CN219869395U - Storage battery terminal detection tool - Google Patents

Abstract

The utility model relates to a storage battery terminal detection tool in the technical field of terminal detection equipment. When detecting the terminal length and the diameter of the storage battery, the long rod is driven to synchronously rotate through the rotating knob, then the adjacent guide blocks are enabled to reversely move, the supporting rods are driven to slide in the groove cavities of the limiting grooves, then the storage battery is placed between the adjacent guide blocks, the upper limiting block, the clamping block and the control rod are enabled to approach the placing plate and squeeze the storage battery due to the gravity of the upper limiting block, the clamping block and the control rod, the storage battery is enabled to be stable, the knob is reversely rotated, and the adjacent guide blocks are enabled to approach each other and clamp the terminal of the storage battery. The dial indicator detects the terminal length of the storage battery after calibration, and when the guide block clamps the storage battery, the sliding block drives the pointer to move in front of the scale, and finally the terminal diameter of the storage battery is displayed.

Description

Storage battery terminal detection tool

Technical Field

The utility model relates to the technical field of terminal detection equipment, in particular to a storage battery terminal detection tool.

Background

Common cylindrical storage batteries are provided with 1, 2, 3, 5 and 7 batteries, and the terminals of the batteries of different types need to be subjected to size detection in the production process of the batteries.

For example, chinese patent application No. CN202221661923.8 discloses a lead-acid battery terminal height detection device, which specifically comprises: setting up and tightening the bolt and finely adjusting the diameter of circular through-hole through the mode that reduces and change rectangular shape through-slot width to and finely adjusting the diameter of the circular through-hole of second, wear out the measuring staff of percentage table in the circular through-hole, make the bottom surface of percentage table and the horizontal segment contact of fixed part, the bottom surface of percentage table is parallel with terminal top surface space, handheld connecting portion, establish the connecting portion cover at the terminal surface, observe through the window, make the bottom surface contact terminal up end of measuring staff, make the bottom surface contact of connecting portion and lead acid battery's surface, read the reading of percentage table, accomplish terminal height measurement, it has following technical problem:

the height of the terminal is measured through the dial indicator, the circular through hole is adjusted through the tightening bolt, and the diameter of the battery terminal cannot be detected when the circular through hole is adjusted through the tightening bolt.

Disclosure of Invention

In order to solve the problem that the diameter of a battery terminal cannot be detected while the circular through hole is regulated by regulating the tightening bolt, the utility model provides the following technical scheme:

a storage battery terminal detection tool comprises an upper limiting block and a storage battery.

The lower extreme of going up the stopper is installed and is used for carrying out spacing grip block to battery terminal, the upper end of grip block is connected with the control lever that is used for detecting battery terminal, just the control lever is installed in the lower extreme of last stopper.

The upper limiting block comprises a first fixed block, and a dial indicator used for detecting the length of the storage battery terminal is arranged in the middle of the upper limiting block.

The clamping block comprises guide blocks used for limiting the storage battery, the guide blocks are arranged on two sides of the bottom end of the first fixed block, a placing plate used for supporting the storage battery is arranged at the bottom of the guide blocks, and a sliding block matched with the rotation of the control rod to detect the diameter of a terminal of the storage battery is arranged at the upper end of the guide block.

The control rod comprises a long rod for controlling the guide block to move left and right, and the movement directions of the guide block are opposite.

Further, a first limiting groove and a second limiting groove for limiting the long rod are arranged at the bottom end of the block body of the first fixing block, the first limiting groove is communicated with the second limiting groove, and the sliding block slides in a groove cavity of the first limiting groove.

Further, the block front end of fixed block one is installed and is used for cooperating the slider and removes about and then carry out the scale that shows to the terminal diameter of battery, the spout that is used for supplying the slider to carry out about is seted up to the front end of fixed block one, the mid-mounting of fixed block one has the fixed block two that are used for carrying out spacing to the stock.

Further, the front end of the sliding block is provided with a pointer which is used for moving left and right in front of the plate body of the scale, the lower end of the guide block is provided with a supporting rod which is used for adjusting storage batteries with different heights, and the inside of the placing plate is provided with a limiting groove which is used for the supporting rod to move left and right.

Further, a third fixed block used for limiting the long rod in cooperation with the second fixed block is arranged in the middle of the rod body of the long rod, and a knob used for controlling the long rod to rotate is arranged at the right end of the long rod.

Further, a counterclockwise chute for controlling a left end guide block of the fixed block to move left and right is formed in the left end of the rod body of the long rod, a clockwise chute for controlling a right end guide block of the fixed block to move left and right is formed in the right end of the rod body of the long rod, and the movement directions of the adjacent guide blocks are opposite.

Compared with the prior art, the utility model has the beneficial effects that:

when detecting the terminal length and the diameter of the storage battery, the long rod is driven to synchronously rotate through the rotating knob, then the adjacent guide blocks are enabled to reversely move, the supporting rods are driven to slide in the groove cavities of the limiting grooves, then the storage battery is placed between the adjacent guide blocks, the upper limiting block, the clamping block and the control rod are enabled to approach the placing plate and squeeze the storage battery due to the gravity of the upper limiting block, the clamping block and the control rod, the storage battery is enabled to be stable, the knob is reversely rotated, and the adjacent guide blocks are enabled to approach each other and clamp the terminal of the storage battery. The dial indicator detects the terminal length of the storage battery after calibration, and when the guide block clamps the storage battery, the sliding block drives the pointer to move in front of the scale, and finally the terminal diameter of the storage battery is displayed.

Drawings

FIG. 1 is a schematic view of the external structure of the detection tool of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the detection tool of the present utility model;

FIG. 3 is a schematic view illustrating a structure of the stopper according to the present utility model;

FIG. 4 is a schematic view of a clamping block according to the present utility model;

FIG. 5 is a schematic view of the structure of the control lever of the present utility model;

fig. 6 is an enlarged view of fig. 2 at a in accordance with the present utility model.

In the drawings, the list of part names represented by the reference numerals is as follows:

001-upper limiting block, 1-dial indicator;

100-of a first fixed block, 110-of a first limit groove, 120-of a second limit groove, 130-of a scale, 140-of a sliding groove and 150-of a second fixed block;

002-clamping block, 2-accumulator;

200-guiding blocks, 210-sliding blocks, 211-pointers, 3-supporting rods, 10-placing plates and 11-limiting grooves;

003-lever;

300-long rod, 310-fixed block III, 320-clockwise chute, 330-reverse chute and 340-knob.

Detailed Description

Preferred embodiments for carrying out the present utility model are described in detail below, and a clear and complete description thereof is provided with reference to the accompanying drawings.

Referring to fig. 1-6, the present utility model provides a tool for detecting a terminal of a storage battery, which can detect a length and a diameter of a terminal of the storage battery 2.

The utility model provides a storage battery terminal detection tool which comprises an upper limiting block 001 for fixing a dial indicator 1, a clamping block 002 for limiting a storage battery 2 and a control rod 003 for controlling the clamping block 002 to move left and right, wherein the storage batteries with different sizes have different diameters, so that the storage battery 2 needs to be clamped through the left and right movement of the clamping block 002. Clamping blocks 002 are all installed on two sides of the lower end of an upper limiting block 001, the movement directions of the clamping blocks 002 on two sides are opposite, a control rod 003 is installed at the upper end of the clamping blocks 002, and the control rod 003 is installed at the lower end of the upper limiting block 001.

Go up stopper 001 including fixed block one 100, fixed block one 100's middle part fixed mounting has been used for carrying out length detection's percentage table 1 to battery 2's terminal, limit groove two 120 that is used for carrying out spacing to control rod 003 have all been seted up to fixed block one 100's lower extreme both sides, limit groove one 110 that is used for supplying grip block 002 to carry out the side-to-side removal has all been seted up to fixed block one 100's lower extreme both sides, and limit groove one 110 intercommunication limit groove two 120, control rod 003 passes through limit groove one 110 and limit groove two 120, and the control is installed and is controlled the grip block 002 of the inslot of limit groove two 120 and is moved about. A second fixing block 150 for limiting the control rod 003 is installed between the adjacent first limiting grooves 110, so that the control rod 003 only rotates at the lower end of the first fixing block 100. The front end of the first fixed block 100 is fixedly provided with a scale 130 for displaying the terminal diameter of the storage battery 2 in cooperation with the left-right movement of the sliding block 210, the front end of the first fixed block 100 is provided with a sliding groove 140 for the left-right movement of the clamping block 002, and the sliding groove 140 is positioned below the scale 130.

Clamping block 002 is including being used for carrying out spacing guide block 200 and placing board 10 to battery 2, and guide block 200 is L shape block, through guide block 200 and place the clamp of board 10 to battery 2 for percentage table 1 detects battery 2's terminal more firmly. The placement plate 10 is mounted at the bottom end of the guide block 200. The upper end of the guide block 200 is fixedly provided with a sliding block 210 for detecting the diameter of the terminal of the storage battery 2 by matching with the rotation of the control rod 003, one end of the sliding block 210 is fixedly provided with a pointer 211 for moving left and right in front of the plate body of the scale 130, the pointer 211 is an L-shaped rod body, the pointer 211 moves left and right in the groove cavity of the chute 140, when the upper ends of the adjacent guide blocks 200 are abutted together, the pointer of the pointer 211 points to the scale 130 with the 0 scale, when the control rod 003 drives the guide block 200 to move left and right, the pointer 211 moves left and right on the plate body of the scale 130, and the scales on the two sides of the scale 130 are added to obtain the diameter of the terminal.

The bracing piece 3 that is used for adjusting the battery 2 of co-altitude not has all been installed to the lower extreme of guide block 200, and places the inside of board 10 and all offered the spacing groove 11 that is used for supplying bracing piece 3 to carry out the left and right movement, when control lever 003 drove guide block 200 and carries out the left and right movement, bracing piece 3 slides in the inslot of spacing groove 11.

The control rod 003 comprises a long rod 300 for controlling the guide block 200 to move left and right, a third fixed block 310 for rotating in the middle of the second fixed block 150 is fixedly arranged in the middle of the long rod 300, the long rod 300 rotates at the lower end of the first fixed block 100 through the limiting of the second fixed block 150 and the limiting groove 120, a counterclockwise sliding groove 330 for controlling the guide block 200 at the left end of the first fixed block 100 to move left and right is formed in the left end of the long rod 300, a clockwise sliding groove 320 for controlling the guide block 200 at the right end of the first fixed block 100 to move left and right is formed in the right end of the long rod 300, and the directions of the counterclockwise sliding groove 330 and the clockwise sliding groove 320 are opposite. The left end of the long rod 300 is fixedly provided with a knob 340 for controlling the long rod 300 to rotate. The guide block 200 is driven to reversely move at the lower end of the dial indicator 1 by the rotation of the knob 340.

Based on the above description and the drawings, one skilled in the art will be able to understand and practice the present utility model. Furthermore, any non-inventive modifications to the present utility model that would not be made by a person skilled in the art without the inventive effort would still fall within the scope of the present utility model.

Claims (6)

1. The utility model provides a battery terminal detects frock, includes stopper (001) and battery (2), its characterized in that:

the lower end of the upper limiting block (001) is provided with a clamping block (002) for limiting the storage battery terminal, the upper end of the clamping block (002) is connected with a control rod (003) for detecting the storage battery terminal, and the control rod (003) is arranged at the lower end of the upper limiting block (001);

the upper limiting block (001) comprises a first fixed block (100), and a dial indicator (1) for detecting the length of a storage battery terminal is arranged in the middle of the upper limiting block (001);

the clamping block (002) comprises a guide block (200) for limiting the storage battery (2), the guide blocks (200) are arranged on two sides of the bottom end of the first fixed block (100), a placing plate (10) for supporting the storage battery (2) is arranged at the bottom of the guide block (200), and a sliding block (210) for detecting the diameter of a terminal of the storage battery (2) in cooperation with the rotation of a control rod (003) is arranged at the upper end of the guide block (200);

the control rod (003) comprises a long rod (300) for controlling the guide block (200) to move left and right, and the movement directions of the guide block (200) are opposite.

2. The battery terminal detection tool according to claim 1, wherein: the limiting groove I (110) and the limiting groove II (120) for limiting the long rod (300) are arranged at the bottom end of the block body of the fixing block I (100), the limiting groove I (110) is communicated with the limiting groove II (120), and the sliding block (210) slides in the groove cavity of the limiting groove I (110).

3. The battery terminal detection tool according to claim 2, wherein: the block front end of fixed block one (100) is installed and is used for cooperating the slider (210) and removes about and then carry out scale (130) that show to the terminal diameter of battery (2), spout (140) that are used for supplying slider (210) to carry out about are seted up to the front end of fixed block one (100), the mid-mounting of fixed block one (100) has fixed block two (150) that are used for carrying out spacing to stock (300).

4. A battery terminal detection fixture as defined in claim 3, wherein: the front end of the sliding block (210) is provided with a pointer (211) which is used for moving left and right in front of a plate body of the scale (130), the lower end of the guide block (200) is provided with a supporting rod (3) which is used for adjusting storage batteries (2) with different heights, and the inside of the placing plate (10) is provided with a limiting groove (11) which is used for the supporting rod (3) to move left and right.

5. The battery terminal detection tool according to claim 1, wherein: the middle part of the rod body of the long rod (300) is provided with a third fixing block (310) which is used for limiting the long rod (300) in cooperation with the second fixing block (150), and the right end of the long rod (300) is provided with a knob (340) which is used for controlling the long rod (300) to rotate.

6. The battery terminal detection tool according to claim 5, wherein: the left end of the rod body of the long rod (300) is provided with a counterclockwise chute (330) for controlling the left end guide block (200) of the first fixed block (100) to move left and right, the right end of the rod body of the long rod (300) is provided with a clockwise chute (320) for controlling the guide block (200) of the right end of the first fixed block (100) to move left and right, and the movement directions of the adjacent guide blocks (200) are opposite.