CN219788775U - Centralized annealing insulation can for fused brick production - Google Patents

Abstract

The utility model discloses an annealing insulation box for producing centralized fused bricks, which relates to the technical field of annealing insulation boxes and comprises a centralized insulation box, wherein a plurality of placing units are arranged in the centralized insulation box; the heat preservation assembly is detachably arranged in the placement unit and comprises a box body, side plates, two sides of the box body and an opening state at the top, wherein the side plates are hinged to the two sides of the box body; the locking mechanism is hinged to the upper end of the box body, and can fix the side plates, and the locking mechanism has the beneficial effects that: the heat of the sand mould in the adjacent insulation boxes can be mutually transferred, the cooling speed of the sand mould is reduced by centralized placement, the side plates can be turned into a horizontal state, so that the sand mould can be taken out conveniently, and the box body can be self-locked when being placed in the centralized insulation boxes.

Description

Centralized annealing insulation can for fused brick production

Technical Field

The utility model relates to the technical field of annealing heat-preserving boxes, in particular to an annealing heat-preserving box for producing centralized electric melting bricks.

Background

It is known that in the production of electric melting bricks, the powdered raw material is heated by an electric arc furnace to form a melt, the melt is cast in a sand mould, the melt is gradually solidified from a liquid to a solid state, and in this process, it is necessary to keep the temperature in an incubator.

The publication number is: the utility model provides a CN204096317U is ordinary type insulation can for fused zirconia corundum brick, a kind of fused zirconia corundum brick is with ordinary type insulation can, characterized by: the iron sheet box is provided with a lifting ring, a layer of heat preservation cotton is paved around the inner wall of the iron sheet box, a layer of quartz sand is arranged in the heat preservation cotton, the iron sheet box is internally provided with a sand mould for injecting batch melt, and the iron sheet box is provided with an iron sheet cover.

At present, the common annealing mode in the field of fused brick production is that a sand mould is fixed in an insulation box, an insulation medium is used for filling between the insulation box and a sand mould, the insulation medium is generally insulation sand, but when the small fused brick is produced, the volume of the small fused brick is small, the carried heat is less, and the volume of the corresponding insulation box is also small, so that the cooling speed of the insulation box of the small fused brick is far greater than that of the large insulation box in the production process.

Disclosure of Invention

The utility model aims to provide an annealing heat-insulating box for producing a centralized electric melting brick, which aims to solve the defects in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an annealing insulation can is used in production of centralized electric smelting brick, includes:

the centralized heat preservation box is internally provided with a plurality of placing units;

the heat preservation assembly is detachably arranged in the placement unit and comprises a box body, side plates, two sides of the box body and an opening state at the top, wherein the side plates are hinged to the two sides of the box body;

the locking mechanism is hinged to the upper end of the box body, the locking mechanism can fix the side plates, the locking mechanism is horizontal and clamped on the side plates to be in a first state, the locking mechanism is inclined and separated from the side plates to be in a second state, and the locking mechanism is turned over to switch between the first state and the second state.

Preferably, a heat insulation block is arranged in the centralized heat insulation box, and two adjacent placing units are separated by the heat insulation block.

Preferably, the locking mechanism comprises a force arm, a lower pressing frame and a bayonet, wherein the force arm is hinged on the box body, the lower pressing frame is fixedly installed at one end of the force arm, and the bayonet is arranged on the lower pressing frame.

Preferably, in the first state, the arm of force is in a horizontal state, and the bayonet is clamped and embedded outside the upper end of the side plate.

Preferably, in the second state, the arm is in an inclined state, and the bayonet and the side plate are in contact with each other.

Preferably, a limiting groove is formed in the upper end of the centralized heat insulation box, and one end of the locking mechanism is embedded in the limiting groove.

Preferably, the heat-insulating cover plate is detachably arranged at the top end of the centralized heat-insulating box.

Compared with the prior art, the utility model has the beneficial effects that: this centralized annealing insulation can is used in fused brick production: the side plates are hinged to the box body, the side plates can be turned to be in a horizontal state so as to facilitate the taking out of the sand mould, and the side plates can be self-locked when the box body is placed in the centralized heat insulation box, so that the box body and the side plates form a cavity for placing the sand mould; the plurality of placing units arranged in the centralized insulation boxes are used for placing a plurality of boxes, so that the heat of the sand mold in the adjacent insulation boxes can be mutually transferred, and the cooling speed of the sand mold is slowed down by centralized placement.

Drawings

FIG. 1 is a schematic diagram of an overall structure according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a partial cross-sectional structure provided by an embodiment of the present utility model;

FIG. 3 is a schematic view of a thermal insulation assembly according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a heat insulation cover plate and a centralized heat insulation box according to an embodiment of the present utility model.

In the figure: 10. a centralized heat preservation box; 101. a heat preservation block; 103. a limit groove; 11. a placement unit; 12. a thermal insulation assembly; 121. a case; 122. a side plate; 124. force arm; 125. a pressing frame is pressed down; 126. a grip sleeve; 127. a bayonet; 15. and (5) a heat-insulating cover plate.

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. 1-4, the present utility model provides a technical solution: an annealing insulation can is used in production of centralized electric smelting brick, includes:

a centralized heat preservation box 10, wherein a plurality of placing units 11 are arranged inside the centralized heat preservation box 10; the heat preservation block 101 is arranged in the centralized heat preservation box 10, two adjacent placing units 11 are separated through the heat preservation block 101, the placing units 11 are positioned in the cavity of the centralized heat preservation box 10, and the cavity of the centralized heat preservation box 10 can be separated through the heat preservation block 101, so that a plurality of independent placing units 11 are formed;

the heat preservation assembly 12, the heat preservation assembly 12 is detachably arranged in the placement unit 11, the heat preservation assembly 12 comprises a box body 121, side plates 122, two sides of the box body 121 and the top of the box body 121 are arranged to be in an open state, and the side plates 122 are hinged to the two sides of the box body 121; the side plates 122 are hinged on the box body 121, when the side plates 122 are vertical, openings on two sides of the box body 121 can be plugged, and only the openings on the top are left, so that a cavity is formed, and the cavity is used for placing a sand mold; so that the heat of the sand mold in the adjacent box body 121 can be mutually transferred, and the heat of the sand mold can be intensively placed to slow down the cooling speed of the sand mold

The locking mechanism is hinged to the upper end of the box body 121, the side plate 122 can be fixed by the locking mechanism, the locking mechanism is horizontal and clamped on the side plate 122 to be in a first state, the locking mechanism is inclined and separated from the side plate 122 to be in a second state, and the locking mechanism is turned over to switch between the first state and the second state. The side plate 122 can be locked through the locking mechanism, when the sand mold needs to be placed, the side plate 122 is vertically fixed in a first state, a cavity is formed for placing the sand mold, when the sand mold needs to be taken out from the box body 121, the side plate 122 is free to turn over in a second state, and the side plates 122 on two sides are opened to facilitate taking out the sand mold in the box body 121.

Referring to fig. 2 and 3, the locking mechanism includes a force arm 124, a pressing frame 125, and a bayonet 127, where the force arm 124 is hinged on the case 121, the pressing frame 125 is fixedly installed at one end of the force arm 124, and the bayonet 127 is opened on the pressing frame 125. The other end of the arm of force 124 is fixedly sleeved with a holding sleeve 126, and the holding sleeve 126 is convenient for a worker to carry. In the first state, the arm 124 is in a horizontal state, and the bayonet 127 is clamped outside the upper end of the side plate 122. The arm of force 124 can overturn, and when arm of force 124 overturns to the horizontality and curb plate 122 is in the vertical state, bayonet 127 can block on curb plate 122 at this moment, realizes the fixed to curb plate 122. In the second state, the arm 124 is in an inclined state, and the bayonet 127 and the side plate 122 are in contact with each other. When the side plate 122 needs to be opened, the force arm 124 needs to be turned over, so that the bayonet 127 is separated from the side wall, and the side plate 122 can be turned over at this time, so that both sides and the top of the box 121 are in an opening state, and the sand mold inside the box 121 can be taken out conveniently.

Referring to fig. 1, a limiting groove 103 is formed at the upper end of the centralized insulation box 10, and one end of the locking mechanism is embedded in the limiting groove 103. When the heat preservation assembly 12 is placed in the centralized heat preservation box 10, the force arm 124 can be just embedded into the limit groove 103, and the force arm 124 is supported through the limit groove 103, so that the force arm is kept in a horizontal state, and the side plate 122 is fixed in a heat preservation mode.

Referring to fig. 4, the heat insulation cover plate 15 is included, and the heat insulation cover plate 15 is detachably disposed at the top end of the centralized heat insulation box 10. The heat preservation cover plate 15 covers the centralized heat preservation box 10 to play a sealing role, so that the heat preservation effect of the centralized heat preservation box 10 can be improved.

The utility model is implemented in particular: the sand mould is placed in box 121, the curb plate 122 is turned over to vertical state, and the upset arm of force 124, the arm of force 124 is switched to first state by the second state, in first state, the upset of arm of force 124 is the level, bayonet 127 can block on curb plate 122 at this moment, realize the fixed to curb plate 122, can place whole insulation pack 12 in centralized insulation can 10 this moment, insulation pack 12 can place in placing unit 11, a plurality of placing unit 11, can place a insulation pack 12, and arm of force 124 can just in time imbed spacing groove 103, support arm of force 124 through spacing groove 103, make arm of force 124 keep the horizontality, with the fixed of heat preservation pair of side plates 122, in carrying out the heat preservation filler's joining, heat preservation filler joins between sand mould and insulation pack 12.

Claims (7)

1. An annealing insulation can is used in production of centralized electric melting brick, its characterized in that includes:

a centralized heat preservation box (10), wherein a plurality of placing units (11) are arranged inside the centralized heat preservation box (10);

the heat preservation assembly (12), the heat preservation assembly (12) is detachably arranged in the placement unit (11), the heat preservation assembly (12) comprises a box body (121), side plates (122), two sides of the box body (121) and the top are arranged to be in an opening state, and the side plates (122) are hinged to two sides of the box body (121);

the locking mechanism is hinged to the upper end of the box body (121), the locking mechanism can fix the side plate (122), the locking mechanism is horizontal and clamped on the side plate (122) to be in a first state, the locking mechanism is inclined and separated from the side plate (122) to be in a second state, and the locking mechanism is turned over to switch between the first state and the second state.

2. The annealing incubator for producing a centralized electric melting brick according to claim 1, characterized in that: the centralized heat preservation box (10) is internally provided with heat preservation blocks (101), and two adjacent placing units (11) are separated through the heat preservation blocks (101).

3. The annealing incubator for producing a centralized electric melting brick according to claim 1, characterized in that: the locking mechanism comprises a force arm (124), a pressing frame (125) and a bayonet (127), wherein the force arm (124) is hinged to the box body (121), the pressing frame (125) is fixedly installed at one end of the force arm (124), and the bayonet (127) is formed in the pressing frame (125).

4. The annealing incubator for producing a centralized electric melting brick according to claim 3, wherein: in the first state, the force arm (124) is in a horizontal state, and the bayonet (127) is clamped and embedded outside the upper end of the side plate (122).

5. The annealing incubator for producing a centralized electric melting brick according to claim 3, wherein: in the second state, the arm (124) is in an inclined state, and the bayonet (127) and the side plate (122) are in contact with each other.

6. The annealing incubator for producing a centralized electric melting brick according to claim 1, characterized in that: the upper end of the centralized insulation box (10) is provided with a limiting groove (103), and one end of the locking mechanism is embedded in the limiting groove (103).

7. The annealing incubator for producing a centralized electric melting brick according to claim 1, characterized in that: the heat preservation cover plate (15) is detachably arranged at the top end of the centralized heat preservation box (10).