CN113655394A - Battery detection equipment - Google Patents

Abstract

The invention discloses a battery detection device in the field of battery detection, which comprises a detection support plate, wherein a straight tooth is fixedly connected to the middle part above the detection support plate, T-shaped slide rails fixedly connected with the detection support plate are arranged on two sides of the straight tooth, a sliding box body is slidably connected to the upper part of the T-shaped slide rails, a T-shaped sliding groove with a conductive strip embedded above is formed in the periphery of the T-shaped slide rails and below the sliding box body, a portal frame is fixedly connected to the upper part of the T-shaped slide rails at one end part of the detection support plate, an X-ray nondestructive detector is fixedly connected to the inner top end of the portal frame, and a storage battery detector is fixedly mounted at one corner above the detection support plate. According to the invention, the conducting strip on the T-shaped sliding rail is connected with the positive electrode sliding connection assembly and the negative electrode sliding connection assembly, so that the detection of the X-ray nondestructive detector and the storage battery detector is automatically carried out in the conveying process of the battery, the traditional manual single feeding and detection are replaced, and the detection quality and efficiency of the battery are greatly improved.

Description

Battery detection equipment

Technical Field

The invention relates to the field of battery detection, in particular to a battery detection device.

Background

With the continuous development of new energy vehicles, batteries are the main energy of the new energy vehicles, and the safety of lithium batteries is affected by various factors such as the materials of positive and negative pole pieces, the alignment degree and a partition plate, so that the lithium batteries need to be detected after being assembled, and some parameters of the lithium batteries are detected.

However, the existing battery detection is arranged in the detection process, detection is mostly required to be carried out under the condition that the lithium battery is fixed, the circulation process time is long, the efficiency is low, and in addition, when the lithium battery is assembled and disassembled, longer time is required to be consumed, fewer detection items are required to be completed by one-time clamping, and the practicability is not high.

Disclosure of Invention

It is an object of the present invention to provide a battery test apparatus to solve the problems set forth in the background art described above.

In order to achieve the purpose, the invention provides the following technical scheme:

a battery detection device comprises a detection support plate, wherein straight teeth are fixedly connected to the middle part above the detection support plate, T-shaped slide rails fixedly connected with the detection support plate are arranged on two sides of the straight teeth, a sliding box body is slidably connected to the upper part of the T-shaped slide rails, T-shaped slide grooves are formed in the periphery of the T-shaped slide rails below the sliding box body, conductive strips are embedded on the T-shaped slide rails, accommodating grooves are formed in the inner bottom of the sliding box body, motor supports are fixedly connected to the tops of the accommodating grooves, a walking motor is connected to the lower part of each motor support through screws, a walking gear is connected to an output shaft of the walking motor in a key mode, an anode sliding connection assembly is arranged above one T-shaped slide groove on the sliding box body, a cathode sliding connection assembly is arranged above the other T-shaped slide groove on the sliding box body, the detection device comprises a detection support plate, a portal frame, a lifting push rod, a detection line jack and a storage battery detector, wherein the portal frame is fixedly connected to the top of a T-shaped slide rail and positioned at one end of the detection support plate, the lifting push rod is fixedly mounted in the middle of the top of the portal frame, the telescopic end of the lifting push rod penetrates through the top rear fixedly connected with X-ray nondestructive detector of the portal frame, the storage battery detector is fixedly mounted at one corner of the top of the detection support plate, the storage battery detector is provided with one detection line jack, and the detection lines of the storage battery detector are respectively electrically connected with bus bars above the T-shaped slide rail.

As a further scheme of the invention: the improved structure is characterized in that a positive elastic connecting assembly is arranged on one side of the upper portion of the sliding box body, a negative elastic connecting assembly is arranged on the other side of the upper portion of the sliding box body, and a top rotating frame is connected to the upper portion of the sliding box body through a hinge.

As a further scheme of the invention: the inside frame of dismantling that is provided with of rotatory frame in top, the equal fixedly connected with locking push rod in the rotatory frame relative both sides wall both sides in top, the flexible end of locking push rod passes rotatory frame in top sets up, the inside can dismantle the frame with rotatory frame in top passes through locking push rod fixed connection.

As a further scheme of the invention: the top rotating frame and the sliding box body are located on the side wall of the hinge, hinged seats are fixedly mounted on the side wall of the hinge, and an adjusting push rod is arranged between the hinged seats.

As a further scheme of the invention: inside can dismantle frame lateral wall chucking has anodal flexure strip, anodal flexure strip bottom is located anodal elastic connection subassembly top is provided with anodal terminal, anodal terminal with anodal flexure strip is adjacent.

As a further scheme of the invention: the inside frame opposite side of dismantling is provided with the negative pole supported hole, the inside sliding connection of negative pole supported hole has the negative pole spliced pole, the negative pole spliced pole with the card is pressed there is conductive spring between the negative pole supported hole, negative pole supported hole below is provided with and is located the negative terminal of negative pole elasticity coupling assembling top, the negative terminal with conductive spring is adjacent.

As a further scheme of the invention: the negative electrode elastic connecting assembly comprises a conductive support hole, a conductive pressure spring and an elastic conductive head, the conductive pressure spring is arranged in the conductive support hole, the elastic conductive head is arranged at one end of the conductive pressure spring, and the elastic conductive head is in compression joint with the conductive support hole and the conductive pressure spring through screws.

As a further scheme of the invention: anodal elasticity coupling assembling with negative pole elasticity coupling assembling's structure is the same, anodal sliding connection subassembly with negative pole sliding connection subassembly's structure is the same.

As a further scheme of the invention: anodal elasticity coupling assembling with anodal sliding connection subassembly passes through wire electric connection, negative pole elasticity coupling assembling with negative pole sliding connection subassembly passes through wire electric connection.

As a further scheme of the invention: and supporting legs are fixedly arranged on the periphery of the bottom of the detection supporting plate.

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

1. according to the invention, the conducting strip is embedded above the T-shaped sliding rail, so that the connection with the positive electrode sliding connection assembly and the negative electrode sliding connection assembly can be realized, and then the detection can be synchronously carried out in the battery conveying process, so that the detection efficiency is improved;

2. according to the invention, the internal detachable frame is fixed inside the top rotating frame through the locking push rod, so that the internal detachable frame can be exchanged, a lithium battery can be arranged in the internal detachable frame in advance, and during detection, only the internal detachable frame needs to be replaced, so that multi-process synchronous operation is realized, and the battery loading and unloading efficiency is improved;

3. the invention can realize synchronous detection on the electric quantity condition, the internal structure and the appearance of the lithium battery after the lithium battery is clamped for one time, and has extremely high efficiency;

4. the invention adopts automatic detection in the whole detection process of the battery, greatly improves the efficiency of battery detection, replaces the traditional manual single feeding and detection, also improves the accuracy of battery quality detection and reduces the working intensity of detection personnel.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a right sectional view of the sliding box and the top rotating frame of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is an enlarged view of a portion of the present invention at B of FIG. 2;

FIG. 5 is a front view of the sliding box and the top rotating frame of the present invention;

FIG. 6 is a diagram showing the connection relationship between the top rotating frame and the sliding box after the top rotating frame rotates in the present invention;

fig. 7 is a cross-sectional view of a gantry of the present invention.

In the figure: 1. detecting the supporting plate; 2. supporting legs; 3. a T-shaped slide rail; 4. a conductive strip; 5. straight teeth; 6. a sliding box body; 7. a top rotating frame; 8. an internal detachable frame; 9. a lithium battery; 10. locking the push rod; 11. a positive electrode elastic sheet; 12. a positive electrode elastic connection assembly; 13. a negative electrode elastic connecting assembly; 1301. an elastic conductive head; 1302. a conductive pressure spring; 1303. a conductive support hole; 14. a positive slide connection assembly; 15. a negative electrode sliding connection assembly; 16. a negative support hole; 17. a negative connecting column; 18. a positive terminal; 19. a negative terminal; 20. a T-shaped chute; 21. supporting a motor; 22. a traveling motor; 23. a traveling gear; 24. a hinged seat; 25. adjusting the push rod; 26. a gantry; 27. a lifting push rod; 28. a storage battery detector; 29. detecting line jacks; 30. x-ray nondestructive testing instrument.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, in the embodiment of the present invention, a battery detection apparatus includes a detection support plate 1, a straight tooth 5 is fixedly connected to a middle portion above the detection support plate 1, T-shaped slide rails 3 fixedly connected to the detection support plate 1 are disposed on two sides of the straight tooth 5, a sliding box 6 is slidably connected to an upper portion of the T-shaped slide rails 3, T-shaped sliding grooves 20 are disposed on a periphery of the T-shaped slide rails 3 below the sliding box 6, a conductive strip 4 is embedded on the upper portion of the T-shaped slide rails 3, a storage groove is disposed on a bottom portion of the sliding box 6, a motor support 21 is fixedly connected to a top portion of the storage groove, a traveling motor 22 is connected to a lower portion of the motor support 21 through a screw, a traveling gear 23 is keyed on an output shaft of the traveling motor 22, an anode sliding connection assembly 14 is disposed above one of the T-shaped slide grooves 20 on the sliding box 6, a cathode sliding connection assembly 15 is disposed above the other T-shaped slide groove 20 on the sliding box 6, through inlaying the conducting strip in T type slide rail 3 top, can realize that it is connected with anodal sliding connection subassembly 14 and negative pole sliding connection subassembly 15, can be then can be synchronous detect in the transportation process to the battery, the efficiency that the improvement that can be great detected.

A portal frame 26 is fixedly connected above a T-shaped slide rail 3 at one end part of the detection supporting plate 1, a lifting push rod 27 is fixedly installed in the middle of the top end of the portal frame 26, the telescopic end of the lifting push rod 27 penetrates through the top end of the portal frame 26 and then is fixedly connected with an X-ray nondestructive detector 30, when an internal detachable frame 8 provided with a lithium battery 9 is rotatably conveyed below the portal frame 26, the X-ray nondestructive detector 30 is pushed to move downwards through the lifting push rod 27, defects in the battery can be found by utilizing the characteristic that X-rays penetrate through substances and have attenuation in the substances, the internal defects of metal, nonmetal materials and products in the battery can be detected, the X-ray nondestructive detection of the lithium battery 9 is further realized, the internal structure in the lithium battery 9 can be conveniently detected, the synchronous detection of the electric quantity condition, the internal structure and the appearance of the lithium battery 9 can be realized by one-time clamping, the efficiency is extremely high.

Detect 1 top one corner department fixed mounting of backup pad has battery detection appearance 28, is provided with detection line jack 29 to one on the battery detection appearance 28, battery detection appearance 28's detection line respectively with the busbar 4 electric connection of 3 tops of T type slide rail, detection line jack 29 can conveniently detect the detection line and be connected with the battery, detect outside battery, the function is various.

Wherein, 6 upper portion one sides of box that slide are provided with anodal elastic connection assembly 12, and 6 upper portion opposite sides of box that slide are provided with negative pole elastic connection assembly 13, have top rotating frame 7 through hinge connection on the box 6 that slides, and anodal elastic connection assembly 12 and negative pole elastic connection assembly 13 can be convenient for anodal and negative pole line's connection.

Wherein, the inside frame 8 that can dismantle that is provided with of top revolving frame 7, the equal fixedly connected with locking push rod 10 in the relative both sides wall both sides of top revolving frame 7, the flexible end of locking push rod 10 passes top revolving frame 7 and sets up, inside can be dismantled frame 8 and top revolving frame 7 and pass through locking push rod 10 fixed connection, can dismantle frame 8 with inside through locking push rod 10 and fix inside top revolving frame 7, can realize dismantling the interchange of frame 8 to inside, and then can adorn lithium cell 9 in inside can dismantle frame 8 in advance, when detecting, only need change inside can dismantle frame 8 can, can realize that the multiple operation goes on in step, improve the efficiency of loading and unloading battery greatly.

Wherein, lie in hinge a lateral wall on rotatory frame 7 in top and the box 6 that slides and all fixed mounting has articulated seat 24, is provided with adjusting push rod 25 between two articulated seats 24, can rotate top rotatory frame 7 to vertical position through adjusting push rod 25, can conveniently detect the outward appearance of lithium cell 9, also can conveniently carry out X-ray nondestructive test at the next process simultaneously, saves manual regulation's trouble, and is extremely practical.

Wherein, the positive elastic sheet 11 is clamped and pressed in the clamping groove of one side wall of the detachable frame 8, the bottom end of the positive elastic sheet 11 is positioned above the positive elastic connecting assembly 12 and is provided with a positive terminal 18, and the positive terminal 18 is close to the positive elastic sheet 11.

The negative electrode support hole 16 is formed in the T-shaped counter bore in the other side of the detachable frame 8, the negative electrode support hole 16 is connected with the negative electrode connecting post 17 in a sliding mode, a conductive spring is clamped between the negative electrode connecting post 17 and the negative electrode support hole 16, the negative electrode terminal 19 located above the negative electrode elastic connecting component 13 is arranged below the negative electrode support hole 16, the negative electrode terminal 19 is adjacent to the conductive spring, and the lithium battery 9 can be clamped between the positive electrode elastic sheet 11 and the negative electrode connecting post 17.

Wherein, negative pole elasticity coupling assembling 13 includes electrically conductive support hole 1303, set up at the electrically conductive pressure spring 1302 of electrically conductive support hole 1303 inside and set up the electrically conductive head 1301 at electrically conductive pressure spring 1302 one end, electrically conductive head 1301 and electrically conductive support hole 1303 and electrically conductive pressure spring 1302 all pass through the screw crimping, realize dismantling frame 8 in inside and install at the rotatory frame 7 back in top, positive terminal 18 is connected with anodal elasticity coupling assembling 12, negative terminal 19 is connected with negative pole elasticity coupling assembling 13, then realize being connected with the detection line to the anodal and negative pole of lithium cell 9, the convenience detects lithium cell 9.

Wherein, anodal elastic connection subassembly 12 is the same with negative pole elastic connection subassembly 13's structure, anodal sliding connection subassembly 14 is the same with negative pole sliding connection subassembly 15's structure, anodal elastic connection subassembly 12 passes through wire electric connection with anodal sliding connection subassembly 14, negative pole elastic connection subassembly 13 passes through wire electric connection with negative pole sliding connection subassembly 15, detect 1 peripheral fixed mounting in bottom of backup pad and have supporting leg 2.

In this embodiment: when using this check out test set, can directly block lithium cell 9 in frame 8 can be dismantled to inside, anodal through lithium cell 9 passes through anodal flexure strip 11, positive terminal 18, anodal elastic connection subassembly 12, anodal sliding connection subassembly 14 and busbar 4 are connected with battery detector 28, negative pole spliced pole 17 is passed through to lithium cell 9's negative pole, negative terminal 19, negative pole elastic connection subassembly 13, negative pole sliding connection subassembly 15 and busbar 4 are connected with battery detector 28, can be through battery detector 28 to lithium cell 9's electric quantity, voltage etc. detect, can dismantle frame 8 through locking push rod 10 with inside and fix inside at top revolving frame 7, can realize dismantling the interchange of frame 8 to inside, and then can adorn lithium cell 9 in frame 8 can be dismantled to inside in advance.

During detection, only the internal detachable frame 8 needs to be replaced, multiple processes can be synchronously performed, the efficiency of loading and unloading the battery is greatly improved, the conducting strip is embedded above the T-shaped sliding rail 3 and can be connected with the positive sliding connection assembly 14 and the negative sliding connection assembly 15, then the battery can be synchronously detected in the conveying process, the detection efficiency can be greatly improved, then the walking motor 22 is started to drive the walking gear 23 to rotate, the walking gear 23 is meshed with the straight teeth 5 and can drive the sliding box body 6 to move, the top rotating frame 7 can be rotated to the vertical position by adjusting the push rod 25, the appearance of the lithium battery 9 can be conveniently detected, meanwhile, the X-ray nondestructive detection can be conveniently performed in the next process, the trouble of manual adjustment is saved, the operation is extremely practical, when the internal detachable frame 8 provided with the lithium battery 9 is rotatably conveyed below the portal frame 26, promote X-ray nondestructive test appearance 30 downstream through lifting push rod 27, utilize the X ray to penetrate the material and have the characteristic of decay in the material to discover the defect in the battery, can inspect the internal defect of the inside metal of battery and non-metallic material and goods thereof, and then realize carrying out X-ray nondestructive test to lithium cell 9, be convenient for detect the inner structure of lithium cell 9 inside, a clamping, can realize the electric quantity condition to lithium cell 9, the synchronous detection is carried out to inner structure and outward appearance, high efficiency, adopt automatic detection to the whole journey of the testing process of battery, the efficiency that battery detected has been improved by a wide margin, traditional artifical single clamping and detection have been replaced, the rate of accuracy that battery quality detected has still been promoted, detection personnel's working strength has been reduced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A battery test apparatus, characterized by: comprises a detection support plate (1), wherein straight teeth (5) are fixedly connected with the middle part above the detection support plate (1), two sides of the straight teeth (5) are provided with T-shaped slide rails (3) fixedly connected with the detection support plate (1), a sliding box body (6) is connected with the upper part of the T-shaped slide rails (3) in a sliding way, a T-shaped chute (20) is arranged on the periphery of the T-shaped slide rails (6) below the sliding box body (6), a conductive strip (4) is embedded above the T-shaped slide rails (3), a storage groove is arranged at the bottom in the sliding box body (6), a motor support (21) is fixedly connected with the top in the storage groove, a walking motor (22) is connected with the lower part of the motor support (21) through screws, a walking gear (23) is connected with an output shaft of the walking motor (22) in a key way, a positive sliding connection component (14) is arranged above the T-shaped chute (20) on the sliding box body (6), a negative sliding connection assembly (15) is arranged above the other T-shaped sliding groove (20) on the sliding box body (6);

a portal frame (26) is fixedly connected above the T-shaped slide rail (3) at one end part of the detection support plate (1), a lifting push rod (27) is fixedly installed in the middle of the top end of the portal frame (26), and an X-ray nondestructive detector (30) is fixedly connected after the telescopic end of the lifting push rod (27) penetrates through the top end of the portal frame (26);

the detection device is characterized in that a storage battery detector (28) is fixedly mounted at one corner above the detection support plate (1), one detection line jack (29) is arranged on the storage battery detector (28), and detection lines of the storage battery detector (28) are respectively electrically connected with the conductive bars (4) above the T-shaped sliding rails (3).

2. A battery test apparatus as claimed in claim 1, wherein: the improved structure is characterized in that a positive elastic connecting assembly (12) is arranged on one side of the upper portion of the sliding box body (6), a negative elastic connecting assembly (13) is arranged on the other side of the upper portion of the sliding box body (6), and a top rotating frame (7) is connected to the upper portion of the sliding box body (6) through a hinge.

3. A battery test apparatus as claimed in claim 2, wherein: the inside frame (8) of dismantling that is provided with of rotatory frame in top (7), the equal fixedly connected with locking push rod (10) in the relative both sides wall both sides of the rotatory frame in top (7), the flexible end of locking push rod (10) passes rotatory frame in top (7) set up, inside can dismantle frame (8) with rotatory frame in top (7) pass through locking push rod (10) fixed connection.

4. A battery test apparatus as claimed in claim 3, wherein: rotatory frame in top (7) and lie in on the box that slides (6) equal fixed mounting has articulated seat (24), two on the hinge lateral wall be provided with between articulated seat (24) and adjust push rod (25).

5. The battery test apparatus of claim 4, wherein: frame (8) a lateral wall card is pressed to inside can dismantle and is had anodal flexure strip (11), anodal flexure strip (11) bottom is located anodal elastic connection subassembly (12) top is provided with anodal terminal (18), anodal terminal (18) with anodal flexure strip (11) are adjacent.

6. The battery test apparatus of claim 5, wherein: the inside frame (8) opposite side of dismantling is provided with negative pole supported hole (16), the inside sliding connection in negative pole supported hole (16) has negative pole spliced pole (17), negative pole spliced pole (17) with the card is pressed between negative pole supported hole (16) has conductive spring, negative pole supported hole (16) below is provided with and is located negative terminal (19) of negative pole elastic connection subassembly (13) top, negative terminal (19) with conductive spring is adjacent.

7. The battery test apparatus of claim 6, wherein: the negative electrode elastic connecting assembly (13) comprises a conductive supporting hole (1303), a conductive pressure spring (1302) arranged in the conductive supporting hole (1303) and an elastic conductive head (1301) arranged at one end of the conductive pressure spring (1302), wherein the elastic conductive head (1301) and the conductive supporting hole (1303) and the conductive pressure spring (1302) are in compression joint through screws.

8. The battery test apparatus of claim 7, wherein: anodal elasticity coupling assembling (12) with the structure of negative pole sliding connection subassembly (15) is the same, anodal sliding connection subassembly (14) with the structure of negative pole sliding connection subassembly (15) is the same.

9. A battery test apparatus as claimed in claim 8, wherein: anodal elasticity coupling assembling (12) with anodal sliding connection subassembly (14) pass through wire electric connection, negative pole elasticity coupling assembling (13) with negative pole sliding connection subassembly (15) pass through wire electric connection.

10. A battery test apparatus as claimed in claim 1, wherein: the periphery of the bottom of the detection support plate (1) is fixedly provided with support legs (2).

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