CN114319638B - Thermal insulation wall with inner wall coated with thermal insulation material - Google Patents

Abstract

The invention discloses a heat-insulating wall with an inner wall coated with heat-insulating materials, and relates to the technical field of heat-insulating walls. The heat-insulating wall comprises a heat-insulating wall body, wherein mounting grooves are formed in the left side and the right side of the heat-insulating wall body, a mounting device is arranged between the adjacent heat-insulating wall bodies, a guide plate is fixed at the top of the back of the heat-insulating wall body, a rotating rod is rotatably arranged in the guide plate, blades are fixed on the outer walls of the left side and the right side of the rotating rod, and a push rod is fixed on the outer wall of the middle of the rotating rod. According to the invention, the pressing block is matched with the hinging rod, so that the pressing block pushes the L-shaped sliding plate to move away from the pressing block through the hinging rod, the L-shaped sliding plate drives the toothed clamping column to move and retract into the interior of the I-shaped mounting shell, the mounting groove of the heat preservation wall main body is aligned to the toothed clamping column, and the L-shaped sliding plate drives the toothed clamping column to be clamped with the mounting groove of the heat preservation wall main body, so that the aim of quickly mounting the heat preservation wall main body is achieved.

Description

A thermal insulation wall with thermal insulation material coated on the inner wall

Technical Field

The invention relates to the technical field of thermal insulation walls, in particular to a thermal insulation wall with an inner wall coated with thermal insulation material.

Background Art

As people's living standards improve, their demand for fresh fruits and vegetables is also increasing. Planting fruits and vegetables in greenhouses allows people to eat fresh fruits and vegetables they want in any season. Winter has a long low temperature period, and it is difficult to maintain a suitable temperature for crop growth in the greenhouse by relying solely on sunlight. It is often necessary to use a heating furnace or heater to heat the greenhouse, which increases the cost of greenhouse cultivation. Building greenhouse walls with good thermal insulation performance will undoubtedly effectively reduce the heating cost of the greenhouse in winter.

When assembling and using existing greenhouse insulation walls, they are usually connected by axial bolts or nails on the wall columns, which leads to a slow disassembly and assembly speed. This increases the labor intensity of operators when disassembling and assembling prefabricated insulation walls and reduces the flexibility of the connection structure when used. It cannot truly achieve the purpose of saving time and labor and improving disassembly and assembly efficiency. Therefore, we propose an insulation wall with an inner wall coated with insulation material.

Summary of the invention

In view of the deficiencies in the prior art, the present invention provides a thermal insulation wall with an inner wall coated with a thermal insulation material, which solves the problems raised in the above-mentioned background technology.

To achieve the above objectives, the present invention is implemented through the following technical solutions: an insulation wall with an inner wall coated with insulation material, comprising an insulation wall body, the insulation wall body is provided with installation grooves on the left and right sides, an installation device is provided between adjacent insulation wall bodies, a guide plate is fixed on the top of the back of the insulation wall body, a rotating rod is rotatably installed inside the guide plate, blades are fixed on the outer walls on the left and right sides of the rotating rod, a push rod is fixed on the middle outer wall of the rotating rod, a knocking device is provided inside the insulation wall body, and an insulation device is provided on the side of the insulation wall body away from the inner wall of the guide plate. The mounting device comprises an I-shaped mounting shell, a pressing block is penetrated and slidably mounted on the front side of the I-shaped mounting shell, an L-shaped slide plate is slidably mounted on the front side of the inner wall of the I-shaped mounting shell, a side of the L-shaped slide plate away from the pressing block is elastically connected to the inner wall of the I-shaped mounting shell by a spring, a side of the L-shaped slide plate close to the pressing block is movably connected to the back side of the pressing block by a hinge rod, a toothed clamping column is fixed on the top of the L-shaped slide plate, the toothed clamping column penetrates and is slidably mounted on the inner wall of the I-shaped mounting shell close to the pressing block, and the toothed clamping column is clamped and mounted inside the mounting groove of the insulation wall body.

Preferably, the knocking device includes a rubber bag, and there are two rubber bags. The two rubber bags are respectively embedded in the left and right sides of the insulation wall body, and an extrusion bag is fixed to the opposite side of the two rubber bags. A spring plate is fixed to the side of the extrusion bag away from the rubber bag, and a sliding block is fixed to the side of the spring plate close to the guide plate. A knocking block is fixed to the side of the sliding block close to the guide plate, and the knocking block is in contact with the inner wall of the insulation wall body, and the side of the sliding block close to the guide plate is in contact with one end of a resistance shaft rod, the middle part of the resistance shaft rod penetrates and is rotatably installed on the face wall of the insulation wall body, and the other end of the resistance shaft rod extends to the outside of the insulation wall body.

Preferably, the thermal insulation device comprises a No. 1 thermal insulation coating plate and a No. 2 thermal insulation coating plate, the No. 1 thermal insulation coating plate is slidably mounted on the bottom of the inner wall of the thermal insulation wall body, the No. 2 thermal insulation coating plate is fixedly mounted on the inner wall of the thermal insulation wall body on one side away from the guide plate, trapezoidal blocks are fixed on opposite sides of the No. 1 thermal insulation coating plate and the No. 2 thermal insulation coating plate, the trapezoidal blocks on the opposite sides are elastically connected by spring plates, and elastic friction plates are fixed on the left and right sides of the trapezoidal blocks connected to the No. 2 thermal insulation coating plate.

Preferably, an elastic pull plate is fixed on the side of the trapezoidal block connected to the No. 2 thermal insulation coating plate away from the No. 2 thermal insulation coating plate, and a groove is provided on the side of the trapezoidal block connected to the No. 1 thermal insulation coating plate away from the No. 1 thermal insulation coating plate, and a flap is slidably installed inside the groove of the trapezoidal block connected to the No. 1 thermal insulation coating plate, and the elastic pull plate extends from the side of the No. 2 thermal insulation coating plate to the inside of the groove of the trapezoidal block connected to the No. 1 thermal insulation coating plate and is fixedly connected to the flap, and a U-shaped rod is fixed on the side of the spring sheet close to the elastic pull plate, and the U-shaped rod is in contact with the inner side of the elastic pull plate.

Preferably, the mounting groove of the thermal insulation wall body matches the shape of the toothed clamping column, and the side of the toothed clamping column away from the pressing block is cylindrical.

Preferably, the side of the abutment shaft away from the sliding block contacts the outer side of the push rod.

Preferably, the interior of the rubber bag is connected to the interior of the extrusion bag, a fixing rod is fixed to the side of the spring plate away from the sliding block, and the fixing rod of the spring plate contacts the side of the No. 1 thermal insulation coating plate away from the trapezoidal block.

Preferably, the side of the elastic friction plate close to the first thermal insulation coating plate contacts the outer side of the spring.

The present invention provides a thermal insulation wall with a thermal insulation material coated on the inner wall. It has the following beneficial effects:

(1) The present invention cooperates with the pressing block and the hinge rod, so that the pressing block pushes the L-shaped slide plate to move away from the pressing block through the hinge rod, and the L-shaped slide plate drives the toothed clamping column to move and retract into the interior of the I-shaped installation shell, aligning the installation groove of the insulation wall body with the toothed clamping column, and releasing the pressing block. Under the action of the spring elastic force reset, the L-shaped slide plate drives the toothed clamping column to engage with the installation groove of the insulation wall body, thereby achieving the purpose of rapid installation of the insulation wall body; at the same time, lightly press the pressing block to make the toothed part of the toothed clamping column disengage from the installation groove of the insulation wall body, and rotate the angle position of the insulation wall body to achieve the purpose of adjusting the angle position of the insulation wall body, thereby improving the flexibility of insulation wall assembly.

(2) In the present invention, when it rains on the main body of the thermal insulation wall, the guide plate is arranged so that the guide plate blocks rainwater flowing through the top of the building, thereby preventing rainwater from directly falling on the main body of the thermal insulation wall and reducing the thermal insulation effect of the main body of the thermal insulation wall; at the same time, when rainwater flows through, the rainwater drives the rotating rod to rotate through the blades, and the rotating rod drives the push rod to rotate. The push rod cooperates with the abutment shaft rod, so that the push rod pushes one end of the abutment shaft rod to swing downward, and the other end of the abutment shaft rod swings upward and pushes the sliding block to move away from the guide plate, and the sliding block squeezes the spring plate to deform, and the spring plate squeezes the extrusion bag. The internal gas of the extrusion bag enters the rubber bag, and the rubber bag expands and fits tightly against the outer side of the I-shaped mounting shell, thereby preventing rainwater from flowing into the room through the gap between the main body of the thermal insulation wall and the I-shaped mounting shell in rainy weather.

(3) The present invention cooperates with the sliding block through the abutment shaft rod, so that the abutment shaft rod pushes the sliding block to move away from the guide plate. When the push rod no longer pushes the abutment shaft rod, the sliding block drives the knocking block to knock on the inner wall of the insulation wall body under the elastic force of the spring plate, and the insulation wall body vibrates, so that the insulation wall body shakes off the rainwater attached thereto, thereby avoiding the problem of rainwater adhering to the insulation wall body and reducing its insulation effect.

(4) In the present invention, during the process of the sliding block squeezing the spring plate to deform, the fixing rod of the spring plate cooperates with the No. 1 thermal insulation coating plate, so that the fixing rod of the spring plate pushes the No. 1 thermal insulation coating plate to move in the opposite direction toward the No. 2 thermal insulation coating plate, and the spring plate is squeezed and deformed. Under the cooperation of the spring plate and the elastic friction plate, the elastic friction plate generates heat by friction on the outer side of the spring plate, thereby avoiding the problem of heat loss of the insulation wall body on rainy days, thereby improving the insulation effect of the insulation wall body.

(5) In the process of extrusion deformation of the spring piece of the present invention, the spring piece drives the U-shaped rod to move along with it. The U-shaped rod cooperates with the elastic pull plate, so that the U-shaped rod pulls the elastic pull plate, thereby causing the elastic pull plate to drive the flap to flip the air inside the trapezoidal block. The trapezoidal block inhales or ejects air, thereby promoting heat exchange between the No. 1 thermal insulation coating plate and the No. 2 thermal insulation coating plate, thereby ensuring the temperature balance between the No. 1 thermal insulation coating plate and the No. 2 thermal insulation coating plate.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the present invention as a whole;

FIG2 is a rear view schematic diagram of the present invention as a whole;

FIG3 is a partial cross-sectional schematic diagram of the installation device of the present invention;

FIG4 is a partial cross-sectional schematic diagram of the thermal insulation wall body of the present invention;

FIG5 is a schematic diagram of a striking device according to the present invention;

FIG6 is a partial front cross-sectional schematic diagram of the striking device of the present invention;

FIG7 is a schematic diagram of a heat preservation device of the present invention;

FIG8 is an enlarged schematic diagram of the structure at A in FIG7 of the present invention;

FIG. 9 is a partial front cross-sectional schematic diagram of the heat preservation device of the present invention.

In the figure: 1. insulation wall body; 2. installation device; 21. I-shaped installation shell; 22. pressing block; 23. hinged rod; 24. L-shaped slide plate; 25. toothed clamping column; 3. guide plate; 4. rotating rod; 5. blade; 6. push rod; 7. knocking device; 71. rubber bag; 72. extrusion bag; 73. spring plate; 74. knocking block; 75. sliding block; 76. abutting shaft rod; 8. insulation device; 81. No. 1 insulation coating plate; 82. No. 2 insulation coating plate; 83. trapezoidal block; 84. spring piece; 85. elastic friction plate; 86. U-shaped rod; 87. elastic pull plate; 88. flap.

DETAILED DESCRIPTION

The technical solutions in the embodiments of the present invention will be described clearly and completely below in conjunction with the drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, rather than all the embodiments.

Please refer to Figures 1-9. The present invention provides a technical solution: an insulation wall with an inner wall coated with insulation material, including an insulation wall body 1, the insulation wall body 1 is provided with installation grooves on the left and right sides, and an installation device 2 is provided between adjacent insulation wall bodies 1. A guide plate 3 is fixed on the top of the back of the insulation wall body 1. When the insulation wall body 1 is in rainy weather, the guide plate 3 is set to block rainwater flowing through the top of the building, thereby avoiding the problem that rainwater directly falls on the insulation wall body 1 and reduces the insulation effect of the insulation wall body 1. The guide plate 3 is internally rotatably installed with a rotating rod 4. , blades 5 are fixed to the outer walls on the left and right sides of the rotating rod 4, a push rod 6 is fixed to the outer wall in the middle of the rotating rod 4, a knocking device 7 is arranged inside the insulation wall body 1, and an insulation device 8 is arranged on the side of the insulation wall body 1 away from the inner wall of the guide plate 3, the installation device 2 includes an I-shaped installation shell 21, a pressing block 22 is slidably installed on the front of the I-shaped installation shell 21, an L-shaped slide plate 24 is slidably installed on the front of the inner wall of the I-shaped installation shell 21, and the side of the L-shaped slide plate 24 away from the pressing block 22 is elastically connected to the inner wall of the I-shaped installation shell 21 through a spring, and the side of the L-shaped slide plate 24 close to the pressing block 22 is connected to the pressing block 2 2 is movably connected by a hinge rod 23, and a toothed clamping column 25 is fixed on the top of the L-shaped slide plate 24. The toothed clamping column 25 penetrates and is slidably installed on the inner wall of one side of the I-shaped installation shell 21 close to the pressing block 22. The toothed clamping column 25 is clamped and installed in the installation groove of the insulation wall body 1. The pressing block 22 cooperates with the hinge rod 23, so that the pressing block 22 pushes the L-shaped slide plate 24 to move away from the pressing block 22 through the hinge rod 23. The L-shaped slide plate 24 drives the toothed clamping column 25 to move and retract into the interior of the I-shaped installation shell 21, align the installation groove of the insulation wall body 1 with the toothed clamping column 25, and release the press. The pressing block 22, under the action of the spring elastic force reset, causes the L-shaped slide plate 24 to drive the toothed clamping column 25 to engage with the mounting groove of the insulation wall body 1, thereby achieving the purpose of quick installation of the insulation wall body 1. The mounting groove of the insulation wall body 1 matches the shape of the toothed clamping column 25. The side of the toothed clamping column 25 away from the pressing block 22 is cylindrical. At the same time, the pressing block 22 is lightly pressed to make the toothed part of the toothed clamping column 25 disengage from the mounting groove of the insulation wall body 1. The angle position of the insulation wall body 1 is rotated to achieve the purpose of adjusting the angle position of the insulation wall body 1, thereby improving the flexibility of insulation wall assembly.

The knocking device 7 includes a rubber bag 71, and there are two rubber bags 71. The two rubber bags 71 are respectively embedded in the left and right sides of the insulation wall body 1. An extrusion bag 72 is fixed on the opposite side of the two rubber bags 71. The interior of the rubber bag 71 is connected with the interior of the extrusion bag 72. During the flow of rainwater, the rainwater drives the rotating rod 4 to rotate through the blade 5, and the rotating rod 4 drives the push rod 6 to rotate. Through the cooperation between the push rod 6 and the resistance shaft rod 76, the push rod 6 pushes one end of the resistance shaft rod 76 to swing downward, and the other end of the resistance shaft rod 76 swings upward and pushes the sliding block 75 to move away from the guide plate 3. The sliding block 75 squeezes the spring plate 73 to deform, and the spring plate 73 squeezes the extrusion bag 72. The internal gas of the extrusion bag 72 enters the rubber bag 71, and the rubber bag 71 expands and adheres to the outer side of the I-shaped mounting shell 21, thereby avoiding the problem that rainwater flows into the room through the gap between the insulation wall body 1 and the I-shaped mounting shell 21 in rainy weather. A spring plate 73 is fixed to one side of the bag 71, a sliding block 75 is fixed to the side of the spring plate 73 close to the guide plate 3, a knocking block 74 is fixed to the side of the sliding block 75 close to the guide plate 3, the knocking block 74 contacts the inner wall of the insulation wall body 1, and the side of the sliding block 75 close to the guide plate 3 contacts one end of the abutment shaft 76, the middle part of the abutment shaft 76 penetrates and is rotatably installed on the face wall of the insulation wall body 1, and the other end of the abutment shaft 76 extends to the outside of the insulation wall body 1, through the abutment shaft 76. The contact shaft rod 76 cooperates with the sliding block 75, so that the contact shaft rod 76 pushes the sliding block 75 to move away from the guide plate 3. When the push rod 6 no longer pushes the contact shaft rod 76, under the elastic force of the spring plate 73, the sliding block 75 drives the knocking block 74 to knock on the inner wall of the insulation wall body 1, and the insulation wall body 1 vibrates, so that the insulation wall body 1 shakes off the rainwater attached thereto, thereby avoiding the problem of rainwater adhering to the insulation wall body 1 and reducing its insulation effect.

The insulation device 8 includes a No. 1 insulation coating plate 81 and a No. 2 insulation coating plate 82. The No. 1 insulation coating plate 81 is slidably installed at the bottom of the inner wall of the insulation wall body 1. A fixing rod is fixed on the side of the spring plate 73 away from the sliding block 75. The fixing rod of the spring plate 73 contacts the side of the No. 1 insulation coating plate 81 away from the trapezoidal block 83. The No. 2 insulation coating plate 82 is fixedly installed on the inner wall of the insulation wall body 1 away from the guide plate 3. The No. 1 insulation coating plate 81 and the No. 2 insulation coating plate 82 are fixed on the opposite side of the inner wall. The trapezoidal blocks 83 on the opposite side are elastically connected by spring sheets 84. The left and right sides of the trapezoidal block 83 connected to the No. 2 insulation coating plate 82 are fixed with elastic friction The wiping plate 85, the elastic friction plate 85 is in contact with the outer side of the spring piece 84 on one side close to the No. 1 thermal insulation coating plate 81. The outer side of the spring piece 84 is a rough surface with a large friction coefficient. During the process of the sliding block 75 squeezing the spring plate 73 to deform, the fixing rod of the spring plate 73 cooperates with the No. 1 thermal insulation coating plate 81, so that the fixing rod of the spring plate 73 pushes the No. 1 thermal insulation coating plate 81 to move in the opposite direction toward the No. 2 thermal insulation coating plate 82, and the spring piece 84 is squeezed and deformed. Under the cooperation of the spring piece 84 and the elastic friction plate 85, the elastic friction plate 85 generates heat by friction on the outer side of the spring piece 84, thereby avoiding the problem of heat loss of the thermal insulation wall body 1 on rainy days, thereby improving the thermal insulation effect of the thermal insulation wall body 1.

The trapezoidal block 83 connected to the second thermal insulation coating plate 82 is fixed with an elastic pull plate 87 on the side away from the second thermal insulation coating plate 82, and the trapezoidal block 83 connected to the first thermal insulation coating plate 81 is provided with a groove on the side away from the first thermal insulation coating plate 81, and a flap 88 is slidably installed inside the groove of the trapezoidal block 83 connected to the first thermal insulation coating plate 81, and the elastic pull plate 87 extends from the side of the second thermal insulation coating plate 82 to the inside of the groove of the trapezoidal block 83 connected to the first thermal insulation coating plate 81 and is fixedly connected to the flap 88, and a U-shaped rod is fixed on the side of the spring sheet 84 close to the elastic pull plate 87 86, the U-shaped rod 86 contacts the inner side of the elastic pull plate 87, and during the extrusion deformation process of the spring sheet 84, the spring sheet 84 drives the U-shaped rod 86 to move along, and through the cooperation between the U-shaped rod 86 and the elastic pull plate 87, the U-shaped rod 86 pulls the elastic pull plate 87, so that the elastic pull plate 87 drives the flap 88 to flip the air inside the trapezoidal block 83, and the trapezoidal block 83 inhales or ejects air, thereby promoting the heat exchange between the No. 1 thermal insulation coating plate 81 and the No. 2 thermal insulation coating plate 82, thereby ensuring the temperature balance between the No. 1 thermal insulation coating plate 81 and the No. 2 thermal insulation coating plate 82.

The pressing block 22 is pressed to cooperate with the hinge rod 23, so that the pressing block 22 pushes the L-shaped slide plate 24 to move away from the pressing block 22 through the hinge rod 23, and the L-shaped slide plate 24 drives the toothed clamping column 25 to move and retract into the interior of the I-shaped mounting shell 21, aligning the mounting groove of the thermal insulation wall body 1 with the toothed clamping column 25, and releasing the pressing block 22. Under the action of the spring elastic force reset, the L-shaped slide plate 24 drives the toothed clamping column 25 to engage with the mounting groove of the thermal insulation wall body 1, thereby achieving the purpose of quick installation of the thermal insulation wall body 1; at the same time, lightly press the pressing block 22, so that the toothed part of the toothed clamping column 25 is separated from the mounting groove of the thermal insulation wall body 1, and the angular position of the thermal insulation wall body 1 is rotated, so as to achieve the purpose of adjusting the angular position of the thermal insulation wall body 1, thereby improving the flexibility of thermal insulation wall assembly.

At the same time, when the insulation wall main body 1 is in rainy weather, the deflector 3 is set to block the rainwater flowing through the top of the building, thereby avoiding the rainwater directly pouring on the insulation wall main body 1 and reducing the insulation effect of the insulation wall main body 1; at the same time, during the flow of rainwater, the rainwater drives the rotating rod 4 to rotate through the blades 5, and the rotating rod 4 drives the push rod 6 to rotate, and the push rod 6 cooperates with the resistance shaft rod 76, so that the push rod 6 pushes one end of the resistance shaft rod 76 to swing downward, and the other end of the resistance shaft rod 76 swings upward and pushes the sliding block 75 to move away from the deflector 3, the sliding block 75 squeezes the spring plate 73 to deform, the spring plate 73 squeezes the extrusion bag 72, and the internal gas of the extrusion bag 72 enters the rubber bag 71, the rubber bag 71 expands and adheres to the outer side of the I-shaped mounting shell 21, thereby avoiding the problem that rainwater flows into the room through the gap between the insulation wall main body 1 and the I-shaped mounting shell 21 in rainy weather.

By cooperating with the axle rod 76 and the sliding block 75, the axle rod 76 pushes the sliding block 75 to move away from the guide plate 3. When the push rod 6 no longer pushes the axle rod 76, the sliding block 75 drives the knocking block 74 to knock on the inner wall of the insulation wall body 1 under the elastic force of the spring plate 73, and the insulation wall body 1 vibrates, so that the insulation wall body 1 shakes off the rainwater attached thereto, thereby avoiding the problem of rainwater adhering to the insulation wall body 1 and reducing its insulation effect.

During the process of the sliding block 75 squeezing the spring plate 73 to deform, the fixing rod of the spring plate 73 cooperates with the No. 1 thermal insulation coating plate 81, so that the fixing rod of the spring plate 73 pushes the No. 1 thermal insulation coating plate 81 to move in the opposite direction toward the No. 2 thermal insulation coating plate 82, and the spring piece 84 is squeezed and deformed. Under the cooperation of the spring piece 84 and the elastic friction plate 85, the elastic friction plate 85 generates heat by friction on the outer side of the spring piece 84, thereby avoiding the problem of heat loss of the insulation wall body 1 on rainy days, thereby improving the insulation effect of the insulation wall body 1.

At the same time, during the extrusion deformation process of the spring piece 84, the spring piece 84 drives the U-shaped rod 86 to move along, and through the cooperation between the U-shaped rod 86 and the elastic pull plate 87, the U-shaped rod 86 pulls the elastic pull plate 87, so that the elastic pull plate 87 drives the flap 88 to flip the air inside the trapezoidal block 83, and the trapezoidal block 83 inhales or ejects air, thereby promoting the heat exchange between the No. 1 thermal insulation coating plate 81 and the No. 2 thermal insulation coating plate 82, thereby ensuring the temperature balance between the No. 1 thermal insulation coating plate 81 and the No. 2 thermal insulation coating plate 82.

The above description is only a preferred specific implementation manner of the present invention, but the protection scope of the present invention is not limited thereto. Any technician familiar with the technical field can make equivalent replacements or changes according to the technical scheme and inventive concept of the present invention within the technical scope disclosed by the present invention, which should be covered by the protection scope of the present invention.

Claims (7)

1. The utility model provides a thermal insulation wall body that inner wall scribbled insulation material, includes thermal insulation wall main part (1), its characterized in that: the utility model discloses a heat preservation wall, including heat preservation wall main part (1), heat preservation wall main part (1) left side and right side all have been seted up the mounting groove, adjacent be provided with installation device (2) between heat preservation wall main part (1), the back top of heat preservation wall main part (1) is fixed with guide plate (3), the inside rotation of guide plate (3) is installed bull stick (4), the outer wall on the left side and the right side of bull stick (4) is fixed with blade (5), the middle part outer wall of bull stick (4) is fixed with push rod (6), the inside of heat preservation wall main part (1) is provided with rapping device (7), one side that heat preservation wall main part (1) kept away from guide plate (3) inner wall is provided with heat preservation device (8), installation device (2) are including worker's shape installation shell (21), the front run through and slidable mounting of worker's shape installation shell (21) is pressed briquetting (22), the positive slidable mounting of inner wall of worker's shape installation shell (21) has L shape slide (24), L shape slide (24) keep away from between one side and the inner wall of worker's installation shell (21) through spring coupling, be close to one side (24) is pressed between the articulated briquetting (25) and the back of worker's shape (24) through the slider, the pin joint is pressed by the briquetting (25), the tooth-shaped clamping columns (25) penetrate through and are slidably mounted on the inner wall of one side of the I-shaped mounting shell (21) close to the pressing block (22), and the tooth-shaped clamping columns (25) are mounted in the mounting groove of the heat preservation wall main body (1) in a clamping manner;

The knocking device (7) comprises rubber bags (71), the rubber bags (71) are two, the rubber bags (71) are respectively embedded in the left side and the right side of the heat-preserving wall main body (1), the two rubber bags (71) are respectively fixed with extrusion bags (72) on the opposite sides, one side, far away from the rubber bags (71), of each extrusion bag (72) is fixed with a spring plate (73), one side, close to the guide plate (3), of each spring plate (73) is fixed with a sliding block (75), one side, close to the guide plate (3), of each sliding block (75) is fixed with a knocking block (74), one side, close to the guide plate (3), of each sliding block (75) is in contact with one end of each abutting shaft rod (76), the middle part of each abutting shaft rod (76) penetrates through and is rotatably arranged on the surface wall of the heat-preserving wall main body (1), and the other end of each abutting shaft rod (76) extends to the outer side of the heat-preserving wall main body (1).

2. A thermal insulation wall with thermal insulation material coated on the inner wall according to claim 1, wherein: the heat preservation device (8) comprises a heat preservation coated plate (81) and a second heat preservation coated plate (82), the first heat preservation coated plate (81) is slidably mounted at the bottom of the inner wall of the heat preservation wall main body (1), the second heat preservation coated plate (82) is fixedly mounted on the inner wall of one side, far away from the guide plate (3), of the heat preservation wall main body (1), trapezoidal blocks (83) are fixed on the opposite side of the first heat preservation coated plate (81) and the second heat preservation coated plate (82), the opposite side of the trapezoidal blocks (83) is elastically connected through elastic sheets (84), and elastic friction plates (85) are fixedly arranged on the left side and the right side of the trapezoidal blocks (83) connected with the second heat preservation coated plate (82).

3. A thermal insulation wall with thermal insulation material coated on the inner wall according to claim 2, wherein: the trapezoid block (83) connected with the second heat-insulating coating plate (82) is fixed with an elastic pulling plate (87) on one side of the second heat-insulating coating plate (82), a groove is formed in one side of the trapezoid block (83) connected with the first heat-insulating coating plate (81) away from the first heat-insulating coating plate (81), a turning plate (88) is mounted in the groove of the trapezoid block (83) connected with the first heat-insulating coating plate (81) in a sliding mode, one side of the elastic pulling plate (87) away from the second heat-insulating coating plate (82) extends to the inside of the groove of the trapezoid block (83) connected with the first heat-insulating coating plate (81) and is fixedly connected with the turning plate (88), a U-shaped rod (86) is fixed on one side of the elastic sheet (84) close to the elastic pulling plate (87), and the U-shaped rod (86) is in contact with the inner side of the elastic pulling plate (87).

4. A thermal insulation wall body with an inner wall coated with a thermal insulation material according to claim 3, wherein: the mounting groove of the heat preservation wall main body (1) is matched with the shape of the tooth-shaped clamping column (25), and one side, far away from the pressing block (22), of the tooth-shaped clamping column (25) is cylindrical.

5. The heat preservation wall with heat preservation material coated on inner wall according to claim 4, wherein: one side of the abutting shaft lever (76) far away from the sliding block (75) is contacted with the outer side of the push rod (6).

6. A thermal insulation wall with thermal insulation material coated on the inner wall according to claim 5, wherein: the inside of rubber bag (71) link up with the inside of extrusion bag (72), the one side that sliding block (75) was kept away from to elastic plate (73) is fixed with the dead lever, the dead lever of elastic plate (73) and one side that trapezoidal piece (83) was kept away from to heat preservation coated sheet (81) contact.

7. The insulated wall with an inner wall coated with insulation material of claim 6, wherein: one side of the elastic friction plate (85) close to the first heat-insulating coating plate (81) is contacted with the outer side of the elastic sheet (84).