CN221199760U - Cylindrical battery detection equipment supporting mechanism and cylindrical battery detection equipment - Google Patents

Abstract

The utility model discloses a supporting mechanism of a cylindrical battery detection device and the cylindrical battery detection device, wherein the supporting device comprises: the two cylinders and the supporting frame are arranged in the detection equipment; two sides of the supporting frame are respectively connected with the two cylinders; the support frame is arranged between the tray of the detection device and the probe module, when the probe module of the detection device moves upwards to be in contact with the battery in the tray, the cylinder drives the support frame to move upwards to be in contact with the bottom of the tray so as to support the tray, and the upper surface of the support frame can expose the probes of the probe module. According to the utility model, the probe module can be prevented from ejecting the battery from the battery tray and has a supporting effect on the tray, and meanwhile, the supporting mechanism can be used for radiating the equipment through the air outlet, so that the radiating function and the supporting function are combined together, and the space of the equipment is effectively saved.

Description

Cylindrical battery detection equipment supporting mechanism and cylindrical battery detection equipment

Technical Field

The utility model relates to the technical field of cylindrical battery detection equipment, in particular to a cylindrical battery detection equipment supporting mechanism and cylindrical battery detection equipment.

Background

The cylindrical battery is divided into different systems of lithium iron phosphate, lithium cobaltate, lithium manganate and ternary materials, and the batteries of the different materials have different advantages. The cylindrical battery can be delivered for use only by carrying out chemical component detection, and the existing chemical component detection equipment adopts a lifting cylinder to drive a lower module to ascend, so that after a probe of the lower module contacts with the cylindrical battery in the battery tray, the battery tray is continuously driven to ascend until the cylindrical battery of the battery tray contacts with the probe of an upper module upwards, and then the charging and discharging of the cylindrical battery are carried out, thereby realizing the automatic component detection of the cylindrical battery.

However, when the lower module rises to contact with the cylindrical battery in the tray, the general detection device can push out the battery in the tray, so that the battery is displaced, the probe cannot well contact with the battery, and when the probe is in press-connection and electrifying with the battery cell, the tray containing the battery can deform.

Disclosure of utility model

In order to overcome the technical defects, the utility model provides a supporting mechanism of a cylindrical battery detection device and the cylindrical battery detection device, and in order to solve the problems, the utility model is realized according to the following technical scheme:

In a first aspect, there is provided a cylindrical battery detection apparatus supporting mechanism, the supporting apparatus comprising: the two cylinders and the supporting frame are arranged in the detection equipment; two sides of the supporting frame are respectively connected with the two cylinders; the support frame is arranged between the tray of the detection device and the probe module, when the probe module of the detection device moves upwards to be in contact with the battery in the tray, the cylinder drives the support frame to move upwards to be in contact with the bottom of the tray so as to support the tray, and the upper surface of the support frame can expose the probes of the probe module.

With reference to the first aspect, further, the supporting mechanism further includes: the two supporting stools are respectively connected to the bottom of the detection equipment, and the two cylinders are respectively connected to the supporting stools.

With reference to the first aspect, further, an insulating pad is connected to the upper surface of the support frame.

With reference to the first aspect, further, two sides of the support frame are connection parts, and the connection parts are used for being connected with the air cylinder;

the middle part of the support frame is a support part, and the support part protrudes out of the connecting part;

The supporting part comprises two cross bars and a plurality of connecting rods;

The two cross bars are correspondingly arranged in parallel, the connecting rods are connected between the two cross bars, and the two cross bars and the connecting rods are communicated inside to form a closed channel.

With reference to the first aspect, further, a plurality of elbow connectors are further arranged on two sides of the support frame, and one ends of the elbow connectors are respectively connected with the two cross bars so as to be connected into a closed channel formed by the two cross bars and the plurality of connecting rods;

a plurality of air blowing holes are formed in the side faces of the two cross bars.

With the combination of the first aspect, further, the connecting parts on two sides of the supporting frame are connected with limiting cushions.

With reference to the first aspect, further, a cylinder adapter plate is connected between the cylinder and the supporting stool.

In a second aspect, there is also provided a cylindrical battery detection apparatus including any one of the cylindrical battery detection apparatus supporting mechanisms described above.

With reference to the second aspect, further, the detecting device has a bottom frame, and the cylindrical battery detecting device supporting mechanism is connected to the bottom frame of the detecting device.

With reference to the second aspect, further, the detecting device includes two cylindrical battery detecting device supporting mechanisms, and the two cylindrical battery detecting device supporting mechanisms are arranged in parallel.

Compared with the prior art, the cylindrical battery detection equipment supporting mechanism and the cylindrical battery detection equipment have the beneficial effects that:

A cylindrical battery testing apparatus support mechanism, the support apparatus comprising: the two cylinders and the supporting frame are arranged in the detection equipment; two sides of the supporting frame are respectively connected with the two cylinders; the support frame is arranged between the tray of the detection device and the probe module, when the probe module of the detection device moves upwards to be in contact with the battery in the tray, the cylinder drives the support frame to move upwards to be in contact with the bottom of the tray so as to support the tray, and the upper surface of the support frame can expose the probes of the probe module.

The supporting mechanism of the cylindrical battery detection equipment provided by the utility model is arranged in the cylindrical battery detection equipment, and can play a role in buffering between the probe module and the battery when the probe module is contacted with the battery in the operation process of the cylindrical battery detection equipment, so that the probe module is prevented from ejecting the battery from the battery tray and supporting the tray, and meanwhile, the supporting mechanism can also radiate heat to the equipment through the air outlet, so that the heat radiation function and the supporting function are combined together, and the equipment space is effectively saved.

Drawings

The utility model is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a block diagram of a support mechanism for a cylindrical battery testing device in accordance with the present utility model;

FIG. 2 is an exploded view of a support mechanism for a cylindrical battery testing device in accordance with the present utility model;

FIG. 3 is a view showing a state of use of a supporting mechanism for a cylindrical battery detecting device according to the present utility model;

FIG. 4 is a block diagram of a support frame in a support mechanism of a cylindrical battery testing device according to the present utility model;

FIG. 5 is a side view of a cylindrical battery testing apparatus of the present utility model;

in the figure: 10-cylinder; 11-a cylinder adapter plate; 12-supporting a stool;

20-supporting frames; 21-a connection; 22-limit buffer cushion; 23-a support; 231-cross bar;

232-connecting rods; 233-a blow hole; 234-elbow joint; 24-insulating pad; 25-connecting holes;

26-mounting holes.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model. It should be understood that the terms upper, lower, etc. indicate an orientation or a positional relationship based on the orientation or the positional relationship shown in the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operate in a specific orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements.

Moreover, unless defined otherwise, all terms or words used herein, including technical and scientific terms and other words, are to be taken to include their ordinary meanings as understood by one of ordinary skill in the art. Furthermore, the definitions of the words and terms used in the present specification should be interpreted as including a meaning consistent with the technical field of the present utility model. These terms are not to be construed as being overly idealized or formal intent unless expressly so defined.

As shown in fig. 1 to 5, a preferred embodiment of a support mechanism for a cylindrical battery testing device and a cylindrical battery testing device according to the present utility model is shown.

When the cylindrical battery is normally used for manufacturing a process flow (formation and capacity division), the probe (or the negative pressure suction nozzle) is arranged on the upper part and the lower part of the battery to be in pressure connection with the battery core for electrifying, and the joint part of the probe and the battery generates heat and the tray for accommodating the battery deforms.

In order to solve the above-mentioned problems, the present utility model provides a support mechanism for a cylindrical battery detection apparatus, the support apparatus comprising: two cylinders 10 and a support frame 20, the two cylinders 10 being disposed in the detection apparatus; two sides of the supporting frame 20 are respectively connected with the two cylinders 10; the support frame 20 is disposed between the tray of the detection device and the probe module, when the probe module of the detection device moves upwards to contact with the battery in the tray, the cylinder 10 drives the support frame 20 to move upwards to contact with the bottom of the tray, the tray is supported, and the upper surface of the support frame 20 can expose the probe of the probe module.

Further, the supporting mechanism further comprises two supporting stools 12, the supporting stools 12 are respectively connected to the bottom of the detecting device, and the two air cylinders 10 are respectively connected to the supporting stools 12. Further, a cylinder adapter plate 11 is connected between the cylinder 10 and the supporting stool 12, and the cylinder adapter plate is used to enable the disassembly and maintenance of the cylinder to be more convenient; the supporting stool 12 is a supporting base, and the height of the air cylinder 10 is raised.

Further, the upper surface of the supporting frame 20 is directly contacted with the lower portion of the tray, so that the upper surface of the supporting frame 20 is connected with an insulating pad 24, and the insulating pad 24 is made of an insulating material.

Further, the two sides of the supporting frame 20 are connecting parts 21, and the connecting parts 21 are used for connecting with the air cylinder 10; specifically, the connection portions 21 on both sides of the support frame 20 are connected with a limit cushion 22.

The middle part of the supporting frame 20 is a supporting part 23, and the supporting part 23 protrudes from the connecting part 21; the supporting part 23 comprises two cross bars 231 and a plurality of connecting rods 232; the two cross bars 231 are correspondingly arranged in parallel, the plurality of connecting rods 232 are connected between the two cross bars 231, and the two cross bars 231 and the plurality of connecting rods 232 are communicated inside to form a closed channel. The length of the connecting bar 232 is shorter than the cross bar 231, so that the connecting bar 232 can be better kept horizontal.

Alternatively, at the connection between the support portion 23 and the connection portion 21, the two cross bars 231 are connected to a connecting rod 232, the two cross bars 231 are disposed on the connecting rod 232, and the connecting rod 232 is disposed on the connection portion 21, so that the support portion 23 protrudes from the connection portion 21.

With reference to the first aspect, further, a plurality of elbow connectors 234 are further disposed on two sides of the support frame 20, and one ends of the elbow connectors 234 are respectively connected with the two cross bars 231 to connect into a closed channel formed by the two cross bars 231 and the plurality of connecting rods 232; a plurality of blowholes 233 are provided on the side surfaces of the two cross bars 231. The other end of the elbow 234 is connected to a gas pipe for delivering gas to the cross bar 231, and the gas is blown out through the blowing holes 233 for dissipating heat from the device.

Specifically, the connecting portion 21 is provided with a mounting hole for connecting with the cylinder 10, the connecting portion 21 is further provided with a through hole 25, and the elbow joint 234 sequentially passes through the through hole 25 and the connecting rod 232 on the connecting portion 21 and is connected into a closed channel formed by the two cross rods 231 and the plurality of connecting rods 232.

Optionally, a throttle valve is also connected to the cylinder 10 for adjusting the speed of the cylinder 10.

In a second aspect, there is also provided a cylindrical battery detection apparatus including any one of the cylindrical battery detection apparatus supporting mechanisms described above.

Further, the detection device has a bottom frame, and the cylindrical battery detection device support mechanism is connected to the bottom frame of the detection device. Specifically, a support stool 12 of the support mechanism is connected to the bottom frame of the apparatus.

Further, the detection device comprises two cylindrical battery detection device supporting mechanisms, and the two cylindrical battery detection device supporting mechanisms are arranged in parallel. The length of the supporting frame 20 in the supporting mechanism is matched with the length of the tray, but the length of the connecting rod 232 in the supporting mechanism is short, so that the width of the tray is not enough to be matched, if the length of the connecting rod 232 is too long, the lower end of the connecting rod 232 is inclined downwards due to insufficient support, so that the supporting frame 20 cannot be kept horizontal, and the tray cannot be effectively supported. Therefore, the length of the connection bar 232 is short, and at the same time, two supporting mechanisms are provided in the width direction of the tray, so that the entire tray can be covered and supported.

The utility model relates to a supporting mechanism of a cylindrical battery detection device, which comprises the following working principles:

A cylindrical battery testing apparatus support mechanism, the support apparatus comprising: the two cylinders and the supporting frame are arranged in the detection equipment; two sides of the supporting frame are respectively connected with the two cylinders; the support frame is arranged between the tray of the detection device and the probe module, when the probe module of the detection device moves upwards to be in contact with the battery in the tray, the cylinder drives the support frame to move upwards to be in contact with the bottom of the tray so as to support the tray, and the upper surface of the support frame can expose the probes of the probe module.

Other structures of a supporting mechanism of a cylindrical battery detecting device according to this embodiment are described in the prior art.

The present utility model is not limited to the preferred embodiments, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present utility model are within the scope of the technical proposal of the present utility model.

Claims (10)

1. A cylindrical battery detection device supporting mechanism, characterized in that the supporting mechanism comprises:

-two cylinders (10), the two cylinders (10) being arranged in the detection device;

The two sides of the support frame (20) are respectively connected with the two air cylinders (10);

The support frame (20) is arranged between the tray of the detection device and the probe module, when the probe module of the detection device moves upwards to be in contact with a battery in the tray, the air cylinder (10) drives the support frame (20) to move upwards to be in contact with the bottom of the tray to support the tray, and the upper surface of the support frame (20) can expose a probe of the probe module.

2. The cylindrical battery testing apparatus support mechanism of claim 1, wherein said support mechanism further comprises:

two supporting stools (12), supporting stools (12) are respectively connected to the bottom of the detection equipment, and two air cylinders (10) are respectively connected to the supporting stools (12).

3. A cylindrical battery testing device support mechanism as defined in claim 1, wherein:

the upper surface of the supporting frame (20) is connected with an insulating pad (24).

4. A cylindrical battery testing device support mechanism as defined in claim 1, wherein:

The two sides of the supporting frame (20) are provided with connecting parts (21), and the connecting parts (21) are used for being connected with the air cylinder (10);

the middle part of the supporting frame (20) is a supporting part (23), and the supporting part (23) protrudes out of the connecting part (21);

The supporting part (23) comprises two cross bars (231) and a plurality of connecting rods (232);

The two cross bars (231) are arranged in parallel and correspond to each other, the connecting rods (232) are connected between the two cross bars (231), and the two cross bars (231) and the connecting rods (232) are communicated with each other to form a closed channel.

5. A cylindrical battery testing device support mechanism as defined in claim 4, wherein:

A plurality of elbow joints are further arranged on two sides of the support frame (20), and one ends of the elbow joints are respectively connected with the two cross bars (231) so as to be connected into a closed channel formed by the two cross bars (231) and a plurality of connecting rods (232);

A plurality of air blowing holes (233) are formed in the side faces of the two cross bars (231).

6. A cylindrical battery testing device support mechanism as defined in claim 4, wherein:

and the connecting parts (21) on two sides of the supporting frame (20) are connected with limiting cushions (22).

7. A cylindrical battery testing device support mechanism as defined in claim 2, wherein:

And a cylinder adapter plate (11) is connected between the cylinder (10) and the supporting stool (12).

8. A cylindrical battery testing device, characterized in that the device comprises a cylindrical battery testing device support mechanism according to any one of claims 1-7.

9. A cylindrical battery testing device according to claim 8, wherein:

the detection device is provided with a bottom frame, and the cylindrical battery detection device supporting mechanism is connected to the bottom frame of the detection device.

10. A cylindrical battery testing device according to claim 8, wherein:

The detection equipment comprises two cylindrical battery detection equipment supporting mechanisms which are arranged in parallel.