CN216115408U - Remove heat preservation partition wall structure - Google Patents

Abstract

A movable heat-insulation partition wall structure. A movable heat-preservation partition wall structure mainly comprises an upper fixing plate (1), a lower fixing plate (2) and an adjusting plate (3). The heat-insulating layer material is constructed on the forming surface (7), the hot surface of the heat-insulating layer is contacted with the cold surface of the built working layer by moving the adjusting plate (3), the length of the limiting hydraulic rod (11) is adjusted, and the position of the adjusting plate (3) is limited. This heat preservation partition wall structure makes the change of heat preservation, maintenance process simplify to can suitably adjust thickening heat preservation thickness according to the reduction thickness of working layer, can not reduce with the heat preservation effect of assurance kiln.

Description

Remove heat preservation partition wall structure

Technical Field

The utility model relates to a heat preservation and insulation structure in the field of refractory materials, in particular to a movable heat preservation partition wall structure.

Background

The high-temperature kiln has the internal working environment of more than 1300 ℃, so that the heat inside the kiln is dissipated through the working layer, and the heat loss is caused. In order to solve the heat loss, a light coating or a pouring material or a calcium silicate plate with a certain thickness is arranged on the cold surface of the working layer, thereby achieving the effect of reducing the heat loss.

At present, the structural design of the heat-insulating layer and the working layer is less. The main mechanism of the heat insulation structure still adopts the traditional construction of the working layer firstly, and then the heat insulation material is stuck on the cold surface of the working layer for coating or casting formation. Because the heat preservation and the working layer form an integrated structure, when the working layer is damaged and replaced, the heat preservation which can be continuously used and the damaged working layer are removed together, so that the inconvenience of maintenance and replacement and the increase of maintenance cost are caused. Secondly, as the high-temperature medium in the kiln abrades the working layer, the radial thickness of the working layer becomes thinner gradually, which changes the radial thermal distribution condition of the kiln wall, the high-temperature area in the thermal distribution area deflects to the cold surface, the heat insulation material receives more heat, the surface temperature of the kiln body gradually rises along with the abrasion of the working layer, the heat insulation effect of the kiln is reduced, and the service life of the heat insulation material is greatly reduced.

Disclosure of Invention

In order to solve the problems, the utility model relates to a movable heat-insulation partition wall structure. A movable heat-preservation partition wall structure mainly comprises an upper fixing plate 1, a lower fixing plate 2 and an adjusting plate 3. Wherein, the upper surface of the upper fixing plate 1 is provided with a limiting sliding chute 4 and a guide wheel groove 5, and the vertical section of the guide wheel groove 5 is rectangular. The upper surface of the lower fixed plate 2 is provided with 1-4 sliding guide rails 6, and the cross section of each sliding guide rail 6 is rectangular.

A forming surface 7 is arranged on one side of the adjusting plate 3 perpendicular to the plane, 1-10 parallel bosses 8 are arranged on the forming surface 7 at equal distances along the horizontal plane direction, and the cross sections of the bosses 8 are rectangular. The reciprocating reverse side is provided with 1-4 hydraulic fixing push rods 9 and 1-4 handles 10, 1-4 limiting rods 11 are arranged on the horizontal upper surface of the adjusting plate 3 at equal intervals along the length direction of the adjusting plate 3, the cross section of each limiting rod 11 is in a D shape, each limiting rod 11 is arranged in a limiting sliding groove 4 of the upper fixing plate 1 and can horizontally reciprocate along the limiting sliding groove 4, a guide rod 12 is arranged between every two limiting rods 11, a guide wheel 13 penetrates through the guide rods 12 and is fixed in the center of the interval between every two limiting rods 11, the guide wheel 13 is matched with a guide wheel groove 5 arranged in the upper fixing plate 1, and the guide wheel 13 can horizontally reciprocate along the guide wheel groove 5. 1-4 guide bottom wheels 14 are arranged on the lower bottom surface of the adjusting plate 3 at equal intervals along the length direction of the adjusting plate 3, and the guide bottom wheels 14 are matched with a sliding guide rail 6 arranged in the lower fixing plate 2 and can horizontally reciprocate along the sliding guide rail 6.

A movable heat-insulation partition wall structure constructs heat-insulation layer materials on a forming surface 7, and after a hot surface of a heat-insulation layer is contacted with a cold surface of a built working layer through the movement of an adjusting plate 3, the length of a hydraulic fixing push rod 9 is adjusted, and the position of the adjusting plate 3 is limited. When the kiln working layer needs to be overhauled, the adjusting plate 3 is driven through contraction of the hydraulic fixing push rod 9, the heat preservation layer on the adjusting plate 3 is far away from the working layer and overhauls the working layer, the length of the limiting rod 11 is adjusted after the overhaul is finished, and the distance between the adjusting plate 3 is adjusted to enable the heat preservation layer to be in contact with the cold surface of the working layer.

The heat-insulating partition wall structure simplifies the replacement and maintenance processes of the heat-insulating layer; the thickness of the thickened heat-insulating layer is properly adjusted according to the reduced thickness of the working layer so as to ensure that the heat-insulating effect of the kiln cannot be reduced.

Drawings

FIG. 1 is a schematic view of a mobile thermal insulation partition wall according to the present invention. Wherein, 1 is an upper fixing plate, 2 is a lower fixing plate, and 3 is an adjusting plate.

Fig. 2 is a schematic view of the upper fixing plate 1. Wherein 4 is a limit sliding chute and 5 is a guide wheel groove.

Fig. 3 is a schematic view of the lower fixing plate 2. Wherein 6 is a sliding guide rail.

Fig. 4 is a schematic view of the adjustment plate 3. 7 is a forming surface, 8 is a boss, 9 is a hydraulic fixing push rod, 10 is a handle, 11 is a limiting rod, 12 is a guide rod, 13 is a guide wheel and 14 is a guide bottom wheel.

Detailed Description

Example 1

A movable heat-preservation partition wall structure mainly comprises an upper fixing plate 1, a lower fixing plate 2 and an adjusting plate 3. Wherein, the upper surface of the upper fixing plate 1 is provided with a limiting sliding chute 4 and a guide wheel groove 5, and the vertical section of the guide wheel groove 5 is rectangular. The upper surface of the lower fixed plate 2 is provided with 2 sliding guide rails 6, and the cross section of each sliding guide rail 6 is rectangular. A forming surface 7 is arranged on one side of the adjusting plate 3 perpendicular to the plane, 5 parallel bosses 8 are arranged on the forming surface 7 at equal distances along the horizontal plane direction, and the cross sections of the bosses 8 are rectangular. Set up 2 hydraulic pressure fixed push rods 9, 2 hand (hold) 10 for reciprocal reverse side mutually, set up 2 gag lever post 11 along 3 length direction equidistant intervals of regulating plate 3 on the horizontal upper surface of regulating plate 3, the shape of spacing hydraulic stem 11 cross section is "D" shape, gag lever post 11 is installed in the spacing spout 4 of an upper fixed plate 1, can follow horizontal reciprocating motion in the spacing spout 4, set up guide bar 12 between every gag lever post 11, leading wheel 13 passes guide bar 12 and fixes at every two gag lever post 11 interval centers, leading wheel 13 cooperates with leading wheel groove 5 that sets up in an upper fixed plate 1, leading wheel 13 can follow 5 horizontal reciprocating sliding in leading wheel groove. 3 guide bottom wheels 14 are arranged on the lower bottom surface of the adjusting plate 3 at equal intervals along the length direction of the adjusting plate 3, and the guide bottom wheels 14 are matched with a sliding guide rail 6 arranged in the lower fixing plate 2 and can horizontally reciprocate along the sliding guide rail 6.

Example 2

A movable heat-preservation partition wall structure mainly comprises an upper fixing plate 1, a lower fixing plate 2 and an adjusting plate 3. Wherein, the upper surface of the upper fixing plate 1 is provided with a limiting sliding chute 4 and a guide wheel groove 5, and the vertical section of the guide wheel groove 5 is rectangular. The upper surface of the lower fixed plate 2 is provided with 2 sliding guide rails 6, and the cross section of each sliding guide rail 6 is rectangular. A forming surface 7 is arranged on one side of the adjusting plate 3 perpendicular to the plane, 5 parallel bosses 8 are arranged on the forming surface 7 at equal distances along the horizontal plane direction, and the cross sections of the bosses 8 are rectangular. Set up 3 hydraulic pressure fixed push rods 9, 3 hand (hold) 10 for reciprocal reverse side mutually, set up 2 gag lever post 11 along 3 length direction equidistant intervals of regulating plate 3 on the horizontal upper surface of regulating plate 3, the shape of spacing hydraulic stem 11 cross section is "D" shape, gag lever post 11 is installed in the spacing spout 4 of an upper fixed plate 1, can follow horizontal reciprocating motion in the spacing spout 4, set up guide bar 12 between every gag lever post 11, leading wheel 13 passes guide bar 12 and fixes at every two gag lever post 11 interval centers, leading wheel 13 cooperates with leading wheel groove 5 that sets up in an upper fixed plate 1, leading wheel 13 can follow 5 horizontal reciprocating sliding in leading wheel groove. 3 guide bottom wheels 14 are arranged on the lower bottom surface of the adjusting plate 3 at equal intervals along the length direction of the adjusting plate 3, and the guide bottom wheels 14 are matched with a sliding guide rail 6 arranged in the lower fixing plate 2 and can horizontally reciprocate along the sliding guide rail 6.

Example 3

A movable heat-preservation partition wall structure mainly comprises an upper fixing plate 1, a lower fixing plate 2 and an adjusting plate 3. Wherein, the upper surface of the upper fixing plate 1 is provided with a limiting sliding chute 4 and a guide wheel groove 5, and the vertical section of the guide wheel groove 5 is rectangular. The upper surface of the lower fixed plate 2 is provided with 4 sliding guide rails 6, and the cross section of each sliding guide rail 6 is rectangular. A forming surface 7 is arranged on one side of the adjusting plate 3 perpendicular to the plane, 5 parallel bosses 8 are arranged on the forming surface 7 at equal distances along the horizontal plane direction, and the cross sections of the bosses 8 are rectangular. Set up 3 hydraulic pressure fixed push rods 9, 3 hand (hold) 10 for reciprocal reverse side mutually, set up 2 gag lever post 11 along 3 length direction equidistant intervals of regulating plate 3 on the horizontal upper surface of regulating plate 3, the shape of spacing hydraulic stem 11 cross section is "D" shape, gag lever post 11 is installed in the spacing spout 4 of an upper fixed plate 1, can follow horizontal reciprocating motion in the spacing spout 4, set up guide bar 12 between every gag lever post 11, leading wheel 13 passes guide bar 12 and fixes at every two gag lever post 11 interval centers, leading wheel 13 cooperates with leading wheel groove 5 that sets up in an upper fixed plate 1, leading wheel 13 can follow 5 horizontal reciprocating sliding in leading wheel groove. 3 guide bottom wheels 14 are arranged on the lower bottom surface of the adjusting plate 3 at equal intervals along the length direction of the adjusting plate 3, and the guide bottom wheels 14 are matched with a sliding guide rail 6 arranged in the lower fixing plate 2 and can horizontally reciprocate along the sliding guide rail 6.

Example 4

A movable heat-preservation partition wall structure mainly comprises an upper fixing plate 1, a lower fixing plate 2 and an adjusting plate 3. Wherein, the upper surface of the upper fixing plate 1 is provided with a limiting sliding chute 4 and a guide wheel groove 5, and the vertical section of the guide wheel groove 5 is rectangular. The upper surface of the lower fixed plate 2 is provided with 4 sliding guide rails 6, and the cross section of each sliding guide rail 6 is rectangular. A forming surface 7 is arranged on one side of the adjusting plate 3 perpendicular to the plane, 6 parallel bosses 8 are arranged on the forming surface 7 at equal distances along the horizontal plane direction, and the cross sections of the bosses 8 are rectangular. Set up 2 hydraulic pressure fixed push rods 9, 3 hand (hold) 10 for reciprocal reverse side mutually, set up 2 gag lever post 11 along 3 length direction equidistant intervals of regulating plate 3 on the horizontal upper surface of regulating plate 3, spacing hydraulic stem 11 cross sectional shape is "D" shape, gag lever post 11 is installed in the spacing spout 4 of an upper fixed plate 1, can follow horizontal reciprocating motion in the spacing spout 4, set up guide bar 12 between every gag lever post 11, leading wheel 13 passes guide bar 12 and fixes at every two gag lever post 11 interval centers, leading wheel 13 cooperates with leading wheel groove 5 that sets up in an upper fixed plate 1, leading wheel 13 can follow 5 horizontal reciprocating sliding in leading wheel groove. 3 guide bottom wheels 14 are arranged on the lower bottom surface of the adjusting plate 3 at equal intervals along the length direction of the adjusting plate 3, and the guide bottom wheels 14 are matched with a sliding guide rail 6 arranged in the lower fixing plate 2 and can horizontally reciprocate along the sliding guide rail 6.

Claims (2)

1. The utility model provides a remove heat preservation partition wall structure, characterized by: the adjustable sliding guide plate mainly comprises an upper fixing plate (1), a lower fixing plate (2) and an adjusting plate (3), wherein a limiting sliding groove (4) and a guide wheel groove (5) are formed in the upper surface of the upper fixing plate (1), the vertical section of the guide wheel groove (5) is rectangular, 1-4 sliding guide rails (6) are arranged on the upper surface of the lower fixing plate (2), and the cross section of each sliding guide rail (6) is rectangular.

2. The structure of a mobile thermal insulation partition wall as claimed in claim 1, wherein: one side of the vertical plane of the adjusting plate (3) is provided with a forming surface (7), 1-10 parallel bosses (8) are equidistantly arranged on the forming surface (7) along the horizontal plane direction, the cross section of each boss (8) is rectangular, 1-4 hydraulic fixing push rods (9) and 1-4 handles (10) are arranged on the opposite reciprocating surfaces, 1-4 limiting rods (11) are equidistantly arranged on the horizontal upper surface of the adjusting plate (3) along the length direction of the adjusting plate (3), the cross section of each limiting rod (11) is D-shaped, each limiting rod (11) is arranged in a limiting sliding groove (4) of the upper fixing plate (1) and can horizontally reciprocate along the limiting sliding groove (4), a guide rod (12) is arranged between every two limiting rods (11), a guide wheel (13) penetrates through the guide rods (12) and is fixed at the distance center of every two limiting rods (11), and the guide wheel (13) is matched with a guide wheel groove (5) arranged in the upper fixing plate (1), the guide wheels (13) can horizontally reciprocate along the guide wheel grooves (5), 1-4 guide bottom wheels (14) are arranged on the lower bottom surface of the adjusting plate (3) at equal intervals along the length direction of the adjusting plate (3), and the guide bottom wheels (14) are matched with the sliding guide rails (6) arranged in the lower fixing plate (2) and can horizontally reciprocate along the sliding guide rails (6).

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