CN220856934U - Acheson furnace butt-clamping bus conductive equipment - Google Patents

Abstract

The utility model relates to the technical field of graphitizing furnaces, in particular to an Acheson furnace butt-clamp bus conductive device, which comprises: the conductive car body structure is arranged on the front side of the Acheson furnace and consists of a walking part and a pushing part; the two clamping conductive structures are respectively connected to the left side and the right side above the pushing part. According to the utility model, the conductive car body structure is arranged, when the Acheson furnace is required to be powered, the clamping conductive structure can be automatically pushed to the surfaces of the Acheson furnaces for power transmission through the walking part and the pushing part; simultaneously, when carrying out the centre gripping power transmission to the acheson stove, the universal bulb that sets up on two centre gripping conductive structure can carry out the rotation of a small circle, and at this moment, the copper can adapt to and adjust the angle with every acheson stove centre gripping automatically to make two centre gripping conductive structure can be applicable to the power transmission of different acheson stoves, and then improved the flexibility of use of whole equipment.

Description

Acheson furnace butt-clamping bus conductive equipment

Technical Field

The utility model relates to the technical field of graphitizing furnaces, in particular to a pair-clamping bus conductive device of an Acheson furnace.

Background

The acheson furnace is a special high temperature electric furnace for producing synthetic graphite. It was invented by the American chemist Edwardsiella Goldrix Acheson in 1890. The furnace synthesizes graphite by applying a strong arc to coke and other raw materials at high temperature. Acheson furnaces are widely used for their importance in industrial and scientific fields, applications of graphite including manufacturing electrodes, high temperature lubricating materials, ceramic articles, and the like. It is one of the key devices indispensable in the modern industry.

When the traditional Acheson furnace is used, a conductive vehicle body is generally used for power transmission, and the conductive vehicle body mainly transmits current to raw materials in the furnace through a vehicle body structure formed by conductive materials, so that the raw materials are heated, but the conventional conductive vehicle body cannot be flexibly controlled in the power transmission process, and power transmission to a plurality of furnaces cannot be realized. In view of this, we propose an acheson furnace butt clamp busbar conductive device.

Disclosure of utility model

In order to overcome the defects, the utility model provides a conductive device for a butt clamp bus of an Acheson furnace, which aims to solve the defects in the background technology.

The technical scheme of the utility model is as follows:

an acheson furnace butt clamp bus bar conductive device, comprising:

The conductive car body structure is arranged on the front side of the Acheson furnaces and consists of a walking part and a pushing part, wherein the pushing part is connected to the walking part, and the pushing part can be moved to each Acheson furnace by the walking of the walking part;

The two clamping conductive structures are respectively connected to the left side and the right side above the pushing part, and can be synchronously moved to the two Acheson furnaces by pushing of the pushing part, and power is transmitted to the two Acheson furnaces.

Preferably, the walking part includes:

The fixed plate, both sides are equal fixed mounting has the storage battery case around the fixed plate bottom, two storage battery case bottom all is provided with two bilateral symmetry's walking wheel, every two bilateral symmetry the walking wheel bottom all is provided with the walking track, walking wheel roll connection is on the walking track, walking track fixed mounting is on the workshop ground that is used for synthetic graphite acheson stove.

Preferably, the pushing part includes:

The supporting platform, supporting platform sets up directly over the fixed plate, just supporting platform left and right sides all is provided with the connecting rod, supporting platform both sides sliding connection is on two connecting rods.

Preferably, two limiting blocks are fixedly installed on the top ends of the connecting rods, the bottoms of the connecting rods are fixedly connected with the fixing plate, and two hydraulic ejector rods for driving the supporting platform to lift are arranged between the connecting rods.

Preferably, the bottom of each hydraulic ejector rod is fixedly arranged on the fixed plate, a piston rod of each hydraulic ejector rod is fixedly connected with the bottom of the supporting platform, and a locking piece is arranged at each supporting platform.

Preferably, each of the clamping conductive structures comprises:

The insulation board, insulation board bottom and supporting platform top fixed connection, just insulation board top surface slip sets up and is connected with two bilateral symmetry's stripper plates, two equal fixed mounting in one side that the stripper plate is close to each other has the copper, two equal fixed mounting in one side that the stripper plate is kept away from each other the connecting seat.

Preferably, two one side of the connecting seat far away from the two extrusion plates is provided with an installation seat, two installation seats are fixedly installed on the supporting platform, and two hydraulic cylinders are fixedly installed on one sides of the installation seats close to the two connecting seats.

Preferably, the piston rods of the two hydraulic cylinders are fixedly provided with universal ball heads on one sides of the piston rods close to the two connecting seats, one ends of the universal ball heads, which are far away from the connection of the piston rods of the two hydraulic cylinders, are fixedly connected with the two connecting seats respectively, and the two hydraulic cylinders are fixedly connected with synchronous valves.

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

According to the utility model, the conductive car body structure is arranged, when the Acheson furnaces are required to be powered on, the supporting platform and the clamping conductive structures on the supporting platform can be automatically moved to the Acheson furnaces through the arranged travelling part, and then the clamping conductive structures are automatically pushed to the surfaces of the Acheson furnaces through the pushing part to be powered on, so that the convenience of power transmission is improved; simultaneously, when carrying out centre gripping power transmission to acheson stove, the universal bulb that sets up on two centre gripping conductive structure can carry out the rotation of a small circle, and at this moment, the copper can adapt to and adjust the angle with every acheson stove centre gripping automatically to can make two centre gripping conductive structure can be applicable to the power transmission of different acheson stoves, and then improved the flexibility of use of whole equipment.

Drawings

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

Fig. 2 is a front view of the conductive vehicle body structure of the present utility model;

FIG. 3 is a schematic diagram of a clamping conductive structure according to the present utility model;

Fig. 4 is an exploded view of fig. 3 at a in accordance with the present utility model.

In the figure: 1. a conductive vehicle body structure; 11. a fixing plate; 12. a battery box; 13. a walking wheel; 14. a walking rail; 15. a hydraulic ejector rod; 16. a support platform; 17. a locking member; 18. a connecting rod;

2. Clamping the conductive structure; 21. an insulating plate; 22. copper plate; 23. an extrusion plate; 24. a mounting base; 25. a connecting seat; 26. universal ball head; 27. and a hydraulic oil cylinder.

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.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1-4, the present utility model is described in detail by the following embodiments:

an acheson furnace butt clamp bus bar conductive device, comprising:

The conductive car body structure 1, the conductive car body structure 1 sets up in acheson furnace front side, and the conductive car body structure 1 comprises running gear and pushing part, and pushing part connects on the running gear, through running of running gear, can make pushing part remove to every acheson furnace department.

The walking part comprises: the fixed plate 11, both sides are all fixed mounting around the fixed plate 11 bottom have storage battery case 12, and two storage battery case 12 bottoms all are provided with two bilateral symmetry's walking wheel 13, and every two bilateral symmetry's walking wheel 13 bottoms all are provided with walking track 14, and walking wheel 13 roll connection is on walking track 14, and walking track 14 fixed mounting is on the workshop ground that is used for synthetic graphite acheson stove.

In this embodiment, through setting up two storage battery boxes 12 in fixed plate 11 bottom, can provide the power of walking for every walking wheel 13, make walking wheel 13 can walk on fixed walking track 14, and through walking of walking wheel 13, can remove the centre gripping electrically conductive structure 2 that push part and push part on the fixed plate 11 set up in a flexible way to a plurality of acheson stove departments to realize automatic power transmission to a plurality of acheson stoves.

The pushing section includes: the supporting platform 16, supporting platform 16 sets up directly over the fixed plate 11, and supporting platform 16 both sides all are provided with connecting rod 18, supporting platform 16 both sides sliding connection is on two connecting rods 18, two equal fixed mounting in connecting rod 18 top have the stopper, and two connecting rod 18 bottoms all with fixed plate 11 fixed connection, and be provided with two hydraulic ram 15 of drive supporting platform 16 lifting between two connecting rods 18, every hydraulic ram 15 bottom all fixed mounting is on fixed plate 11, the piston rod of every hydraulic ram 15 all with supporting platform 16 bottom fixed connection, and every supporting platform 16 department all is provided with locking piece 17.

In this embodiment, under the guiding action of the two connecting rods 18, the supporting platform 16 can be stably lifted by using the piston rods of the two hydraulic ejector rods 15, and the clamping conductive structure 2 on the supporting platform 16 is lifted and clamped at the acheson furnace to transmit power to the acheson furnace.

Two centre gripping conductive structure 2, two centre gripping conductive structure 2 are connected respectively in pushing part top left and right sides, through pushing part's promotion, can make two centre gripping conductive structure 2 synchronous movement to two acheson stove departments to carry out the power transmission to two acheson stoves, every centre gripping conductive structure 2 includes: the insulation board 21, insulation board 21 bottom and supporting platform 16 top fixed connection, and insulation board 21 top surface slip is provided with two bilateral symmetry's stripper plate 23, the equal fixed mounting of one side that two stripper plates 23 are close to each other has copper 22, the equal fixed mounting connecting seat 25 of one side that two stripper plates 23 kept away from each other, one side that two stripper plates 23 were kept away from to two connecting seats 25 all is provided with mount pad 24, the equal fixed mounting of two mount pads 24 is on supporting platform 16, and the equal fixed mounting of one side that two mount pads 24 are close to two connecting seats 25 has hydraulic cylinder 27, the piston rod of two hydraulic cylinder 27, the equal fixed mounting of one side that it is close to two connecting seats 25 has universal bulb 26, the one end that two universal bulb 26 kept away from two hydraulic cylinder 27 piston rod connections respectively with two connecting seat 25 fixed connection, and fixedly connected with synchronous valve on two hydraulic cylinder 27.

It should be noted that, each hydraulic cylinder 27 and each hydraulic ram 15 are provided with a pressure maintaining accumulator in the hydraulic system, through which fluid energy can be stored and released when needed, so as to absorb and release energy to balance the pressure and flow rate of the hydraulic system, while providing stable power output.

In this embodiment, when power is required to be transmitted to the acheson furnace, two clamping conductive structures 2 can be pushed to move to the acheson furnace corresponding to the acheson furnace, at this time, the synchronous valve in each clamping conductive structure 2 can start two hydraulic cylinders 27 connected to the acheson furnace, and the two hydraulic cylinders 27 can synchronously drive the extrusion plates 23 connected to the two cylinders to synchronously clamp and approach the acheson furnace, and because the piston rod of each hydraulic cylinder 27 is connected with the connecting seat 25 of each extrusion plate 23 through the universal ball head 26, when each hydraulic cylinder 27 pushes the extrusion plate 23 to extrude and clamp the acheson furnace, each universal ball head 26 rotates in a small range, so that each universal ball head 26 can synchronously drive the extrusion plate 23 connected to the connecting seat 25, automatically and flexibly adapt and adjust the angle clamped by each acheson furnace, and further enable the copper plate 22 connected to the extrusion plate 23 to fully contact the surface of each acheson furnace to realize stable power transmission.

When the electric power transmission device is specifically used, when the Acheson furnace is required to transmit power, the traveling wheel 13 can be automatically driven to travel on the traveling track 14 through the battery box 12, and then under the automatic traveling action of the traveling wheel 13, the fixing plate 11 can flexibly move the two clamping conductive structures 2 arranged on the supporting platform 16 to the corresponding Acheson furnace;

Then, the two hydraulic ejector rods 15 are started, the two hydraulic ejector rods 15 can stably lift the supporting platform 16 under the guiding action of the two connecting rods 18, when the supporting platform 16 moves to the limiting blocks of the two connecting rods 18, the locking pieces 17 for locking the two hydraulic ejector rods 15 are pressed down, at the moment, the two hydraulic ejector rods 15 can stabilize the supporting platform 16 and the clamping conductive structure 2 on the supporting platform 16 at the Acheson furnace, and the supporting platform 16 and the clamping conductive structure 2 on the supporting platform 16 are ensured not to fall;

Then, the synchronous valves on each clamping conductive structure 2 are started, at the moment, each synchronous valve synchronously starts two hydraulic cylinders 27 connected with the synchronous valves, the two hydraulic cylinders 27 synchronously drive extrusion plates 23 connected with the synchronous cylinders to clamp and approach two sides of the Acheson furnaces, and because a piston rod of each hydraulic cylinder 27 is connected with a connecting seat 25 of each extrusion plate 23 through a universal ball head 26, when each hydraulic cylinder 27 pushes the extrusion plate 23 to extrude and clamp the Acheson furnaces, each universal ball head 26 rotates in a small range, and finally, each universal ball head 26 can synchronously drive the extrusion plate 23 connected with the connecting seat 25, automatically and flexibly adapt and adjust the clamping angle of each Acheson furnace, so that copper plates 22 connected with the extrusion plates 23 can fully contact with the surface of each Acheson furnace, and stable power transmission of a plurality of Acheson furnaces can be realized;

When power is not required to be transmitted to the Acheson furnace, each hydraulic cylinder 27 pushes the extrusion plate 23 to be far away from the Acheson furnace, meanwhile, the two locking pieces 17 can unlock the two hydraulic ejector rods 15, then the two hydraulic ejector rods 15 can push the supporting platform 16 and the clamping conductive structure 2 on the supporting platform 16 to be automatically retracted to the position of the fixed plate 11, and then the whole conductive device can be automatically moved to the position of the next Acheson furnace needing power transmission under the walking action of the walking wheel 13.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. An acheson furnace butt clamp bus bar conductive device, comprising:

The electric conduction car body structure (1), the electric conduction car body structure (1) is arranged at the front side of the Acheson furnace, the electric conduction car body structure (1) is composed of a walking part and a pushing part, the pushing part is connected to the walking part, and the pushing part can be moved to each Acheson furnace through the walking of the walking part;

The two clamping conductive structures (2), the two clamping conductive structures (2) are respectively connected to the left side and the right side above the pushing part, and the two clamping conductive structures (2) can be synchronously moved to the two Acheson furnaces by pushing of the pushing part, and power is transmitted to the two Acheson furnaces.

2. The acheson furnace butt clamp bus bar conducting device of claim 1, wherein: the walking part includes:

Fixed plate (11), both sides are all fixed mounting around fixed plate (11) bottom have storage battery case (12), two storage battery case (12) bottom all is provided with two bilateral symmetry's walking wheel (13), every two bilateral symmetry walking wheel (13) bottom all is provided with walking track (14), walking wheel (13) roll connection is on walking track (14), walking track (14) fixed mounting is on the workshop ground that is used for synthetic graphite acheson stove.

3. The acheson furnace butt clamp bus bar conducting device of claim 1, wherein: the pushing section includes:

The support platform (16), support platform (16) set up directly over fixed plate (11), just support platform (16) both sides all are provided with connecting rod (18), support platform (16) both sides sliding connection is on two connecting rods (18).

4. The acheson furnace butt clamp busbar conductive device of claim 3, wherein: limiting blocks are fixedly mounted on the tops of the two connecting rods (18), the bottoms of the two connecting rods (18) are fixedly connected with the fixing plate (11), and two hydraulic ejector rods (15) for driving the supporting platform (16) to lift are arranged between the two connecting rods (18).

5. The acheson furnace butt clamp busbar conductive device of claim 4, wherein: the bottom of each hydraulic ejector rod (15) is fixedly arranged on the fixed plate (11), a piston rod of each hydraulic ejector rod (15) is fixedly connected with the bottom of the supporting platform (16), and a locking piece (17) is arranged at each supporting platform (16).

6. The acheson furnace butt clamp bus bar conducting device of claim 1, wherein: each of the clamping conductive structures (2) comprises:

Insulation board (21), insulation board (21) bottom and supporting platform (16) top fixed connection, just insulation board (21) top surface sliding is provided with two bilateral symmetry's stripper plate (23), two equal fixed mounting in one side that stripper plate (23) are close to each other has copper (22), two equal fixed mounting connecting seat (25) in one side that stripper plate (23) are kept away from each other.

7. The acheson furnace butt clamp bus bar conducting apparatus of claim 6, wherein: one side of two connecting seats (25) far away from two extrusion plates (23) is provided with a mounting seat (24), two mounting seats (24) are fixedly mounted on a supporting platform (16), and one side of two mounting seats (24) close to two connecting seats (25) is fixedly provided with a hydraulic cylinder (27).

8. The acheson furnace butt clamp busbar conductive device of claim 7, wherein: the piston rods of the two hydraulic cylinders (27) are fixedly arranged on one sides, close to the two connecting seats (25), of the piston rods, universal ball heads (26), one ends, far away from the two hydraulic cylinders (27), of the piston rods of the universal ball heads (26) are fixedly connected with the two connecting seats (25) respectively, and the two hydraulic cylinders (27) are fixedly connected with synchronous valves.