CN219173079U - Liquid material storage device is used in graphite goods processing - Google Patents

Abstract

The utility model provides a liquid material storage device for graphite product processing, which comprises a cylinder body, wherein a removable flexible inner cylinder is arranged in the cylinder body, a connecting ring positioned in the cylinder body is fixed at the top end of the flexible inner cylinder, and a cover plate is connected with the inner side of the connecting ring through threads; a circular plate is fixed at the bottom end of the flexible inner cylinder, and the bottom surface of the circular plate is contacted with the bottom surface in the cylinder body; the cylinder body is connected with a screw rod for fixing the connecting ring in a threaded manner. The utility model can effectively reduce waste of liquid materials and water resources, can effectively improve the cleaning efficiency, and can effectively reduce the treatment cost of the later-stage wastewater.

Description

Liquid material storage device is used in graphite goods processing

Technical Field

The utility model relates to the technical field of storage devices, in particular to a liquid material storage device for graphite product processing.

Background

Various liquid materials (such as raw materials, intermediate materials or finished products) in the processing process of the graphite product need to be stored by a storage cylinder so as to be convenient for transportation and storage; after the materials in the storage cylinder are used, a plurality of materials remain in the storage cylinder, so that before the next use, the staff also need to clean the inside of the storage cylinder; however, when the residual materials in the storage cylinder are excessive, a large amount of materials are wasted due to cleaning, and the cleaned water contains larger graphite product materials, so that the treatment cost of the later-stage wastewater is correspondingly increased.

Disclosure of Invention

The utility model discloses a liquid material storage device for graphite product processing, which solves the problems that when excessive materials remain in a storage cylinder, a large amount of materials are wasted due to cleaning, and the treatment cost of later-stage wastewater is correspondingly increased.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the liquid material storage device for processing the graphite product comprises a barrel, wherein a removable flexible inner barrel is arranged in the barrel, a connecting ring positioned in the barrel is fixed at the top end of the flexible inner barrel, and a cover plate is connected with the inner side of the connecting ring through threads; a circular plate is fixed at the bottom end of the flexible inner cylinder, and the bottom surface of the circular plate is contacted with the bottom surface in the cylinder body; the cylinder body is connected with a screw rod for fixing the connecting ring in a threaded manner.

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

the flexible inner cylinder can be placed in the cylinder body, the bottom surface of the circular plate is contacted with the bottom surface in the cylinder body, and then the connecting ring is fixed by using the screw rod, so that the flexible inner cylinder is vertically stretched; after filling the liquid material into the flexible inner cylinder, connecting the cover plate on the inner side of the connecting ring in a threaded manner to finish the sealing of the liquid material in the flexible inner cylinder; when the liquid material is needed to be used, the cover plate is taken down, the liquid material in the flexible inner cylinder is poured out, and when the liquid material is still remained in the flexible inner cylinder, the screw rod is separated from the cylinder body, so that the screw rod does not fix the connecting ring any more, then the flexible inner cylinder is taken out from the cylinder body, and after the flexible inner cylinder is compressed, the liquid material remained in the flexible inner cylinder is discharged as much as possible, so that the liquid material remained in the flexible inner cylinder is reduced to the maximum extent; therefore, when the flexible inner cylinder is cleaned in the later period, the waste of liquid materials can be reduced, water resources are saved, the cleaning efficiency is improved, and meanwhile, the waste water is treated without increasing excessive treatment cost due to the excessive liquid materials; the utility model can effectively reduce waste of liquid materials and water resources, can effectively improve the cleaning efficiency, and can effectively reduce the treatment cost of the later-stage wastewater.

Drawings

FIG. 1 is a schematic elevational view in cross-section of the present utility model;

FIG. 2 is a schematic cross-sectional structural view of a sampling tube according to the present utility model.

In the figure: 1. a cylinder; 2. a flexible inner cylinder; 21. a circular plate; 22. a limit rod; 3. a connecting ring; 31. a cover plate; 32. a positioning ring; 4. sealing cover; 41. a fixing ring; 5. a carrier ring; 6. a discharge pipe; 61. a sealing column; 7. a cover cylinder; 71. a fixed cover; 8. a screw; 9. a sampling tube; 91. a threaded column; 92. a vertical rod; 93. a sealing plug; 94. and a sampling hole.

Detailed Description

The details of the present utility model are described below in conjunction with the accompanying drawings and examples.

As shown in fig. 1, the utility model provides a liquid material storage device for graphite product processing, which comprises a cylinder body 1, wherein a removable flexible inner cylinder 2 is arranged in the cylinder body 1, a connecting ring 3 positioned in the cylinder body 1 is fixed at the top end of the flexible inner cylinder 2, and a cover plate 31 is connected with the inner side of the connecting ring 3 in a threaded manner; a circular plate 21 is fixed at the bottom end of the flexible inner cylinder 2, and the bottom surface of the circular plate 21 is contacted with the bottom surface in the cylinder body 1; the cylinder body 1 is in threaded connection with a screw rod 8 for fixing the connecting ring 3.

As shown in fig. 1 and 2, the top of the circular plate 21 is provided with a detachable sampling tube 9, a sampling hole 94 is formed in the sampling tube 9, a vertical rod 92 in threaded connection is penetrated through the top of the sampling tube 9, and a sealing plug 93 which is positioned in the sampling tube 9 and blocks the sampling hole 94 is fixed on the vertical rod 92. After some liquid materials are stored for a long time, layering or material precipitation in the bottom of some materials in the liquid materials occurs, and if layering of the liquid materials is serious, the liquid materials are required to be stirred before being used; after the cover plate 31 can be opened by a worker, the sealing plug 93 moves downwards by rotating the part of the vertical rod 92 positioned outside the sampling tube 9, the sampling hole 94 is not blocked (the sampling hole 94 is positioned below the sampling tube 9 and is close to the circular plate 21), the liquid material positioned below the flexible inner cylinder 2 can enter the sampling tube 9 through the sampling hole 94, then the sealing plug 93 is restored by rotating the vertical rod 92, and the sampling hole 94 is blocked; then, after the sampling tube 9 is detached from the circular plate 21 by a worker, the sampling tube 9 is taken out from the flexible inner cylinder 2, and after the sampling tube 9 is transferred into the detection chamber, the vertical rod 92 is rotated to enable the sealing plug 93 not to block the sampling hole 94 any more, so that liquid materials in the sampling tube 9 can be discharged through the sampling hole 94.

As shown in fig. 1 and 2, a threaded column 91 is fixed at the bottom end of the sampling tube 9, and a screw hole matched with the threaded column 91 is formed at the top of the circular plate 21; a limiting rod 22 is fixed at the bottom of the circular plate 21, and a limiting hole matched with the limiting rod 22 is formed in the bottom of the cylinder body 1. The staff can make the threaded column 91 and the screw hole on the top of the circular plate 21 connected together through the screw thread after rotating the sampling tube 9; when the circular plate 21 is placed in the cylinder 1, the limiting rod 22 can be inserted into the limiting hole, so that the stability of the circular plate 21 is improved.

As shown in fig. 1, the top of the cylinder 1 is connected with a sealing cover 4 in a threaded manner, and a fixing ring 41 is fixed on the top of the sealing cover 4; a bearing ring 5 is fixed at the bottom of the cylinder 1, and the inner diameter of the bearing ring 5 is larger than the diameter of the fixed ring 41. After the sealing cover 4 is connected to the top of the cylinder 1 in a threaded manner, the sealing effect of the cylinder 1 can be improved; the bearing ring 5 is arranged, the inner diameter of the bearing ring 5 is slightly larger than the diameter of the fixing ring 41, when two cylinders 1 are stacked together, the fixing ring 41 on the cylinder 1 positioned below can be inserted into the bearing ring 5 at the bottom of the cylinder 1 positioned above, and the stability of the cylinder 1 during stacking is improved; and the worker can rotate the sealing cap 4 through the fixing ring 41.

As shown in fig. 1, the bottom of the circular plate 21 is communicated with a discharge pipe 6, a perforation through which the discharge pipe 6 passes is formed at the bottom of the cylinder 1, and a discharge end of the discharge pipe 6 is in threaded connection with a sealing column 61. When the liquid material in the flexible inner cylinder 2 needs to be discharged, the cylinder body 1 can be lifted, and then the sealing column 61 is opened, so that the liquid material in the flexible inner cylinder 2 is discharged through the discharge pipe 6; simultaneously, after the screw rod 8 and the cylinder body 1 are disassembled, the flexible inner cylinder 2 is compressed through the connecting ring 3, so that liquid materials in the flexible inner cylinder 2 are discharged as much as possible, and the liquid materials remained in the flexible inner cylinder 2 are reduced.

As shown in fig. 1, a cover cylinder 7 covering the discharge pipe 6 is fixed to the bottom of the cylinder 1, and a portion of the sealing post 61 located outside the discharge pipe 6 contacts with the bottom of the cover cylinder 7. After the sealing column 61 is connected to the discharging pipe 6 in a threaded manner, the sealing effect of the cylinder 1 can be improved after the part of the sealing column 61 outside the discharging pipe 6 contacts with the bottom of the cover cylinder 7; when the flexible inner cylinder 2 is damaged, the liquid material in the flexible inner cylinder 2 leaks into the cylinder body 1, and the sealing column 61 is matched with the cover cylinder 7, so that the liquid material can be effectively prevented from leaking out of the cylinder body 1.

As shown in fig. 1, the bottom of the cylinder 1 is screwed with a fixed cover 71, the sealing post 61 is positioned in the fixed cover 71, and the handle on the sealing post 61 is contacted with the bottom in the fixed cover 71. The fixing cover 71 can effectively protect the sealing column 61, increase the stability of the sealing column 61 and prevent the sealing column 61 from being separated from the discharge pipe 6 due to unexpected situations.

As shown in fig. 1, the flexible inner cylinder 2 may be a rubber bag or a folding cylinder. The flexible inner cylinder 2 can be a rubber bag or a folding cylinder according to practical situations.

As shown in fig. 1, a positioning ring 32 is fixed in the connecting ring 3, and the top of the positioning ring 32 contacts with the bottom surface of the cover plate 31. The positioning ring 32 can bear the bottom of the cover plate 31, and the stability of the cover plate 31 is increased.

When the flexible inner cylinder 2 is used, after the circular plate 21 is placed at the bottom in the cylinder body 1, the connecting ring 3 is moved upwards, so that the top of the connecting ring 3 is level with the top of the cylinder body 1, and the flexible inner cylinder 2 is stretched; then the screw rod 8 is connected to the cylinder body 1 in a threaded way, so that the screw rod 8 fixes the connecting ring 3 (a threaded groove matched with the screw rod 8 is formed on the connecting ring 3, so that the screw rod 8 can be connected in the threaded groove in a threaded way, two screw rods 8 are arranged, and the two screw rods 8 are distributed in a bilateral symmetry way); then, after the staff loads the liquid material into the flexible inner cylinder 2, the cover plate 31 can be connected with the inner side of the connecting ring 3 in a threaded manner to seal the liquid material in the flexible inner cylinder 2; when the liquid material needs to be used, the cover plate 31 can be separated from the connecting ring 3, the liquid material in the flexible inner cylinder 2 is poured out, then the screw rod 8 is separated from the cylinder body 1, then the flexible inner cylinder 2 is taken out from the cylinder body 1, and then the residual liquid material in the flexible inner cylinder 2 can be discharged as much as possible by extruding the flexible inner cylinder 2, so that the residual liquid material in the flexible inner cylinder 2 is reduced, and the inside of the flexible inner cylinder 2 is conveniently cleaned by subsequent staff.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (9)

1. The utility model provides a graphite goods processing is with liquid material storage device, includes barrel (1), its characterized in that: a removable flexible inner cylinder (2) is arranged in the cylinder body (1), a connecting ring (3) positioned in the cylinder body (1) is fixed at the top end of the flexible inner cylinder (2), and a cover plate (31) is connected with the inner side of the connecting ring (3) in a threaded manner; a circular plate (21) is fixed at the bottom end of the flexible inner cylinder (2), and the bottom surface of the circular plate (21) is contacted with the bottom surface in the cylinder body (1); the cylinder body (1) is connected with a screw rod (8) for fixing the connecting ring (3) in a threaded manner.

2. The liquid material storage device for processing graphite products according to claim 1, wherein: the top of plectane (21) is equipped with detachable sampling tube (9), has seted up sample hole (94) on sampling tube (9), and the top of sampling tube (9) runs through has threaded connection's montant (92), is fixed with on montant (92) and is located sampling tube (9) and blocks sealing plug (93) of sample hole (94).

3. The liquid material storage device for processing graphite products according to claim 2, wherein: a threaded column (91) is fixed at the bottom end of the sampling tube (9), and a screw hole matched with the threaded column (91) is formed in the top of the circular plate (21); a limit rod (22) is fixed at the bottom of the circular plate (21), and a limit hole matched with the limit rod (22) is formed at the bottom in the cylinder body (1).

4. The liquid material storage device for processing graphite products according to claim 1, wherein: the top of the cylinder body (1) is connected with a sealing cover (4) through threads, and a fixing ring (41) is fixed at the top of the sealing cover (4); the bottom of the cylinder body (1) is fixed with a bearing ring (5), and the inner diameter of the bearing ring (5) is larger than the diameter of the fixed ring (41).

5. The liquid material storage device for processing graphite products according to claim 1, wherein: the bottom of the circular plate (21) is communicated with a discharge pipe (6), a perforation for the discharge pipe (6) to pass through is formed in the bottom of the cylinder body (1), and a discharge end of the discharge pipe (6) is in threaded connection with a sealing column (61).

6. The liquid material storage device for processing graphite products according to claim 5, wherein: the bottom of the cylinder body (1) is fixedly provided with a cover cylinder (7) covering the discharge pipe (6), and the part of the sealing column (61) positioned outside the discharge pipe (6) is contacted with the bottom of the cover cylinder (7).

7. The liquid material storage device for processing graphite products as set forth in claim 6, wherein: the bottom of the cylinder body (1) is connected with a fixed cover (71) in a threaded manner, the sealing column (61) is positioned in the fixed cover (71), and a handle on the sealing column (61) is contacted with the bottom in the fixed cover (71).

8. The liquid material storage device for processing graphite products according to claim 1, wherein: the flexible inner cylinder (2) can be a rubber bag or a folding cylinder.

9. The liquid material storage device for processing graphite products according to claim 1, wherein: a positioning ring (32) is fixed in the connecting ring (3), and the top of the positioning ring (32) is contacted with the bottom surface of the cover plate (31).

Images