CN221317723U - Electrolyte vacuum transfer device - Google Patents

Abstract

The application discloses an electrolyte vacuum transfer device, which relates to the field of electrolyte treatment equipment, and comprises a supporting component and a ton barrel, wherein the supporting component comprises a frame body, a supporting base fixedly arranged at the bottom of the frame body and a plurality of groups of limiting components arranged on the side edge of the frame body; the ton barrel is arranged in the frame body and is positioned above the supporting base, a liquid phase pipe for introducing electrolyte and a gas phase pipe for introducing inert gas are arranged at the top of the ton barrel, a liquid discharge pipe and a sewage discharge pipe are arranged at the bottom of the ton barrel, and a plurality of groups of limiting parts are uniformly arranged on the periphery of the ton barrel; the frame body one side rotates and is equipped with the support frame, ton bucket is connected with the support frame, fluid-discharge tube and blow off pipe all are located ton bucket and are close to one side of supporting the frame. The ton barrel is not easy to collide with other objects in the transportation process, and when electrolyte is difficult to discharge at the bottom of the ton barrel, an operator can adjust the gravity center and the lowest position of the ton barrel, so that the electrolyte in the ton barrel is conveniently and effectively discharged.

Description

Electrolyte vacuum transfer device

Technical Field

The application relates to the field of electrolyte treatment equipment, in particular to an electrolyte vacuum transfer device.

Background

The electrolyte is a medium used for a chemical battery, an electrolytic capacitor, and the like. The electrolyte is applied to different industries, and the contents represented by the electrolyte are quite different and commonly include: the electrolyte in the organism is applied to the electrolyte in the battery industry, and the electrolyte in the industries of electrolytic capacitors, super capacitors and the like.

At present, in the battery industry, after the electrolyte is produced, the electrolyte needs to undergo two indispensable transferring links of filling and discharging. Because the electrolyte is sensitive to moisture in the air, the electrolyte must be protected in an inert gas environment, and therefore, the electrolyte needs to be strictly stored and transported by adopting a ton barrel and a quick connector during transportation, namely, the electrolyte is filled into the ton barrel through the quick connector and transported to a battery plant, and then the electrolyte is unloaded from the ton barrel through the quick connector, so that the stable transportation of the electrolyte is ensured.

On one hand, the liquid discharging part of the ton barrel is arranged at the bottom and the side surface of the ton barrel in a protruding way in the actual use process of the existing electrolyte ton barrel, so that the liquid discharging part of the ton barrel is easy to collide with other objects in the transportation and movement process, and the ton barrel is deformed, even damaged and leaked; on the other hand, the area of the bottom of the ton barrel is larger, electrolyte at the bottom of the ton barrel is not easy to discharge from the liquid discharge part of the ton barrel, more electrolyte is easy to remain in the ton barrel, and more inconvenience is caused in unloading of the electrolyte.

Disclosure of utility model

In order to solve the problems that the liquid discharge part of the ton bucket of the electrolyte is easy to collide with other objects in the transportation and movement process and the electrolyte at the bottom of the ton bucket is difficult to discharge from the liquid discharge part of the ton bucket in the actual use process, the application provides the electrolyte vacuum transfer device.

The application provides an electrolyte vacuum transfer device which adopts the following technical scheme:

The utility model provides an electrolyte vacuum transfer device, includes supporting component and ton bucket, supporting component includes framework, the fixed support base of locating the framework bottom and locates the multiunit spacing part on the framework side, the framework is the cuboid frame, the long limit of framework is vertical layout; the ton barrel is arranged in the frame body, the ton barrel is positioned above the supporting base, a liquid phase pipe for introducing electrolyte and a gas phase pipe for introducing inert gas are arranged at the top of the ton barrel, a liquid discharge pipe and a sewage discharge pipe are arranged at the bottom of the ton barrel, and a plurality of groups of limiting parts are uniformly arranged on the periphery of the ton barrel; the utility model discloses a ton bucket, including framework, discharge pipe, support frame and locking part, framework one side is equipped with the support frame that rotates to be connected with the framework base and is used for locking the support frame on the framework, ton bucket is connected with the support frame, discharge pipe and blow off pipe all are located the ton bucket and are close to one side of supporting the frame.

Through the technical scheme, when the electrolyte vacuum transfer device is used, the ton barrels are limited and fixed in the frame body through the frame body, the supporting base and the plurality of groups of limiting parts, so that the integral lifting and limiting fixation of the ton barrels are realized, a protective outer frame is formed outside the ton barrels, the ton barrels are not easy to move in the moving process, are not easy to collide with other objects, and at least two ton barrels can be stacked up and down, and the ton barrels are convenient to transport; simultaneously, inert gases such as nitrogen or argon and the like can be introduced into the bucket through the gas phase pipe, impurities and redundant gases in the ton bucket are discharged through the drain pipe, then electrolyte is introduced into the ton bucket through the liquid phase pipe, and the inert gases are utilized to isolate the electrolyte from air, so that the vacuum filling of the electrolyte is completed; when electrolyte is difficult to discharge at the bottom of the ton barrel, an operator can drive the ton barrel to rotate towards the outer side of the frame body by utilizing the supporting outer frame, so that the liquid discharge pipe is positioned at the lowest position of the ton barrel, and the electrolyte in the barrel is discharged.

Optionally, the limiting component comprises a threaded ejector rod and a limiting plate, the threaded ejector rod is assembled on the long side of the frame body in a threaded mode, two ends of the threaded ejector rod are located inside and outside the frame body respectively, and the limiting plate is connected to one end portion of the threaded ejector rod placed in the frame body.

Through adopting above-mentioned technical scheme, rotate the screw ejector pin around screw ejector pin axis, can drive the limiting plate and be close to/keep away from the framework middle part to make the stable tight ton bucket of top of limiting plate.

Optionally, the limiting plate is the arc surface that is consistent with ton bucket outer Zhou Bihu to the one side surface that keeps away from the screw thread ejector pin, the limiting plate is rotated around screw thread ejector pin axis and is connected in screw thread ejector pin tip.

Through adopting above-mentioned technical scheme, be favorable to increasing the area of contact between limiting plate and the ton bucket periphery wall to the spacing stability of fixed ton bucket of reinforcing limiting part.

Optionally, the support frame is rectangular frame, support frame base is rotated around the framework base and is connected on the framework, locking part is located between support frame topside and the framework, ton bucket is detachable fixed with support frame.

Optionally, the locking part is the hasp, the locking part includes activity knot and fixing base, the activity knot is installed on supporting frame top, fixing base fixed mounting is in the framework top, just activity knot and fixing base knot are fit.

By adopting the technical scheme, the locking and unlocking of the supporting outer frame on the frame body can be conveniently realized by utilizing the movable buckle and the fixed seat; simultaneously, utilize supporting the frame and detain with the activity and fixing base cooperatees, can be comparatively convenient with ton bucket by the frame internal rotation play, realize the adjustment to ton bucket focus and ton bucket minimum position to be convenient for ton bucket internal liquid discharge.

Optionally, the support frame is last to be fixed be equipped with the staple bolt that can open and shut, specification and ton bucket periphery looks adaptation, staple bolt specification and ton bucket looks adaptation.

Through adopting above-mentioned technical scheme, the staple bolt that opens and shuts can comparatively conveniently realize ton bucket and support frame's detachable fixed connection.

Optionally, a cushion pad is fixedly arranged on one side, away from the threaded ejector rod, of the limiting plate.

Through adopting above-mentioned technical scheme, when producing to rock by a wide margin/collision in the transportation, the blotter can form the buffering between limiting plate and ton bucket to play effective protection to ton bucket.

In summary, the present application includes at least one of the following beneficial technical effects:

1. Through the cooperation of the supporting component, the supporting outer frame and the locking component with the ton barrel, the ton barrel is not easy to collide with other objects in the transportation process, and when electrolyte is difficult to discharge at the bottom of the ton barrel, an operator can drive the ton barrel to rotate around the frame body by utilizing the supporting outer frame, and the gravity center and the lowest position of the ton barrel are regulated, so that the electrolyte in the ton barrel is conveniently and effectively discharged;

2. Through supporting frame, locking part and staple bolt cooperation, ton bucket can be when operating personnel rotates and support the frame with support the frame and link to each other steadily to convenient discharge of electrolyte in the ton bucket, and ensure ton bucket and the holistic stability of supporting component.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic overall structure of an embodiment of the present application;

Fig. 2 is a schematic overall structure of an embodiment of the present application when the ton barrel and the supporting frame are rotated out of the frame.

Reference numerals: 1. a support assembly; 11. a frame; 12. a support base; 13. a limiting member; 131. a threaded ejector rod; 132. a limiting plate; 1321. a cushion pad; 2. a ton barrel; 21. a liquid phase tube; 22. a gas phase tube; 23. a liquid discharge pipe; 24. a blow-down pipe; 3. a supporting outer frame; 31. a hoop; 32. a support table; 4. a locking member; 41. a movable buckle; 42. a fixing seat.

Detailed Description

The application is described in further detail below with reference to fig. 1-2.

The embodiment of the application discloses an electrolyte vacuum transfer device.

Referring to fig. 1, an electrolyte vacuum transfer device includes a support assembly 1 and a ton barrel 2, wherein the support assembly 1 is used for lifting the ton barrel 2 and forming a protective outer frame on the periphery side of the ton barrel 2, and simultaneously, an operator can adjust the gravity center and the lowest position of the ton barrel 2.

Specifically, referring to fig. 1 and 2, the support assembly 1 includes a frame 11, a support base 12 fixedly disposed at the bottom of the frame 11, and a plurality of sets of limiting members 13 disposed at the sides of the frame 11.

The frame 11 is a cuboid frame formed by a plurality of square rods, and the long sides of the frame 11 are vertically distributed.

The supporting base 12 is a counterweight base, and the axis of the supporting base 12 coincides with the central axis of the frame 11 along the vertical direction.

The ton bucket 2 is installed in the frame 11, and the ton bucket 2 is located above the supporting base 12.

Referring to fig. 1 and 2, a liquid phase pipe 21 for passing in electrolyte and a gas phase pipe 22 for passing in inert gas are provided at the top of the ton barrel 2, and a liquid discharge pipe 23 and a sewage drain pipe 24 are provided at the bottom of the ton barrel 2. When the electrolyte vacuum transfer device is used, inert gases such as nitrogen or argon can be introduced into the barrel through the gas-phase pipe 22, impurities and redundant gases in the ton barrel 2 can be discharged through the drain pipe 24, and then the electrolyte is introduced into the ton barrel 2 through the liquid-phase pipe 21, so that the inert gases are utilized to isolate the electrolyte from air, and the vacuum filling of the electrolyte is completed.

The limiting component 13 includes a threaded ejector rod 131 and a limiting plate 132, the threaded ejector rod 131 is assembled on the long side of the frame 11 in a threaded manner, and two ends of the threaded ejector rod 131 are respectively located inside and outside the frame 11; the limiting plate 132 is an arc-shaped plate, the limiting plate 132 is rotationally connected to the end part of one end of the threaded ejector rod 131, which is placed in the frame 11, around the axis of the threaded ejector rod 131, and the arc direction of one side surface of the limiting plate 132, which is far away from the threaded ejector rod 131, is consistent with the arc direction of the outer peripheral wall surface of the ton barrel 2; the side of limiting plate 132, which is far away from threaded ejector rod 131, is fixedly provided with a flexible buffer cushion 1321, and a plurality of groups of limiting components 13 are uniformly arranged on the periphery side of ton barrel 2.

Through framework 11, support base 12 and multiunit limiting part 13, with ton bucket 2 spacing being fixed in framework 11 inside, realize raising and spacing fixed to the whole of ton bucket 2, form the protection frame in ton bucket 2 outside, make ton bucket 2 be difficult for taking place to remove at the removal in-process to make ton bucket 2 be difficult for colliding with other objects, and make at least two ton buckets 2 can realize stacking from top to bottom and arrange, be convenient for ton bucket 2 transport.

Further, referring to fig. 1 and 2, in order to facilitate the operator to conveniently unload the electrolyte at the bottom of the ton barrel 2, one side of the frame 11 is provided with a supporting outer frame 3 rotatably connected to the bottom edge of the frame 11 and a locking member 4 for locking the supporting outer frame 3 to the frame 11.

Specifically, the supporting outer frame 3 is a rectangular frame, the length of the long side of the supporting outer frame 3 is consistent with that of the long side of the frame 11, the bottom edge of the supporting outer frame 3 is rotationally connected to any side edge of the bottom of the frame 11 around the bottom edge of the frame 11, a supporting table 32 which can be movably arranged in the frame 11 is fixedly connected to the bottom edge of the supporting outer frame 3, and the supporting table 32 is used for being matched with the supporting base 12 to lift the ton barrel 2; the locking component 4 is a lock catch, the locking component 4 comprises a movable buckle 41 and a fixed seat 42, the movable buckle 41 is arranged on the top edge of the supporting outer frame 3, the fixed seat 42 is fixedly arranged on the top of the frame 11, and the movable buckle 41 and the fixed seat 42 are appropriately matched.

Referring to fig. 1 and 2, the middle part of the supporting outer frame 3 is fixedly provided with an openable and closable hoop 31 with the specification adapted to the periphery of the ton barrel 2, the specification of the hoop 31 is adapted to the ton barrel 2, the ton barrel 2 and the supporting outer frame 3 are detachably fixed through the hoop 31, the liquid discharge pipe 23 and the drain pipe 24 on the ton barrel 2 are both positioned on one side of the ton barrel 2 close to the supporting outer frame 3, and the liquid discharge pipe 23 is positioned below the drain pipe 24.

When electrolyte is difficult to discharge from the bottom of the ton barrel 2, an operator can close the drain pipe 24 and open the drain pipe 23, and continuously introduce inert gas into the ton barrel 2 by using the gas phase pipe 22, and drive the ton barrel 2 to slowly rotate towards the outer side of the frame 11 by using the supporting outer frame 3, so that the drain pipe 23 is positioned at the lowest position of the ton barrel 2, and the gravity center and the lowest position of the ton barrel 2 are adjusted, so that the electrolyte in the barrel is conveniently and effectively discharged.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The terms "first," "second," "third," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. The terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, is intended to mean that elements or items that are present in front of "comprising" or "comprising" are included in the word "comprising" or "comprising", and equivalents thereof, without excluding other elements or items. "upper", "lower", "left", "right", etc. are used merely to denote relative positional relationships, which may also change accordingly when the absolute position of the object to be described changes.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. An electrolyte vacuum transfer device, which is characterized in that: the device comprises a supporting assembly (1) and a ton barrel (2), wherein the supporting assembly (1) comprises a frame body (11), a supporting base (12) fixedly arranged at the bottom of the frame body (11) and a plurality of groups of limiting parts (13) arranged on the side edge of the frame body (11), the frame body (11) is a cuboid frame, and the long edge of the frame body (11) is vertically arranged; the ton barrel (2) is arranged in the frame body (11), the ton barrel (2) is positioned above the supporting base (12), a liquid phase pipe (21) for introducing electrolyte and a gas phase pipe (22) for introducing inert gas are arranged at the top of the ton barrel (2), a liquid discharge pipe (23) and a drain pipe (24) are arranged at the bottom of the ton barrel (2), and a plurality of groups of limiting components (13) are uniformly arranged on the periphery of the ton barrel (2); the utility model discloses a ton bucket, including framework (11), support frame (3) and locking part (4) that are used for locking support frame (3) on framework (11) are equipped with framework (11) base rotation connection to framework (11) one side, ton bucket (2) are connected with support frame (3), fluid-discharge tube (23) and blow off pipe (24) all are located ton bucket (2) and are close to one side of supporting frame (3).

2. The electrolyte vacuum transfer device of claim 1, wherein: the limiting component (13) comprises a threaded ejector rod (131) and a limiting plate (132), the threaded ejector rod (131) is assembled on the long side of the frame body (11) in a threaded mode, two ends of the threaded ejector rod (131) are located inside and outside the frame body (11) respectively, and the limiting plate (132) is connected to one end portion of the threaded ejector rod (131) placed in the frame body (11).

3. The electrolyte vacuum transfer device of claim 2, wherein: one side surface of the limiting plate (132) far away from the threaded ejector rod (131) is an arc-shaped surface consistent with the outer Zhou Bihu direction of the ton barrel (2), and the limiting plate (132) is rotationally connected to the end part of the threaded ejector rod (131) around the axis of the threaded ejector rod (131).

4. The electrolyte vacuum transfer device of claim 2, wherein: the supporting outer frame (3) is a rectangular frame, the bottom edge of the supporting outer frame (3) is rotationally connected to the frame (11) around the bottom edge of the frame (11), the locking component (4) is located between the top edge of the supporting outer frame (3) and the frame (11), and the ton barrel (2) and the supporting outer frame (3) are detachably fixed.

5. The electrolyte vacuum transport apparatus of claim 4, wherein: the locking component (4) is a lock catch, the locking component (4) comprises a movable buckle (41) and a fixed seat (42), the movable buckle (41) is arranged on the top edge of the supporting outer frame (3), the fixed seat (42) is fixedly arranged at the top of the frame body (11), and the movable buckle (41) is buckled and matched with the fixed seat (42).

6. The electrolyte vacuum transport apparatus of claim 5, wherein: the support frame (3) is fixedly provided with an anchor ear (31) which can be opened and closed and is matched with the periphery of the ton barrel (2), and the anchor ear (31) is matched with the ton barrel (2).

7. A vacuum electrolyte transfer device as claimed in claim 3, wherein: one side of the limiting plate (132) far away from the threaded ejector rod (131) is fixedly provided with a buffer pad (1321).