CN110107052B

CN110107052B - Heat-preservation ceramic tile

Info

Publication number: CN110107052B
Application number: CN201910407982.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Guangdong Guanxing Ceramics Enterprise Co ltd
Current assignee: GUANGDONG GUANXING CERAMICS ENTERPRISE Co.,Ltd.
Priority date: 2019-05-15
Filing date: 2019-05-15
Publication date: 2020-10-30
Anticipated expiration: 2039-05-15
Also published as: CN110107052A

Abstract

The invention belongs to the technical field of ceramic tiles, and particularly relates to an insulation ceramic tile, which comprises an insulation tile body; the heat-insulating brick body is provided with a dust exhaust hole, and the bottom end of the heat-insulating brick body is provided with a dust exhaust groove; a rubber layer is arranged on the inner wall of the dust exhaust hole, and a sector sealing plate is hinged on the outer wall of the rubber layer through a hinge column; the dust exhaust groove is uniformly provided with adsorption blocks, the upper end face and the lower end face of each adsorption block are provided with springs, and the upper ends of the springs are connected to the inner wall of the dust exhaust groove; the bottom end surface of the fan-shaped sealing plate is provided with an elastic pull rod, and the end part of the elastic pull rod is connected with a spring arranged on the upper surface of the adsorption block; the heat-insulating brick body is vibrated by the hitting of a basketball or the jumping impact force of basketball personnel, so that the dust accumulated on the upper surface of the heat-insulating brick body is cleaned, the heat-insulating brick body can have the function of self-cleaning the dust, and the using effect of the heat-insulating brick body is further influenced; prevent that the basketball from causing the dust on the insulating brick body to raise dust when hitting the bottom surface.

Description

Heat-preservation ceramic tile

Technical Field

The invention belongs to the technical field of ceramic tiles, and particularly relates to a heat-insulating ceramic tile.

Background

The ceramic tiles are classified according to the materials, and are divided into ceramic tiles according to the absorptivity, the water absorption rate is less than or equal to 0.5 percent, and the water absorption rate of the ceramic tiles is between 0.5 percent and 10 percent. The ceramic tiles are classified according to application characteristics and mainly classified into ceramic mosaic tiles, glazed interior wall tiles and ceramic wall and floor tiles. Because of their different properties, especially physical and chemical properties, their applications are endowed with many different effects, namely different functions and outstanding features. It exerts its great effect in different aspects.

When the existing heat-insulating ceramic tiles are paved for use, the service performance of the heat-insulating ceramic tiles is different due to different use environments and occasions; for example: use the heat preservation ceramic brick at indoor basketball court, because the heat preservation ceramic brick that indoor basketball court needs has certain elasticity, and the ceramic brick of the bottom surface of basketball court will remain clean environment all the time, prevent that basketball court bottom surface dust is more, when the basketball when the bottom surface striking, lead to the dust of bottom surface to take place the raise dust phenomenon easily, and then the travelling comfort of playing the basketball is influenced, influences the heat preservation effect of heat preservation ceramic brick simultaneously.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides the heat-insulation ceramic tile which is mainly used for solving the problems that the heat-insulation effect of the heat-insulation ceramic tile is influenced by excessive dust on the surface of the existing heat-insulation ceramic tile, and the capability of automatically cleaning the dust is difficult to realize when the heat-insulation ceramic tile is used in an indoor basketball court.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to an insulating ceramic tile, which comprises an insulating tile body; the heat-insulating brick body is provided with a dust exhaust hole, and the bottom end of the heat-insulating brick body is provided with a dust exhaust groove; a rubber layer is arranged on the inner wall of the dust exhaust hole, and a sector sealing plate is hinged to the outer wall of the rubber layer through a hinge column; the dust exhaust groove is internally and uniformly provided with adsorption blocks, the upper end face and the lower end face of each adsorption block are provided with springs, and the upper ends of the springs are connected to the inner wall of the dust exhaust groove; the bottom end surface of the fan-shaped sealing plate is provided with an elastic pull rod, and the end part of the elastic pull rod is connected with a spring arranged on the upper surface of the adsorption block; when the basketball system works, the heat-insulating brick bodies are uniformly laid in an indoor basketball court, because more people go in and out of the basketball court, dry dust gathered by the heat-insulating brick bodies in the basketball court is easily generated, when a basketball is beaten on the heat-insulating brick bodies or a basketball person jumps on the heat-insulating brick bodies, the heat-insulating brick bodies are easy to vibrate, the adsorption blocks uniformly arranged in the dust exhaust grooves are further enabled to shake up and down under the vibration of the heat-insulating brick bodies, when the adsorption blocks shake up and down, the springs connected on the adsorption blocks are driven to stretch and contract, when the adsorption blocks vibrate downwards, the springs are driven to stretch, as the end parts of the springs are connected with the elastic pull rods, the elastic pull rods move downwards, and then the elastic pull rods drive the fan-shaped sealing plates hinged on the rubber layers to move downwards, the closed fan-shaped sealing plates are opened, and then the dust falling in the dust exhaust holes can fall into the dust exhaust grooves through the opened fan-shaped sealing plates, and then beat through the basketball and make the insulating brick body produce the vibration or basketball personnel's jump impact, and then clear up the operation with the dust that insulating brick body upper surface gathered, make the insulating brick body can play the function of self-service washing dust, prevent that the dust of gathering on the insulating brick body is too much, and then influence the result of use of the insulating brick body, prevent simultaneously that indoor basketball court is too much because of the dust of gathering, and then influence basketball personnel's the travelling comfort of playing the basketball.

Preferably, the upper surface of the adsorption block is provided with an elastic rubber film, and the elastic rubber film is provided with an arc-shaped protruding layer which is positioned right below the dust exhaust hole; the lower end face of the adsorption block is provided with an arc-shaped extrusion film, and dust collection holes are uniformly formed in the adsorption block; when the dust exhaust device works, when the adsorption block shakes up and down in the dust exhaust groove, the arc-shaped convex layer arranged on the elastic rubber film is positioned right below the dust exhaust hole, and when the adsorption block vibrates downwards, the arc-shaped convex layer is driven by the elastic rubber film to be far away from the dust exhaust hole, so that the adsorption effect on the dust exhaust hole is generated, and the dust exhaust effect of the dust exhaust hole is accelerated; after the dust drops on the adsorption block, the vibration that sets up the elastic rubber membrane can the dust follow the downthehole bottom that drops the dust groove of dust absorption, adsorb the arc extrusion membrane that the piece lower extreme face set up simultaneously, can produce the motion that breaks away from the contact with the lower terminal surface in dust groove under the vibration that adsorbs the piece, when the arc extrusion membrane breaks away from the contact with the lower terminal surface in dust groove, can make the arc extrusion membrane produce adsorption efficiency, and then make the downthehole dust of dust absorption break away from the downthehole quick of dust absorption, prevent that the dust from producing the phenomenon of jam in the dust absorption hole.

Preferably, the elastic pull rod is provided with a plastic sheet, and the end part of the plastic sheet is contacted with the rubber layer; when the heat insulation brick works, when the elastic pull rod moves up and down under the action of the spring, plastic sheets arranged on the elastic pull rod in a mixed mode can rub the rubber layer, so that the rubber layer generates certain heat, the heat insulation effect of the heat insulation brick body is further improved, meanwhile, the rubber layer is heated, and the phenomenon that water drunk by basketball personnel drips into the dust exhaust holes and dust is adsorbed in the dust exhaust holes is avoided; the plastic sheet arranged on the elastic pull rod prevents the elastic pull rod from rubbing the rubber layer, so that the service life of the elastic pull rod is influenced; the elastic pull rod of up-and-down motion can drive the plastic sheet and produce the up-and-down motion, can play the effect of stirring to the dust of fan-shaped closing plate bottom, prevents that the dust from producing at fan-shaped closing plate lower extreme and piling up the phenomenon, and then influences the effect that fan-shaped closing plate opened.

Preferably, the adsorption blocks uniformly arranged in the dust exhaust groove are all connected through flexible corrugated pipes, and the flexible corrugated pipes are made of metal copper materials; a plastic foam ball is arranged in the flexible corrugated pipe; the adsorption blocks at the two ends of the dust exhaust groove are connected to the inner wall of the dust exhaust groove through flexible corrugated pipes; when the flexible corrugated pipe type heat insulation brick works, the flexible corrugated pipe can be driven to swing up and down when the adsorption block vibrates up and down, and then other adsorption blocks connected through the flexible corrugated pipe can move together when the adsorption block at the local position of the heat insulation brick body moves up and down, so that the dust adsorption area of the heat insulation brick body is increased; meanwhile, the plastic foam balls arranged in the flexible corrugated pipe can mutually generate extrusion friction when the flexible corrugated pipe swings up and down, and can generate heat when the plastic foam balls rub, so that the effect of the heat-insulating wall at the bottom of the heat-insulating brick body is further improved; meanwhile, the heat generated by the friction of the plastic foam balls heats the adsorption blocks, so that moist dust is prevented from being adhered in the dust absorption holes, and the dust absorption effect of the dust absorption holes is further influenced.

Preferably, the bottom end of the flexible corrugated pipe is connected with a T-shaped sliding column, and a pressure spring is sleeved on the T-shaped sliding column; the end part of the dust exhaust groove is provided with a sliding cavity, and a T-shaped sliding column is inserted in the sliding cavity; a dust collecting cavity is formed below the dust discharging groove at the bottom end of the heat-insulating brick body and is communicated with the dust discharging groove through a through hole; the side wall of the dust collection cavity is communicated with the sliding cavity through a dust collection inclined hole; when the dust collector works, when the flexible corrugated pipe at the end part of the adsorption block swings, the T-shaped sliding column is driven to slide up and down in the sliding cavity, when the T-shaped sliding column slides upwards, air is further extracted into the dust collection cavity through the dust collection inclined hole, the dust collection cavity is communicated with the dust discharge groove through the through hole, and then dust collected on the bottom end face of the dust discharge groove is sucked into the dust collection cavity, so that the dust is collected, and the excessive dust in the dust discharge groove is prevented from affecting the dust adsorption effect of the adsorption block; meanwhile, the dust which is collected and spread in the dust collecting cavity can play a role in heat preservation on the heat-preservation brick body; the pressure spring that sets up can play reciprocating motion's effect to T shape slip post.

Preferably, the tension springs arranged at the bottom end of the adsorption block are respectively positioned at two sides of the through hole; the convex surface of the arc-shaped extrusion film is positioned right above the through hole, and the top end of the through hole is obliquely provided with a convex thorn; when the dust collection device works, the arc-shaped extrusion film at the bottom end of the dust collection block can be extruded when the adsorption block moves up and down, and when the dust collection block moves down, dust falling at the bottom end in the dust discharge groove can be pushed into the dust collection cavity from the through hole through the extrusion force of the arc-shaped extrusion film, so that the dust in the dust discharge groove can quickly fall into the dust collection cavity; the protruding thorn that the slope set up simultaneously produces the shake phenomenon when making arc extrusion film downstream, prevents to lead to the dust to bond the phenomenon at absorption piece bottom end face because of arc extrusion film extrusion force is too big, leads to the thickness increase of absorption piece, and then influences the upper and lower vibration distance and the effect of adsorbing the piece.

The invention has the following beneficial effects:

1. according to the invention, through the arranged adsorption blocks, when a basketball is beaten on the heat-insulating brick body or a basketball worker jumps on the heat-insulating brick body, the heat-insulating brick body is easy to vibrate, so that the adsorption blocks uniformly arranged in the dust exhaust groove vibrate up and down under the vibration of the heat-insulating brick body, and further the dust accumulated on the upper surface of the heat-insulating brick body is cleaned, so that the heat-insulating brick body can have a function of self-cleaning the dust, and the excessive dust accumulated on the heat-insulating brick body is prevented from influencing the use effect of the heat-insulating brick body; meanwhile, the dust on the heat insulation brick body is prevented from flying due to excessive dust on the bottom surface when the basketball is hit on the bottom surface.

According to the invention, through the arranged flexible corrugated pipe, when the adsorption block vibrates up and down, the flexible corrugated pipe is driven to swing up and down, and further when the adsorption block at the local position of the insulating brick body moves up and down, other adsorption blocks connected through the flexible corrugated pipe move together, so that the dust adsorption area of the insulating brick body is increased; simultaneously, the plastic foam balls arranged in the flexible corrugated pipe can enable the plastic foam balls to generate extrusion friction mutually when the flexible corrugated pipe swings up and down, and heat can be generated when the plastic foam balls rub, so that the effect of the heat-insulating wall at the bottom of the heat-insulating brick body is further improved.

Drawings

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

FIG. 1 is a front view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of a portion of the invention at B in FIG. 1;

in the figure: the heat-insulating brick comprises a heat-insulating brick body 1, a dust exhaust hole 11, a dust exhaust groove 12, a sliding cavity 13, a dust collection cavity 14, a through hole 15, a dust collection inclined hole 16, a protrusion spine 17, a rubber layer 2, a hinge column 3, a sector sealing plate 4, an adsorption block 5, an elastic rubber film 51, an arc protrusion layer 52, an arc extrusion film 53, a dust collection hole 54, a spring 6, an elastic pull rod 7, a plastic sheet 71, a flexible corrugated pipe 8, a plastic foam ball 9, a T-shaped sliding column 101 and a pressure spring 102.

Detailed Description

An insulating ceramic tile according to an embodiment of the present invention will be described below with reference to fig. 1 to 3.

As shown in FIG. 1, the heat-insulating ceramic tile of the present invention comprises a heat-insulating tile body 1; the heat-insulating brick body 1 is provided with a dust exhaust hole 11, and the bottom end of the heat-insulating brick body 1 is provided with a dust exhaust groove 12; the inner wall of the dust exhaust hole 11 is provided with a rubber layer 2, and the outer wall of the rubber layer 2 is hinged with a sector sealing plate 4 through a hinge column 3; the dust exhaust groove 12 is internally and uniformly provided with adsorption blocks 5, the upper end face and the lower end face of each adsorption block 5 are provided with springs 6, and the upper ends of the springs 6 are connected to the inner wall of the dust exhaust groove 12; the bottom end surface of the fan-shaped sealing plate 4 is provided with an elastic pull rod 7, and the end part of the elastic pull rod 7 is connected with a spring 6 arranged on the upper surface of the adsorption block 5; when the basketball court is in work, the heat insulation brick bodies 1 are uniformly laid in an indoor basketball court, because more people go in and out of the basketball court, dry dust gathered by the heat insulation brick bodies 1 in the basketball court is more easily caused, when a basketball is beaten on the heat insulation brick bodies 1 or a basketball person jumps on the heat insulation brick bodies 1, the heat insulation brick bodies 1 easily vibrate, the adsorption blocks 5 uniformly arranged in the dust exhaust grooves 12 vibrate up and down under the vibration of the heat insulation brick bodies 1, when the adsorption blocks 5 vibrate up and down, the springs 6 connected on the adsorption blocks 5 are driven to stretch and contract, when the adsorption blocks 5 vibrate down, the springs 6 are driven to stretch, because the end parts of the springs 6 are connected with the elastic pull rods 7, the elastic pull rods 7 move down, and the elastic pull rods 7 drive the fan-shaped sealing plates 4 hinged on the rubber layers 2 to move down, open closed fan-shaped closing plate 4, and then make the dust that drops in dust exhaust hole 11 can drop in dust exhaust groove 12 through the fan-shaped closing plate 4 of opening, and then beat through the basketball and make the insulating brick body 1 produce the vibration with the jump impact of basketball personnel, and then clear up the operation with the dust that the insulating brick body 1 upper surface gathered, make the insulating brick body 1 can play the function of self-service washing dust, it is too much to prevent the dust of gathering on the insulating brick body 1, and then influence the result of use of the insulating brick body 1, prevent simultaneously that indoor basketball court is too much because of the dust of gathering, and then influence basketball personnel's the travelling comfort of playing the basketball.

As shown in fig. 1 and 2, an elastic rubber film 51 is disposed on the upper surface of the adsorption block 5, and an arc-shaped protrusion layer 52 is disposed on the elastic rubber film 51, and the arc-shaped protrusion layer 52 is located right below the dust exhaust hole 11; the lower end surface of the adsorption block 5 is provided with an arc-shaped extrusion film 53, and the adsorption block 5 is uniformly provided with dust collection holes 54; when the dust exhaust device works, when the adsorption block 5 shakes up and down in the dust exhaust groove 12, the arc-shaped convex layer 52 arranged on the elastic rubber film 51 is positioned right below the dust exhaust hole 11, and when the adsorption block 5 vibrates downwards, the arc-shaped convex layer 52 is driven by the elastic rubber film 51 to be far away from the dust exhaust hole 11, so that the adsorption effect on the dust exhaust hole 11 is generated, and the dust exhaust effect of the dust exhaust hole 11 is accelerated; after the dust drops on adsorbing piece 5, the bottom that dust exhaust groove 12 was dropped from dust absorption hole 54 to the vibration that sets up elastic rubber membrane 51, adsorb the arc extrusion membrane that the terminal surface set up under piece 5 simultaneously, can produce the motion that breaks away from the contact with dust exhaust groove 12's lower terminal surface under adsorbing piece 5's vibration, when the contact was taken off with dust exhaust groove 12's lower terminal surface to the arc extrusion membrane, can make the arc extrusion membrane produce adsorption efficiency, and then make the dust in the dust absorption hole 54 break away from in dust absorption hole 54 fast, prevent that the dust from producing the phenomenon of jam in dust absorption hole 54.

As shown in fig. 2, a plastic sheet 71 is disposed on the elastic pull rod 7, and an end of the plastic sheet 71 is in contact with the rubber layer 2; when the heat insulation brick works, when the elastic pull rod 7 moves up and down under the action of the spring 6, the plastic sheets 71 arranged on the elastic pull rod 7 in a mixed manner can rub the rubber layer 2, so that the rubber layer 2 generates certain heat, the heat insulation effect of the heat insulation brick body 1 is further improved, meanwhile, the rubber layer 2 is heated, and the phenomenon that water drunk by basketball personnel drops into the dust exhaust holes 11 to adsorb dust in the dust exhaust holes 11 is avoided; the plastic sheet 71 arranged on the elastic pull rod 7 prevents the elastic pull rod 7 from rubbing the rubber layer 2, thereby influencing the service life of the elastic pull rod 7; the elastic pull rod 7 moving up and down can drive the plastic sheet 71 to move up and down, so that the effect of stirring the dust at the bottom end of the fan-shaped sealing plate 4 can be achieved, the dust is prevented from being accumulated at the lower end of the fan-shaped sealing plate 4, and the effect of opening the fan-shaped sealing plate 4 is further influenced.

As shown in fig. 1, the adsorption blocks 5 uniformly arranged in the dust exhaust groove 12 are all connected by flexible corrugated pipes 8, and the flexible corrugated pipes 8 are made of metal copper material; a plastic foam ball 9 is arranged in the flexible corrugated pipe 8; the adsorption blocks 5 at two ends of the dust exhaust groove 12 are connected to the inner wall of the dust exhaust groove 12 through a flexible corrugated pipe 8; when the heat-insulating brick works, when the adsorption block 5 vibrates up and down, the flexible corrugated pipe 8 is driven to swing up and down, and further when the adsorption block 5 at the local position of the heat-insulating brick body 1 moves up and down, other adsorption blocks 5 connected through the flexible corrugated pipe 8 move together, so that the dust adsorption area of the heat-insulating brick body 1 is increased; meanwhile, the plastic foam balls 9 arranged in the flexible corrugated pipe 8 can enable the plastic foam balls 9 to generate extrusion friction when the flexible corrugated pipe 8 swings up and down, and can generate heat when the plastic foam balls 9 rub, so that the effect of the heat-insulating wall at the bottom of the heat-insulating brick body 1 is further improved; meanwhile, the heat generated by the friction of the plastic foam ball 9 heats the adsorption block 5, so that damp dust is prevented from being adhered in the dust suction hole 54, and the dust suction effect of the dust suction hole 54 is further influenced.

As shown in fig. 1, the bottom end of the flexible corrugated pipe 8 is connected with a T-shaped sliding column 101, and a pressure spring 102 is sleeved on the T-shaped sliding column 101; a sliding cavity 13 is formed in the end of the dust exhaust groove 12, and a T-shaped sliding column 101 is inserted in the sliding cavity 13; a dust collection chamber 14 is arranged below the dust discharge groove 12 at the bottom end of the heat insulation brick body 1, and the dust collection chamber 14 is communicated with the dust discharge groove 12 through a through hole 15; the side wall of the dust collection cavity 14 is communicated with the sliding cavity 13 through a dust collection inclined hole 16; when the dust collector works, when the flexible corrugated pipe 8 at the end part of the adsorption block 5 swings, the T-shaped sliding column is driven to slide up and down in the sliding cavity 13, when the T-shaped sliding column 101 slides upwards, air is further extracted into the dust collection cavity 14 through the dust collection inclined hole 16, the dust collection cavity 14 is communicated with the dust discharge groove 12 through the through hole 15, and then dust collected on the bottom end face of the dust discharge groove 12 is sucked into the dust collection cavity 14, so that dust is collected, excessive dust in the dust discharge groove 12 is prevented, and the effect of the adsorption block 5 on dust is further influenced; meanwhile, the dust which is gathered and spread in the dust collection cavity 14 can play a role of heat preservation on the heat preservation brick body 1; the compression spring 102 is provided to have a reciprocating effect on the T-shaped sliding column 101.

As shown in fig. 1 and 3, the tension springs disposed at the bottom end of the adsorption block 5 are respectively located at two sides of the through hole 15; the convex surface of the arc-shaped extrusion film is positioned right above the through hole 15, and the top end of the through hole 15 is obliquely provided with a convex thorn 17; when the dust collection device works, when the adsorption block 5 moves up and down, the arc-shaped extrusion film at the bottom end of the dust collection block is extruded, when the dust collection block moves down, dust falling at the bottom end in the dust discharge groove 12 is pushed into the dust collection cavity 14 from the through hole 15 through the extrusion force of the arc-shaped extrusion film, and then the dust in the dust discharge groove 12 quickly falls into the dust collection cavity 14; the protruding thorn 17 that the slope set up simultaneously produces the shake phenomenon when making arc extrusion film 53 downstream, prevents to lead to the dust to bond the phenomenon at adsorbing piece 5 bottom end face because of arc extrusion film 53 extrusion force is too big, leads to adsorbing the thickness increase of piece 5, and then influences the upper and lower vibration distance and the effect that adsorb piece 5.

The specific working process is as follows:

when the basketball court is in work, the heat insulation brick bodies 1 are uniformly laid in an indoor basketball court, because more people go in and out of the basketball court, dry dust gathered by the heat insulation brick bodies 1 in the basketball court is more easily caused, when a basketball is beaten on the heat insulation brick bodies 1 or a basketball person jumps on the heat insulation brick bodies 1, the heat insulation brick bodies 1 easily vibrate, the adsorption blocks 5 uniformly arranged in the dust exhaust grooves 12 vibrate up and down under the vibration of the heat insulation brick bodies 1, when the adsorption blocks 5 vibrate up and down, the springs 6 connected on the adsorption blocks 5 are driven to stretch and contract, when the adsorption blocks 5 vibrate down, the springs 6 are driven to stretch, because the end parts of the springs 6 are connected with the elastic pull rods 7, the elastic pull rods 7 move down, and the elastic pull rods 7 drive the fan-shaped sealing plates 4 hinged on the rubber layers 2 to move down, open closed fan-shaped closing plate 4, and then make the dust that drops in dust exhaust hole 11 can drop in dust exhaust groove 12 through the fan-shaped closing plate 4 of opening, and then beat through the basketball and make the insulating brick body 1 produce the vibration with the jump impact of basketball personnel, and then clear up the operation with the dust that the insulating brick body 1 upper surface gathered, make the insulating brick body 1 can play the function of self-service washing dust, it is too much to prevent the dust of gathering on the insulating brick body 1, and then influence the result of use of the insulating brick body 1, prevent simultaneously that indoor basketball court is too much because of the dust of gathering, and then influence basketball personnel's the travelling comfort of playing the basketball.

In the description of the present invention, it is to be understood that the terms "center", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the present invention.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. An insulating ceramic tile is characterized in that: comprises a heat-insulating brick body (1); the heat-insulating brick body (1) is provided with a dust exhaust hole (11), and the bottom end of the heat-insulating brick body (1) is provided with a dust exhaust groove (12); the inner wall of the dust exhaust hole (11) is provided with a rubber layer (2), and the outer wall of the rubber layer (2) is hinged with a sector sealing plate (4) through a hinge column (3); the dust exhaust groove (12) is internally and uniformly provided with adsorption blocks (5), the upper end face and the lower end face of each adsorption block (5) are provided with springs (6), and the upper ends of the springs (6) are connected to the inner wall of the dust exhaust groove (12); an elastic pull rod (7) is arranged on the bottom end face of the fan-shaped sealing plate (4), and the end part of the elastic pull rod (7) is connected with a spring (6) arranged on the upper surface of the adsorption block (5);

the heat-insulating brick body (1) is vibrated by hitting of a basketball or jumping impact force of basketball personnel, when the adsorption block (5) vibrates downwards, the adsorption block can drive the spring (6) to stretch, the elastic pull rod (7) is connected to the end part of the spring (6), the elastic pull rod (7) moves downwards, the elastic pull rod (7) drives the fan-shaped sealing plate (4) hinged to the rubber layer (2) to move downwards, the closed fan-shaped sealing plate (4) is opened, and then dust gathered on the upper surface of the heat-insulating brick body (1) is cleaned, so that the heat-insulating brick body (1) can have the function of cleaning the dust by self;

an elastic rubber film (51) is arranged on the upper surface of the adsorption block (5), an arc-shaped protruding layer (52) is arranged on the elastic rubber film (51), and the arc-shaped protruding layer (52) is positioned right below the dust exhaust hole (11); an arc-shaped extrusion film (53) is arranged on the lower end face of the adsorption block (5), and dust collection holes (54) are uniformly formed in the adsorption block (5);

a plastic sheet (71) is arranged on the elastic pull rod (7), and the end part of the plastic sheet (71) is contacted with the rubber layer (2);

the adsorption blocks (5) uniformly arranged in the dust exhaust groove (12) are all connected through flexible corrugated pipes (8), and the flexible corrugated pipes (8) are made of metal copper materials; a plastic foam ball (9) is arranged in the flexible corrugated pipe (8); the adsorption blocks (5) at the two ends of the dust exhaust groove (12) are connected to the inner wall of the dust exhaust groove (12) through a flexible corrugated pipe (8);

the bottom end of the flexible corrugated pipe (8) is connected with a T-shaped sliding column (101), and a pressure spring (102) is sleeved on the T-shaped sliding column (101); a sliding cavity (13) is formed in the end part of the dust exhaust groove (12), and a T-shaped sliding column (101) is inserted in the sliding cavity (13); a dust collection chamber (14) is arranged below the dust discharge groove (12) at the bottom end of the heat insulation brick body (1), and the dust collection chamber (14) is communicated with the dust discharge groove (12) through a through hole (15); the side wall of the dust collection cavity (14) is communicated with the sliding cavity (13) through an inclined dust collection hole (16).

2. An insulating ceramic tile as claimed in claim 1, wherein: the tension springs arranged at the bottom end of the adsorption block (5) are respectively positioned at two sides of the through hole (15); the convex surface of the arc-shaped extrusion film is positioned right above the through hole (15), and the top end of the through hole (15) is obliquely provided with a convex thorn (17).