CN219454278U - Raw material heating device for electrolyte production - Google Patents

Abstract

The utility model discloses a raw material heating device for electrolyte production, which comprises a workbench, wherein a heating groove is formed in the right end of a top plate of the workbench, a plurality of heating rods are inserted into the lower part of the heating groove at intervals, and a material rack is placed in the heating groove; a pair of T-shaped guide rails are fixedly connected to corresponding positions on the front side plate and the rear side plate of the workbench along the horizontal direction, two electric cylinders I are slidably arranged on each pair of T-shaped guide rails, each electric cylinder I is rectangular and is positioned outside the heating tank, the extending ends of the electric cylinders I are vertically upwards, and the end parts of the electric cylinders I are connected with the material rack through connecting pieces; the left ends of the front side plate and the rear side plate of the workbench are symmetrically provided with an electric cylinder II along the horizontal direction, and the extending end of the electric cylinder II is fixedly connected with the outer wall of the cylinder body of the adjacent electric cylinder I. The heating device is simple in structure and reasonable in design, and through the arrangement of the device, a plurality of barrels of raw materials can be heated at one time, so that the heating efficiency is faster and the heating quantity is larger at one time compared with the heating mode of the heating box.

Description

Raw material heating device for electrolyte production

Technical Field

The utility model relates to the technical field of electrolyte production, in particular to a raw material heating device for electrolyte production.

Background

The electrolyte is a medium used by the chemical battery, mainly plays roles of electrochemical reaction and electric conduction, is an essential step for heating the electrolyte in the production process of the battery, can effectively reduce the shelf time of the electrolyte by heating the electrolyte, improves the infiltration capacity of the electrolyte, and prevents the phenomenon of white stripes of a diaphragm in the battery core. During the electrolyte production process, part of the raw materials (such as solvent EC, additive FEC, SN, etc.) need to be heated to a set temperature to be used. The original process of the company is to heat by a heating box, and by adopting the heating process, firstly, the heating efficiency is low, and secondly, the feeding and discharging are inconvenient. Therefore, the technical staff of the company designs a raw material heating device for producing the electrolyte to meet the use requirement, and the raw material heating device meets the utility model requirement through searching.

Disclosure of Invention

The utility model provides a raw material heating device for electrolyte production, which aims at the defects existing in the prior art.

The utility model provides a raw materials heating device for electrolyte production, includes the workstation, the heating tank has been seted up to workstation roof right-hand member, the interval grafting of heating tank lower part has a plurality of heating rods, the work or material rest has been placed in the heating tank. The workbench is characterized in that a pair of T-shaped guide rails are fixedly connected to corresponding positions on the front side plate and the rear side plate of the workbench along the horizontal direction, two electric cylinders I are slidably arranged on each pair of T-shaped guide rails, each electric cylinder I is rectangular and located outside the heating tank, one extending end of each electric cylinder is vertically upwards, and the end of each electric cylinder I is connected with the material rack through a connecting piece. The left ends of the front side plate and the rear side plate of the workbench are symmetrically provided with an electric cylinder II along the horizontal direction, and the extending end of the electric cylinder II is fixedly connected with the outer wall of the cylinder body of the adjacent electric cylinder I.

Further, a control panel is arranged on the outer wall of the left side plate of the workbench.

Further, a temperature sensor is arranged on the inner wall of the heating tank and is electrically connected with the control panel, and the temperature sensor transmits signals to the control panel.

Further, a slideway matched with the T-shaped guide rail is fixedly connected to the outer wall of the electric cylinder, and the slideway is slidably clamped on the T-shaped guide rail.

Further, the work or material rest is including the board of placing that is located the lower part, place the equal fixedly connected with stand of four corners of board roof, stand upper portion is through connecting piece and the one end fixed connection that stretches out of adjacent electronic jar, is provided with a plurality of connecting rods along vertical direction interval between two adjacent stands.

Further, a plurality of placing grooves are formed in the placing plate top plate at intervals.

Compared with the prior art, the utility model has the beneficial effects that: the device has the advantages of simple structure and reasonable design, can heat multiple barrels of raw materials at one time, has faster heating efficiency, larger heating quantity at one time and greatly shortens the heating time compared with a heating mode of a heating box, effectively improves the production efficiency, has simple equipment structure and low manufacturing cost, and is beneficial to saving the cost of enterprises.

Drawings

FIG. 1 is a front view of the present utility model;

fig. 2 is a top view of the present utility model.

In the figure: the device comprises a workbench 1, a heating groove 11, a heating rod 12, a T-shaped guide rail 13, a temperature sensor 14, a material rack 2, a placing plate 21, a placing groove 211, a stand column 22, a connecting rod 23, an electric cylinder I3, an electric cylinder II 4 and a control panel 5.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, a raw material heating device for electrolyte production comprises a workbench 1, wherein a control panel 5 is arranged on the outer wall of the left side plate of the workbench 1. The right end of the top plate of the workbench 1 is provided with a heating groove 11, a plurality of heating rods 12 are inserted into the lower portion of the heating groove 11 at intervals, the heating rods 12 are electrically connected with the control panel 5, and the control panel 5 controls the heating rods 12 to work. The inner wall of the heating tank 11 is provided with a temperature sensor 14, the temperature sensor 14 is electrically connected with the control panel 5, and the temperature sensor 14 transmits signals to the control panel 5. When the temperature of the water in the heating tank 11 reaches the minimum set value, the temperature sensor 14 transmits a signal to the control panel 5, the control panel 5 turns on the heating rod 12, and when the temperature of the water in the heating tank 11 reaches the maximum set value, the temperature sensor 14 transmits a signal to the control panel 5, and the control panel 5 turns off the heating rod 12.

The material rack 2 is placed in the heating groove 11, a pair of T-shaped guide rails 13 are fixedly connected to corresponding positions on the front side plate and the rear side plate of the workbench 1 along the horizontal direction, two electric cylinders I3 are slidably arranged on each pair of T-shaped guide rails 13, the electric cylinders I3 are electrically connected with the control panel 5, and the control panel 5 controls the electric cylinders I3 to work. The outer wall of the first electric cylinder 3 is fixedly connected with a slideway matched with the T-shaped guide rail 13, and the slideway is in sliding clamping connection with the T-shaped guide rail 13. The four electric cylinders I3 are arranged in a rectangular shape and are positioned outside the heating groove 11, the extending ends of the electric cylinders I3 are vertically upwards, and the end parts of the electric cylinders I are connected with the material rack 2 through connecting pieces.

The electric cylinder II 4 is symmetrically arranged at the left ends of the front side plate and the rear side plate of the workbench 1 along the horizontal direction, the electric cylinder II 4 is electrically connected with the control panel 5, and the control panel 5 controls the electric cylinder II 4 to work. And the extending end of the second electric cylinder 4 is fixedly connected with the outer wall of the cylinder body of the adjacent first electric cylinder 3. The material rack 2 comprises a placing plate 21 positioned at the lower part, a plurality of placing grooves 211 are formed in the top plate of the placing plate 21 at intervals, upright posts 22 are fixedly connected to four corners of the top plate of the placing plate 21, the upper parts of the upright posts 22 are fixedly connected with the extending ends of the adjacent electric cylinders 3 through connecting pieces, and a plurality of connecting rods 23 are arranged between the two adjacent upright posts 22 along the vertical direction at intervals.

When the device is used, the device is electrified, the first electric cylinder 3 is started through the control panel 5, the first electric cylinder 3 stretches out a distance to drive the material rack 2 to be far away from the heating tank 11, the second electric cylinder 4 is started through the control panel 5, the stretching end of the second electric cylinder 4 stretches back a distance to drive the material rack 2 to move to the left end above the left end of the workbench 1, a charging basket for containing raw materials is placed in the material rack 2 through electronic equipment, the bottom end of the charging basket is positioned in the placing tank 211, a proper amount of clear water is added into the heating tank 11, the heating rod 12 is started through the control panel 5 to heat water, after the water temperature reaches a certain temperature, the second electric cylinder 4 is started through the control panel 5, the stretching end of the second electric cylinder 4 stretches out to the original position to drive the material rack 2 to move to the left end above the heating tank 11, the first electric cylinder 3 stretches back to the original position to drive the material rack 2 to enter the heating tank 11, the hot water heats the raw materials in the charging basket, the raw materials in the charging basket are measured at fixed time, and the temperature of the raw materials in the charging basket reaches the set temperature, and the charging basket is taken out according to the steps. The device has the advantages of simple structure and reasonable design, can heat multiple barrels of raw materials at one time, has faster heating efficiency, larger heating quantity at one time and greatly shortens the heating time compared with a heating mode of a heating box, effectively improves the production efficiency, has simple equipment structure and low manufacturing cost, and is beneficial to saving the cost of enterprises.

Claims (6)

1. The utility model provides a raw materials heating device for electrolyte production which characterized in that: the automatic feeding device comprises a workbench (1), wherein a heating groove (11) is formed in the right end of a top plate of the workbench (1), a plurality of heating rods (12) are inserted into the lower part of the heating groove (11) at intervals, and a material rack (2) is placed in the heating groove (11); a pair of T-shaped guide rails (13) are fixedly connected to corresponding positions on the front side plate and the rear side plate of the workbench (1) along the horizontal direction, two electric cylinders I (3) are slidably arranged on each pair of T-shaped guide rails (13), the four electric cylinders I (3) are arranged in a rectangular shape and are positioned outside the heating groove (11), the extending ends of the electric cylinders I (3) are vertically upwards, and the end parts of the electric cylinders I are connected with the material rack (2) through connecting pieces; the left ends of the front side plate and the rear side plate of the workbench (1) are symmetrically provided with an electric cylinder II (4) along the horizontal direction, and the extending end of the electric cylinder II (4) is fixedly connected with the outer wall of the cylinder body of the adjacent electric cylinder I (3).

2. A raw material heating apparatus for producing an electrolytic solution according to claim 1, wherein: a control panel (5) is arranged on the outer wall of the left side plate of the workbench (1).

3. A raw material heating apparatus for producing an electrolytic solution according to claim 1, wherein: the inner wall of the heating tank (11) is provided with a temperature sensor (14), the temperature sensor (14) is electrically connected with the control panel (5), and the temperature sensor (14) transmits signals to the control panel (5).

4. A raw material heating apparatus for producing an electrolytic solution according to claim 1, wherein: the outer wall of the first electric cylinder (3) is fixedly connected with a slideway matched with the T-shaped guide rail (13), and the slideway is slidably clamped on the T-shaped guide rail (13).

5. A raw material heating apparatus for producing an electrolytic solution according to claim 1, wherein: the material rack (2) comprises a placing plate (21) positioned at the lower part, upright posts (22) are fixedly connected to four corners of a top plate of the placing plate (21), the upper parts of the upright posts (22) are fixedly connected with the extending ends of adjacent electric cylinders (3) through connecting pieces, and a plurality of connecting rods (23) are arranged between two adjacent upright posts (22) along the vertical direction at intervals.

6. The raw material heating apparatus for producing an electrolytic solution according to claim 5, wherein: a plurality of placing grooves (211) are formed in the top plate of the placing plate (21) at intervals.