CN213446807U - Cylinder-shaped fusion-cast ceramic tile applied to glass kiln regenerator - Google Patents

Abstract

The utility model discloses a be applied to barrel type founding pottery brick of glass kiln regenerator, include the barrel, be located the positioning mechanism of barrel top and bottom, positioning mechanism is protruding including the bottom and the decurrent constant head tank of opening that are located the barrel, the top that is located the barrel and with constant head tank matched with location, the location arch is located the constant head tank directly over, the utility model discloses positioning mechanism's setting is convenient for carry out quick location with two adjacent pottery bricks, improves workman's work efficiency, alleviates workman's working strength, and the barrel that forms is connected gradually to the at least three brick board mechanism left and right sides, and the thermal efficiency utilizes height.

Description

Cylinder-shaped fusion-cast ceramic tile applied to glass kiln regenerator

Technical Field

The utility model relates to a glass kiln regenerator application, concretely relates to be applied to barrel-type founding pottery brick of glass kiln regenerator.

Background

At present, a regenerative furnace of a glass furnace is a main heat supply and heat exchange mode of the glass furnace, and outside the electric melting furnace and a direct-fired furnace, the glass furnace preheats combustion-supporting air through a regenerative chamber and burns the combustion-supporting air and fuel. The working principle is that hot flue gas heats a heat accumulator in the heat accumulator when passing through the heat accumulator, after reversing, air enters the heat accumulator, the heat accumulator transfers heat to the air, the air temperature rises, the temperature of the heat accumulator is reduced, and the heat exchange process is completed. In the process, the heat accumulator not only bears the thermal stress load of temperature change, but also bears the chemical erosion of flue gas, so the requirement on the material performance of the heat accumulator is very high, when the heat accumulator of the glass kiln heat accumulator is built by the existing barrel-shaped fusion-cast ceramic tile, because a positioning structure is not arranged between an upper ceramic tile and a lower ceramic tile, when a worker builds the heat accumulator, the worker needs to measure and butt-joint the ceramic tiles for multiple times, so that the positioning accuracy of the two ceramic tiles can be ensured, namely, the operation difficulty of the worker is increased, and the working efficiency is low.

Therefore, it is a problem worthy of research to provide a cylinder-type fusion-cast ceramic tile applied to a glass kiln regenerator, which is convenient to position and has high construction efficiency.

Disclosure of Invention

The utility model aims at providing a be convenient for location convenience and the high cartridge type founding pottery brick of being applied to glass kiln regenerator that efficiency of construction is high.

The purpose of the utility model is realized like this:

the utility model provides a be applied to barrel-type founding pottery brick of glass kiln regenerator, includes the barrel, is located the positioning mechanism of barrel top and bottom, positioning mechanism is protruding including the bottom that is located the barrel and the decurrent constant head tank of opening, the top that is located the barrel and with constant head tank matched with location, the location is protruding to be located the constant head tank directly over.

The longitudinal section of the positioning bulge is trapezoidal, and the positioning groove is arc-shaped with a downward opening.

The height of the positioning bulge in the vertical direction is 20-500 mm, and the depth of the positioning groove in the vertical direction is 20-500 mm.

The barrel includes a plurality of brick board mechanisms of end to end fixed connection in proper order, and brick board mechanism sets up at least three, and the left and right sides of at least three brick board mechanism fixed connection in proper order constitutes annular barrel.

The brick plate mechanism comprises a first brick plate located in the vertical direction, a second brick plate fixedly connected with the right side face of the first brick plate and located in the vertical direction, and the height of the first brick plate in the vertical direction is equal to the height of the second brick plate in the vertical direction.

The location arch is located the top of first brick board, and the constant head tank is located the bottom of first brick board, and the bellied quantity in location equals with the quantity of first brick board, and the quantity of constant head tank equals with the quantity of first brick board.

The height of the first brick plate and the height of the second brick plate in the vertical direction are both 50-800 mm, the width of the first brick plate in the horizontal direction is 50-800 mm, and the width of the second brick plate in the horizontal direction is 50-800 mm.

The utility model has the advantages that: the utility model discloses positioning mechanism's setting is convenient for carry out quick location with two adjacent ceramic bricks, improves workman's work efficiency, alleviates workman's working strength, and the barrel that forms is connected gradually to the at least three brick board mechanism left and right sides, and the thermal efficiency utilizes the height.

Drawings

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

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of the structure of the present invention;

in the figure: barrel 1, brick board mechanism 2, first brick board 3, second brick board 4, constant head tank 5, location arch 6.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

as shown in fig. 1 to 3, a cylinder type fusion-cast ceramic tile applied to a glass kiln regenerator comprises a cylinder body 1 and a positioning mechanism located at the top and the bottom of the cylinder body 1, wherein a positioning bulge 6 and the cylinder body 1 are integrally formed, so that two adjacent ceramic tiles from top to bottom can be quickly positioned, the working efficiency of workers is improved, and the working intensity of the workers is reduced, the positioning mechanism comprises a positioning groove 5 located at the bottom of the cylinder body 1 and with a downward opening, a positioning bulge 6 located at the top of the cylinder body 1 and matched with the positioning groove 5, and the positioning bulge 6 is located right above the positioning groove 5. The longitudinal section of the positioning bulge 6 is trapezoidal, and the positioning groove 5 is arc with a downward opening. The height of location arch 6 in vertical direction is 20mm, and the degree of depth of constant head tank 5 in vertical direction is 25mm, and constant head tank 5 and barrel 1 integrated into one piece when another pottery brick is placed at the top of pottery brick to needs, place constant head tank 5 on location arch 6 this moment, make location arch 6 be located constant head tank 5, can realize the location of two adjacent pottery bricks, the workman of being convenient for carries out operation on next step, improves workman's work efficiency.

Barrel 1 includes a plurality of brick board mechanisms 2 of end to end fixed connection in proper order, and brick board mechanism 2 sets up four, and the left and right sides of four brick board mechanisms 2 fixed connection in proper order constitutes annular barrel 1, and four 2 integrated into one piece of brick board mechanisms become barrel 1, and the top and the bottom and the external intercommunication of barrel 1, raw materials melting are pour and are got into the mould and become barrel 1, and the cross section of barrel 1 is the octagon, and the thermal efficiency utilization is high.

The brick plate mechanism 2 comprises a first brick plate 3 located in the vertical direction, a second brick plate 4 fixedly connected with the right side face of the first brick plate 3 and located in the vertical direction, the first brick plate 3 and the second brick plate 4 are formed through pouring through a mold, the height of the first brick plate 3 in the vertical direction is equal to the height of the second brick plate 4 in the vertical direction, the top of the first brick plate 3 and the top of the second brick plate 4 are located on the same horizontal plane, the bottom of the first brick plate 3 and the bottom of the second brick plate 4 are located on the same horizontal plane, and therefore building of a plurality of ceramic bricks is facilitated. The protruding 6 of location is located the top of first brick board 3, and constant head tank 5 is located the bottom of first brick board 3, and the quantity of the protruding 6 of location equals with the quantity of first brick board 3, and the quantity of constant head tank 5 equals with the quantity of first brick board 3. First brick board 3 and second brick board 4 highly are 80mm in vertical direction, and first brick board 3 is 160mm at the width of horizontal direction, and second brick board 4 is 50mm at the width of horizontal direction, and the setting of first brick board 3 and second brick board 4 is convenient for the preparation of ceramic brick, improves the utilization ratio of the thermal efficiency of ceramic brick simultaneously.

Example 2:

as shown in fig. 1 to 3, a cylinder type fusion-cast ceramic tile applied to a glass kiln regenerator comprises a cylinder body 1 and a positioning mechanism located at the top and the bottom of the cylinder body 1, wherein a positioning bulge 6 and the cylinder body 1 are integrally formed, so that two adjacent ceramic tiles from top to bottom can be quickly positioned, the working efficiency of workers is improved, and the working intensity of the workers is reduced, the positioning mechanism comprises a positioning groove 5 located at the bottom of the cylinder body 1 and with a downward opening, a positioning bulge 6 located at the top of the cylinder body 1 and matched with the positioning groove 5, and the positioning bulge 6 is located right above the positioning groove 5. The longitudinal section of the positioning bulge 6 is trapezoidal, and the positioning groove 5 is arc with a downward opening. The height of location arch 6 in vertical direction is 480mm, and the degree of depth of constant head tank 5 in vertical direction is 500mm, constant head tank 5 and barrel 1 integrated into one piece, when another ceramic brick is placed at the top of ceramic brick to needs, place constant head tank 5 on location arch 6 this moment, make location arch 6 be located constant head tank 5, can realize the location of two adjacent ceramic bricks, the workman of being convenient for carries out operation on next step, improves workman's work efficiency.

Barrel 1 includes a plurality of brick board mechanisms 2 of end to end fixed connection in proper order, and brick board mechanism 2 sets up four, and the left and right sides of four brick board mechanisms 2 fixed connection in proper order constitutes annular barrel 1, and four 2 integrated into one piece of brick board mechanisms become barrel 1, and the top and the bottom and the external intercommunication of barrel 1, raw materials melting are pour and are got into the mould and become barrel 1, and the cross section of barrel 1 is the octagon, and the thermal efficiency utilization is high.

The brick plate mechanism 2 comprises a first brick plate 3 located in the vertical direction, a second brick plate 4 fixedly connected with the right side face of the first brick plate 3 and located in the vertical direction, the first brick plate 3 and the second brick plate 4 are formed through pouring through a mold, the height of the first brick plate 3 in the vertical direction is equal to the height of the second brick plate 4 in the vertical direction, the top of the first brick plate 3 and the top of the second brick plate 4 are located on the same horizontal plane, the bottom of the first brick plate 3 and the bottom of the second brick plate 4 are located on the same horizontal plane, and therefore building of a plurality of ceramic bricks is facilitated. The protruding 6 of location is located the top of first brick board 3, and constant head tank 5 is located the bottom of first brick board 3, and the quantity of the protruding 6 of location equals with the quantity of first brick board 3, and the quantity of constant head tank 5 equals with the quantity of first brick board 3. First brick board 3 and second brick board 4 highly are 800mm in vertical direction, and first brick board 3 is 800mm at the width of horizontal direction, and second brick board 4 is 100mm at the width of horizontal direction, and the setting of first brick board 3 and second brick board 4 is convenient for the preparation of ceramic brick, improves the utilization ratio of the thermal efficiency of ceramic brick simultaneously.

The utility model discloses positioning mechanism's setting is convenient for carry out quick location with two adjacent ceramic bricks, improves workman's work efficiency, alleviates workman's working strength, and the barrel that forms is connected gradually to the at least three brick board mechanism left and right sides, and the thermal efficiency utilizes the height.

Claims (7)

1. The utility model provides a be applied to barrel-type founding pottery brick of glass kiln regenerator which characterized in that: including the barrel, be located the positioning mechanism of barrel top and bottom, positioning mechanism is protruding including the bottom that is located the barrel and the decurrent constant head tank of opening, the top that is located the barrel and with constant head tank matched with location, the location arch is located the constant head tank directly over.

2. The cylinder-type fused-cast ceramic tile for glass kiln regenerators according to claim 1, characterized in that: the longitudinal section of the positioning bulge is trapezoidal, and the positioning groove is arc-shaped with a downward opening.

3. The cylinder-type fused-cast ceramic tile for glass kiln regenerators according to claim 1, characterized in that: the height of the positioning bulge in the vertical direction is 20-500 mm, and the depth of the positioning groove in the vertical direction is 20-500 mm.

4. The cylinder-type fused-cast ceramic tile for glass kiln regenerators according to claim 1, characterized in that: the barrel includes a plurality of brick board mechanisms of end to end fixed connection in proper order, and brick board mechanism sets up at least three, and the left and right sides of at least three brick board mechanism fixed connection in proper order constitutes annular barrel.

5. The cylinder-type fused-cast ceramic tile for glass kiln regenerators according to claim 4, characterized in that: the brick plate mechanism comprises a first brick plate located in the vertical direction, a second brick plate fixedly connected with the right side face of the first brick plate and located in the vertical direction, and the height of the first brick plate in the vertical direction is equal to the height of the second brick plate in the vertical direction.

6. The cylinder-type fused-cast ceramic tile for glass kiln regenerators according to claim 5, characterized in that: the location arch is located the top of first brick board, and the constant head tank is located the bottom of first brick board, and the bellied quantity in location equals with the quantity of first brick board, and the quantity of constant head tank equals with the quantity of first brick board.

7. The cylinder-type fused-cast ceramic tile for glass kiln regenerators according to claim 5, characterized in that: the height of the first brick plate and the height of the second brick plate in the vertical direction are both 50-800 mm, the width of the first brick plate in the horizontal direction is 50-800 mm, and the width of the second brick plate in the horizontal direction is 50-800 mm.

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