CN219788759U - Composite insulation can for fused cast zirconium steel jade lattice brick - Google Patents

Abstract

The utility model discloses a composite insulation box for fused cast zirconium steel jade lattice bricks, which comprises an insulation box, wherein a plurality of groups of guide plates are fixedly connected in the insulation box, and a placing plate is arranged in each group of guide plates in a sliding manner; the bottom of each placing plate is fixedly connected with a connecting plate, the connecting plates extend into the adjacent connecting plates, and a plurality of rolling elements are rotatably arranged at the bottom of the placing plate at the bottom. According to the composite insulation box for the fused cast zirconium steel jade lattice bricks, the placement plates at the top are pulled to drive the connecting plates to synchronously move, so that the placement plates below are pushed to synchronously move, the rollers rotate in the insulation box, the multiple placement plates are moved out simultaneously, the placement plates are pushed to move through the moving parts, the placement plates are moved out conveniently, the placement plates can be pushed in sequence from top to bottom during the movement, the fused cast zirconium steel jade lattice bricks are placed in sequence conveniently, and the composite insulation box is convenient to operate, time-saving and labor-saving.

Description

Composite insulation can for fused cast zirconium steel jade lattice brick

Technical Field

The utility model relates to the technical field of fused cast zirconium corundum bricks, in particular to a composite insulation box for fused cast zirconium corundum checker bricks.

Background

The fused cast zirconium corundum brick is made up by using fused cast refractory product formed from baddeleyite and corundum through the processes of arc furnace melting, casting and annealing, and its structure is compact, and its glass liquid corrosion resistance is strong.

The applicant's prior application's grant publication number is CN216303653U, and the name is "annealing insulation can for fused zirconia corundum brick", and this patent is through outwards pulling the sand mould rack, and the sliding block can be followed the track piece and moved, can expose the sand mould rack in the outside of insulation can like this, and the workman can obtain great operating space, conveniently places sand mould above, makes things convenient for the workman to carry out the placing and taking out of sand mould.

The utility model discloses a need practical insulation can keep warm when carrying out fused zirconia corundum brick annealing to reduce inside and outside difference in temperature, for example above-mentioned patent, pull out a plurality of racks simultaneously through the insulation can, place sand mould in the insulation can, then promote a plurality of racks simultaneously to the insulation can in, consequently when placing the sand mould of lower floor, need avoid the influence of upper strata rack, therefore inconvenient sand mould deposit, simultaneously after depositing, need promote a plurality of racks simultaneous movement simultaneously, consequently can increase staff's intensity of labour.

Disclosure of Invention

The utility model aims to provide a composite insulation can for casting zirconium steel jade lattice bricks, which aims to solve the defects in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions: the device comprises an insulation box, wherein a plurality of groups of guide plates are fixedly connected in the insulation box, and a placing plate is arranged in each group of guide plates in a sliding manner;

the bottoms of the placing plates are fixedly connected with connecting plates, the connecting plates extend into the adjacent connecting plates, and a plurality of rolling elements are rotatably arranged at the bottoms of the placing plates at the bottoms;

the movable member is used for placing the plates in the heat insulation box.

As a further description of the above technical solution:

the moving part comprises a rotating pipe which rotates on the guide plate, a rotating rod is arranged in the rotating pipe in a sliding mode, and the rotating rod penetrates through the guide plate and is fixedly connected with the placing plate.

As a further description of the above technical solution:

the rotary pipe is internally and fixedly connected with a supporting spring, and the supporting spring is fixedly connected with the rotary rod.

As a further description of the above technical solution:

the rolling piece comprises a fixed plate fixed at the bottom of the placing plate, a guide rod is rotationally arranged in the fixed plate, and a roller wheel in movable contact with the inner wall of the incubator is fixedly connected to the outer part of the guide rod.

As a further description of the above technical solution:

still include a plurality of joint subassemblies, restrict the rotation of each rolling element after the insulation can is closed, joint subassembly including slide in the connecting rod in the insulation can, the tip fixedly connected with abnormal shape pole of connecting rod, the card be equipped with on the guide bar with abnormal shape groove of abnormal shape pole looks adaptation, and guide bar week side cover is equipped with reset spring.

As a further description of the above technical solution:

the clamping assembly further comprises a sliding rod sliding in the insulation box, a plurality of sliding plates are fixedly connected to the outer portion of the sliding rod, the sliding plates are respectively arranged in guide holes formed in the connecting rods in a sliding mode, one side, close to the reset spring, of each sliding plate is arranged in an inclined mode, and a limiting spring is sleeved outside the sliding rod.

As a further description of the above technical solution:

the incubator is hinged with the case cover, and is provided with a locking piece, and the case cover is locked after being closed.

In the technical scheme, the composite insulation can for the fused cast zirconium steel jade lattice brick has the beneficial effects that:

1. the utility model comprises the following steps: the placing plate at the top is pulled to drive the connecting plate to synchronously move, so that the placing plates below are pushed to synchronously move, the rollers rotate in the insulation can, the placing plates are moved out simultaneously, the moving pieces push the placing plates to move, the placing plates are moved out conveniently, the placing plates can be pushed from top to bottom in sequence when the placing plates are moved in, and accordingly the placing of the fused cast zirconium steel jade lattice bricks in sequence is facilitated, and the operation is convenient.

2. The utility model comprises the following steps: after the box cover is closed through the clamping piece, the roller is automatically clamped, so that the stability of the placing plate in the heat insulation box is guaranteed, and then the roller can be automatically moved out by the clamping piece when the box cover is opened again, and the placing plate is conveniently moved out.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present utility model;

FIG. 2 is a rear longitudinal sectional view of an incubator according to an embodiment of the present utility model;

FIG. 3 is a top cross-sectional view of an incubator according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a moving member according to an embodiment of the present utility model;

FIG. 5 is an enlarged view of the portion A shown in FIG. 1, provided by an embodiment of the present utility model;

fig. 6 is an enlarged view of a portion B shown in fig. 3 according to an embodiment of the present utility model.

Reference numerals illustrate:

1. an insulation box; 2. a case cover; 3. a guide plate; 4. placing a plate; 5. a connecting plate; 6. a rotary tube; 7. a rotating lever; 8. a support spring; 9. a fixing plate; 10. a guide rod; 11. a roller; 12. a profiled bar; 13. a connecting rod; 14. a guide hole; 15. a return spring; 16. a slide bar; 17. a sliding plate; 18. a special-shaped groove; 19. and a limit spring.

Detailed Description

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

Referring to fig. 1-6, the composite insulation box for fused cast zirconium steel checker bricks provided by the embodiment comprises an insulation box 1, wherein a plurality of groups of guide plates 3 are fixedly connected in the insulation box 1, and a placing plate 4 is arranged in each group of guide plates 3 in a sliding manner; the bottoms of the placing plates 4 are fixedly connected with connecting plates 5, the connecting plates 5 extend into the adjacent connecting plates 5, and a plurality of rolling elements are rotatably arranged at the bottoms of the placing plates 4 positioned at the bottoms; still include a plurality of moving parts for each place board 4 and all move in insulation can 1, place board 4 through the pulling top and drive connecting plate 5 synchronous motion, thereby promote each board 4 synchronous motion of placing of below, make gyro wheel 11 rotate in insulation can 1, thereby realize shifting out simultaneously to a plurality of boards 4 of placing, promote the removal of placing board 4 through the moving part, conveniently place the removal of board 4, when the moving in, can from the top down promote placing board 4 in proper order, thereby conveniently place in proper order to the zirconium steel jade lattice brick of founding, convenient operation.

In a further embodiment of the utility model, the moving member comprises a rotating tube 6 rotating on the guide plate 3, a rotating rod 7 is slidably arranged in the rotating tube 6, and the rotating rod 7 penetrates through the guide plate 3 and is fixedly connected with the placing plate 4.

Further, the support spring 8 is fixedly connected in the rotating tube 6, the support spring 8 is fixedly connected with the rotating rod 7, the uppermost placing plate 4 is pulled out, the connecting plate 5 is driven to move synchronously, the placing plate 4 below is enabled to move synchronously, the rotating rod 7 drives the rotating tube 6 to rotate, the placing plate 4 is conveniently pushed to move through elastic release of the support spring 8, and the placing plates 4 are conveniently driven to move out of the insulation can 1.

In a further embodiment of the utility model, the rolling element comprises a fixed plate 9 fixed at the bottom of the placing plate 4, a guide rod 10 is rotatably arranged in the fixed plate 9, a roller 11 which is movably contacted with the inner wall of the insulation box 1 is fixedly connected with the outside of the guide rod 10, and the placing plate 4 is conveniently driven to move in the insulation box 1 by the rotation of the roller 11.

In the embodiment provided by the utility model, the thermal insulation box further comprises a plurality of clamping components, the rotation of each rolling element is limited after the thermal insulation box 1 is closed, each clamping component comprises a connecting rod 13 sliding in the thermal insulation box 1, the end part of each connecting rod 13 is fixedly connected with a special-shaped rod 12, a special-shaped groove 18 matched with the special-shaped rod 12 is clamped on each guide rod 10, a reset spring 15 is sleeved on the periphery of each guide rod 10, and the rollers 11 are automatically clamped after the box cover 2 is closed through the clamping components, so that the stability of the placing plate 4 in the thermal insulation box 1 is ensured, and then the clamping components can be automatically moved out of the rollers 11 when the box cover 2 is opened again, so that the placing plate 4 can be conveniently moved out.

Specifically, the clamping assembly further comprises a sliding rod 16 sliding in the insulation box 1, a plurality of sliding plates 17 are fixedly connected to the outer portion of the sliding rod 16, the sliding plates 17 are respectively arranged in guide holes 14 formed in the connecting rods 13 in a sliding mode, one sides of the sliding plates 17, which are close to the reset springs 15, are obliquely arranged, limiting springs 19 are sleeved outside the sliding rod 16, when the box cover 2 is opened, the limiting springs 19 overcome the elasticity of the reset springs 15, the sliding rod 16 is pushed to move forwards, so that the sliding plates 17 synchronously move to move out of the guide holes 14, the abnormal-shaped rods 12 are pulled to move out of the abnormal-shaped grooves 18 through elastic release of the reset springs 15, so that the idler wheels 11 are unlocked, when the box cover 2 is closed, the sliding rods 16 are pushed to move, so that the sliding plates 17 slide in the guide holes 14, so that the abnormal-shaped rods 12 move into the abnormal-shaped grooves 18, the guide rods 10 are locked, then the box cover 2 is locked through locking pieces, the sliding rods 16 are limited, and the abnormal-shaped rods 12 are stably inserted into the guide rods 10 to be limited.

In the scheme provided by the utility model, the box cover 2 is hinged on the heat insulation box 1, the locking piece is arranged on the heat insulation box 1, the box cover 2 is locked after the box cover 2 is closed, the box cover 2 is conveniently locked through the locking piece, and the stable connection between the box cover 2 and the heat insulation box 1 is ensured.

When the roller 11 is used, the box cover 2 is firstly opened through the locking piece, the elasticity of the reset spring 15 is overcome through the limit spring 19, then the sliding rod 16 is pushed to move forwards by taking the figure 3 as a reference, so that the sliding plate 17 moves synchronously to move out of the guide hole 14, and the abnormal-shaped rod 12 is pulled to move out of the abnormal-shaped groove 18 through the elastic release of the reset spring 15, so that the roller 11 is unlocked;

then the uppermost placing plate 4 is pulled out to drive the connecting plate 5 to synchronously move, so that the placing plates 4 below synchronously move, the roller 11 rotates, the rotating rod 7 drives the rotating tube 6 to rotate, the placing plates 4 are conveniently pushed to move through the elastic release of the supporting springs 8, the placing plates 4 are conveniently driven to simultaneously move out of the heat preservation box 1, then placing the fused cast zirconium steel jade lattice bricks on the top placement plate 4, pushing the top placement plate 4 to overcome the elasticity of the supporting springs 8 and move into the heat preservation box 1, driving the connecting plates 5 to move out of the adjacent bottom placement plate 4, and conveniently placing the fused cast zirconium steel jade lattice bricks in the next placement plate 4, so that the placement plates 4 are sequentially moved to store the fused cast zirconium steel jade lattice bricks;

after the storage is completed, the box cover 2 is closed, the sliding rod 16 is pushed to move, the sliding plate 17 slides in the guide hole 14, the connecting rod 13 is pushed to move, the special-shaped rod 12 moves into the special-shaped groove 18 to lock the guide rod 10, then the box cover 2 is locked through the locking piece, the sliding rod 16 is limited, and the special-shaped rod 12 is stably inserted into the guide rod 10 to limit.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (7)

1. The utility model provides a compound insulation can for fused cast zirconium steel jade lattice brick, includes insulation can (1), its characterized in that: a plurality of groups of guide plates (3) are fixedly connected in the insulation box (1), and a placing plate (4) is arranged in each group of guide plates (3) in a sliding manner;

the bottoms of the placement plates (4) are fixedly connected with connection plates (5), the connection plates (5) extend into the adjacent connection plates (5), and a plurality of rolling elements are rotatably arranged at the bottoms of the placement plates (4) at the bottoms;

the thermal insulation box further comprises a plurality of moving parts, wherein the moving parts are used for arranging the placing plates (4) in the thermal insulation box (1).

2. The composite insulation can for fused cast zirconium steel checker bricks according to claim 1, wherein the moving part comprises a rotating pipe (6) which rotates on the guide plate (3), a rotating rod (7) is arranged in the rotating pipe (6) in a sliding manner, and the rotating rod (7) penetrates through the guide plate (3) and is fixedly connected with the placing plate (4).

3. The composite insulation box for the fused cast zirconium steel jade lattice brick according to claim 2, wherein a supporting spring (8) is fixedly connected in the rotating pipe (6), and the supporting spring (8) is fixedly connected with the rotating rod (7).

4. The composite insulation can for fused cast zirconium steel checker bricks according to claim 1, wherein the rolling element comprises a fixed plate (9) fixed at the bottom of the placing plate (4), a guide rod (10) is rotationally arranged in the fixed plate (9), and a roller (11) in movable contact with the inner wall of the insulation can (1) is fixedly connected to the outer part of the guide rod (10).

5. The composite insulation can for fused cast zirconium steel checker bricks according to claim 4, further comprising a plurality of clamping components, wherein the rotation of each rolling element is limited after the insulation can (1) is closed, the clamping components comprise connecting rods (13) sliding in the insulation can (1), the end parts of the connecting rods (13) are fixedly connected with special-shaped rods (12), the guide rods (10) are provided with special-shaped grooves (18) matched with the special-shaped rods (12) in a clamping mode, and return springs (15) are sleeved on the periphery sides of the guide rods (10).

6. The composite insulation can for fused cast zirconium steel checker bricks according to claim 5, wherein the clamping assembly further comprises a sliding rod (16) sliding in the insulation can (1), a plurality of sliding plates (17) are fixedly connected to the outside of the sliding rod (16), the sliding plates (17) are respectively arranged in guide holes (14) formed in the connecting rods (13) in a sliding mode, one side, close to the return spring (15), of the sliding plate (17) is obliquely arranged, and a limiting spring (19) is sleeved outside the sliding rod (16).

7. The composite insulation can for fused cast zirconium steel checker bricks according to claim 1, wherein the insulation can (1) is hinged with a box cover (2), and a locking piece is arranged on the insulation can (1) to lock the box cover (2) after the box cover (2) is closed.