CN217403830U - Battery raw and other materials sampling test mechanism - Google Patents

Abstract

The utility model relates to a lithium battery processing equipment technical field specifically discloses a battery raw and other materials sampling test mechanism, Y axle moving module and X axle moving module locate the braced frame top, the storage bucket has been placed in the braced frame, the motion position of Y axle moving module is equipped with Z axle moving module, the base is fixed connection in the motion position of Z axle moving module, the vibratory hammer is installed on the top surface of base, the top fixed connection in the bottom surface of base of sampling tube, the bottom of sampling tube is provided with sample shovel head, a lateral wall of braced frame is along the horizontal direction fixed connection extension board, the extension board top surface has placed sample section of thick bamboo, the tip of extension board is along the fixed cover of vertical direction and is equipped with the cleaning bin, the cleaning bin is used for wasing sampling tube and sample shovel head, the position that the lateral wall lies above the extension board outside the cleaning bin is provided with the capping mechanism of automatic sealing to sample section of thick bamboo; the problem of battery raw material sampling device have the sampling range limitation and different scope samples easily have mutual pollution is solved.

Description

Battery raw and other materials sampling test mechanism

Technical Field

The utility model relates to a lithium cell processing equipment technical field specifically is a battery raw and other materials sampling test mechanism.

Background

In the existing lithium battery production process, the detection of the processed battery raw material is usually performed by manual sampling. There is a problem in that it cannot be guaranteed that raw materials of different levels in the bucket are all detected. Therefore, as a few battery material sampling mechanisms, there are mechanisms that use a spiral blade head as a sampling blade.

However, the helical shovel head has the following problems during sampling:

when a sampling shovel collects raw materials of a battery, the guide shaft of the sampling shovel can only adjust the position in a single direction, so that the collection of samples is limited, and the sample inspection work cannot be better completed.

Secondly, when the sampling shovel repeatedly samples, a sample remains on the sampling shovel, and errors exist in detection after the sample is collected; after gathering repeatedly, the material that remains on the sample shovel can cause the sample shovel to take place the jam condition through the accumulation many times to when sampling next batch of material, can cause the error.

And thirdly, the sampling quantity of the sampling spiral shovel head is less, and the material condition in the charging basket is not sufficiently known.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a battery raw and other materials sampling test mechanism for there is the problem that mutual pollution easily exists in the sample that there is sampling range limitation and different scope in solving present battery raw and other materials sampling device.

In order to achieve the above object, the utility model provides a following technical scheme: a sampling and detecting mechanism for raw materials of a battery comprises a supporting frame, a Y-axis moving module, an X-axis moving module and a sampling assembly, wherein the Y-axis moving module and the X-axis moving module are arranged above the supporting frame, a charging bucket is arranged in the supporting frame, a Z-axis moving module is arranged at the motion part of the Y-axis moving module, the sampling assembly comprises a base, a sampling tube and a vibrating hammer, the base is fixedly connected to the motion part of the Z-axis moving module, the vibrating hammer is installed on the top surface of the base, the top end of the sampling tube is fixedly connected to the bottom surface of the base, a sampling shovel head is arranged at the bottom end of the sampling tube, the sampling shovel head adopts a structural form of a probe shovel, sampling is carried out similar to the operation of sampling of a Luoyang shovel, a supporting plate is fixedly connected to one side wall of the supporting frame along the horizontal direction, a sample barrel is placed on the top surface of the supporting plate, the end part of the support plate is fixedly sleeved with a cleaning bin along the vertical direction, the cleaning bin is used for cleaning the sampling tube and the sampling shovel head, and a sealing cover mechanism for automatically sealing the sample cylinder is arranged at the position, above the support plate, of the outer side wall of the cleaning bin.

Preferably, the sealing mechanism comprises a telescopic cylinder box body and a sealing cover, one end of the telescopic cylinder box body is vertically and fixedly connected to the top of the outer side wall of the cleaning bin, telescopic cylinders are arranged in the positions, corresponding to the sample cylinders, of the inner cavity of the telescopic cylinder box body along the horizontal direction respectively, the telescopic ends of the telescopic cylinders are fixedly connected with the top surface of the sealing cover respectively, and the sealing cover is used for closing and opening the openings of the sample cylinders under the pushing and pulling action of the telescopic cylinders.

Preferably, a dirt storage cylinder is arranged below the cleaning bin and used for collecting dirt generated by cleaning the sampling tube and the sampling shovel head in the cleaning bin.

Preferably, the driving mechanisms of the Y-axis moving module, the X-axis moving module and the Z-axis moving module are rodless cylinders, the rodless cylinders of the X-axis moving module are arranged in a direction parallel to the edges of the two sides of the top end of the supporting frame, and the two ends of the rodless cylinders of the Y-axis moving module are respectively and fixedly connected to the sliding blocks of the rodless cylinders of the X-axis moving module; the slide block of the rodless cylinder of the Y-axis moving module is fixedly connected with the Z-axis moving module, and the rodless cylinder of the Z-axis moving module is arranged along the vertical direction.

Preferably, a water spraying and washing structure and a blowing and drying mechanism are arranged in the cleaning bin.

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

1. the utility model relates to a sampling mechanism is by X axle removal module, Y axle removal module and Z axle removal module drive sampling component and take the sample to satisfy the needs that carry out comprehensive selective examination to the sample, avoided the problem of sampling range limitation.

2. The utility model relates to a sampling mechanism is provided with the vibratory hammer, can effectually prevent that battery raw and other materials from piling up in sampling tube and sample shovel head department and causing the jam after gathering the sample to unloading in the sample section of thick bamboo to the problem that the material can't be lifted off appears when still having avoided unloading.

3. The utility model relates to a sampling mechanism adopts the similar sample shovel head of probing shovel head, and it compares in spiral sample shovel, can be more easily carry out the layering sample in the material heap.

4. The utility model relates to a be provided with the closing cap mechanism of automatic sealing on the sample section of thick bamboo to avoid the sample contaminated.

5. The utility model relates to a cleaning bin can wash sampling tube and sample shovel head to avoid taking place the problem of mutual pollution between the sample of different scopes.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

fig. 2 is a schematic view of the sampling assembly of the present invention.

In the figure: 1-a support frame; 11-a support plate; 12-a sample cartridge; 13-cleaning a bin; 14-a dirt storage cylinder; 2-a charging basket; 3-a sampling assembly; 31-a base; 32-a sampling tube; 33-a vibratory hammer; 34-a sampling shovel head; 4-X axis movement module; 5-Y axis moving module; a 6-Z axis moving module; 7-telescoping cylinder box body; 71-sealing cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a battery raw material sampling detection mechanism comprises a supporting frame 1, an X-axis moving module 4, a Y-axis moving module 5 and a sampling assembly 3, the X-axis moving module 4 and the Y-axis moving module 5 are arranged above the supporting frame 1, a charging basket 2 is placed in the supporting frame 1, a Z-axis moving module 6 is arranged at the motion part of the Y-axis moving module 5, the sampling assembly 3 comprises a base 31, a sampling tube 32 and a vibration hammer 33, the base 31 is fixedly connected to the motion part of the Z-axis moving module 6, the vibration hammer 33 is installed on the top surface of the base 31, the top end of the sampling tube 32 is fixedly connected to the bottom surface of the base 31, a sampling shovel head 34 is arranged at the bottom end of the sampling tube 32, a supporting plate 11 is fixedly connected to one side wall of the supporting frame 1 along the horizontal direction, a sample barrel 12 is placed on the top surface of the supporting plate 11, a cleaning bin 13 is installed at the end of the supporting plate 11 along the vertical direction, the cleaning bin 13 is used for cleaning the sampling tube 32 and the sampling shovel head 34, and a sealing mechanism for automatically sealing the sample cylinder 12 is arranged at the position, above the support plate 11, of the outer side wall of the cleaning bin 13.

In this embodiment, the sealing mechanism includes a telescoping cylinder box 7 and a sealing cover 71, one end of the telescoping cylinder box 7 is vertically and fixedly connected to the top of the outer side wall of the cleaning bin 13, telescoping cylinders are respectively arranged in positions of the inner cavity of the telescoping cylinder box 7 corresponding to the sample tube 12 along the horizontal direction, the telescopic ends of the telescoping cylinders are respectively and fixedly connected to the top surface of the sealing cover 71, and the sealing cover 71 is used for closing and opening the opening of the sample tube 12 under the pushing and pulling action of the telescoping cylinders.

In this embodiment, a dirt storage cylinder 14 is disposed below the cleaning bin 13, and the dirt storage cylinder 14 is used for collecting dirt generated by cleaning the sampling tube 32 and the sampling shovel head 34 in the cleaning bin 13.

In this embodiment, the driving mechanisms of the X-axis moving module 4, the Y-axis moving module 5, and the Z-axis moving module 6 are rodless cylinders.

In this embodiment, a water spraying and washing structure and a blowing and drying mechanism are arranged in the cleaning bin 13.

In summary, the sampling assembly 3 is integrally moved to the range to be sampled by the X-axis moving module 4 and the Y-axis moving module 5; the Z-axis moving module 6 drives the sampling assembly 3 to move downwards, the sampling shovel head 34 and the sampling tube 32 finish sampling, and then the Z-axis moving module 6 drives the sampling assembly 3 to move upwards; the sampling assembly 3 is moved to the position right above the sample cylinder 12 under the driving action of the X-axis moving module 4 and the Y-axis moving module 5; the Z-axis moving module 6 drives the sampling assembly 3 to move downwards, so that the sampling shovel head 34 is inserted into the sample cylinder 12; the vibration hammer 33 enables the sample to fall into the sample cylinder under the vibration effect, then the Z-axis moving module 6 drives the sampling assembly 3 to exit from the sample cylinder 12, and the telescopic cylinder in the telescopic cylinder box body 7 drives the sealing cover 71 to seal the sample cylinder 12; move module 4 and Y axle and move module 5 with sampling component 3 whole and move to cleaning bin 13 directly over through the X axle, Z axle moves module 6 and drives sampling component 3 downstream for sampling shovel head 34 and sampling tube 32 insert cleaning bin 13 inner chamber, in order to accomplish the washing to sampling tube 32 and sampling shovel head 34, so that next endless sampling operation.

It should be noted that, in this document, 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. Also, 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 invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a former material sampling test mechanism of battery, includes braced frame (1), X axle removal module (4), Y axle removal module (5) and sampling subassembly (3), X axle removal module (4) and Y axle removal module (5) set up in braced frame's (1) top, storage bucket (2), its characterized in that have been placed in braced frame (1): the motion position of Y axle removal module (5) is provided with Z axle removal module (6), sample subassembly (3) include base (31), sampling tube (32) and vibratory hammer (33), base (31) fixed connection in on the motion position of Z axle removal module (6), vibratory hammer (33) install in on the top surface of base (31), the top fixed connection of sampling tube (32) in the bottom surface of base (31), the bottom of sampling tube (32) is provided with sample shovel head (34), a lateral wall along horizontal direction fixedly connected with extension board (11) of braced frame (1), sample section of thick bamboo (12) has been placed to extension board (11) top surface, the tip of extension board (11) is along the fixed cover of vertical direction and is equipped with cleaning bin (13), cleaning bin (13) are used for right sampling tube (32) and sample shovel head (34) wash, and a sealing mechanism for automatically sealing the sample cylinder (12) is arranged at the position, above the support plate (11), of the outer side wall of the cleaning bin (13).

2. The battery raw material sampling and detecting mechanism according to claim 1, wherein: the sealing mechanism comprises a telescopic cylinder box body (7) and a sealing cover (71), one end of the telescopic cylinder box body (7) is vertically and fixedly connected to the top of the outer side wall of the cleaning bin (13), telescopic cylinders are arranged in positions, corresponding to the sample cylinder (12), of the inner cavity of the telescopic cylinder box body (7) along the horizontal direction respectively, telescopic ends of the telescopic cylinders are fixedly connected with the top surface of the sealing cover (71) respectively, and the sealing cover (71) is used for closing and opening the opening of the sample cylinder (12) under the pushing and pulling action of the telescopic cylinders.

3. The battery raw material sampling and detecting mechanism according to claim 1, wherein: the lower part of the cleaning bin (13) is provided with a dirt storage cylinder (14), and the dirt storage cylinder (14) is used for collecting dirt generated by the sampling pipe (32) and the sampling shovel head (34) due to cleaning in the cleaning bin (13).

4. The battery raw material sampling and detecting mechanism according to claim 1, wherein: and driving mechanisms of the X-axis moving module (4), the Y-axis moving module (5) and the Z-axis moving module (6) are rodless cylinders.

5. A battery raw material sampling and detecting mechanism according to claim 3, characterized in that: and a water spraying and washing structure and a blowing and drying mechanism are arranged in the cleaning bin (13).

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