CN221085620U - Battery waste powder pre-pulping device - Google Patents

Abstract

The utility model discloses a battery waste powder pre-pulping device, and relates to the technical field of battery processing. The utility model comprises a top cover, a heating box and fixed heat-insulating pipes, wherein the top of the heating box is clamped with the top cover, the center of the top cover is penetrated and clamped with a rotating motor, a plurality of fixed heat-insulating pipes are arranged at the bottom edge of the top cover, the bottom end of each fixed heat-insulating pipe is slidably clamped with a movable heat-insulating pipe, the bottom of each fixed heat-insulating pipe is penetrated and clamped with a supporting frame, and the peripheral surface of each supporting frame is penetrated and clamped with a screen. According to the utility model, the top cover, the heating box and the fixed heat-insulating pipe are arranged, so that the problems that when the battery waste powder pre-pulping device is used for mixing raw materials, electrolyte with certain viscosity can wrap metal powder, the wrapped metal powder is difficult to break up rapidly in the stirring process, and when the device is used for controlling the temperature, only the temperature suitable for various raw materials can be selected for heating the raw materials are solved.

Description

Battery waste powder pre-pulping device

Technical Field

The utility model belongs to the technical field of battery processing, and particularly relates to a battery waste powder pre-pulping device.

Background

A battery refers to a device that converts chemical energy into electrical energy in a cup, tank, or other container or portion of a space of a composite container that contains an electrolyte solution and metal electrodes to generate an electrical current. The battery is used as an energy source, stable voltage and stable current can be obtained, the battery is used for stably supplying power for a long time, the current which is slightly influenced by the outside is obtained, the battery is simple in structure and convenient to carry, the charging and discharging operations are simple and easy to implement, the battery is not influenced by external climate and temperature, the performance is stable and reliable, the battery plays a great role in various aspects in modern society life, the treatment of a large amount of waste batteries is not neglected due to the large use of the battery, the utilization rate of energy is improved due to the fact that the residual electric quantity of the waste batteries is not neglected, the waste batteries are usually subjected to discharging, crushing, physical sorting and other methods to prepare battery waste powder, the recovered battery waste powder is further processed and pulped by a pre-pulping device, and the battery waste powder can be recycled again, but the battery waste powder has the following defects in actual use:

1. The utility model discloses a pulping and mixing device for a lithium electronic battery, which is characterized in that a supporting frame is arranged above a bottom plate, a lifting mechanism is arranged above the supporting frame, a connecting plate is connected to the left side of the lifting mechanism, a drawing plate is arranged inside the connecting plate, a motor is arranged above the drawing plate, an output end below the motor is connected with a stirring rod, the stirring rod is externally connected with a stirring blade, a stirring container is arranged outside the stirring blade, a limiting mechanism is arranged outside the stirring container, the battery pulping usually needs to mix electrolyte, metal powder and the like by using a mixing device, so that necessary slurry is provided for the subsequent battery manufacturing, but in actual use, a large amount of metal powder can be wrapped by electrolyte with certain viscosity when being mixed with the electrolyte, so that the metal powder is difficult to break up, and in the stirring process, the wrapped metal powder can move along with the flowing of the liquid, so that the efficiency of mixing and stirring is reduced;

2. When the battery waste powder pre-pulping device is used for stirring raw materials, parameters such as stirring speed, mixing time and temperature are required to be controlled accurately, so that the mixing effect and quality are ensured, but when the battery waste powder pre-pulping device is in actual use, the optimal reaction temperature among various raw materials is different to a certain extent, and the optimal throwing time and temperature of each raw material are difficult to control, so that a temperature suitable for various raw materials is usually selected for mixing during throwing, and the processing efficiency is reduced.

Disclosure of utility model

The utility model aims to provide a battery waste powder pre-pulping device, which solves the problems that when the battery waste powder pre-pulping device mixes raw materials, electrolyte with certain viscosity wraps metal powder, the wrapped metal powder is difficult to break up rapidly in the stirring process, the mixing efficiency is reduced, and when the device is used for temperature control, the raw materials can only be heated by selecting a temperature suitable for various raw materials, and the processing efficiency is reduced.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

The utility model relates to a battery waste powder pre-pulping device which comprises a top cover, a heating box and fixed heat-insulating pipes, wherein the top cover is clamped at the top of the heating box, a rotating motor is clamped at the center of the top cover, the rotating motor can drive a plurality of fixed heat-insulating pipes to rotate, electrolyte, metal powder and the like are further driven to be mixed and stirred, the degree of automation of the device is improved, a plurality of fixed heat-insulating pipes are arranged at the bottom edge of the top cover, a movable heat-insulating pipe is clamped at the bottom end of each fixed heat-insulating pipe in a sliding manner, raw materials inside the fixed heat-insulating pipes and raw materials in the heating box can be separated through the fixed heat-insulating pipes and the movable heat-insulating pipes, the raw materials are heated at different temperatures, the corresponding movable heat-insulating pipes are opened for mixing the raw materials at different temperatures, the reaction speed is improved, a supporting frame is clamped at the bottom of each fixed heat-insulating pipe in a penetrating manner, a screen is clamped at the periphery of each supporting frame, and when the raw materials are stirred, the rotating motor drives the supporting frame and solid powder at the inner side of the rotating frame, and the flowing liquid drives the solid powder to pass through sieving, and the screen has a certain viscosity, so that the stirring efficiency of the powder is difficult to be improved.

Further, a first feeding pipe penetrates through and welded at the top of the top cover, a rotating plate is attached to the bottom of the top cover, and the rotating plate is clamped at the bottom of the rotating motor;

when stirring the raw materials, the rotating motor drives the rotating plate to rotate, and further drives the fixed heat preservation pipes to rotate, so that powder and liquid are uniformly mixed, and the automation degree of the device is improved.

Further, a plurality of through holes are formed in the upper side of the rotating plate in a penetrating manner, the through holes are attached to the bottom of the first feeding pipe, a supporting rod is fixedly welded in the center of the bottom of the rotating plate, a scraping frame is fixedly welded on the outer peripheral surface of the supporting rod, and the scraping frame is attached to the inner wall of the heating box;

When the rotating motor drives the rotating plate to rotate, the scraping frame can be driven to rotate simultaneously, raw materials adhered to the inner wall of the heating box are scraped off, and the raw materials are prevented from being wasted and the proportions of various raw materials of the slurry are prevented from being different.

Further, a second feeding pipe penetrates through the top of the outer peripheral surface of the heating box, a supporting base is fixedly clamped around the bottom of the heating box, and a discharging pipe penetrates through the center of the bottom of the heating box;

can carry out the feeding to powder raw materials through first inlet pipe, can carry out the feeding to liquid raw materials through the second inlet pipe, make the raw materials not directly mix when pouring into the device in, avoid viscous liquid to cause the parcel to powder, and be convenient for control the reaction temperature of different raw materials.

Further, a feeding hole is formed in the center of the top of the fixed heat-insulating pipe in a penetrating manner, the feeding hole is attached to the bottom of the through hole, and the bottom of the inner side of the movable heat-insulating pipe is attached to the outer peripheral surface of the supporting frame;

When liquid and powder mix and react, the rotation motor drives a plurality of fixed insulating pipes to rotate, makes liquid flow in the heating cabinet and pass through the screen cloth, drives the powder in the support frame to pass through the screen cloth and mix with the liquid and react, avoids being difficult to break up fast because the liquid has certain viscosity to lead to the powder, improves stirring efficiency.

Further, a heating plate is fixedly clamped on the inner side of the movable heat-insulating pipe, a telescopic pipe is clamped on the top of the movable heat-insulating pipe, a cylinder is slidably clamped on the top of the telescopic pipe, and the cylinder and the telescopic pipe are clamped inside the fixed heat-insulating pipe;

The heating box can heat liquid, can heat single powder through the hot plate in the removal insulating tube to keep warm through removing insulating tube and fixed insulating tube, avoid the temperature to influence each other, when liquid and corresponding powder mix, heat liquid to the same optimum temperature with powder through the heating box, and drive the removal insulating tube through the cylinder and upwards remove, make liquid and powder carry out mixed reaction at the optimum temperature, improve mixing efficiency.

The utility model has the following beneficial effects:

1. According to the utility model, the fixed heat-insulating pipe is arranged, so that the problems that electrolyte, metal powder and the like are required to be mixed by using a mixing device in battery pulping, necessary slurry is provided for subsequent battery manufacturing, but in actual use, a large amount of metal powder is likely to be coated by electrolyte with certain viscosity when being mixed with the electrolyte, so that the powder is difficult to break up, the coated metal powder moves along with the flowing of the liquid in the stirring process, the mixing stirring efficiency is reduced, the rotation of the fixed heat-insulating pipe at the inner side of a heating box can drive the liquid to move, the liquid passes through a screen and drives the powder at the inner side of a support frame to sieve and react with the liquid in a mixing mode, the problem that the powder is difficult to break up rapidly due to the certain viscosity of the liquid is avoided, and the stirring efficiency is improved.

2. The utility model solves the problems that when the battery waste powder pre-pulping device stirs raw materials, parameters such as stirring speed, mixing time and temperature are required to be controlled accurately, so as to ensure the mixing effect and quality, but when the battery waste powder pre-pulping device is in actual use, the optimal reaction temperature among various raw materials is different, and the optimal throwing time and temperature of each raw material are difficult to control, so that the problem of reducing the processing efficiency is solved by mixing the optimal throwing time and the optimal throwing temperature of each raw material, heating liquid by the heating box, heating single powder by the heating plate, and preserving heat by the movable heat preserving pipe and the fixed heat preserving pipe, avoiding the mutual influence of the temperatures, and when the liquid and the corresponding single powder are mixed, heating the liquid to the same optimal temperature as the powder by the heating box, driving the movable heat preserving pipe to move upwards by the air cylinder, so that the liquid and the powder are mixed and react at the optimal temperature, and the mixing efficiency is improved.

Drawings

FIG. 1 is a structural effect diagram of the present utility model;

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

FIG. 3 is a block diagram of the top cover of the present utility model;

FIG. 4 is a bottom view of the top cover of the present utility model;

FIG. 5 is a block diagram of a heating cabinet of the present utility model;

FIG. 6 is a top view of a fixed insulating tube of the present utility model;

fig. 7 is a structural view of the fixed insulation pipe of the present utility model.

Reference numerals:

1. A top cover; 101. a rotating motor; 102. a first feed tube; 103. a support rod; 104. a scraping frame; 105. a rotating plate; 106. a through hole; 2. a heating box; 201. a second feed tube; 202. a support base; 203. a discharge pipe; 3. fixing a heat preservation pipe; 301. moving the heat preservation pipe; 302. a feed inlet; 303. a support frame; 304. a screen; 305. a heating plate; 306. a cylinder; 307. and (5) a telescopic pipe.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-7, the utility model discloses a battery waste powder pre-pulping device, which comprises a top cover 1, a heating box 2 and fixed heat-insulating pipes 3, wherein the top of the heating box 2 is clamped with the top cover 1, the center of the top cover 1 is penetrated and clamped with a rotating motor 101, when the raw materials are mixed and stirred, the rotating motor 101 drives a plurality of fixed heat-insulating pipes 3 to rotate, further drives electrolyte, metal powder and the like to mix and stir, the bottom edge of the top cover 1 is provided with a plurality of fixed heat-insulating pipes 3, the bottom end of each fixed heat-insulating pipe 3 is slidably clamped with a movable heat-insulating pipe 301, the raw materials inside the fixed heat-insulating pipes 3 and the raw materials in the heating box 2 are separated through the fixed heat-insulating pipes 3 and the movable heat-insulating pipes 301, the corresponding movable heat-insulating pipes 301 are opened at the optimal reaction temperature of the raw materials to enable the solid metal powder and the liquid to be mixed and reacted, the bottom of each fixed heat-insulating pipe 3 is penetrated and clamped with a supporting frame, the outer peripheral surface of each supporting frame 303 is penetrated and clamped with a screen 304, when the raw materials are stirred, the rotating motor 101 drives the supporting frame 303 and the solid powder inside the solid powder to rotate, and the solid powder inside the solid powder is driven to flow through the screen 304 to drive the solid powder to flow fast, and the solid powder to flow through the screen 304 to be difficult to be sieved, and the solid powder is difficult to be broken, and the solid powder is difficult to be mixed and mixed.

As shown in fig. 1-5, a first feeding pipe 102 is welded at the top of the top cover 1 in a penetrating manner, a rotating plate 105 is attached to the bottom of the top cover 1, the rotating plate 105 is clamped at the bottom of the rotating motor 101, a plurality of through holes 106 are formed in the upper side of the rotating plate 105 in a penetrating manner, the through holes 106 are attached to the bottom of the first feeding pipe 102, a supporting rod 103 is fixedly welded at the center of the bottom of the rotating plate 105, a scraping rack 104 is fixedly welded on the outer peripheral surface of the supporting rod 103, the scraping rack 104 is attached to the inner wall of the heating box 2, a second feeding pipe 201 is welded at the top of the outer peripheral surface of the heating box 2 in a penetrating manner, a supporting base 202 is fixedly clamped at the periphery of the bottom of the heating box 2, and a discharging pipe 203 is welded at the center of the bottom of the heating box 2 in a penetrating manner;

The feeding of multiple auxiliary materials is carried out through the first feeding pipe 102, the main raw materials are fed through the second feeding pipe 201, the first feeding pipe 102 and the second feeding pipe 201 are closed when stirring, the rotating motor 101 drives the rotating plate 105 to rotate when stirring the raw materials, the fixed heat preservation pipes 3 are further driven to rotate, powder and liquid are uniformly mixed, meanwhile the scraping rack 104 is driven to rotate, the raw materials adhered to the inner wall of the heating box 2 are scraped, and after slurry mixing is completed, the discharging pipe 203 is opened to discharge the slurry.

As shown in fig. 1, 2, 6 and 7, a feeding port 302 is formed in the center of the top of the fixed heat-insulating pipe 3 in a penetrating manner, the feeding port 302 is attached to the bottom of the through hole 106, the bottom of the inner side of the movable heat-insulating pipe 301 is attached to the outer peripheral surface of the supporting frame 303, a heating plate 305 is fixedly clamped on the inner side of the movable heat-insulating pipe 301, a telescopic pipe 307 is clamped on the top of the movable heat-insulating pipe 301, a cylinder 306 is slidably clamped on the top of the telescopic pipe 307, and the cylinder 306 and the telescopic pipe 307 are clamped inside the fixed heat-insulating pipe 3;

When the liquid and the powder are mixed and reacted, the heating box 2 heats the liquid, the movable heat-insulating pipe 301 preheats the single powder on the inner side of the heating box through the heating plate 305 at the corresponding temperature, when the liquid and the corresponding powder are mixed, the heating box 2 heats the liquid to the same optimal temperature as the powder, the telescopic pipe 307 is driven to shrink through the air cylinder 306, the movable heat-insulating pipe 301 slides upwards along the fixed heat-insulating pipes 3 to expose the supporting frame 303, the rotating motor 101 drives the fixed heat-insulating pipes 3 to rotate, the liquid flows in the heating box 2 and passes through the screen 304, and the powder in the supporting frame 303 is driven to pass through the screen 304 to be screened and react with the liquid at the optimal temperature.

The specific working principle of the utility model is as follows: the feeding of multiple auxiliary materials is carried out through the first feeding pipe 102, the main raw materials are fed through the second feeding pipe 201, the first feeding pipe 102 and the second feeding pipe 201 are closed when stirring, the heating box 2 heats liquid, the movable heat-insulating pipe 301 preheats single powder on the inner side of the heating box through the heating plate 305 to corresponding temperature, when the liquid and the corresponding powder are mixed, the heating box 2 heats the liquid to the same optimal temperature as the powder, the telescopic pipe 307 is driven to shrink through the air cylinder 306, the movable heat-insulating pipe 301 slides upwards along the fixed heat-insulating pipe 3 to expose the supporting frame 303, the rotating motor 101 drives the fixed heat-insulating pipes 3 to rotate, the liquid flows in the heating box 2 and passes through the screen 304, the powder in the supporting frame 303 is driven to pass through the screen 304 to carry out mixing reaction with the liquid at the optimal temperature, meanwhile, the scraping frame 104 is driven to scrape the raw materials adhered to the inner wall of the heating box 2, and after the slurry mixing is completed, the discharging pipe 203 is opened to discharge the slurry.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (6)

1. The utility model provides a battery waste material powder prefabrication thick liquid device, includes top cap (1), heating cabinet (2) and fixed insulating tube (3), its characterized in that: the top of the heating box (2) is clamped with a top cover (1), the center of the top cover (1) is penetrated and clamped with a rotating motor (101), a plurality of fixed heat preservation pipes (3) are arranged at the bottom edge of the top cover (1), each fixed heat preservation pipe (3) bottom slip joint has removal heat preservation pipe (301), and every fixed heat preservation pipe (3) bottom runs through joint has support frame (303), every support frame (303) outer peripheral surface runs through the joint has screen cloth (304).

2. A battery waste powder pre-pulping apparatus according to claim 1, characterized in that: the top cover (1) top runs through the welding has first inlet pipe (102), top cover (1) bottom laminating has rotor plate (105), rotor plate (105) joint is in rotor motor (101) bottom.

3. A battery waste powder pre-pulping apparatus according to claim 2, characterized in that: the utility model discloses a heating box, including pivoted board (105), pivoted board (105) upside has run through and has seted up a plurality of through-holes (106), through-hole (106) laminating in first inlet pipe (102) bottom, pivoted board (105) bottom central authorities welded fastening has bracing piece (103), bracing piece (103) outer peripheral face welded fastening has scrapes work or material rest (104), scrape work or material rest (104) laminating in heating box (2) inner wall.

4. A battery waste powder pre-pulping apparatus according to claim 1, characterized in that: the top of the outer peripheral surface of the heating box (2) is penetrated and welded with a second feeding pipe (201), the periphery of the bottom of the heating box (2) is fixedly clamped with a supporting base (202), and the center of the bottom of the heating box (2) is penetrated and welded with a discharging pipe (203).

5. A battery waste powder pre-pulping apparatus according to claim 3, characterized in that: the center of the top of the fixed heat-insulating pipe (3) is provided with a feed inlet (302) in a penetrating mode, the feed inlet (302) is attached to the bottom of the through hole (106), and the inner bottom of the movable heat-insulating pipe (301) is attached to the outer circumferential surface of the supporting frame (303).

6. A battery waste powder pre-pulping apparatus according to claim 1, characterized in that: the heating plate (305) is fixedly clamped on the inner side of the movable heat preservation pipe (301), the telescopic pipe (307) is clamped on the top of the movable heat preservation pipe (301), the air cylinder (306) is slidably clamped on the top of the telescopic pipe (307), and the air cylinder (306) and the telescopic pipe (307) are clamped inside the fixed heat preservation pipe (3).