CN219810281U - Yellow phosphorus electrode support structure - Google Patents

Abstract

The utility model discloses a yellow phosphorus electrode bracket structure which comprises a bracket body, wherein an external frame and an installation frame are arranged on the bracket body; the mounting frame is internally provided with a mounting groove, and the electrode is arranged in the mounting groove; the bracket body is also provided with a first driving component and a second driving component; the first driving motor is connected with the mounting frame through a connecting rope; the second driving assembly is arranged on the bracket body and drives the outer frame and the mounting frame to move up and down. In the utility model, the first driving component drives the mounting frame to rotate, so that the mounting frame is inclined, and the electrode is conveniently taken out from the inside of the mounting frame. The second driving assembly drives the mounting frame and the outer frame to move up and down, so that the position of the electrode is conveniently adjusted, the ground clearance of the electrode is improved, the heat dissipation effect of the electrode is improved, and the electrode is also conveniently connected with the yellow phosphorus electric furnace.

Description

Yellow phosphorus electrode support structure

Technical Field

The utility model belongs to the technical field of yellow phosphorus production, and particularly relates to a yellow phosphorus electrode bracket structure.

Background

Most of the existing yellow phosphorus is manufactured by adopting an electric furnace method, and main equipment of the electric furnace method consists of a yellow phosphorus furnace and a large graphite electrode, when the graphite electrode is needed to be used, workers can prevent the graphite electrode from moving during use, so that electrode brackets are arranged for the graphite electrode.

In the prior art, for example, the patent application number of the utility model "202220171834.9" is a technical scheme recorded in a yellow phosphorus furnace electrode bracket for producing yellow phosphorus: the utility model provides a yellow phosphorus stove electrode support for yellow phosphorus production relates to yellow phosphorus production technical field, including placing the platform, place the top of platform and be fixed with two symmetrical first U type pieces, two the equal screw thread of opposite side of first U type piece is run through there is the bolt pole. The electrode can only be fixed, and the replacement and the position adjustment of the electrode are inconvenient.

Disclosure of Invention

The utility model aims to provide a yellow phosphorus electrode bracket structure, which solves the problems that the weight of an electrode is heavier, the prior art only solves the fixation of the electrode, and the replacement and the adjustment of the electrode position are not solved.

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

a yellow phosphorus electrode bracket structure comprises a bracket body, wherein an external frame and an installation frame are arranged in the bracket body; the mounting frame is rotatably arranged in the outer frame; the inside of the installation frame is provided with an installation groove, the end part of the installation groove is provided with a movable door, and the movable door is rotationally connected with the installation frame; the electrode passes through the movable door and is arranged in the mounting groove;

the bracket body is also provided with a first driving component and a second driving component; the first driving assembly is arranged above the bracket body and comprises a first driving motor, a winch is arranged on an output shaft of the first driving motor, a connecting rope is arranged on the winch, and the first driving motor is connected with the mounting frame through the connecting rope;

the second driving assembly is arranged on the bracket body and comprises a transmission assembly and a second driving motor, and the second driving motor is connected with the transmission assembly; and the transmission assembly is also connected with the outer frame, and the second driving assembly drives the outer frame and the mounting frame to move up and down.

According to the technical scheme, the mounting frame comprises a first mounting frame and a second mounting frame, the first mounting frame and the second mounting frame are of arc-shaped structures, and the first mounting frame and the second mounting frame are combined to form a complete mounting groove.

According to the technical scheme, the mounting tables are arranged on two sides of the first mounting frame, the mounting tables are provided with mounting holes, the connecting tables matched with the mounting tables are arranged on two sides of the second mounting frame, the connecting tables are provided with connecting holes, and the mounting holes are matched with the connecting holes and used for detachable connection of the first mounting frame and the second mounting frame.

According to the technical scheme, the first installation frame and the second installation frame are respectively provided with the weight-reducing grooves, and the weight-reducing grooves are uniformly formed in the first installation frame and the second installation frame.

According to the technical scheme, the lifting hook is arranged above the first mounting frame and is used for being connected with the connecting rope of the first driving assembly.

According to the technical scheme, two lifting hooks are arranged, the two lifting hooks are respectively arranged on two sides of the installation frame, and the two lifting hooks are respectively connected with the two sets of first driving assemblies.

According to the technical scheme, the transmission assembly comprises a first gear and a second gear; wherein, first gear sets up in the upper portion of support body, and the second gear sets up in the below of support body, and first gear and second gear pass through the chain to be connected, and the chain is fixed with external frame.

According to the technical scheme, the side face of the bracket body is further provided with the guide column, and the guide column is used for guiding the up-and-down movement of the outer frame.

According to the technical scheme, a driving wheel and a fixed supporting leg are also arranged below the bracket body; the fixed support leg is rotatably arranged on the support body, and the mounting end of the driving wheel is fixedly connected with the support body.

According to the technical scheme, the bracket body is provided with the rotating groove, and the fixed support leg is rotatably arranged in the rotating groove.

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

according to the utility model, the outer frame and the mounting frame are arranged in the bracket body, the mounting frame is rotatably arranged in the outer frame, and the mounting frame is driven to rotate by the first driving assembly, so that the mounting frame is inclined, and the electrode is conveniently taken out from the mounting frame.

The second driving component drives the mounting frame and the outer frame to move up and down, so that the position of the electrode can be conveniently adjusted, and the electrode can be conveniently connected with the yellow phosphorus electric furnace.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a mounting frame structure of the present utility model;

FIG. 3 is a schematic view of a partial enlarged structure of the present utility model A;

fig. 4 is a schematic view of the structure of the sliding door of the present utility model.

The marks in the figure: 100-bracket body, 200-external frame, 300-mounting groove, 400-movable door, 500-first driving motor, 600-capstan, 700-connection rope, 800-second driving motor, 900-first mounting frame, 110-second mounting frame, 111-rotation groove, 112-mounting table, 113-connection table, 114-weight-reducing groove, 115-lifting hook, 116-first gear, 117-second gear, 118-chain, 119-guide post, 120-driving wheel, 121-fixed leg.

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.

Example 1

As shown in fig. 1 and 2, a yellow phosphorus furnace electrode support structure includes a support body 100, an external frame 200 and a mounting frame are provided in the support body 100; the mounting frame is rotatably provided in the outer frame 200; the inside of the installation frame is provided with an installation groove 300, the end part of the installation groove 300 is provided with a movable door 400, and the movable door 400 is rotationally connected with the installation frame; the electrode is placed inside the installation groove 300 through the movable door 400;

a first driving assembly and a second driving assembly are further provided on the bracket body 100; the first driving assembly is arranged above the bracket body 100, the first driving assembly comprises a first driving motor 500, a winch 600 is arranged on an output shaft of the first driving motor 500, a connecting rope 700 is arranged on the winch 600, and the first driving motor 500 is connected with the mounting frame through the connecting rope 700;

the second driving assembly is arranged on the bracket body 100, and comprises a transmission assembly and a second driving motor 800, and the second driving motor 800 is connected with the transmission assembly; and the transmission assembly is also connected with the outer frame 200, and the second driving assembly drives the outer frame 200 and the mounting frame to move up and down.

In the utility model, the outer frame 200 and the mounting frame are arranged in the bracket body 100, the mounting frame is rotatably arranged in the outer frame 200, and the first driving component is arranged to drive the mounting frame to rotate, so that the mounting frame is inclined, and the electrode is conveniently taken out from the inside of the mounting frame.

The second driving assembly drives the mounting frame and the outer frame 200 to move up and down, so that the position of the electrode can be conveniently adjusted, and the electrode can be conveniently connected with the yellow phosphorus electric furnace.

Example two

This embodiment is a further refinement of embodiment one. As shown in fig. 2, the mounting frame includes a first mounting frame 900 and a second mounting frame 110, the first mounting frame 900 and the second mounting frame 110 are arc-shaped structures, and the first mounting frame 900 and the second mounting frame 110 are combined to form a complete mounting groove 300; the both sides of first mounting frame 900 are provided with mount table 112, are provided with the mounting hole on the mount table 112, and the both sides of second mounting frame 110 are provided with mount table 112 complex connection platform 113, are provided with the connecting hole on the connection platform 113, and the mounting hole cooperates with the connecting hole for the detachable connection of first mounting frame 900 and second mounting frame 110.

Further, two movable doors 400 are provided, namely a first movable door and a second movable door; the first and second movable doors are provided on the first and second mounting frames 900 and 110, respectively.

Further, as shown in fig. 4, a connecting column is rotatably arranged on the first movable door, and a round hole is formed in the connecting column; the second movable door is provided with a fixing hole matched with the connecting column, the mounting hole is matched with the fixing hole, the first movable door is fixedly connected with the second movable door, and the end part of the electrode is limited.

The first mounting frame 900 and the second mounting frame 110 are detachably connected, and replacement and repair of the first mounting frame 900 and the second mounting frame 110 are facilitated.

The first and second mounting frames 900 and 110 are provided with weight-reducing grooves 114, respectively, and the weight-reducing grooves 114 are uniformly provided on the first and second mounting frames 900 and 110.

Further, as shown in fig. 2, the weight-reducing grooves 114 are provided to reduce the weight of the first and second mounting frames 900 and 110, so as to reduce the weight of the first and second mounting frames 900 and 110, and prevent the dead weights of the first and second mounting frames 900 and 110 from being excessively large, so that the first driving assembly is inconvenient to drive the mounting frames and the electrodes to rotate.

A hook 115 is provided above the first mounting frame 900, the hook 115 being for connection with the connection rope 700 of the first driving assembly; the two lifting hooks 115 are arranged on two sides of the mounting frame, and the two lifting hooks 115 are connected with the two sets of first driving components respectively.

Further, the connection of the first driving assembly to the first mounting frame 900 is facilitated by providing the hooks 115 above the first mounting frame 900 to connect with the first driving assembly.

Further, the control of the tilting direction of the electrode is facilitated by providing the hooks 115 at both ends of the first mounting frame 900 and providing two sets of first driving assemblies to be connected with the two hooks 115, respectively.

Further, two sets of movable doors 400 may be provided, and the two sets of movable doors are respectively disposed at two sides of the installation frame.

The method comprises the following steps: when the electrode needs to be taken out, the first driving assembly on the right side of the bracket body 100 is controlled to work, so that the first driving motor 500 rotates and drives the winch 600 to rotate, so that the connecting rope 700 contracts, and the right end of the mounting frame is pulled up; and the first driving assembly at the left end is also operated, the first driving motor 500 at the left end is reversely rotated, the connection rope 700 is lowered, the left end of the installation frame is lowered, the left side of the installation frame is inclined downward, the movable door 400 is opened, and the electrode is taken out of the installation frame.

When the electrode is required to be installed, the left end of the installation frame is inclined downwards, and then the electrode is placed into the installation frame; the first driving assembly at the left end is controlled to act, so that the first driving motor 500 at the left end rotates to drive the winch 600 to rotate, the connecting rope 700 is retracted, the first driving assembly at the right end is controlled to act, the first driving motor 500 at the right end is controlled to rotate, the winch 600 is driven to rotate, the connecting rope 700 is put down, and the installation frame is kept balanced through the two sets of first driving assemblies, so that the installation of the electrode is completed.

The transmission assembly includes a first gear 116 and a second gear 117; wherein, the first gear 116 is disposed at the upper portion of the bracket body 100, the second gear 117 is disposed below the bracket body 100, the first gear 116 and the second gear 117 are connected through a chain 118, and the chain 118 is fixed with the external frame 200.

A guide column 119 is further provided at a side of the stand body 100, and the guide column 119 is used to guide the up-and-down movement of the outer frame 200.

Further, a guide groove matched with the guide column 119 is formed in the outer frame 200, the outer frame 200 is slidably arranged on the guide column 119 through the guide groove, and the outer frame 200 is driven to move up and down through the second driving assembly, so that the outer frame 200 has a fixed moving direction.

As shown in fig. 3, a driving wheel 120 and a fixed leg 121 are further provided below the bracket body 100; wherein, the fixed support leg 121 is rotatably arranged on the bracket body 100, and the mounting end of the driving wheel 120 is fixedly connected with the bracket body 100; a rotation groove 111 is provided on the bracket body 100, and the fixed leg 121 is rotatably provided in the rotation groove 111.

Further, when it is required to move the stand body 100, the fixing leg 121 is received in the rotation groove 111 so that the driving wheel 120 contacts the bottom surface, thereby driving the stand body 100 to move.

When the bracket body 100 is required to be fixed, the fixing leg 121 received in the rotation groove 111 is rotated out so that the fixing leg 121 is brought into contact with the ground, and the bracket body 100 is fixed by the fixing leg 121.

The working principle of the utility model is as follows: when the electrode is required to be installed, the left end of the installation frame is inclined downwards, and then the electrode is placed into the installation frame; the first driving assembly at the left end is controlled to act, so that the first driving motor 500 at the left end rotates to drive the winch 600 to rotate, the connecting rope 700 is retracted, the first driving assembly at the right end is controlled to act, the first driving motor 500 at the right end is controlled to rotate, the winch 600 is driven to rotate, the connecting rope 700 is put down, and the installation frame is kept balanced through the two sets of first driving assemblies, so that the installation of the electrode is completed.

When the electrode needs to be taken out, the first driving assembly on the right side of the bracket body 100 is controlled to work, so that the first driving motor 500 rotates and drives the winch 600 to rotate, so that the connecting rope 700 contracts, and the right end of the mounting frame is pulled up; and the first driving assembly at the left end is also operated, the first driving motor 500 at the left end is reversely rotated, the connection rope 700 is lowered, the left end of the installation frame is lowered, the left side of the installation frame is inclined downward, the movable door 400 is opened, and the electrode is taken out of the installation frame.

The second driving motor 800 of the second driving assembly drives the second gear 117 to rotate, and the second gear 117 drives the first gear 116 to rotate through the chain 118, so that the outer frame 200 is driven to move together with the mounting frame, the ground clearance of the electrode is adjusted, the electrode is conveniently cooled, the electrode is conveniently connected with the yellow phosphorus electric furnace, the device is suitable for different yellow phosphorus electric furnaces, and the adaptability of the device is improved.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A yellow phosphorus electrode support structure is characterized in that: comprises a bracket body (100), wherein an external frame (200) and a mounting frame are arranged in the bracket body (100); the mounting frame is rotatably arranged in the outer frame (200); the inside of the installation frame is provided with an installation groove (300), the end part of the installation groove (300) is provided with a movable door (400), and the movable door (400) is rotationally connected with the installation frame; the electrode passes through the movable door (400) and is placed in the mounting groove (300);

the bracket body (100) is also provided with a first driving component and a second driving component; the first driving assembly is arranged above the bracket body (100), the first driving assembly comprises a first driving motor (500), a winch (600) is arranged on an output shaft of the first driving motor (500), a connecting rope (700) is arranged on the winch (600), and the first driving motor (500) is connected with the mounting frame through the connecting rope (700);

the second driving assembly is arranged on the bracket body (100), and comprises a transmission assembly and a second driving motor (800), and the second driving motor (800) is connected with the transmission assembly; and the transmission component is also connected with the outer frame (200), and the second driving component drives the outer frame (200) and the mounting frame to move up and down.

2. The yellow phosphorus electrode stent structure of claim 1, wherein: the mounting frames comprise a first mounting frame (900) and a second mounting frame (110), the first mounting frame (900) and the second mounting frame (110) are arc-shaped structures, and the first mounting frame (900) and the second mounting frame (110) are combined to form a complete mounting groove (300).

3. A yellow phosphorus electrode stent structure as defined in claim 2, wherein: the two sides of the first installation frame (900) are provided with installation tables (112), the installation tables (112) are provided with installation holes, the two sides of the second installation frame (110) are provided with connection tables (113) matched with the installation tables (112), the connection tables (113) are provided with connection holes, and the installation holes are matched with the connection holes and used for detachable connection of the first installation frame (900) and the second installation frame (110).

4. A yellow phosphorus electrode stent structure as defined in claim 3, wherein: the first mounting frame (900) and the second mounting frame (110) are respectively provided with a weight reduction groove (114), and the weight reduction grooves (114) are uniformly arranged on the first mounting frame (900) and the second mounting frame (110).

5. The yellow phosphorus electrode stent structure of claim 4, wherein: a lifting hook (115) is arranged above the first mounting frame (900), and the lifting hook (115) is used for being connected with a connecting rope (700) of the first driving assembly.

6. The yellow phosphorus electrode stent structure of claim 5, wherein: the two lifting hooks (115) are arranged on two sides of the installation frame, and the two lifting hooks (115) are connected with the two sets of first driving components respectively.

7. The yellow phosphorus electrode stent structure of claim 1, wherein: the transmission assembly comprises a first gear (116) and a second gear (117); wherein, first gear (116) sets up in the upper portion of support body (100), and second gear (117) set up in the below of support body (100), and first gear (116) and second gear (117) are connected through chain (118), and chain (118) are fixed with external frame (200).

8. The yellow phosphorus electrode stent structure of claim 1, wherein: a guide column (119) is further provided on the side surface of the bracket body (100), and the guide column (119) is used for guiding the up-and-down movement of the outer frame (200).

9. The yellow phosphorus electrode stent structure of claim 1, wherein: a driving wheel (120) and a fixed supporting leg (121) are arranged below the bracket body (100); the fixed support leg (121) is rotatably arranged on the support body (100), and the mounting end of the driving wheel (120) is fixedly connected with the support body (100).

10. The yellow phosphorus electrode stent structure of claim 9, wherein: a rotating groove (111) is formed in the bracket body (100), and the fixed support leg (121) is rotatably arranged in the rotating groove (111).