CN214110181U - Tray for positioning battery cell module - Google Patents

Abstract

The utility model discloses a tray for positioning an electric core module, which comprises a bottom plate, a movable device and a fixed pressing plate; the movable device comprises an air cylinder fixing support, a mounting plate I and two compression units which are arranged in a bilateral symmetry mode, wherein each compression unit comprises an air cylinder I, an air cylinder pull claw, a pull plate, a transition plate, a movable pressing plate, a left fixing rod, a right fixing rod and a left rectangular spring; the mounting plate I is fixed on a cylinder fixing support, the cylinder I is fixed on the mounting plate I, the rod end of the cylinder I is connected with a pull claw, the pull claw is clamped on a pull plate, a transition plate is fixed on a bottom plate and positioned in front of the pull plate, a movable pressure plate is arranged on the bottom plate and positioned in front of the transition plate, the front end and the rear end of a fixed rod are respectively connected with the movable pressure plate and the pull plate, a rectangular spring is sleeved on the fixed rod, and the front end and the rear end of the fixed rod are respectively contacted with the movable pressure plate and the transition plate; the movable pressing plate and the fixed pressing plate are oppositely arranged. The utility model discloses the tray presss from both sides tight effectual and electric core module to electric core module and takes out the convenience.

Description

Tray for positioning battery cell module

Technical Field

The utility model is used for electric core pack line, concretely relates to presss from both sides equipment of tight location to electric core module.

Background

On the assembly line of electricity core module production, it needs transmit through the tray, and the tray carries each station to process after pressing from both sides tight with electric core module location promptly. The tray of current transport electricity core module has following problem: firstly, the clamping effect is poor, and the module can be loosened in the conveying process, so that the reprocessing is influenced; secondly, the battery cell module is troublesome to take down from the tray, and the efficiency is low; thirdly, the tray is single in applicability and does not have the function of positioning various battery cell modules; and fourthly, the cover plate of the battery cell module can be inclined in the operation process, so that the subsequent processing is influenced.

Disclosure of Invention

The utility model aims to solve the problem that a tray of fixing a position is carried out electric core module is provided, it is tight effectual and electric core module takes out the convenience to the clamp of electric core module. Simultaneously, the compatibility of tray is more extensive, can fix a position multiple electric core module. In addition, the tray can also be used for positioning the cover plate of the battery cell module, so that the processing quality is ensured.

The utility model relates to a tray for positioning an electric core module, which comprises a bottom plate, a movable device and a fixed pressing plate, wherein the movable device is connected with the bottom plate, the fixed pressing plate 1 is fixed on the bottom plate, and the movable device and the fixed pressing plate are arranged oppositely; the movable device comprises an air cylinder fixing support, a mounting plate I and two compression units which are arranged in a bilateral symmetry mode, wherein each compression unit comprises an air cylinder I, an air cylinder pull claw, a pull plate, a transition plate, a movable pressing plate, a left fixing rod, a right fixing rod and a left rectangular spring; the air cylinder fixing support is arranged behind the bottom plate, the mounting plate I is fixed on the air cylinder fixing support, the air cylinder I is fixed on the mounting plate I, the rod end of the air cylinder I is connected with the pull claw, the pull claw is clamped on the pull plate, the transition plate is fixed on the bottom plate and located in front of the pull plate, the movable pressing plate is arranged on the bottom plate and located in front of the transition plate, the two fixing rods are arranged in bilateral symmetry relative to the center of the air cylinder I, the fixing rods penetrate through the transition plate, the front end and the rear end of the fixing rods are respectively connected with the movable pressing plate and the pull plate, the rectangular spring is sleeved on the fixing rods, and the front end and the rear end of the fixing rods are respectively contacted with the movable pressing plate and the transition plate; the movable pressing plate and the fixed pressing plate are oppositely arranged.

Furthermore, each pressing unit also comprises a left guide rod, a right guide rod and a left linear bearing and a right linear bearing; two linear bearings are arranged in bilateral symmetry relative to the center of the air cylinder I and are located on the outer side of the fixed rod, the linear bearings are fixed on the transition plate, the guide rod penetrates through the linear bearings, and the front end and the rear end of the guide rod are respectively connected with the movable pressing plate and the pulling plate.

Furthermore, each pressing unit also comprises a reset type indexing pin and a battery cell loosening barrier strip; one end of the battery cell loosening barrier strip is fixed on the transition plate through a positioning stud, and the other end of the battery cell loosening barrier strip is provided with a reset type indexing pin.

Further, when the air cylinder I compresses the battery cell module, the reset type indexing pin is inserted into the pin hole of the transition plate, and the battery cell loosening barrier strip is fixed in the groove of the transition plate and is at the original position; after the cylinder I loosens the electric core module and contracts a section of distance, extract the type that resets graduated pin from the pinhole of crossing the cab apron, electric core loosens the barricade and rotates to its square hole that stretches the arm-tie around the positioning stud in, the type that resets graduated pin just in time blocks the arm-tie, is operating position this moment.

Furthermore, the tray of the utility model also comprises a positioning device, the positioning device comprises a transverse linear slide rail and two positioning units, and each positioning unit comprises a connecting plate and a rotating plate; the transverse linear sliding rail is fixed on the outer side of the upper part of the fixed pressing plate, the inner side of the connecting plate is connected with the transverse linear sliding rail, and the rotating plate is arranged on the connecting plate.

Further, the positioning device also comprises a hinge pin with a shoulder and a handle type indexing pin; the rotary plate is connected to the upper surface of the connecting plate through a hinge pin with a shoulder and a handle type indexing pin.

Further, when no cell module is arranged on the pressing plate, the rotating plate is arranged above the transverse linear sliding rail and is at the original position; when electric core module was placed on the clamp plate, extract handle type index pin from pinhole I, when making the rotor plate rotate with fixed clamp plate orthostatic around shouldered hinge pin, with handle type index pin insert pinhole II, be the operating position this moment.

Furthermore, the movable device also comprises an air cylinder II, a mounting plate II and a longitudinal linear slide rail; and the mounting plate II is fixed on the air cylinder fixing support and is connected with the mounting plate I on the mounting plate II through a longitudinal linear sliding rail, the air cylinder II is fixed on the mounting plate II, and the rod end of the air cylinder II is fixedly connected with the inner side surface of the mounting plate I.

Furthermore, the tray of the utility model also comprises a lifting handle, a MARK point positioning pole, a cell blocking device and an anti-collision plate, wherein the lifting handle, the MARK point positioning pole, the cell blocking device and the anti-collision plate are all fixed on the bottom plate; lifting handles are arranged at four corners of the bottom plate, MARK point positioning pole columns are arranged on the left side of the movable pressing plate, and the battery cell blocking device is arranged on the left side of a space between the movable pressing plate and the fixed pressing plate; the anti-collision plate is positioned at the leftmost side of the bottom plate.

The utility model discloses the beneficial effect of tray is: the battery cell module is pressed by the cylinder I through the rectangular spring and the movable pressing plate, and the pressing force can be adjusted according to the length of the rectangular spring; the battery cell loosening barrier strips and the resetting type indexing pins are arranged, so that the battery cell module can be conveniently taken off from the tray, the working efficiency is improved, and resources are saved; thirdly, the arrangement of the rotating plate prevents the cover plate of the battery cell module from inclining in the operation process; and fourthly, the air cylinder II can be compatible with various modules with different widths, so that the moving position of the moving pressing plate is larger.

Drawings

Fig. 1 is a perspective view of the tray for positioning the battery cell module of the present invention.

Fig. 2 is a top view of the tray for positioning the battery cell module of the present invention.

Detailed Description

Example 1

The utility model relates to a tray for positioning an electric core module, which comprises a bottom plate 7, a movable device and a fixed pressing plate 17, wherein the movable device is connected with the bottom plate 7, the fixed pressing plate 17 is fixed on the bottom plate 7, and the movable device and the fixed pressing plate 17 are arranged oppositely; the movable device comprises an air cylinder fixing support 6, a mounting plate I2 and two compression units which are arranged in bilateral symmetry, wherein each compression unit comprises an air cylinder I1, an air cylinder pull claw 25, a pull plate 26, a transition plate 23, a movable pressing plate 18, a left fixing rod 27, a right fixing rod 27 and a left rectangular spring 19; the air cylinder fixing support 6 is arranged behind the bottom plate 7, the mounting plate I2 is fixed on the air cylinder fixing support 6, the air cylinder I1 is fixed on the mounting plate I2, the rod end of the air cylinder I1 is connected with the pull claw 25, the pull claw 25 is clamped on the pull plate 26, the transition plate 23 is fixed on the bottom plate 7 and is positioned in front of the pull plate 26, the movable pressing plate 18 is arranged on the bottom plate 7 and is positioned in front of the transition plate 23, the two fixing rods 27 are arranged in bilateral symmetry relative to the center of the air cylinder I1, the fixing rods 27 penetrate through the transition plate 23, the front end and the rear end of the fixing rods 27 are respectively connected with the movable pressing plate 18 and the pull plate 26, the rectangular spring 19 is sleeved on the fixing rods 27, and the front end and the rear end of the rectangular spring are respectively contacted with the movable pressing plate 18 and the transition plate 23; the movable platen 18 and the fixed platen 17 are disposed opposite to each other.

The utility model discloses a work field is: after the battery cell module is placed on the tray, the front surface of the battery cell module leans against the fixed pressing plate 17, then the rod end of the air cylinder I1 extends out, the pulling plate 26 is pushed to move forwards through the pulling claw 25, the movable pressing plate 18 is pushed to move forwards through the fixed rod 27, and the rectangular spring 19 compresses the battery cell module through the movable pressing plate 18; the battery cell module is loosened by pulling the pulling plate 26 through the pulling claw 25 of the cylinder 1. Wherein, the cylinder fixed bolster 6 is fixed on the conveying line body, and the mounting means is nimble. The pressing force of the battery cell module can be adjusted according to the length of the rectangular spring 19, so that the rectangular spring 19 enables the movable pressing plate 18 to move more stably and compress more reliably.

Example 2

The utility model discloses tray: each pressing unit also comprises a left guide rod 21, a right guide rod 21 and a left linear bearing 24 and a right linear bearing 24; the two linear bearings 24 are arranged in bilateral symmetry relative to the center of the air cylinder I1 and are positioned on the outer side of the fixing rod 27, the linear bearings 24 are fixed on the transition plate 23, the guide rod 21 penetrates through the linear bearings 24, and the front end and the rear end of the guide rod are respectively connected with the movable pressing plate 18 and the pulling plate 26.

The linear bearing 24 and the guide rod 21 are matched to provide guidance for the movement of the movable pressing plate 18, so that the movable pressing plate 18 can move accurately and is pressed reliably.

Example 3

The utility model discloses tray: each pressing unit further comprises a reset type indexing pin 20 and a battery cell loosening barrier strip 22; one end of the cell loosening barrier 22 is fixed on the transition plate 23 through a positioning stud 28, and the other end is provided with a reset type indexing pin 20.

When the air cylinder I1 compresses the battery cell module, the reset type indexing pin 20 is inserted into a pin hole of the transition plate 23, and the battery cell loosening barrier 22 is fixed in a groove of the transition plate 23 and is at the original position; after the air cylinder I1 loosens the battery cell module and retracts for a certain distance, the reset type indexing pin 20 is pulled out from the pin hole of the transition plate 23, the battery cell loosening barrier strip 22 rotates around the positioning stud 28 to the square hole extending to the pulling plate 26, and the reset type indexing pin 20 just blocks the pulling plate 26 and is at the working position at the moment. When the battery cell loosening barrier 22 is located at the working position, the pulling plate 26 drives the movable pressing plate 18 to move backwards for a certain distance, so that the movable pressing plate 18 is separated from the battery cell module to conveniently take out the battery cell module. If no cell loosening barrier 22 exists, the cylinder i 1 needs to be retracted for a certain distance to separate the movable pressing plate 18 from the cell module. Therefore, the battery cell loosens the barrier strip 22 and the reset type indexing pin 20, so that the battery cell module can be conveniently taken off from the tray, thereby improving the working efficiency and saving the resources.

Example 4

The tray of the utility model also comprises a positioning device, the positioning device comprises a transverse linear slide rail 12 and two positioning units, and each positioning unit comprises a connecting plate 13 and a rotating plate 16; the transverse linear slide rail 12 is fixed on the outer side of the upper part of the fixed pressure plate 17, the inner side of the connecting plate 13 is connected with the transverse linear slide rail 12, and the rotating plate 16 is arranged on the upper surface of the connecting plate 13.

Wherein the positioning device further comprises a shouldered hinge pin 14, a handle-type index pin 15; the swivel plate 16 is connected to the upper side of the connecting plate 13 by means of a shouldered hinge pin 14, a handle-type indexing pin 15.

When no cell module is arranged on the pressing plate, the rotating plate 16 is above the transverse linear sliding rail 12, and is at the original position; when the battery cell module is placed on the pressing plate, the handle-type index pin 15 is pulled out of the pin hole i, so that the handle-type index pin 15 is inserted into the pin hole ii when the rotating plate 16 rotates around the shouldered hinge pin 14 to be perpendicular to the fixed pressing plate 17, and the working position is achieved at this time. The rotor plate 16 plays a role in positioning the cover plate on the battery cell module, and prevents the cover plate of the battery cell module from inclining in the operation process. When the lengths of the cell modules are different, the connecting plate 13 moves rapidly through the linear slide rail 12, so that the position between the left and right rotating plates 16 is determined.

Example 7

The utility model discloses tray: the movable device also comprises a cylinder II 3, a mounting plate II 4 and a longitudinal linear slide rail 5; mounting panel II 4 is fixed on cylinder fixed bolster 6, and is connected with mounting panel I2 above through vertical linear slide rail 5, and cylinder II 3 is fixed on mounting panel II 4 and its rod end and the medial surface rigid coupling of mounting panel I2.

When the cylinder II 3 works, the mounting plate I2 is driven to move back and forth along the longitudinal linear sliding rail 15, the back and forth movement distance of the movable device is increased, and the application range of the pressing plate is further expanded. Therefore, the use of the air cylinder II 3 can be compatible with a plurality of modules with different widths, so that the moving position of the moving pressure plate 18 is larger.

Example 8

The tray of the utility model also comprises a lifting handle 8, a MARK point positioning pole column 9, a cell blocking device 10 and an anti-collision plate 11, wherein the lifting handle, the MARK point positioning pole column 9, the cell blocking device and the anti-collision plate 11 are all fixed on the bottom plate 7; lifting handles 8 are arranged at four corners of the bottom plate 7, MARK point positioning poles 9 are arranged at the left side of the movable pressing plate 18, and the battery cell blocking device 10 is arranged at the left side of the space between the movable pressing plate 18 and the fixed pressing plate 17; the fender 11 is located at the leftmost side of the floor panel 7.

The handle 8 is lifted, so that the whole tray is conveniently carried by manpower; the MARK point positioning pole 9 provides a positioning signal, and provides a foundation for positioning the tray in each process; the battery cell blocking device 10 positions the battery cell module in the tray, and is made of a soft material to prevent the battery cell from being damaged; the fender 11 provides cushioning when the pallets impact each other.

The utility model discloses the process that the tray compressed tightly electric core module is: after the battery cell module is placed on the tray, the front surface of the battery cell module leans against the fixed pressing plate 17, the left end of the battery cell module leans against the battery cell blocking device 10, then the rod end of the air cylinder I1 extends out to push the pulling plate 26 to move forwards through the pulling claw 25, and then the guide rod 21 pushes the moving pressing plate 18 to move forwards to press the battery cell module tightly; then, the position between the left and right rotating plates 16 is determined by the rapid movement of the connecting plate 13, and the rotating plates 16 are in the working state. The process of loosening the battery cell module is as follows: the rod end of the cylinder I1 retracts to pull the pull plate 26 through the pull claw 25, and then the battery core is loosened to enable the barrier strip 22 to be located at the working position, so that the battery core module is conveniently taken out to wind.

Therefore, the tray cell module of the utility model is used for clamping and taking out to realize automation, thereby improving the efficiency; the battery cell cover plate can be flexibly adjusted and fixed, and the battery cell module can not be damaged when being clamped; the battery cell module of multiple width such as can be compatible.

Claims (9)

1. The utility model provides a tray of fixing a position is carried out electric core module, characterized by: the device comprises a bottom plate (7), a movable device and a fixed pressing plate (17), wherein the movable device is connected with the bottom plate (7), the fixed pressing plate (17) is fixed on the bottom plate (7), and the movable device and the fixed pressing plate (17) are arranged oppositely; the movable device comprises an air cylinder fixing support (6), a mounting plate I (2) and two compression units which are arranged in bilateral symmetry, wherein each compression unit comprises an air cylinder I (1), an air cylinder pull claw (25), a pull plate (26), a transition plate (23), a movable pressing plate (18), a left fixing rod (27), a right fixing rod (27) and a left rectangular spring (19); the air cylinder fixing support (6) is arranged behind the bottom plate (7), the mounting plate I (2) is fixed on the air cylinder fixing support (6), the air cylinder I (1) is fixed on the mounting plate I (2), the rod end of the air cylinder I is connected with the pulling claw (25), the pulling claw (25) is clamped on the pulling plate (26), the transition plate (23) is fixed on the bottom plate (7) and located in front of the pulling plate (26), the movable pressing plate (18) is arranged on the bottom plate (7) and located in front of the transition plate (23), the two fixing rods (27) are arranged in bilateral symmetry relative to the center of the air cylinder I (1), the fixing rods (27) penetrate through the transition plate (23), the front end and the rear end of each fixing rod are respectively connected with the movable pressing plate (18) and the pulling plate (26), the rectangular spring (19) is sleeved on the fixing rods (27), and the front end and the rear end of each fixing rod are respectively contacted with the movable pressing plate (18) and the transition plate (23); the movable pressure plate (18) and the fixed pressure plate (17) are arranged oppositely.

2. The pallet of claim 1, wherein: each pressing unit also comprises a left guide rod (21), a right guide rod (21) and a left linear bearing (24); two linear bearings (24) are arranged in bilateral symmetry relative to the center of the cylinder I (1) and are located on the outer side of the fixing rod (27), the linear bearings (24) are fixed on the transition plate (23), the guide rod (21) penetrates through the linear bearings (24), and the front end and the rear end of the guide rod are respectively connected with the movable pressing plate (18) and the pulling plate (26).

3. The pallet of claim 1, wherein: each pressing unit also comprises a reset type indexing pin (20) and a battery cell loosening barrier strip (22); one end of the cell loosening barrier strip (22) is fixed on the transition plate (23) through a positioning stud (28), and the other end is provided with a reset type indexing pin (20).

4. The pallet of claim 1, wherein: when the air cylinder I (1) compresses the battery cell module, the reset type indexing pin (20) is inserted into a pin hole of the transition plate (23), and the battery cell loosening barrier strip (22) is fixed in a groove of the transition plate (23), and is at the original position; after the air cylinder I (1) loosens the battery cell module and retracts for a certain distance, the reset type indexing pin (20) is pulled out from the pin hole of the transition plate (23), the battery cell loosening barrier strip (22) rotates around the positioning stud (28) to the square hole extending to the pulling plate (26), and the reset type indexing pin (20) just blocks the pulling plate (26) and is at the working position.

5. The pallet of claim 1, wherein: the positioning device comprises a transverse linear sliding rail (12) and two positioning units, wherein each positioning unit comprises a connecting plate (13) and a rotating plate (16); the transverse linear sliding rail (12) is fixed on the outer side of the upper part of the fixed pressing plate (17), the inner side of the connecting plate (13) is connected with the transverse linear sliding rail (12), and the rotating plate (16) is arranged on the connecting plate (13).

6. The pallet of claim 1, wherein: the positioning device also comprises a hinge pin (14) with a shoulder and a handle-type indexing pin (15); the rotary plate (16) is connected to the upper surface of the connecting plate (13) through a shouldered hinge pin (14) and a handle-type indexing pin (15).

7. The pallet of claim 1, wherein: when the cell module is not arranged on the pressing plate, the rotating plate (16) is arranged above the transverse linear sliding rail (12), and is at the original position; when the battery cell module is placed on the pressing plate, the handle type indexing pin (15) is pulled out of the pin hole I, so that the rotating plate (16) rotates around the shouldered hinge pin (14) to be perpendicular to the fixed pressing plate (17), the handle type indexing pin (15) is inserted into the pin hole II, and the working position is achieved at the moment.

8. The pallet of claim 1, wherein: the movable device also comprises a cylinder II (3), a mounting plate II (4) and a longitudinal linear slide rail (5); the mounting plate II (4) is fixed on the cylinder fixing support (6) and is connected with the mounting plate I (2) through the longitudinal linear sliding rail (5), the cylinder II (3) is fixed on the mounting plate II (4), and the rod end of the cylinder II is fixedly connected with the inner side face of the mounting plate I (2).

9. The pallet of claim 1, wherein: the battery also comprises a lifting handle (8), a MARK point positioning pole (9), a battery cell blocking device (10) and an anti-collision plate (11), wherein the lifting handle, the MARK point positioning pole, the battery cell blocking device and the anti-collision plate are all fixed on the bottom plate (7); lifting handles (8) are arranged at four corners of the bottom plate (7), a MARK point positioning pole (9) is arranged at the left side of the movable pressing plate (18), and a battery cell blocking device (10) is arranged at the left side of a space between the movable pressing plate (18) and the fixed pressing plate (17); the anti-collision plate (11) is positioned at the leftmost side of the bottom plate (7).

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