and the connecting rod 1201 is in interference fit with the mounting position on the positioning plate 120; or the connecting rod 1201 is a screw rod, and the connecting rod 1201 is screwed to the end of the positioning plate 120.

As shown in fig. 7 and 9, the assembly mechanism 200 further includes a support frame 230, an output end 2201 is mounted on the support frame 230 by the driving mounting plate 240, the output end 2201 is connected to one end of the driving rod 250 in a driving manner, and the other end of the driving rod 250 is connected to the battery adsorbing assembly 210. Specifically, the drive mounting plate 240 and the output end 2201 are connected by the bearing connector 30. It should be noted that the driving rod 250 may be a single rod or at least two rods, which may be designed according to the actual production requirement. Further, the driving mounting plate 240 is further provided with a knob 2401 for adjusting the locking degree between the supporting frame 230 and the rotation driving device 220. In this embodiment, the knob 2401 is a pentagonal knob convenient for holding and locking.

Referring to fig. 9, the driving rod 250 between the driving mounting plate 240 and the battery adsorbing assembly 210 is fixed with a turning handle 260, the driving rod 250 is provided with a limiting member 2601 for limiting the turning handle 260, and the turning handle 260 is used for manually adjusting the position of the battery adsorbing assembly 210. In this embodiment, the position-limiting member 2601 is a C-shaped snap ring. It should be noted that the turning handle 260 is fixedly secured to the driving rod 250.

In the practical operation, on battery 10 need install the battery installation carrier to on locating plate 120, locating plate 120 slope setting this moment, if only rely on rotary drive device 220 to drive the battery adsorption component and rotate, rotation angle is difficult for calculating to obtain, in this embodiment, through setting up upset handle 260, drive battery adsorption component 210 rotation integer angle by rotary drive device 220 earlier, drive the rotatory battery installation position that reachs of upset handle 260 by operating personnel again, the manual work is pressed the adsorption part 2102 and is installed the battery. The arrangement of the turning handle 260 makes the installation of the battery more convenient and easy to adjust, and meanwhile, the stable rotation of the battery adsorption component 210 cannot be influenced.

It should be noted that: in actual operation, when the assembly mechanism 200 positions the battery 10 on the suction portion 2102, the rotation center of the battery 10 and the rotation center of the battery suction member 210 are located on a horizontal line. If the rotation center of the battery is not on the same horizontal line with the adsorption center of the battery adsorption assembly 210, and the adsorption positions are different when the adsorption part 2102 adsorbs the battery 10, the distance of the movement of the battery 10 is not constant when the battery adsorption assembly 210 drives the battery 10 to rotate or an operator drives the turnover handle 260 to rotate, so that the deviation occurs at the final installation position, and the battery assembly is not favorable.

In this embodiment, as shown in fig. 11, the supporting frame 240 is provided with a fixing pin 2402, and the turning handle 260 is provided with a corresponding insertion hole; and/or, the magnetic components 40 which are matched with each other and are adsorbed and fixed are arranged at the corresponding positions of the support frame 240 and the overturning handle 260. In this embodiment, the two are arranged in a "and" parallel relationship, i.e. there are both the fixing pin 2402 and the corresponding insertion hole, and the magnetic assembly 40. It should be noted that, if the supporting frame 240 is made of ferromagnetic material, the magnetic component 40 is a magnet installed on the turning handle 260, and vice versa; if the supporting frame 240 and the turning handle 260 are made of non-ferromagnetic material, the magnetic assembly 40 is a magnet respectively mounted on the supporting frame 240 and the turning handle 260.

In this embodiment, as shown in fig. 11, the assembling mechanism 200 further includes a front-back position adjusting mechanism, which includes a sliding rail 2701 installed on the supporting frame 230 and limiting blocks 2702 installed on two sides of the sliding rail 2701, and the battery adsorbing assembly 210 is slidably connected to the sliding rail 2701 by a connecting plate 2703. Through setting up front and back position control mechanism, when operating personnel drove upset handle 260 and rotate and reach the battery installation position, the distance between battery and the battery installation position is adjusted to the battery absorption subassembly 210 on the removal slide 2701.

Referring to fig. 7 and 8, the battery assembling apparatus further includes a mounting plate 280 and a bottom plate 290, wherein the assembling mechanism 200 is mounted on the mounting plate 280; as oriented in FIG. 6, the mounting plate 280 is slidably mounted to the base plate 290 from side to side; a fixing mechanism is provided between the mounting plate 280 and the base plate 290, and the fixing mechanism fixes the mounting plate 280 to the base plate 290 when the mounting plate 280 stops sliding. Through the arrangement, the battery adsorption component 210 extends to the positioning plate 120 during work and is far away from the positioning plate 120 after work is completed, so that the flexible use of the assembly mechanism 200 is realized, and possible interference obstruction is avoided.

Referring to fig. 8, the fixing mechanism includes an elastic member 3001, a drawing pin 3002 movably disposed on the mounting plate 280, a supporting seat 3003 mounted on the mounting plate 280, and a clamping block 3004 hinged to the supporting seat 3003. The supporting seat 3003 is arranged close to the drawing pin 3002, and the bottom plate 290 is provided with a corresponding long hole for the drawing pin 3002 to penetrate and fix; the clamping block 3004 comprises a clamping portion 3005 for clamping the drawing pin 3002, one end of the elastic member 3001 is connected with the clamping block 3004, and the other end of the elastic member 3001 is connected with the mounting plate 280. In this embodiment, the engaging portion 3005 is a U-shaped notch, the drawing pin 3002 includes a slit portion 3006, and the engaging portion 3005 is engaged with the slit portion 3006. In addition, the support seat 3003 is disposed close to the drawing pin 3002 to achieve labor-saving operation. Further, the clamping block 3004 further comprises a handle 3007 convenient for manual hand-held pressing. It should be noted that the number of the corresponding long holes provided on the bottom plate 290 is at least two, so as to realize the fixation at more than two positions.

Further, as shown in fig. 7, a handle 2801 is further disposed on the mounting plate 280 to facilitate the manual movement of the battery absorbing assembly 200. Preferably, the handle 2801 is located right below the handle 3007, so that when an operator presses the handle 3007, the operator can hold the handle 2801 to drive the mounting plate 280 and components carried on the mounting plate 280 to slide, which is very convenient.

The function of the fixing mechanism is realized by the lever principle. In actual operation, operating personnel presses joint piece 3004 and pushes down, it rises to drive pull-out pin 3002 by joint portion 3005, pull-out pin 3002 extracts from the slot hole that corresponds on the bottom plate, operating personnel holds handle 2801 simultaneously and drives the mounting panel 280 and slide, when sliding and stopping, operating personnel loosens joint piece 3004, elastic component 3001 kick-backs, thereby joint portion 3005 area pulls out the pin 3002 and descends, pull-out pin 3002 falls back in the slot hole of corresponding position on the bottom plate, thereby realize the fixed to mounting panel 280 and its upper part spare.

As shown in fig. 1 and 4, the battery assembling apparatus further includes a battery fixing mechanism 400, the battery fixing mechanism 400 includes a vertically disposed fixing plate 410, a battery placing opening 420 is disposed on the fixing plate 410, a turning pressing plate 430 is hinged to one side of the fixing plate 410, and a notch for exposing the battery is disposed at the upper end of the battery placing opening 420. The corresponding abutting surfaces of the fixed plate 410 and the turning pressure plate 430 are also provided with magnetic assemblies 40 which are matched with each other and are attracted and fixed.

The battery assembly device further includes a second positioning mechanism for positioning the battery 10 when the flat cable 20 is mounted.

Referring to fig. 1 and 3, the second positioning mechanism includes a fixing base 510 mounted on the positioning plate 120 and a turning positioning plate 520 hinged to the fixing base 510, and the turning positioning plate 520 is provided with a positioning opening 530 adapted to the shape of the battery. The positioning plate 120 and the positioning plate 520 are also provided with magnetic components 40 that are engaged with each other and fixed by adsorption.

Referring to fig. 6, the first positioning mechanism 100 is disposed on the worktable 600, and the worktable 600 is further provided with a pressure maintaining mechanism 700 for maintaining pressure of the battery mounted in place on the positioning plate 120. Specifically, the first positioning mechanism 100 is slidably provided on the table 600, and the pressure holding mechanism 700 is attached to the table 600 on a side away from the operator. After the battery on the positioning plate 120 is installed in place, an operator moves the positioning plate 120 on the slope adjusting mechanism 110 to enable the positioning plate to be turned from an inclined supporting state to a horizontal state, the operator pushes the positioning plate 100 to the position below the pressure maintaining mechanism 700 by hand or by an external driving source, and the pressure maintaining mechanism 700 presses down to maintain the pressure of the battery. In particular, the pressure maintaining mechanism can be any mechanism capable of realizing pressure maintaining in the prior art.

An electrical control system is also required for realizing the functions, such as a PLC, an industrial personal computer, a program, a circuit, an air circuit arrangement and the like, and the functions can be realized through electrical control in the prior art, and are not detailed here.

Further, as shown in fig. 6, a tool box 50 is further provided, and auxiliary devices (not shown) such as a battery suction pen, a bus bar suction pen, tweezers, a crowbar, etc. are contained in the tool box 50. In this embodiment, the tool box 50 is placed on the table 600.

In order to facilitate an understanding of the battery assembly apparatus provided in the above embodiments, the following detailed description is made of the operation thereof with reference to fig. 1 to 11:

firstly, fixing a battery installation carrier on the positioning plate 120, adjusting the gradient adjusting mechanism 110 to drive the positioning plate 120 to be supported, turning the turning positioning plate 520 to a working angle by an operator, holding the handle 2801 and the pressing handle 3007 to drive the battery adsorption assembly 200 to move to a working position towards the left, turning the adsorption part 2102 upwards and placing the adsorption part in the positioning opening 530;

then, an operator assembles the battery 10 into the battery fixing mechanism 400 by using a battery suction pen, the flat cable mounting position on the battery 10 is placed upwards, then the overturning pressing plate 430 is driven to overturn and press the battery 10, the operator pries the flat cable mounting position on the battery 10 by using a prying bar, after the prying operation is finished, the operator puts the battery on the adsorption part 2102 for starting vacuum adsorption by using the battery suction pen, and the operator assembles the flat cable 20 into the battery 10 by using the flat cable suction pen;

furthermore, the rotation driving device 220 is started to drive the adsorption part 2102 and the battery 10 thereon to rotate for an integer angle, then an operator drives the turnover handle 260 to rotate to reach the battery installation position, and the adsorption part 2102 is manually pressed to install the battery in place;

finally, the positioning plate 520 is turned over to the non-working position, the battery adsorption assembly 210 is retracted, the slope adjusting mechanism 110 is adjusted to horizontally place the positioning plate 120, the first positioning mechanism 100 is made to slide to the pressure maintaining mechanism 700, and the pressure maintaining mechanism 700 is pressed down to maintain the pressure of the battery 10.

It should be emphasized that, although particular embodiments of the present invention have been shown and described, it is not intended to limit the invention in any way, and any simple modifications, equivalent variations and modifications made to the above embodiments in accordance with the technical spirit of the present invention are within the scope of the present invention.

Claims (10)

1. A battery assembly apparatus, comprising:

the first positioning mechanism comprises a gradient adjusting mechanism and a positioning plate for fixing a battery installation carrier, the positioning plate is arranged on the gradient adjusting mechanism, and the position of the positioning plate on the gradient adjusting mechanism is adjustable;

the assembly mechanism comprises a battery adsorption component and a rotary driving device, wherein the output end of the rotary driving device is in driving connection with the battery adsorption component, the battery adsorption component comprises an installation part installed on the output end and an overturning adsorption plate installed on one side of the installation part, and the overturning adsorption plate comprises an adsorption part for adsorbing a battery;

the assembling mechanism is arranged on one side of the first positioning mechanism in a left-right moving mode so as to enable the overturning adsorption plate to move to a working position or return to a waiting position.

2. The battery assembly apparatus according to claim 1, wherein: the slope adjustment mechanism includes two supporting seats of parallel arrangement, the locating plate is located between two supporting seats, every the supporting seat includes first supporting part and second supporting part, the height of second supporting part is greater than the height of first supporting part, be equipped with the slope adjustment mouth on the second supporting part, the one end of locating plate with first supporting part rotates to be connected, the other end of locating plate can be movably located in the slope adjustment mouth.

3. The battery assembly apparatus according to claim 2, wherein: the locating plate is located install the connecting rod on the tip in the slope adjustment mouth respectively, the connecting rod periphery is fixed with the plunger, the plunger includes narrow portion, fixed part and handheld portion, narrow portion can move and locate in the slope adjustment mouth, the radial length of fixed part is greater than the radial length of narrow portion.

4. The battery assembly apparatus according to claim 3, wherein: the connecting rod is a uniform thin rod and is in interference fit with the mounting position on the positioning plate; or the connecting rod is a screw rod and is in threaded connection with the end part of the positioning plate.

5. The battery assembly apparatus according to claim 3, wherein: the slope adjustment port is of an arc-shaped structure and comprises a sliding port opening for the sliding of the narrow part and a matching part for the positioning plate to be fixed in place, and the matching part is matched and fixed with the fixing part.

6. The battery assembly apparatus according to claim 5, wherein: the radial length of the matching part is greater than that of the slideway port, and the matching part is provided with at least one position.

7. The battery assembly apparatus according to any one of claims 1 to 6, wherein: still include battery fixed establishment, battery fixed establishment includes the fixed plate of vertical setting, be provided with the battery on the fixed plate and place the mouth, the articulated upset clamp plate that is equipped with in fixed plate one side, the battery is placed a mouthful upper end and is offered the breach that is used for exposing the battery.

8. The battery assembly apparatus according to any one of claims 1 to 6, wherein: the first positioning mechanism is arranged on the workbench, and the workbench is further provided with a pressure maintaining mechanism for maintaining the pressure of the battery which is arranged on the positioning plate in place.

9. The battery assembly apparatus according to any one of claims 1 to 6, wherein: the flat cable fixing device further comprises a second positioning mechanism, and the second positioning mechanism is used for positioning the battery during flat cable installation.

10. The battery assembly apparatus according to claim 9, wherein: the second positioning mechanism comprises a fixed seat arranged on the positioning plate and a turnover positioning plate hinged on the fixed seat, and a positioning opening matched with the shape of the battery is formed in the turnover positioning plate.

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