CN214658488U - Building energy-saving floor - Google Patents

Abstract

The utility model relates to a building energy-saving floor, including the floor main body, the floor main body is by supreme panel layer that includes in proper order down, the bearing layer, first heat preservation, zone of heating and second heat preservation, the panel layer, the bearing layer, first heat preservation, zone of heating and second heat preservation are two liang between to be dismantled and to be connected, the both ends of floor main body are bolted connection connecting block one and connecting block two respectively, the upper surface of connecting block one and floor main body's upper surface parallel and level, the lower surface of connecting block two and floor main body's lower surface parallel and level, the bottom rigid coupling of connecting block one has two fixture blocks one, two draw-in grooves one that can insert fixture block one are seted up to the upper surface of connecting block two. This application sets up the connection dismantled between panel layer, bearing layer, first heat preservation, zone of heating and the second heat preservation, makes things convenient for the maintenance and the installation of floor main part, and the connection between each layer is conveniently further consolidated with setting up of nut to bolt one, and this setting installation is simple, is convenient for simultaneously overhaul and maintain between each layer.

Description

Building energy-saving floor

Technical Field

The application relates to the technical field of floors, in particular to an energy-saving floor for buildings.

Background

The floor is the surface layer of the ground or floor of a house, is generally made of wood or other materials, has various types and comprises solid wood floors, three-layer solid wood composite floors, reinforced composite wood floors, anti-corrosion floors, bamboo and wood floors, cork floors, multi-layer solid wood composite floors and the like according to structural classification.

The existing building generally uses traditional ground heating floor, and the inventor thinks that cement, circulating pipe, heat preservation, floor need lay in proper order when the installation of warm floor, and the installation is too loaded down with trivial details, and equal rigid coupling is in the same place between each layer simultaneously, and the maintenance that leads to circulating pipe is more troublesome.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the floor heating floor pointed out in the background art is troublesome to install, the application provides an energy-saving floor for buildings.

The application provides a building energy-saving floor, adopts following technical scheme:

the utility model provides a building energy-saving floor, includes floor main body, floor main body is by supreme panel layer, bearing layer, first heat preservation, zone of heating and the second heat preservation of including in proper order down, panel layer, bearing layer, first heat preservation, zone of heating and second heat preservation are the dismantlement connection between two liang, floor main body's both ends are bolted connection connecting block one and connecting block two respectively, connecting block one's upper surface and floor main body's upper surface parallel and level, connecting block two's lower surface and floor main body's lower surface parallel and level, connecting block one's bottom rigid coupling has two fixture blocks one, two draw-in grooves one that can insert fixture block one are seted up to connecting block two's upper surface.

Through adopting above-mentioned technical scheme, panel layer, bearing layer, first heat preservation, the connection of dismantling between zone of heating and the second heat preservation make things convenient for the maintenance and the installation of floor main part, and the setting up of connecting block one and connecting block two is convenient to splice a plurality of floor main parts, and the setting up of fixture block one and draw-in groove one is convenient to be fixed a position floor main part's installation, and this sets up the installation simply, is convenient for simultaneously overhaul and maintain between each layer.

Optionally, the two sides of the floor main body are respectively connected with the third connecting block and the fourth connecting block through bolts, the upper surface of the third connecting block is flush with the upper surface of the floor main body, the lower surface of the fourth connecting block is flush with the lower surface of the floor main body, the bottom of the third connecting block is fixedly connected with the second two clamping blocks, and the upper surface of the fourth connecting block is provided with the second two clamping grooves capable of being inserted into the second clamping blocks.

Through adopting above-mentioned technical scheme, the setting of connecting block three and connecting block four further makes things convenient for the connection between a plurality of floor main parts, and the setting of fixture block two and draw-in groove two has the guide effect to the concatenation of floor main part simultaneously.

Optionally, a first groove is formed in each corner of the upper surface of the panel layer, a first projection is fixedly connected to each corner of the bottom of the bearing layer, and the first projection can be inserted into the first groove.

Through adopting above-mentioned technical scheme, in the lug can insert recess one, correspond to install the bearing layer and have the guide effect on the panel layer, make things convenient for the installation between bearing layer and the panel layer.

Optionally, both sides of the panel layer corresponding to the first groove are connected with first sliding blocks in a sliding manner, and the first sliding blocks tend to move in a direction close to each other.

By adopting the technical scheme, when the first convex block is inserted into the first groove, the first sliding blocks all tend to move in the direction of the first convex block, so that the first convex block can be clamped, and the relative position of the bearing layer and the panel layer can be fixed.

Optionally, each corner of the upper surface of the bearing layer is provided with a second groove, each corner of the bottom of the first heat preservation layer is fixedly connected with a second bump which can be inserted into the second groove, and two sides of the bearing layer corresponding to the second groove are connected with a second sliding block which can move towards the direction close to each other in a sliding manner.

Through adopting above-mentioned technical scheme, when inserting the lug two in the recess two, each sliding block two all tends the direction motion of lug two, and then can press from both sides tight lug two, and then can fix the relative position of bearing layer and first heat preservation.

Optionally, each corner of the upper surface on first heat preservation all sets up fluted three, the equal rigid coupling in each corner of bottom of zone of heating has the lug three that can insert in the flute three, the both sides that first heat preservation corresponds recess three all slide and are connected with the direction motion sliding block three that can tend to be close to each other.

Through adopting above-mentioned technical scheme, when inserting the lug three in the recess three, each sliding block three all tends the direction motion of lug three, and then can press from both sides tight lug three, and then can fix the relative position on zone of heating and first heat preservation.

Optionally, each corner of the upper surface of the heating layer is provided with a fourth groove, each corner of the bottom of the second heat preservation layer is fixedly connected with a fourth bump which can be inserted into the fourth groove, and the two sides of the second heat preservation layer corresponding to the fourth groove are connected with a plurality of direction movement sliding blocks which can tend to approach each other in a sliding mode.

Through adopting above-mentioned technical scheme, when inserting the lug four in the recess four, each sliding block four all tends the direction motion of lug four, and then can press from both sides tight lug four, and then can fix the relative position of zone of heating and second heat preservation.

Optionally, the equal rigid coupling in each corner of panel layer has the bolt one of vertical setting, the tip of bolt one all passes bearing layer, first heat preservation, zone of heating and second heat preservation and threaded connection has the nut.

Through adopting above-mentioned technical scheme, the connection relation between each layer is further strengthened with the setting of nut to bolt one.

In summary, the present application includes at least one of the following beneficial technical effects:

1. this application sets up the connection dismantled between panel layer, bearing layer, first heat preservation, zone of heating and the second heat preservation, makes things convenient for the maintenance and the installation of floor main part, and the connection between each layer is conveniently further consolidated with setting up of nut to bolt one, and this setting installation is simple, is convenient for simultaneously overhaul and maintain between each layer.

2. This application sets up the setting convenience of connecting block one and connecting block two and splices a plurality of floor main parts, and the setting convenience of fixture block one and draw-in groove one is fixed a position the installation of floor main part.

Drawings

Fig. 1 is a schematic structural diagram of a building energy-saving floor according to an embodiment of the present application.

Fig. 2 is a sectional view of a building energy-saving floor according to an embodiment of the present application.

Fig. 3 is a cross-sectional view of a first raised groove of a building energy-saving floor according to an embodiment of the present application.

Fig. 4 is an enlarged view of a in fig. 1.

Fig. 5 is a schematic structural diagram of a building energy-saving floor highlighting support block according to an embodiment of the present application.

Description of reference numerals: 1. a floor main body; 11. a panel layer; 111. a first groove; 112. a first bump; 113. a first sliding groove; 114. a first sliding block; 115. a first spring; 12. a pressure-bearing layer; 121. a second groove; 122. a second bump; 123. a second sliding groove; 124. a second sliding block; 125. a second spring; 13. a first insulating layer; 131. a third groove; 132. a third bump; 133. a third sliding groove; 134. a third sliding block; 135. a third spring; 14. a heating layer; 141. a fourth groove; 142. fourthly, forming a bump; 143. a fourth sliding groove; 144. a fourth sliding block; 145. a fourth spring; 15. a second insulating layer; 16. a first bolt; 161. a nut; 17. a reinforcement layer; 18. a first connecting block; 181. a first clamping block; 182. a second bolt; 19. a second connecting block; 191. a first clamping groove; 2. connecting blocks III; 21. a second clamping block; 211. a third bolt; 22. connecting blocks IV; 23. and (7) supporting the blocks.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a building energy-saving floor.

Referring to fig. 1, a building energy-saving floor, including floor main body 1, floor main body 1 is by supreme panel layer 11 that includes in proper order down, bearing layer 12, first heat preservation 13, zone of heating 14 and second heat preservation 15, panel layer 11 is the plank material, bearing layer 12 is the fibreboard, first heat preservation 13 is formed by the preparation of the cotton insulation material of glass, it has multiunit align to grid's heating wire to inlay in the zone of heating 14, second heat preservation 15 is extrusion molding polystyrene board layer, panel layer 11, bearing layer 12, first heat preservation 13, zone of heating 14 and second heat preservation 15 are the rectangle setting, panel layer 11, bearing layer 12, first heat preservation 13, zone of heating 14 and second heat preservation 15 are between two liang detachable connections.

Referring to fig. 2 and 3, a groove one 111 is formed at each corner of the upper surface of the panel layer 11, a first projection 112 is fixedly connected at each corner of the bottom of the bearing layer 12, the first projection 112 can be inserted into the groove one 111, a plurality of first sliding grooves 113 are formed in the panel layer 11 at two sides corresponding to the groove one 111, a first sliding block 114 is slidably connected in each first sliding groove 113, each sliding block 114 tends to move in a direction close to each other, a first spring 115 is fixedly connected in each first sliding groove 113, one end of the first spring 115 is fixedly connected to the first sliding groove 113, the other end of the first spring 115 is fixed to the first sliding block 114, and under normal conditions, the first spring 115 pushes each sliding block 114 to move towards the direction of approaching each other, when the first projection 112 is inserted into the first groove 111, each sliding block 114 moves towards the direction of the first projection 112, and the first bump 112 can be clamped, so that the relative position of the pressure bearing layer 12 and the panel layer 11 can be fixed.

Referring to fig. 2 and 3, each corner of the upper surface of the bearing layer 12 is provided with a second groove 121, each corner of the bottom of the first heat-insulating layer 13 is fixedly connected with a second projection 122, each second projection 122 can be inserted into the second groove 121, both sides of the bearing layer 12 corresponding to the second groove 121 are provided with a plurality of second sliding grooves 123, each second sliding groove 123 is slidably connected with a second sliding block 124, each second sliding block 124 tends to move in a direction close to each other, each second sliding groove 123 is fixedly connected with a second spring 125, one end of each second spring 125 is fixedly connected to the second sliding groove 123, the other end of the second spring 125 is fixedly connected to the second sliding block 124, and in a normal state, the second spring 125 pushes the second sliding blocks 124 to move towards a direction close to each other, when the second projection 122 is inserted into the second groove 121, each second sliding block 124 moves towards the direction of the second projection 122, the second bump 122 can be clamped, and the relative position of the pressure bearing layer 12 and the first heat preservation layer 13 can be fixed.

Referring to fig. 2 and 3, a groove third 131 is formed at each corner of the upper surface of the first heat-insulating layer 13, a bump third 132 is fixedly connected at each corner of the bottom of the heating layer 14, the bump third 132 can be inserted into the groove third 131, a plurality of sliding grooves third 133 are formed at two sides of the first heat-insulating layer 13 corresponding to the groove third 131, a sliding block third 134 is slidably connected in each sliding groove third 133, each sliding block third 134 tends to move in a direction close to each other, a spring third 135 is fixedly connected in each sliding groove third 133, one end of the spring third 135 is fixedly connected to the sliding groove third 133, the other end of the spring III 135 is fixedly connected with the sliding block III 134, under the normal state, the spring III 135 pushes the sliding block III 134 to move towards the direction close to each other, when the third projection 132 is inserted into the third recess 131, each third sliding block 134 moves towards the third projection 132, the third bump 132 can be clamped, and the relative position of the heating layer 14 and the first heat insulating layer 13 can be fixed.

Referring to fig. 2 and 3, a groove four 141 is formed at each corner of the upper surface of the heating layer 14, a projection four 142 is fixedly connected at each corner of the bottom of the second heat-insulating layer 15, the projection four 142 can be inserted into the groove four 141, a plurality of sliding grooves four 143 are formed at both sides of the second heat-insulating layer 15 corresponding to the groove four 141, a sliding block four 144 is slidably connected in each sliding groove four 143, each sliding block four 144 tends to move in a direction close to each other, a spring four 145 is fixedly connected in each sliding groove four 143, one end of the spring four 145 is fixedly connected to the sliding groove four 143, the other end of the spring four 145 is fixedly connected with the sliding block four 144, under the normal state, the spring four 145 pushes each sliding block four 144 to move towards the direction close to each other, when the four convex blocks 142 are inserted into the four concave grooves 141, each sliding block four 144 moves towards the direction of the four convex blocks 142, the fourth bump 142 can be clamped, and the relative position of the heating layer 14 and the second heat-insulating layer 15 can be fixed.

Referring to fig. 1 and 4, a vertically arranged first bolt 16 is fixedly connected to one side of each corner of the panel layer 11, which corresponds to each first groove 111, the end portion of the first bolt 16 sequentially penetrates through the bearing layer 12, the first heat preservation layer 13, the heating layer 14 and the second heat preservation layer 15, the end portion of the first bolt 16 is in threaded connection with a nut 161, and the arrangement of the first bolt 16 and the nut 161 further strengthens the connection relationship between the layers.

Referring to fig. 1 and 4, each corner of the floor main body 1 is connected with a reinforcing layer 17 through a bolt, the height of the reinforcing layer 17 is the same as that of the floor main body 1, one end of the floor main body 1 is connected with a first connecting block 18 through a bolt, the length of the first connecting block 18 is the same as that of the floor main body 1, the upper surface of the first connecting block 18 is flush with the upper surface of the floor main body 1, the height of the first connecting block 18 is equal to half of that of the floor main body 1, the bottom of the first connecting block 18 is fixedly connected with a first two clamping blocks 181, the upper surface of the first connecting block 18 is connected with a second bolt 182 through a thread, and the end of the second bolt 182 penetrates through the first connecting block 18.

Referring to fig. 1 and 5, one end of the floor main body 1, which is far away from the first connecting block 18, is connected with a second connecting block 19 through a bolt, the second connecting block 19 and the first connecting block 18 are identical in shape and size, the lower surface of the second connecting block 19 is flush with the lower surface of the floor main body 1, the height of the second connecting block 19 is equal to half of the height of the floor main body 1, the upper surface of the second connecting block 19 is provided with a first clamping groove 191, and a first clamping block 181 of one floor main body 1 can be inserted into a first clamping groove 191 of the other floor main body 1 respectively, so that the relative position between the two floor main bodies 1 is fixed.

Referring to fig. 1 and 5, a connecting block III 2 is connected to one side of the floor main body 1 through a bolt, the length of the connecting block III 2 is the same as that of the floor main body 1, the upper surface of the connecting block III 2 is flush with the upper surface of the floor main body 1, the height of the connecting block III 2 is equal to half of that of the floor main body 1, two clamping blocks II 21 are fixedly connected to the bottom of the connecting block III 2, a bolt III 211 is connected to the upper surface of the connecting block III 2 through a thread, and the end of the bolt III 211 penetrates through the connecting block III 2.

Referring to fig. 1 and 5, one end of the floor main body 1, which is far away from the connecting block three 2, is connected with a connecting block four 22 through a bolt, the connecting block four 22 is identical to the connecting block three 2 in shape and size, the lower surface of the connecting block four 22 is flush with the lower surface of the floor main body 1, the height of the connecting block four 22 is equal to half of the height of the floor main body 1, the upper surface of the connecting block four 22 is provided with two clamping grooves two, the two clamping blocks two 21 of one floor main body 1 can be respectively inserted into the two clamping grooves two of the other floor main body 1 (not shown in the figure), and the relative position between the two floor main bodies 1 is further assisted and fixed.

Referring to fig. 5, the bottom of the panel layer 11 is bolted with a plurality of support blocks 23, and the arrangement of each support block 23 helps to facilitate the installation of the floor main body 1; one side of the panel layer 11, which is far away from the bearing layer 12, is coated with a polyvinyl chloride transparent protective film, and the polyvinyl chloride transparent protective film can increase the wear resistance of the floor, so that scratches on the surface of the floor are avoided, and the attractiveness of the floor is not affected; be provided with the dampproof course between zone of heating 14 and the second heat preservation 15, the dampproof course is the melamine board, through setting up the dampproof course for the floor has possessed very good dampproofing effect.

During specific implementation, firstly, the first projection 112 of the pressure bearing layer 12 is inserted into the corresponding first groove 111 on the upper surface of the panel layer 11, and meanwhile, the first sliding blocks 114 can clamp the first projection 112, so that the relative positions of the pressure bearing layer 12 and the panel layer 11 can be fixed; inserting the second bump 122 of the first heat-insulating layer 13 into the second groove 121 corresponding to the upper surface of the pressure-bearing layer 12, and simultaneously clamping the second bump 122 by each second sliding block 124, so as to fix the relative position of the pressure-bearing layer 12 and the first heat-insulating layer 13; inserting the third projection 132 of the heating layer 14 into the third groove 131 corresponding to the upper surface of the first heat-insulating layer 13, and simultaneously clamping the third projection 132 by each third sliding block 134 so as to fix the relative position of the heating layer 14 and the first heat-insulating layer 13; the four projection 142 of the second heat insulation layer 15 is inserted into the four corresponding grooves 141 on the upper surface of the heating layer 14, and meanwhile, the four sliding blocks 144 can clamp the four projection 142, so that the relative position of the second heat insulation layer 15 and the heating layer 14 can be fixed.

Then all the corners of the floor body 1 are connected with the reinforcing layer 17 through bolts, two ends of the floor body 1 are respectively connected with the first connecting block 18 and the second connecting block 19 through bolts, two sides of the floor body 1 are respectively connected with the third connecting block 2 and the fourth connecting block 22 through bolts, then the first two clamping blocks 181 of one floor body 1 can be respectively inserted into the first two clamping grooves 191 of the other floor body 1, and further the relative position between the two floor bodies 1 is fixed, the second two clamping blocks 21 of one floor body 1 can be respectively inserted into the second two clamping grooves of the other floor body 1, and further the relative position between the two floor bodies 1 is assisted to be fixed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The building energy-saving floor is characterized in that: comprises a floor main body (1), the floor main body (1) sequentially comprises a panel layer (11), a pressure bearing layer (12), a first heat preservation layer (13), a heating layer (14) and a second heat preservation layer (15) from bottom to top, the panel layer (11), the pressure bearing layer (12), the first heat preservation layer (13), the heating layer (14) and the second heat preservation layer (15) are detachably connected with each other, two ends of the floor main body (1) are respectively connected with a first connecting block (18) and a second connecting block (19) through bolts, the upper surface of the first connecting block (18) is flush with the upper surface of the floor main body (1), the lower surface of the second connecting block (19) is flush with the lower surface of the floor main body (1), the bottom of the first connecting block (18) is fixedly connected with two first clamping blocks (181), and the upper surface of the second connecting block (19) is provided with two first clamping grooves (191) capable of being inserted into the first clamping blocks (181).

2. The building energy-saving floor as claimed in claim 1, wherein: the both sides of floor main body (1) are bolted connection connecting block three (2) and connecting block four (22) respectively, the upper surface parallel and level of the upper surface of connecting block three (2) and floor main body (1), the lower surface of connecting block four (22) and the lower surface parallel and level of floor main body (1), the bottom rigid coupling of connecting block three (2) has two fixture blocks two (21), two draw-in grooves two that can insert fixture block two (21) are seted up to the upper surface of connecting block four (22).

3. The building energy-saving floor as claimed in claim 1, wherein: the corner of the upper surface of the panel layer (11) is provided with a first groove (111), the corner of the bottom of the pressure-bearing layer (12) is fixedly connected with a first bump (112), and the first bump (112) can be inserted into the first groove (111).

4. The building energy-saving floor as claimed in claim 3, wherein: and two sides of the panel layer (11) corresponding to the first groove (111) are connected with first sliding blocks (114) in a sliding mode, and the first sliding blocks (114) tend to move in the direction close to each other.

5. The building energy-saving floor as claimed in claim 1, wherein: each corner of the upper surface of bearing layer (12) all sets up fluted two (121), the equal rigid coupling in each corner of the bottom of first heat preservation (13) has lug two (122) that can insert in recess two (121), the both sides that bearing layer (12) correspond recess two (121) all slide and be connected with the sliding block two (124) that can tend to the direction motion that is close to each other.

6. The building energy-saving floor as claimed in claim 1, wherein: each corner of the upper surface of first heat preservation (13) all sets up fluted three (131), the equal rigid coupling in each corner of bottom of zone of heating (14) has the lug three (132) that can insert in the recess three (131), the both sides that first heat preservation (13) correspond recess three (131) all slide and are connected with the direction motion that can tend to be close to each other and slide piece three (134).

7. The building energy-saving floor as claimed in claim 1, wherein: each corner of the upper surface of zone of heating (14) all sets up fluted four (141), the equal rigid coupling in each corner of bottom of second heat preservation (15) has the lug four (142) that can insert in the flute four (141), the both sides that second heat preservation (15) correspond flute four (141) all slide and are connected with a plurality of direction motion sliding block four (144) that can tend to be close to each other.

8. The building energy-saving floor as claimed in claim 1, wherein: the equal rigid coupling in each corner of panel layer (11) has bolt (16) of vertical setting, the tip of bolt (16) all passes bearing layer (12), first heat preservation (13), zone of heating (14) and second heat preservation (15) and threaded connection has nut (161).

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