CN220895572U - Polar column correcting device - Google Patents

Abstract

The utility model relates to the technical field of battery pole correction, and discloses a pole correction device, which comprises: correction frames and correction plates arranged on two sides of the center of the inner cavity; the U-shaped frame is provided with a first driving motor at the center of the lower part of the back surface, and a bidirectional screw rod is additionally arranged at the lower part of the inner cavity of the U-shaped frame and is coaxially connected with a rotor of the first driving motor; the sliding block is transversely arranged on the inner side of the sliding block, the electric telescopic rod is arranged in the center of the front face of the transverse plate, and the telescopic end of the electric telescopic rod extends inwards through the front face of the transverse plate and is connected with a clamping plate. This utmost point post orthotic devices drives two-way lead screw through first driving motor and rotates on the U-shaped frame for the sliding block drives the motion in opposite directions between the diaphragm, adjusts the distance between two diaphragms, and electric telescopic handle drives splint through the flexible end and removes and carry out the centre gripping to the battery fixedly, adopts this kind of mode, carries out the centre gripping to the battery of equidimension not fixedly.

Description

Polar column correcting device

Technical Field

The utility model relates to the technical field of battery pole correction, in particular to a pole correction device.

Background

A battery refers to a device that converts chemical energy into electrical energy in a cup, tank, or other container or portion of a composite container that contains an electrolyte solution and metal electrodes to generate an electrical current. Has a positive electrode and a negative electrode. With the advancement of technology, batteries are widely referred to as small devices capable of generating electrical energy. Such as a solar cell. The performance parameters of the battery are mainly electromotive force, capacity, specific energy and resistance. The battery is used as an energy source, the current which has stable voltage, stable current, long-time stable power supply and little influence from the outside can be obtained, the battery has simple structure, convenient carrying, simple and easy charging and discharging operation, is not influenced by the outside climate and temperature, has stable and reliable performance, and plays a role in various aspects in the life of the modern society. In the battery production process, the pole column needs to be corrected to ensure that the battery case is normally covered.

The common pole correction device is generally formed by two groups of correction structures (such as correction plates, etc.), correction grooves are formed at corresponding positions of the inner sides of the correction structures, and one group of movable correction structures is connected with pushing equipment (such as a hydraulic cylinder, etc.). When the correction structure is used, the correction structure descends under the action of the connected lifting structure, the battery pole is positioned between the two groups of correction structures, and the movable correction structure moves towards the battery pole at the pushing equipment, so that the battery pole is corrected, and the correction structure is a common pole correction device structure and a common use mode. The traditional pole correction device is used for correcting the battery pole, and the battery is placed on a production line and moves along with the production line, so that the battery is inconvenient to fix, the battery is easy to move in the pole correction process, the pole correction precision is reduced, and the battery can not be normally covered with a battery shell. And part of the pole correction device is fixedly provided with a side plate at the corresponding position of the bottom of the device, and a clamping structure is additionally arranged on the side plate, so that the battery is clamped and fixed before the correction of the battery pole, and the stability of the correction of the battery pole is ensured. However, in this way, the batteries are various in types and different in sizes, and the batteries cannot be clamped and fixed only by a simple clamping structure, so that the device has low practicability and a small application range, and a pole correction device is provided for this purpose.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a pole correction device to solve the technical problems.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: a pole orthotic device, comprising:

Correction frames and correction plates arranged on two sides of the center of the inner cavity;

The U-shaped frame is arranged on two sides of the bottom of the correction frame, a first driving motor is arranged in the center of the lower part of the back of the U-shaped frame, and a bidirectional screw rod is additionally arranged at the lower part of the inner cavity of the U-shaped frame and is coaxially connected with a rotor of the first driving motor;

The sliding block is arranged at the front end and the rear end of the surface of the bidirectional screw rod, the transverse plates are transversely arranged on the inner sides of the sliding block, the electric telescopic rods are arranged in the centers of the front surfaces of the transverse plates, the telescopic ends of the electric telescopic rods extend inwards through the front surfaces of the transverse plates, and the clamping plates are connected. The two-way lead screw is driven to rotate on the U-shaped frame through the first driving motor, the sliding block drives the transverse plates to move in opposite directions, the distance between the two transverse plates is adjusted, the electric telescopic rod drives the clamping plates through the telescopic ends to move to clamp and fix the batteries, and therefore the batteries with different sizes are clamped and fixed in a certain range, and the practicability and application range of the device are improved.

Preferably, the center positions of the two sides of the inner wall of the correction frame are provided with convex grooves inwards, the center positions of the inner cavities of the convex grooves are provided with convex blocks, and the two sides of the convex grooves are provided with inlet and outlet grooves longitudinally. The convex block translates in the convex groove of the correction frame, and can be taken out from the convex groove through the inlet and outlet groove.

Preferably, the inner sides of the convex blocks are connected with corresponding positions on the outer sides of the corresponding correction plates through convex grooves, correction grooves are formed in the inner sides of the correction plates, and threaded connectors are mounted on the two sides of the front face and the center of the correction plates. The correction plates slide in the convex grooves through the convex blocks, and the two groups of correction plates correct the battery pole through the correction grooves.

Preferably, the guide rods are vertically arranged at the center positions of the front side and the back side of the correction frame, the telescopic electric rods are vertically additionally arranged at the center positions of the front side and the back side of the correction frame, the inner ends of the guide rods and the telescopic ends of the telescopic electric rods extend inwards through the outer wall of the correction frame, and the guide rods and the telescopic ends of the telescopic electric rods are connected with threaded connecting grooves. The guide rod is connected with the telescopic electric rod through the threaded connection groove and the threaded connection head of the correction plate, drives the two groups of correction plates to move, corrects the battery pole, simultaneously is convenient for separate the correction plate and the translation structure, and can be replaced to the correction plate corresponding to different battery pole shapes.

Preferably, a top plate is transversely arranged at the central position right above the top of the correction frame, connecting holes are formed in the central positions of two sides of the top plate, a driven wheel is arranged at the center of the top plate, one side of the driven wheel is meshed with a driving wheel, and the top end of a gear shaft of the driving wheel is coaxially connected with a second driving motor. The top plate is connected with a telescopic device at the upper end of the battery production line through a connecting hole to conduct lifting movement, the second driving motor drives the driving wheel to rotate, and the driving wheel drives the driven wheel to rotate in the same direction.

Preferably, the bottom ends of the gear shafts of the driven wheels extend downwards through the top center of the top plate and are connected with arc-shaped connecting plates, and the bottom ends of the arc-shaped connecting plates are connected with the corresponding central positions of the tops of the U-shaped frames. The driven wheel drives the U-shaped frame and the connecting structure thereof to rotate through the arc connecting plate, and the direction of the device is regulated, so that poles which deviate in different directions on the battery are corrected.

(III) beneficial effects

Compared with the prior art, the utility model provides a pole correction device, which has the following beneficial effects:

1. This utmost point post orthotic devices drives two-way lead screw through first driving motor and rotates on the U-shaped frame for the sliding block drives the motion in opposite directions between the diaphragm, adjusts the distance between two diaphragms, and electric telescopic handle drives splint through the flexible end and removes and carry out the centre gripping fixedly to the battery, adopts this kind of mode, thereby in a certain limit, carries out the centre gripping fixedly to the battery of equidimension not, has promoted the practicality and the range of application of this device and has promoted.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal part of the present utility model in section;

Fig. 3 is a schematic diagram of a separate structure of a correction frame and a correction plate according to the present utility model.

In the figure: 1. correcting the frame; 2. a cross plate; 3. a top plate; 4. a U-shaped frame; 5. a first driving motor; 6. a bidirectional screw rod; 7. an electric telescopic rod; 8. a clamping plate; 9. a correction plate; 10. a telescopic electric rod; 11. driven wheel; 12. a driving wheel; 13. and a second driving motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a technical scheme, a pole correction device, comprising: referring to fig. 1, a correction frame 1 and correction plates 9 disposed at two sides of the center of the inner cavity;

The U-shaped frame 4 is arranged on two sides of the bottom of the correction frame 1, a first driving motor 5 is arranged in the center of the lower part of the back of the U-shaped frame 4, and a bidirectional screw rod 6 is additionally arranged at the lower part of the inner cavity of the U-shaped frame 4 and is coaxially connected with a rotor of the first driving motor 5;

Referring to fig. 2, the sliding block is disposed at front and rear ends of a surface of the bi-directional screw rod 6, the inner side of the sliding block is transversely provided with a transverse plate 2, the front center of the transverse plate 2 is provided with an electric telescopic rod 7, and the telescopic ends of the electric telescopic rod 7 extend inwards through the front surface of the transverse plate 2 and are connected with clamping plates 8. The bidirectional screw rod 6 is driven to rotate on the U-shaped frame 4 through the first driving motor 5, the sliding block drives the transverse plates 2 to move in opposite directions, the distance between the two groups of transverse plates 2 is adjusted, the electric telescopic rod 7 drives the clamping plate 8 through the telescopic end to move to clamp and fix the battery, and therefore the battery with different sizes is clamped and fixed in a certain range, and the practicability and application range of the device are improved.

Referring to fig. 3, convex grooves are formed in the center positions of two sides of the inner wall of the correction frame 1, convex blocks are additionally arranged in the center positions of the inner cavities of the convex grooves, and inlet and outlet grooves are formed in two sides of the convex grooves longitudinally. The convex block translates in the convex groove of the correction frame 1, and can be taken out from the convex groove through the inlet and outlet groove. The convex block inner sides are connected with corresponding positions on the outer sides of the corresponding correction plates 9 through convex grooves, the correction grooves are formed in the inner side faces of the correction plates 9, and threaded connectors are mounted on the two sides of the front face and the center position of each correction plate 9. The correction plates 9 slide in the convex grooves through the convex blocks, and the two groups of correction plates 9 correct the battery poles through the correction grooves. Guide rods are vertically arranged at the center positions of the front side and the back side of the correction frame 1, telescopic electric rods 10 are vertically additionally arranged at the center positions of the front side and the back side of the correction frame 1, and the inner ends of the guide rods and the telescopic ends of the telescopic electric rods 10 penetrate through the outer wall of the correction frame 1 to extend inwards and are connected with threaded connecting grooves. The guide rod is connected with the telescopic electric rod 10 through the threaded connection groove and the threaded connection head of the correction plate 9, drives the two groups of correction plates 9 to move, corrects the battery pole, simultaneously is convenient for separate the correction plate 9 from the translation structure, and can be replaced to the correction plate 9 with the shape corresponding to the different battery pole.

Referring to fig. 2, a top plate 3 is transversely mounted at a central position right above the top of the correction frame 1, connecting holes are formed at central positions of two sides of the top plate 3, a driven wheel 11 is mounted at the center of the top plate 3, one side of the driven wheel 11 is meshed with a driving wheel 12, and the top end of a gear shaft of the driving wheel 12 is coaxially connected with a second driving motor 13. The top plate 3 is connected with a telescopic device at the upper end of the battery production line through a connecting hole to perform lifting movement, the second driving motor 13 drives the driving wheel 12 to rotate, and the driving wheel 12 drives the driven wheel 11 to rotate in the same direction. The bottom ends of the gear shafts of the driven wheels 11 extend downwards through the top center of the top plate 3 and are connected with arc connecting plates, and the bottom ends of the arc connecting plates are connected with the corresponding central positions of the tops of the U-shaped frames 4. The driven wheel 11 drives the U-shaped frame 4 and the connecting structure thereof to rotate through the arc connecting plate, and the direction of the device is regulated, so that poles which deviate in different directions on the battery are corrected.

The working principle of the device is as follows: the bidirectional screw rod 6 is driven to rotate on the U-shaped frame 4 through the first driving motor 5, the sliding block drives the transverse plates 2 to move in opposite directions, the distance between the two groups of transverse plates 2 is adjusted, and the electric telescopic rod 7 drives the clamping plate 8 to move through the telescopic end so as to clamp and fix the battery. The convex block translates in the convex groove of the correction frame 1, the convex block can be taken out from the convex groove through the inlet and outlet groove, the correction plate 9 slides in the convex groove through the convex block, the battery pole is corrected through the correction groove by two groups of correction plates 9, the guide rod is connected with the telescopic electric rod 10 through the threaded connection groove and the threaded connector of the correction plate 9, the two groups of correction plates 9 are driven to move to correct the battery pole, and the correction plates 9 are convenient to separate from the translation structure. The second driving motor 13 drives the driving wheel 12 to rotate, the driving wheel 12 drives the driven wheel 11 to rotate in the same direction, the driven wheel 11 drives the U-shaped frame 4 and the connecting structure thereof to rotate through the arc-shaped connecting plate, and the direction of the device is regulated, so that poles which deviate in different directions on the battery are corrected.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A pole orthotic device, comprising:

The correcting frame (1) and correcting plates (9) are arranged on two sides of the center of the inner cavity;

The U-shaped frame (4) is arranged on two sides of the bottom of the correction frame (1), a first driving motor (5) is arranged in the center of the lower part of the back of the U-shaped frame (4), and a bidirectional screw (6) is additionally arranged at the lower part of the inner cavity of the U-shaped frame (4) and is coaxially connected with a rotor of the first driving motor (5);

The sliding block is arranged at the front end and the rear end of the surface of the bidirectional screw rod (6), the transverse plate (2) is transversely arranged on the inner side of the sliding block, the electric telescopic rod (7) is arranged in the center of the front face of the transverse plate (2), and the telescopic ends of the electric telescopic rod (7) extend inwards through the front face of the transverse plate (2) and are connected with clamping plates (8).

2. A pole orthotic device as claimed in claim 1, wherein: convex grooves are formed in the center positions of the two sides of the inner wall of the correction frame (1) inwards, convex blocks are additionally arranged in the center positions of the inner cavities of the convex grooves, and inlet and outlet grooves are formed in the two sides of the convex grooves longitudinally.

3. A pole orthotic device as claimed in claim 2, wherein: the inner sides of the convex blocks are connected with corresponding positions on the outer sides of the corresponding correction plates (9) through convex grooves, the correction grooves are formed in the inner sides of the correction plates (9), and threaded connectors are mounted on the two sides of the front face and the center position of each correction plate (9).

4. A pole orthotic device as claimed in claim 3, wherein: guide rods are vertically arranged at the center positions of the front side and the back side of the correction frame (1), telescopic electric rods (10) are vertically additionally arranged at the center positions of the front side and the back side of the correction frame (1), and the inner ends of the guide rods and the telescopic ends of the telescopic electric rods (10) penetrate through the inner extension of the outer wall of the correction frame (1) and are connected with threaded connecting grooves.

5. A pole orthotic device as claimed in claim 1, wherein: the correcting frame is characterized in that a top plate (3) is transversely arranged at the central position right above the top of the correcting frame (1), connecting holes are formed in the central positions of two sides of the top plate (3), a driven wheel (11) is arranged at the center of the top plate (3), a driving wheel (12) is meshed with one side of the driven wheel (11), and a second driving motor (13) is coaxially connected to the top end of a gear shaft of the driving wheel (12).

6. The pole orthotic device of claim 5, wherein: the bottom ends of the gear shafts of the driven wheels (11) extend downwards through the top center of the top plate (3) and are connected with arc connecting plates, and the bottom ends of the arc connecting plates are connected with the corresponding top center positions of the U-shaped frames (4).