CN215524208U - Magnesia carbon brick heat sink - Google Patents

Abstract

The utility model relates to a magnesia carbon brick cooling device which comprises a rail, a slide rail mechanism, a support frame and fans, wherein the rail is fixed on the side part of a tractor; the sliding rail mechanism drives the support frame to reciprocate; the sliding rail mechanism comprises a first sliding rail, a second sliding rail, a driving motor, a lead screw and a sliding block, the first sliding rail is in sliding connection with the rail, the first sliding rail is in sliding connection with the second sliding rail, the sliding block is fixedly connected with the second sliding rail, the driving motor is fixed on the tractor, the driving motor drives the lead screw to rotate, and the lead screw is in threaded connection with the sliding block. The utility model has the advantages of reasonable structure, direct installation on the tractor, capability of moving along with the tractor, and capability of directly radiating and cooling the magnesia carbon bricks on the small rail car after the small rail car is moved out of the drying kiln.

Description

Magnesia carbon brick heat sink

Technical Field

The utility model relates to a magnesia carbon brick cooling device.

Background

Magnesia carbon bricks, as a composite refractory material, have been used in a wide range of steel-making enterprises around the world. The magnesia carbon brick is prepared by mixing the components of the refractory material in proportion, then pressing and molding the magnesia carbon brick refractory product by a hydraulic brick press, then stacking the bricks and sending the bricks into a drying kiln for drying, and directly laminating and packaging the magnesia carbon brick after drying to form a finished product. The drying kiln is in a slender strip structure and is arranged side by side, the magnesia carbon bricks are heated to about 200 ℃ in the drying kiln for more than ten hours, and then the heating in the kiln is stopped for about 6 hours. After the kiln door is opened, the rail trolley carrying the magnesia carbon bricks is pulled out by using a tractor, the magnesia carbon bricks after being dried and taken out of the kiln are still kept at a certain temperature, if the temperature is higher, the magnesia carbon bricks after being directly taken out of the kiln are directly coated with films, the films of plastics can be ironed and softened to form shrinkage deformation, the attractiveness of plastic films with distorted appearances is poor, and the plastic films can be ironed and damaged in serious cases, so that the local failure of the protection of the plastic films is caused; if the placing time of the natural cooling after the magnesia carbon bricks are dried and taken out of the kiln is at least several hours, the area of the site for turnover transportation after the magnesia carbon bricks are taken out of the kiln is increased, and the transportation operation in a factory is inconvenient due to the larger occupied area of the natural cooling.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide a magnesia carbon brick cooling device which is arranged on a tractor, can move along with the tractor and can cool magnesia carbon bricks on a small rail car in a heat dissipation manner.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

a magnesia carbon brick cooling device comprises a rail, a slide rail mechanism, a support frame and fans, wherein the rail is fixed on the side part of a tractor, the slide rail mechanism is connected with the rail in a sliding manner, the support frame is fixedly connected to the slide rail mechanism, and the support frame is fixedly provided with the fans; the sliding rail mechanism drives the support frame to reciprocate;

the sliding rail mechanism comprises a first sliding rail, a second sliding rail, a driving motor, a lead screw and a sliding block, the first sliding rail is in sliding connection with the rail, the first sliding rail is in sliding connection with the second sliding rail, the sliding block is fixedly connected with the second sliding rail, the driving motor is fixed on the tractor, the driving motor drives the lead screw to rotate, and the lead screw is in threaded connection with the sliding block.

The rail trolley further comprises a supporting block and a positioning plate, the positioning plate is fixedly connected with the rail trolley, the supporting block is movably hinged with the positioning plate, and the positioning plate is of an L-shaped structure.

The tracks are fixed on two sides of the tractor.

The fans are symmetrically fixed on the upper part and the lower part of the support frame.

And the first sliding rail and the second sliding rail are respectively fixed with a limiting block.

The support frame is fixed on the sliding rail II.

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

the magnesia carbon brick cooling device is reasonable in structure, can be directly installed on the tractor and can move along with the tractor, and magnesia carbon bricks on the rail trolley can be directly cooled after the rail trolley is moved out of the drying kiln.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is several schematic views of a slide rail mechanism.

Fig. 4 is a schematic view of the connection of the support blocks.

In the figure: 1-support frame 2-hook 3-tractor 4-slide rail mechanism 5-fan 6-track 7-small rail car 8-supporting block 9-positioning plate 41-first sliding rail 42-second sliding rail 43-slide block 44-driving motor 45-lead screw.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings, but it should be noted that the present invention is not limited to the following embodiments.

Referring to fig. 1-3, a magnesia carbon brick cooling device comprises a rail 6, a slide rail mechanism 4, a support frame 1 and fans 5, wherein the rail 6 is fixed on the side part of a tractor 3, the slide rail mechanism 4 is slidably connected with the rail 6, the support frame 1 is fixedly connected to the slide rail mechanism 4, and the fans 5 are fixed on the support frame 1 and used for dissipating heat of magnesia carbon bricks; the slide rail mechanism 4 drives the support frame 1 to reciprocate. The sliding rail mechanism 4 comprises a first sliding rail 41, a second sliding rail 42, a driving motor 44, a lead screw 45 and a sliding block 43, the first sliding rail 41 is in sliding connection with the rail 6, the first sliding rail 41 is in sliding connection with the second sliding rail 42, the sliding block 43 is fixedly connected with the second sliding rail 42, the driving motor 44 is fixed on the tractor 3, the driving motor 44 drives the lead screw 45 to rotate, the lead screw 45 is in threaded connection with the sliding block 43, the support frame 1 is fixed on the second sliding rail 42, and the driving motor 44 drives the second sliding rail 42 to move towards the rail trolley 7, so that the support frame 1 can be aligned with magnesia carbon bricks on the rail trolley 7. Tractor 3 pulls small rail car 7 through couple 2, leaves kiln mouthful after, drives the support frame through slide rail mechanism 4 and removes, makes fan 5 aim at the magnesia carbon brick on small rail car 7, starts fan 5, for the heat dissipation of magnesia carbon brick.

Referring to fig. 4, the magnesia carbon brick cooling device further comprises a supporting block 8 and a positioning plate 9, the positioning plate 9 is fixedly connected with the small rail car 7, the supporting block 8 is movably hinged with the positioning plate 9, the positioning plate 9 is of an L-shaped structure and used for limiting the rotating limit position of the supporting block 8, the supporting block 8 is used for supporting the first sliding rail 41 and/or the second sliding rail 42, so that the supporting frame 1 can be kept stable when the fan 5 operates, and the supporting block 8 can be attached to the small rail car 7 when the fan is not used.

Referring to fig. 1-4, the rails 6 are fixed on both sides of the tractor 3, so that heat dissipation on both sides of the magnesia carbon bricks on the rail trolley 7 can be realized. The fans 5 are symmetrically fixed on the upper part and the lower part of the support frame 1, so that the heat dissipation range is expanded as much as possible, and the wind power is increased. The first sliding rail 41 and the second sliding rail 42 are respectively fixed with a limiting block, so that the phenomenon of rail falling caused by the over-range of the stroke of the second sliding rail 42 is avoided.

Claims (6)

1. A magnesia carbon brick cooling device is characterized by comprising a rail, a slide rail mechanism, a support frame and fans, wherein the rail is fixed on the side part of a tractor; the sliding rail mechanism drives the support frame to reciprocate;

the sliding rail mechanism comprises a first sliding rail, a second sliding rail, a driving motor, a lead screw and a sliding block, the first sliding rail is in sliding connection with the rail, the first sliding rail is in sliding connection with the second sliding rail, the sliding block is fixedly connected with the second sliding rail, the driving motor is fixed on the tractor, the driving motor drives the lead screw to rotate, and the lead screw is in threaded connection with the sliding block.

2. The magnesia carbon brick cooling device according to claim 1, further comprising a support block and a positioning plate, wherein the positioning plate is fixedly connected with the rail trolley, the support block is movably hinged with the positioning plate, and the positioning plate is of an L-shaped structure.

3. The magnesia carbon brick cooling device according to claim 1, wherein the rails are fixed to both sides of the tractor.

4. The magnesia carbon brick cooling device according to claim 1, wherein the fans are symmetrically fixed on the upper and lower parts of the support frame.

5. The magnesia carbon brick cooling device according to claim 1, wherein the first sliding rail and the second sliding rail are both fixed with a limiting block.

6. The magnesia carbon brick cooling device according to claim 1, wherein the support frame is fixed on the second sliding rail.

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