CN117846242A - Be applied to building heat preservation decorative board fixed connection device - Google Patents

Abstract

The invention discloses a fixed connection device applied to a building heat-insulating decorative plate, which relates to the technical field of building heat-insulating decorative plates and comprises a fixed connection mechanism, wherein two auxiliary mechanisms are arranged on the fixed connection mechanism, each auxiliary mechanism comprises a connecting block, a first sealing ring is arranged in each first annular groove, a filter plate is arranged in each mounting hole, a second sealing ring is arranged in each second annular groove, two clamping plates are arranged in two symmetrical limiting grooves, and an ultrafiltration membrane is arranged between each two clamping plates.

Description

Be applied to building heat preservation decorative board fixed connection device

Technical Field

The invention relates to the technical field of building heat-insulating decorative plates, in particular to a fixing and connecting device applied to a building heat-insulating decorative plate.

Background

The building heat-insulating decorative board is also called an external wall heat-insulating and decorating integrated board, and is an integrated board which is formed from heat-insulating material and decorative board, etc. and has heat-insulating and decorating functions, and its heat-insulating layer adopts heat-insulating material of polystyrene board, extruded sheet and rock wool board, etc. and its decorative board can adopts ceramic board, aluminium board, stone material and glass, etc. and its fixing connection device is a device for fixing heat-insulating decorative board on the external wall of building.

In the actual use process, although the existing fixed connection device used between the building heat-insulating decorative board and the building outer wall can stably fix the building heat-insulating board on the building outer wall, the heat bridge effect generated by the fixed connection device during use cannot be treated, so that the building heat-insulating decorative board is caused to have overlarge local temperature difference due to the heat bridge effect, the heat-insulating effect is influenced, meanwhile, the heat stability of the heat-insulating material is reduced due to overlarge local temperature difference, the cracking, falling and other problems of the building heat-insulating decorative board are caused easily, the heat-insulating effect is reduced again, namely the use effect of the fixed connection device is reduced, and the use efficiency of the fixed connection device is reduced.

Therefore, a new fixing and connecting device for a building insulation decorative board needs to be provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a fixed connection device applied to a building heat-insulating decorative plate, which is used for solving the problems that the fixed connection device used between the existing building heat-insulating decorative plate and the building outer wall provided by the background technology cannot treat the thermal bridge effect generated by the fixed connection device during use, so that the building heat-insulating decorative plate is excessively large in local temperature difference due to the thermal bridge effect to influence the heat-insulating effect, meanwhile, the thermal stability of a heat-insulating material is reduced due to the excessively large local temperature difference, the building heat-insulating decorative plate is easy to crack, fall off and the like, and then the heat-insulating effect is reduced again, namely the use effect of the fixed connection device is reduced, and meanwhile, the use efficiency of the fixed connection device is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the fixing and connecting device applied to the building heat-insulating decorative plate comprises a fixing and connecting mechanism, wherein two auxiliary mechanisms are arranged on the fixing and connecting mechanism;

every auxiliary mechanism all includes the connecting block, every the outer wall of connecting block is close to both sides position and has all seted up first ring channel, every the inside of first ring channel is all installed first sealing ring, and two the first air vent has all been seted up to one side of connecting block, every two symmetrical mounting holes have all been seted up to the inner wall of first air vent, every the second ring channel has all been seted up to the positive surface of connecting block, every the second vent hole has all been seted up to the inner wall of second ring channel, every the filter has all been placed to the inside of mounting hole, every the inside of first air vent, the inside of second vent hole and the inside of second ring channel between all install the concave block, every the inside of second ring channel is all installed the second sealing ring, every the mounting groove is all seted up two symmetrical mounting grooves, four the mounting groove divide into two sets of altogether between the inner wall of mounting groove, every the connecting hole has all been seted up to the inner wall top of mounting groove and the inner wall bottom of every mounting groove all have two limit clamping plates, two limit plates have two limit plates.

Preferably, the two first vent holes are respectively communicated with the two second vent holes, the four filter plates are divided into two groups, the same end of each group of filter plates is respectively embedded in the inner wall of each first vent hole in a sliding manner, and the two second sealing rings are respectively fixedly sleeved on the outer surfaces of the two concave blocks.

Preferably, the fixed connection mechanism comprises a building outer wall, a filling layer is arranged on the front surface of the building outer wall, the front surface of the filling layer is connected with a heat-insulation decorative plate body in an adhering mode, two clamping grooves are formed in two sides of the heat-insulation decorative plate body and two sides of the filling layer, eight clamping grooves are divided into four groups, and a first clamping block is arranged between the inner parts of the clamping grooves.

Preferably, the surface of each first fixture block is provided with a first rectangular hole, the outer wall of each first sealing ring is respectively contacted with the inner wall of each first rectangular hole and the surface of each second fixture block, the inside of each first rectangular hole is respectively connected with a second fixture block in a sliding manner, and each second fixture block is respectively installed with each first fixture block through a first screw.

Preferably, one end of each second clamping block is slidably embedded in the inner wall of each clamping groove, the four first clamping blocks are divided into two groups, the opposite sides of each group of the first clamping blocks are provided with first annular holes, and the four clamping grooves are provided with second annular holes.

Preferably, the four first annular holes are divided into two groups, each group of the first annular holes are respectively communicated with each second annular hole, a single-head screw rod movably penetrates through the surface of each first clamping block, cylindrical holes are formed in the inner wall of each first annular hole and the surface of each second clamping block, the circle centers of every two cylindrical holes are located on the same horizontal line, and a connecting rod is fixed at one end of each single-head screw rod.

Preferably, each connecting rod is located in each first annular hole, each connecting rod is fixedly sleeved with a gear on the outer surface of each connecting rod, a limiting block is installed between each two first annular holes and each second annular holes, and the front surface of each gear is in contact with the front surface of the inner wall of each limiting block.

Preferably, the second rectangular holes are formed between every two of the other four clamping grooves, wherein limit holes are formed in the inner walls of the four clamping grooves, single-hole blocks are movably sleeved between the inner portions of the limit holes, the front surface of the heat-insulation decorative plate body is provided with a protection frame, and the front surfaces of the four single-hole blocks are fixed with the surface of the protection frame.

Preferably, the four single-hole blocks are respectively arranged on the four first clamping blocks through second screws, the surfaces of the first clamping blocks are respectively and adhesively connected with single-hole pads, the single-head screw rods are respectively and movably sleeved in the single-hole pads, and sealing plugs are respectively arranged in the through holes of the second clamping blocks and the through holes of the single-hole blocks.

Preferably, each connecting block is respectively located between the inside of every two first rectangular holes and the inside of every second rectangular hole, the front surfaces of the two connecting blocks are in contact with the rear surface of the heat-insulation decorative plate body, the four second clamping blocks are divided into two groups, and each connecting block is respectively installed with the surface of each group of second clamping blocks through a third screw.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention can solve the problem that the heat preservation effect of the building heat preservation decorative board is reduced due to the heat bridge effect when the fixed connecting device is used, and can also improve the service life of the building heat preservation decorative board, namely improve the service efficiency of the fixed connecting device.

2. According to the invention, under the cooperation of the first sealing ring, the connecting block, the second sealing ring and the concave block, the water mixed in the air in the ventilation process can enter the heat-insulating decorative plate body, namely the service life of the building heat-insulating decorative plate is prolonged, and meanwhile, the water in the air can be filtered and separated and guided away under the cooperation of the ultrafiltration membranes and the first ventilation holes, so that the condition that the water in the air accelerates the corrosion of the concave block is reduced.

3. The invention can fix the plate body formed by the filling layer and the heat-insulating decorative plate body on the outer wall of the building by arranging the fixing connection mechanism, when the plate body formed by the filling layer and the heat-insulating decorative plate body is required to be fixed on the outer wall of the building, the plate body formed by the filling layer and the heat-insulating decorative plate body can be fixed on the outer wall of the building by firstly utilizing the single-head screw rod, the connecting rod, the clamping groove and the gear, the prepared screw groove, the prepared tool and the first annular hole to cooperate, and then the stability of the fixed building heat-insulating decorative plate can be further improved by utilizing the first screw, the second clamping block and the first rectangular hole to cooperate, and then the gear can be prevented from rotating.

Drawings

FIG. 1 is a perspective view of a fixing and connecting device applied to a building heat-insulating decorative board;

FIG. 2 is an enlarged perspective view of the portion A of FIG. 1 applied to a fixing and connecting device for a building thermal insulation decorative plate according to the present invention;

FIG. 3 is a perspective view of an auxiliary mechanism part of the present invention applied to a fixed connection device of a building insulation decorative board;

FIG. 4 is a side view partially in perspective of a fixed connection device for a building insulation decorative panel according to the present invention;

FIG. 5 is another perspective view of an auxiliary mechanism for a building insulation decorative panel fixing and connecting device according to the present invention;

FIG. 6 is a partial perspective view of a fixing and connecting device for a building insulation decorative plate according to the present invention;

FIG. 7 is another perspective view of an angle section of a fixed connection device for a building insulation decorative panel according to the present invention;

FIG. 8 is a schematic perspective view of a second fixture block and cylindrical hole of the present invention applied to a fixing and connecting device for a thermal insulation decorative board of a building;

FIG. 9 is a schematic perspective view of a single-head screw rod, connecting rod and gear for a fixed connection device of a building insulation decorative plate;

FIG. 10 is a schematic perspective view of a protective frame and a single hole block of the present invention applied to a fixing and connecting device for a thermal insulation decorative board of a building;

FIG. 11 is another perspective view of a fixed connection device for a building insulation decorative panel according to the present invention;

fig. 12 is a perspective view of a limiting block applied to a fixing and connecting device of a building heat-insulating decorative plate.

In the figure: 1. a fixed connection mechanism; 101. an outer wall of a building; 102. a filling layer; 103. a heat-insulating decorative plate body; 104. a clamping groove; 105. a first clamping block; 106. a first rectangular hole; 107. a second clamping block; 108. a first annular aperture; 109. a single-head screw rod; 110. a cylindrical hole; 111. a connecting rod; 112. a limiting block; 113. a second rectangular hole; 114. a limiting hole; 115. a protective frame; 116. a single hole block; 117. shan Kongdian; 118. a gear; 119. a sealing plug; 120. a second annular aperture; 2. an auxiliary mechanism; 201. a connecting block; 202. a first annular groove; 203. a first seal ring; 204. a mounting hole; 205. a filter plate; 206. a first vent hole; 207. a second annular groove; 208. a second vent hole; 209. a concave block; 210. a second seal ring; 211. a mounting groove; 212. a connection hole; 213. a limit groove; 214. a clamping plate; 215. ultrafiltration membranes.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-12, the present invention provides a technical solution: the utility model provides a be applied to building heat preservation decorative board fixed connection device, includes fixed connection mechanism 1, sets up two complementary unit 2 on the fixed connection mechanism 1;

each auxiliary mechanism 2 comprises a connecting block 201, first annular grooves 202 are formed in positions, close to two sides, of the outer wall of each connecting block 201, first sealing rings 203 are mounted in each first annular groove 202, first vent holes 206 are formed in one sides of each connecting block 201, two symmetrical mounting holes 204 are formed in the inner wall of each first vent hole 206, second annular grooves 207 are formed in the front surface of each connecting block 201, second vent holes 208 are formed in the inner wall of each second annular groove 207, filter plates 205 are mounted in the inner portions of each mounting holes 204, concave blocks 209 are mounted in the inner portions of each first vent hole 206, second sealing rings 210 are mounted in the inner portions of each second annular groove 207, two symmetrical mounting grooves 211 are formed in the rear surface of each connecting block 201, four mounting grooves 211 are divided into two groups, connecting holes 212 are formed in the inner walls of each group of mounting grooves 211, two limiting plates 213 are formed in the top portions of each mounting groove 211 and the bottom portions of each mounting groove 211, and two limiting plates 214 are mounted in the two limiting plates 213 are mounted in the inner portions of each second annular groove 207.

According to the embodiments shown in fig. 3-5, two first ventilation holes 206 are respectively communicated with two second ventilation holes 208, four filter plates 205 are divided into two groups, the same ends of each group of filter plates 205 are respectively embedded in the inner wall of each first ventilation hole 206 in a sliding manner, and two second sealing rings 210 are respectively fixedly sleeved on the outer surfaces of two concave blocks 209, so that the tightness between the concave blocks 209 and the second ventilation holes 208 can be improved under the action of the second sealing rings 210.

According to the embodiment shown in fig. 1, fig. 2, fig. 6, fig. 7 and fig. 11, the fixing and connecting mechanism 1 comprises a building outer wall 101, a filling layer 102 is arranged on the front surface of the building outer wall 101, the front surface of the filling layer 102 is connected with a heat-insulation decorative plate body 103 in an adhering manner, two clamping grooves 104 are respectively formed in two sides of the heat-insulation decorative plate body 103 and two sides of the filling layer 102, eight clamping grooves 104 are divided into four groups, a first clamping block 105 is respectively arranged between the inner parts of each group of clamping grooves 104, and the building heat-insulation decorative plate can be conveniently fixed on the building outer wall 101 under the cooperation of the first clamping block 105, a gear 118, a connecting rod 111 and a single-head screw rod 109.

According to the first rectangular holes 106 are formed in the surface of each first clamping block 105 as shown in fig. 2, 4, 7, 8 and 11, the outer wall of each first sealing ring 203 is respectively contacted with the inner wall of each first rectangular hole 106 and the surface of each second clamping block 107, the second clamping blocks 107 are slidably connected to the inside of each first rectangular hole 106, each second clamping block 107 is respectively mounted with each first clamping block 105 through a first screw, and the stability of the building thermal insulation decorative plate mounted on the building outer wall 101 can be further improved under the action of the second clamping blocks 107.

According to the embodiments shown in fig. 2, 6-8 and 11, one end of each second clamping block 107 is slidably embedded in the inner wall of each clamping groove 104, the four first clamping blocks 105 are divided into two groups, and the opposite sides of each group of first clamping blocks 105 are provided with first annular holes 108, wherein the four clamping grooves 104 are provided with second annular holes 120, so that the gears 118 can be prevented from rotating under the cooperation of the second annular holes 120, the first annular holes 108 and the limiting blocks 112.

According to the embodiments shown in fig. 2, 7-9 and 11, four first annular holes 108 are divided into two groups, each group of first annular holes 108 is respectively connected with each second annular hole 120, a single-head screw rod 109 movably penetrates through the surface of each first clamping block 105, cylindrical holes 110 are formed in the inner wall of each first annular hole 108 and the surface of each second clamping block 107, the centers of the two cylindrical holes 110 are on the same horizontal line, and a connecting rod 111 is fixed at one end of each single-head screw rod 109, so that the single-head screw rod 109 and a gear 118 can be fixed together under the action of the connecting rod 111.

According to the embodiments shown in fig. 2, 7, 9 and 12, each connecting rod 111 is located inside each first annular hole 108, a gear 118 is fixedly sleeved on the outer surface of each connecting rod 111, a limiting block 112 is installed between the inside of each first annular hole 108 and the inside of each second annular hole 120, the front surface of the gear 118 contacts with the front surface of the inner wall of the limiting block 112, and the single-head screw 109 can be driven to rotate under the cooperation of tools prepared by workers, the gear 118 and the connecting rods 111.

According to the embodiments shown in fig. 2, fig. 6 and fig. 10-fig. 12, the second rectangular holes 113 are respectively formed between every two of the four clamping grooves 104, wherein the inner walls of the four clamping grooves 104 are respectively provided with a limiting hole 114, a single hole block 116 is movably sleeved between the interiors of the four limiting holes 114, the front surface of the heat-insulation decorative plate body 103 is provided with a protection frame 115, the front surface of the four single hole blocks 116 is fixed with the surface of the protection frame 115, and the stability of the heat-insulation decorative plate body 103 in use can be improved by conveniently matching the protection frame 115, the first clamping block 105, the second screws and the single hole blocks 116, so that the decorative layer on the heat-insulation decorative plate body 103 is prevented from falling off from the surface of the heat-insulation layer.

According to the embodiments shown in fig. 2 and fig. 7-11, four single-hole blocks 116 are respectively installed on four first clamping blocks 105 through second screws, the surface of each first clamping block 105 is respectively and adhesively connected with a single-hole pad 117, each single-head screw rod 109 is respectively and movably sleeved in each single-hole pad 117, and sealing plugs 119 are respectively installed in the through holes of each second clamping block 107 and the through holes of each single-hole block 116, so that the corrosion speed of the second screws and the second screws can be reduced under the action of the sealing plugs 119.

According to the embodiments shown in fig. 1 to 4, 7, 8 and 11, each connecting block 201 is respectively located between the inside of each two first rectangular holes 106 and the inside of each second rectangular hole 113, the front surfaces of the two connecting blocks 201 are all in contact with the rear surface of the thermal insulation decorative board body 103, the four second clamping blocks 107 are divided into two groups, each connecting block 201 is respectively mounted with the surface of each group of second clamping blocks 107 through a third screw, and the connecting blocks 201 can be stably fixed between the inside of each two first rectangular holes 106 and the inside of each second rectangular hole 113 under the cooperation of the third screw and the second clamping blocks 107.

The whole mechanism achieves the following effects: when the heat-insulating decorative board body 103 is required to be fixed on the building outer wall 101, at this time, four screw grooves are firstly punched on the building outer wall 101 by using tools according to the size of the heat-insulating decorative board body 103 (consisting of a heat-insulating layer and a decorative layer), then the parts similar to bolts formed by the single-head screw rods 109, connecting rods 111 and gears 118 are placed inside each first clamping block 105, then each gear 118 is moved to the corresponding first annular hole 108, then a second clamping block 107 is installed inside each first rectangular hole 106, when all the second clamping blocks 107 are finished to be installed, at this time, each first clamping block 105 is directly installed between the insides of each group of clamping grooves 104, when each first clamping block 105 is finished to be installed, the position of each second clamping block 107 is adjusted again, after the position of each second clamping block 107 is adjusted, the first clamping block 105 and the second clamping block 107 are fixed together by using the first screws, then each gear 118 is moved to the corresponding first annular hole 108, when the filling layer 102 and the decorative board body 103 are directly driven to be directly matched with the corresponding first clamping block 105 through the corresponding screw grooves, and the corresponding screw rods 109 are directly driven to be directly screwed into the corresponding screw grooves, and the corresponding screw grooves are directly matched with the first clamping blocks 109, when the single-head screw holes are directly driven to be directly screwed into the corresponding screw grooves 109, and the corresponding screw grooves are directly rotated, and the screw grooves are directly driven to be directly rotated, and the screw grooves are directly matched with the screw grooves 109 and the corresponding screw heads are directly to be screwed with the screw holes 109, the surface of the filling layer 102 is also closely contacted with the wall body of the building outer wall 101, when the plate body is fixed on the building outer wall 101, the used tool is directly pulled out from between the interiors of the two first annular holes 108 and the second annular holes 120, then the limiting block 112 is arranged between the interiors of each two first annular holes 108 and each second annular hole 120, then the protective frame 115 is moved to drive the four single hole blocks 116 to enter the interiors of the four limiting holes 114 respectively, when the protective frame 115 is completely sleeved on the front surface of the heat-insulating decorative plate body 103, at the moment, each single hole block 116 is directly fixed with each first clamping block 105 by using a second screw, then two clamping plates 214 provided with ultrafiltration membranes 215 are arranged between the interiors of each two limiting grooves 213, after all the ultrafiltration membranes 215 are arranged, the clamping plates 214 and the ultrafiltration membranes 215 are directly arranged, and a concave block 209 with a second sealing ring 210 is installed between the inside of the first vent hole 206, the second vent hole 208 and the second annular groove 207, then a filter plate 205 is placed inside the two installation holes 204 respectively, then a first sealing ring 203 is sleeved on each first annular groove 202, then the above operation steps are repeated again, and the other connection block 201 is assembled in such a way, when the two connection blocks 201 are both assembled, each connection block 201 is directly installed between the inside of each two first rectangular holes 106 and the inside of each second rectangular hole 113 respectively, when the two connection blocks 201 are both moved to proper positions, the connection blocks 201 are directly fixed by using a third screw at this time, then the installation of the building insulation decorative plate body 103 is completed, then sealing plugs 119 are installed on the through holes of each second clamping block 107 and the through holes of each single hole block 116, when the building heat-insulating decorative plate starts to be used, at the moment, under the action of the building heat-insulating decorative plate, the heat transfer between the indoor space and the environment of the building can be effectively reduced, but the building heat-insulating decorative plate fixing and connecting mechanism 1 can also generate a thermal bridge effect during the use, and is more obvious, the parts on the fixing and connecting mechanism 1 (mostly all adopt metal materials, the heat conduction coefficients of the materials are larger, the heat transfer speed is easy to cause at the parts to be faster, thereby forming the phenomenon of local temperature difference), when the building heat-insulating decorative plate is reduced due to the heat-insulating effect caused by local overheating, at the moment, the local overheating of the building heat-insulating decorative plate is regulated in the coordination of the ambient temperature gas, the first vent hole 206, the two mounting grooves 211 and the connecting holes 212 in a ventilation mode, the situation of overlarge temperature difference is caused, so that the cracking, falling and the like of the building heat-insulating decorative plate are easy to occur, meanwhile, through the coordination of the filter plate 205, the situation that dust or solid impurities enter the inside the mounting grooves 211 is blocked or damaged is avoided, and simultaneously, the situation that the first vent hole 203, the second vent hole 201 and the concave sealing ring 210 are blocked and the concave sealing ring 210 are simultaneously, the water is separated from the inside the building heat-insulating decorative plate is directly, the air is prevented from entering the hollow connecting block 209, and the air is directly, the ventilation is prevented from the ventilation of the hollow air, and the situation is directly, and the water is separated from the inside of the air is separated from the air through the vent of the hollow sealing hole is formed and the air of the building heat insulating decorative plate, which in turn increases the service life of the auxiliary mechanism 2.

The building exterior wall 101, the filling layer 102, the heat-insulating decorative board body 103 and the ultrafiltration membrane 215 are all of the prior art, and are not explained here too much.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. Be applied to building heat preservation decorative board fixed connection device, its characterized in that: comprises a fixed connection mechanism (1), wherein two auxiliary mechanisms (2) are arranged on the fixed connection mechanism (1);

each auxiliary mechanism (2) comprises a connecting block (201), a first annular groove (202) is formed in the position, close to two sides, of the outer wall of the connecting block (201), a first sealing ring (203) is mounted in the first annular groove (202), first vent holes (206) are formed in one side of each connecting block (201), two symmetrical mounting holes (204) are formed in the inner wall of each first vent hole (206), a second annular groove (207) is formed in the front surface of each connecting block (201), a second vent hole (208) is formed in the inner wall of each second annular groove (207), a filter plate (205) is arranged in the mounting hole (204), concave blocks (209) are mounted in the first vent hole (206), concave blocks (209) are mounted in the second vent holes (207), two symmetrical mounting grooves (211) are formed in the rear surface of each connecting block (201), two groups of four mounting grooves (211) are formed in the inner wall of each connecting block (211), a plurality of limit grooves (213) are formed in the top of the inner wall of each mounting groove (211) and in the bottom of the inner wall of each mounting groove (211), two clamping plates (214) are mounted in the two symmetrical limit grooves (213), and an ultrafiltration membrane (215) is mounted between each two clamping plates (214).

2. The fixed connection device applied to a building thermal insulation decorative plate according to claim 1, wherein: the two first vent holes (206) are respectively communicated with the two second vent holes (208), the four filter plates (205) are divided into two groups, the same end of each group of filter plates (205) is respectively embedded in the inner wall of each first vent hole (206) in a sliding manner, and the two second sealing rings (210) are respectively fixedly sleeved on the outer surfaces of the two concave blocks (209).

3. The fixed connection device applied to a building thermal insulation decorative plate according to claim 1, wherein: the fixed connection mechanism (1) comprises a building outer wall (101), a filling layer (102) is arranged on the front surface of the building outer wall (101), heat-insulating decorative plate bodies (103) are bonded and connected to the front surface of the filling layer (102), two clamping grooves (104) are formed in two sides of the heat-insulating decorative plate bodies (103) and two sides of the filling layer (102), eight clamping grooves (104) are divided into four groups, and first clamping blocks (105) are arranged between the inner parts of the clamping grooves (104).

4. The fixed connection device for building thermal insulation decorative panels according to claim 3, wherein: first rectangular holes (106) are formed in the surfaces of the first clamping blocks (105), the outer walls of the first sealing rings (203) are respectively contacted with the inner walls of the first rectangular holes (106) and the surfaces of the second clamping blocks (107), the second clamping blocks (107) are respectively connected to the inner portions of the first rectangular holes (106) in a sliding mode, and the second clamping blocks (107) are respectively installed with the first clamping blocks (105) through first screws.

5. The fixed connection device applied to the building thermal insulation decorative plate according to claim 4, wherein: one end of each second clamping block (107) is slidably embedded in the inner wall of each clamping groove (104), the four first clamping blocks (105) are divided into two groups, first annular holes (108) are formed in one opposite side of each group of the first clamping blocks (105), and second annular holes (120) are formed in the four clamping grooves (104) in a two-by-two mode.

6. The fixed connection device applied to the building thermal insulation decorative plate according to claim 5, wherein: four first annular holes (108) divide into two sets altogether, and every group first annular hole (108) are linked together with every second annular hole (120) respectively, every the surface of first fixture block (105) all activity runs through has single-head screw (109), every cylindrical hole (110) have all been seted up to the inner wall of first annular hole (108) and the surface of every second fixture block (107), every two the centre of a circle of cylindrical hole (110) all is in same horizontal line, every one end of single-head screw (109) all is fixed with connecting rod (111).

7. The fixed connection device applied to the building insulation decorative plate according to claim 6, wherein: each connecting rod (111) is located the inside of every first annular hole (108) respectively, and every the gear (118) has all been fixed to be cup jointed to the surface of connecting rod (111), every two between the inside of first annular hole (108) and the inside of every second annular hole (120) all install stopper (112), the positive surface of gear (118) contacts with the inner wall positive surface of stopper (112).

8. The fixed connection device applied to the building insulation decorative plate according to claim 6, wherein: in addition four the second rectangular hole (113) has all been seted up between every two draw-in groove (104), four wherein spacing hole (114) have all been seted up to the inner wall of draw-in groove (104), four between the inside of spacing hole (114) single hole piece (116) have all been cup jointed in the activity, protection frame (115) are installed to the positive surface of heat preservation decorative board body (103), four the positive surface of single hole piece (116) is all fixed with the surface of protection frame (115).

9. The fixed connection device applied to the building insulation decorative plate according to claim 8, wherein: four single hole piece (116) are all installed respectively on four first fixture blocks (105) through the second screw, every the surface of first fixture block (105) all bonds and is connected with single hole pad (117), every single head screw (109) are movable respectively cup joints in the inside of every single hole pad (117), every sealing plug (119) are all installed to the through-hole of second fixture block (107) and the through-hole of every single hole piece (116).

10. The fixed connection device applied to the building insulation decorative plate according to claim 8, wherein: every connecting block (201) is in respectively between the inside of every two first rectangular holes (106) and the inside of every second rectangular hole (113), two the positive surface of connecting block (201) all contacts with the rear surface of heat preservation decorative board body (103), four second fixture block (107) divide into two sets altogether, every connecting block (201) all install with the surface phase of every group second fixture block (107) respectively through the third screw.