CN213226876U - Pin-connected panel fused brick insulation can structure - Google Patents

Abstract

The utility model discloses a pin-connected panel fused brick insulation can structure, including base plate, serging mechanism and heated board, serging mechanism symmetry sliding connection is on the diagonal line of base plate to the drive unit through setting up on the base plate makes four serging mechanisms be the circumference radius adjustable, and serging mechanism is assembled and is used for fixing the formation box to the heated board. The utility model provides a pin-connected panel electric smelting brick insulation can structure, at first hold up in steady lockrand strip piece, then make outside lockrand strip piece one side of lockrand strip piece remove rotating the worm, then carry out the centre gripping to the heated board, after the contained angle of lockrand strip piece to two heated boards is fixed in work as, the strengthening rib strip also can provide the secondary to the heated board and fix, fixed effectual, avoid because fixed effect is not good, make because inside gas gives off and lets the insulation can of assembling take place the problem of spalling under the atmospheric pressure effect, and the workman can carry out quick adjustment to four lockrand mechanisms according to the size of sand mould fast.

Description

Pin-connected panel fused brick insulation can structure

Technical Field

The utility model relates to an electric smelting brick production technical field relates to a pin-connected panel electric smelting brick insulation can structure particularly.

Background

In order to prevent the in-process of the electric smelting brick after pouring at the cooling, because local cracking phenomenon appears on the brick surface because local cooling rate is too fast to influence the whole quality of brick, consequently the sand mould all can be fixed in the insulation can after carrying out the preparation, makes the cooling rate of the solution in the sand mould the trend balance through guaranteeing the insulation can, avoids taking place local temperature and crosses low cracked problem that causes.

And in actual operation process, and how convenient place the sand mould in the insulation can, and the fragment of brick that will accomplish the casting moulding that simultaneously can be convenient again takes out, just becomes a problem, if with the insulation can design for detachable, because in the sand mould recasting process, can dispel the heat a large amount of steam transfer to the insulation can in, if fixed effect is not good, then can arouse the problem that the concatenation department takes place the spalling because inside steam inflation.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned problem that prior art exists, an aspect aim at provides a pin-connected panel electric smelting brick insulation can structure, aims at solving how to guarantee in the pouring, a large amount of steam of sand mould heat dissipation, and then can arouse insulation can concatenation department to take place the problem of spalling because inside steam body inflation.

Technical scheme

In order to realize above-mentioned purpose, the utility model provides a pair of pin-connected panel electric smelting brick insulation can structure, including base plate, lockstitch mechanism and heated board, lockstitch mechanism symmetry sliding connection in on the diagonal line of base plate, and pass through the drive unit who sets up on the base plate makes four lockstitch mechanism is the circumference radius adjustable, lockstitch mechanism is assembled and is used for fixing the formation box to the heated board, lockstitch mechanism includes outer lockstitch strip piece, interior lockstitch strip piece and strengthening rib strip, the axis department of the outer wall of strengthening rib strip one side rotates and is connected with the worm, the worm is assembled and is used for the adjustment outer lockstitch strip piece with interval between the interior lockstitch strip piece and interior lockstitch strip piece with interval between the strengthening rib strip. Because outer lockrand strip piece is fixed, when consequently fixing the heated board, at first hold up steady interior lockrand strip piece, then make lockrand strip piece outside lockrand strip piece one side remove rotating the worm, then carry out the centre gripping to the heated board, after the contained angle of interior lockrand strip piece to two heated boards is fixed, the strengthening rib strip also can provide the secondary to the heated board and fix.

Preferably, the driving unit comprises a threaded rod and a sliding block, sliding grooves distributed in a circumferential array are formed in the diagonal line of the base plate, the threaded rod is rotatably connected in the sliding grooves, the top end of the threaded rod protrudes to the outer side of the base plate, and the sliding block is located in the sliding grooves and driven by the threaded rod to move along the groove diameter direction. According to the shape of sand mould, select the length of suitable heated board, then make the slider slide to the outside at rotatory threaded rod as required for the circumference radius increase that four sliders are can to enough satisfy the fixed specification of current heated board.

Preferably, the outer lockrand block and the inner lockrand block are of an L-shaped structure, and the specification of the inner lockrand block is two thirds of that of the outer lockrand block.

Preferably, the outer wall of one side of the outer lockrand block adjacent to the inner lockrand block is symmetrically provided with a convex block I, and the outer wall of one side of the inner lockrand block adjacent to the outer lockrand block is symmetrically provided with a convex block II.

Preferably, the slider is mounted to the bottom of the lockstitch bar.

Preferably, both ends of the reinforcing rib are inclined planes, and the reinforcing rib inclines outwards from one side close to the inner lockrand block.

Compared with the prior art, the utility model provides a pair of pin-connected panel electric smelting brick insulation can structure possesses following beneficial effect: convenient operation, it is fixed effectual, avoid because fixed effect is not good for because inside gas gives off and lets the insulation can of assembling under atmospheric pressure effect and take place the problem of spalling, in addition, in the operation process of reality, the workman can carry out quick adjustment to four serging mechanisms according to the size of sand mould fast.

This application file provides the convenient operation of the technique described in this disclosure, and is fixed effectual, avoids because fixed effect is not good for because inside gas gives off and lets the insulation can of assembling under atmospheric pressure effect and take place the problem of spalling, in addition, in the operation process of reality, the workman can carry out quick adjustment to four serging mechanisms according to the size of sand mould fast.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the base plate and the overlock mechanism of the present invention;

fig. 3 is a schematic structural view of the overlock mechanism of the present invention.

The main reference numbers:

1. a base plate; 11. a chute; 2. a serging mechanism; 21. an outer lockrand bar block; 211. a bump I; 22. an inner overlock strip block; 221. A bump II; 23. reinforcing ribs; 24. a worm; 3. a drive unit; 31. a threaded rod; 32. a slider; 5. provided is an insulation board.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described below clearly and completely with reference to the accompanying drawings of the embodiments of the present disclosure.

Referring to fig. 1-3, a pin-connected panel electric smelting brick insulation can structure, includes base plate 1, serging mechanism 2 and heated board 5, serging mechanism 2 symmetry sliding connection is on the diagonal of base plate 1 to drive unit 3 through setting up on the base plate 1 makes four serging mechanisms 2 be the circumference radius adjustable, and serging mechanism 2 is assembled and is used for fixing heated board 5 and forms the box. Convenient operation, it is fixed effectual, avoid because fixed effect is not good for because inside gas gives off and lets the insulation can of assembling under atmospheric pressure effect and take place the problem of spalling, in addition, in the operation process of reality, the workman can carry out quick adjustment to four serging mechanisms according to the size of sand mould fast.

As shown in fig. 3, the utility model discloses in the technical scheme that further proposes, lockstitching mechanism 2 includes outer lockstitching strip piece 21, interior lockstitching strip piece 22 and strengthening rib 23, and the axis department of the outer wall of strengthening rib 23 one side rotates and is connected with worm 24, and worm 24 is assembled and is used for adjusting the interval between outer lockstitching strip piece 21 and the interior lockstitching strip piece 22 and the interval between interior lockstitching strip piece 22 and the strengthening rib 23.

Further, referring to fig. 3, the outer lockstrip block 21 and the inner lockstrip block 22 are embodied in an "L" shape, and the size of the inner lockstrip block 22 is two thirds of the size of the outer lockstrip block 21.

Meanwhile, the outer wall of one side of the outer lockrand block 21 adjacent to the inner lockrand block 22 is symmetrically provided with a convex block I211, and the outer wall of one side of the inner lockrand block 22 adjacent to the outer lockrand block 21 is symmetrically provided with a convex block II 221. The friction force between the serging strip blocks and the heat insulation plate 5 can be increased through the convex blocks.

As further shown in connection with fig. 2, it can be seen that in some embodiments, a slider 32 is mounted to the bottom of the lockrand bar 21.

Further, both ends of the reinforcing bead 23 are inclined surfaces, and are inclined outward from the side close to the inside-locking bead piece 22.

In specific implementation, because outer lockrand piece 21 is fixed, consequently when fixing heated board 5, at first stabilize interior lockrand piece 22, then make lockrand piece 22 outside lockrand piece 21 one side remove rotating worm 24, then carry out the centre gripping to heated board 5, after interior lockrand piece 22 is fixed to the contained angle of two heated boards 5, strengthening rib 23 also can provide the secondary to heated board 5 and fix.

As shown in fig. 2, the utility model discloses in the technical scheme that further proposes, drive unit 3 includes threaded rod 31 and slider 32, offers the spout 11 that is the circumference array distribution on the diagonal of base plate 1, and threaded rod 31 rotates and connects in spout 11, and the protruding outside to base plate 1 in top, and slider 32 is located this spout 11 to move along the groove footpath direction through the drive of threaded rod 31.

In a specific implementation process, according to the shape of the sand mold, the length of the proper heat insulation plate 5 is selected, and then the threaded rod 31 is rotated as required to enable the sliding blocks 32 to slide outwards, so that the circumferential radius formed by the four sliding blocks 32 is increased enough to meet the fixed specification of the current heat insulation plate 5.

The above embodiments are merely exemplary embodiments of the present invention, which is not intended to limit the present invention, and the scope of the present invention is defined by the appended claims. Various modifications and equivalents may be made by those skilled in the art to the present invention without departing from the spirit and scope of the invention, and such modifications and equivalents should be considered to be within the scope of the invention.

Claims (7)

1. The utility model provides a pin-connected panel electric smelting brick insulation can structure, its characterized in that, includes base plate (1), serging mechanism (2) and heated board (5), serging mechanism (2) symmetry sliding connection in on the diagonal of base plate (1), and pass through drive unit (3) that set up on base plate (1) make four serging mechanism (2) are the circumference radius adjustable, serging mechanism (2) are assembled and are used for fixing heated board (5) and form the box.

2. An assembled electrofusion brick insulation can structure according to claim 1, characterised in that the serging mechanism (2) comprises an outer serging block (21), an inner serging block (22) and a reinforcing rib (23), a worm (24) is rotatably connected to the central axis of the outer wall of one side of the reinforcing rib (23), the worm (24) is assembled to adjust the space between the outer serging block (21) and the inner serging block (22) and the space between the inner serging block (22) and the reinforcing rib (23).

3. The assembled electric smelting brick insulation can structure of claim 1, wherein the driving unit (3) comprises a threaded rod (31) and a sliding block (32), sliding grooves (11) distributed in a circumferential array are formed in the diagonal line of the base plate (1), the threaded rod (31) is rotatably connected in the sliding grooves (11), the top end of the threaded rod protrudes to the outer side of the base plate (1), and the sliding block (32) is located in the sliding grooves (11) and is driven by the threaded rod (31) to move along the groove diameter direction.

4. An assembled electrofusion brick insulation can structure according to claim 2, characterised in that the outer and inner serging blocks (21, 22) are embodied in an "L" shaped structure, and the inner serging block (22) has a format of two thirds of the format of the outer serging block (21).

5. The assembled electric melting brick insulation can structure of claim 2, wherein the outer wall of the outer serging strip block (21) adjacent to one side of the inner serging strip block (22) is symmetrically provided with a convex block I (211), and the outer wall of the inner serging strip block (22) adjacent to one side of the outer serging strip block (21) is symmetrically provided with a convex block II (221).

6. A modular fused brick incubator structure according to claim 3, wherein said slide blocks (32) are mounted to the bottom of the external serging block (21).

7. The assembled electrofusion brick insulation can structure of claim 2, wherein both ends of the reinforcing ribs (23) are inclined planes, and incline outward from the side close to the inner serging strip block (22).

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