CN210105213U - Ground heating structure of aluminum floor - Google Patents

Abstract

The utility model discloses an aluminium floor heating structure, include floor body and the extruded sheet that is located floor body below, floor body is the flat form, floor body's inside is equipped with the cavity, floor body's tip be equipped with can with the attach fitting of another floor body location, floor body's a side is equipped with the concatenation fastener, the concatenation fastener is including being located floor body side upper portion concatenation sand grip and the lower concatenation sand grip that is located floor body side lower part, floor body's another side be equipped with last concatenation sand grip shape looks adaptation last spread groove and with the lower spread groove of concatenation sand grip shape looks adaptation down, the outer end of going up the concatenation sand grip is equipped with the connecting portion of kickup, the inside of going up the spread groove is equipped with connecting portion complex inside groove, extruded sheet's top is equipped with the heat pipe constant head tank, be equipped with the heat pipe in the heat pipe constant head tank, be equipped with the. The utility model aims at providing a construction is comparatively convenient, assemble comparatively reliable and stable's aluminium floor and warm up structure.

Description

Ground heating structure of aluminum floor

Technical Field

The utility model belongs to the floor field especially relates to an aluminium floor warms up structure.

Background

At present, among the domestic underfloor heating system, in order to guarantee heat conductivility, can adopt aluminium system floor usually, like chinese patent publication no: CN205777321U discloses an aluminum alloy floor heating floor, including the floor substrate layer that adopts aluminum alloy material to make and the wearing layer that adopts the grained paper to make, the wearing layer cladding is on the floor substrate layer, the bottom surface of floor substrate layer is provided with open recess and the hydrologic cycle groove that is used for installing the hydrologic cycle pipe on its length direction, the length and the floor length in recess and hydrologic cycle groove equal. When the floor is spliced, the tenon on one side of the floor is required to be inserted into the buckle groove of another floor to realize positioning, so that the direct-insert floor can be difficult to install and lay in a space-limited area.

In order to facilitate the smooth matching of the tenon and the buckle slot, the Chinese patent publication No.: CN103104946A discloses a photocatalyst ecological aluminum floor structure for brilliant ground heating system of carbon, and it places on the cement terrace, characterized by: and a first moisture-proof insulating layer, a heat insulating layer, a reflecting film, a carbon crystal heating plate, a second moisture-proof insulating layer, an aluminum floor and a photocatalyst coating are sequentially paved on the cement terrace. The aluminum floor is formed by connecting a plurality of rectangular floor blocks, the left side and the right side of each floor block are a first side and a second side which are parallel to each other, a first connecting structure and a second connecting structure are respectively arranged on the first side and the second side, the upper side and the lower side of each floor block are a third side and a fourth side which are parallel to each other, and the third side and the fourth side are straight sides; the adjacent floor blocks on the left side and the right side are connected through a first connecting structure and a second connecting structure. When the floor is installed, a rotating method can be adopted, the tenon-shaped first connecting structure is clamped into the groove-shaped second connecting structure, however, the width of the second connecting structure needs to be larger, the first connecting structure and the second connecting structure can be conveniently connected, after the final splicing is completed, a larger gap exists between the second connecting structure and the second connecting structure, the tightness of the fit between the second connecting structure and the second connecting structure is poor, the looseness is easy to occur, and the construction quality and the use experience are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome the above-mentioned not enough among the prior art, provide a construction comparatively convenient, assemble comparatively reliable and stable's aluminium floor and warm up structure.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an aluminum floor heating structure comprises a floor body and an extruded sheet positioned below the floor body, wherein the floor body is in a flat shape, a cavity is arranged in the floor body, a connecting joint capable of being positioned with another floor body is arranged at the end part of the floor body, a splicing fastener is arranged on one side surface of the floor body, the splicing fastener comprises an upper splicing convex strip positioned at the upper part of the side surface of the floor body and a lower splicing convex strip positioned at the lower part of the side surface of the floor body, an upper connecting groove matched with the upper splicing convex strip in shape and a lower connecting groove matched with the lower splicing convex strip in shape are arranged on the other side surface of the floor body, the outer end of the upper splicing convex strip is provided with an upward bent connecting part, an inner groove matched with the connecting part is arranged inside the upper connecting groove, the heat pipe heat insulation floor is characterized in that a heat pipe positioning groove is formed in the top of the extruded sheet, a heat pipe is arranged in the heat pipe positioning groove, and a heat equalizing layer is arranged between the floor body and the extruded sheet. Like this, floor body is rotatable slope when the concatenation, utilizes last concatenation sand grip kickup's connecting portion and last spread groove to align, rotates the inside groove cooperation of inserting in-process connecting portion and last spread groove. Adopt the running fit mode concatenation floor, the installation is comparatively convenient and fast, reduces the requirement to horizontal space, effectively reduces simultaneously and goes up the space between concatenation sand grip and the last spread groove. When the floor body rotates to the horizontal position, the lower splicing convex strip enters the lower connecting groove, so that the two floor bodies are stably and reliably positioned and are matched more closely. The heat equalizing layer is arranged below the floor body, and when the heat pipe generates heat, the heat is distributed in the heat equalizing layer, so that the energy consumption is saved.

Preferably, the floor body is internally provided with a plurality of cavities which are arranged at intervals along the width direction of the floor body, supporting ribs are arranged between every two adjacent cavities, the cavities penetrate through the floor body along the length direction of the floor body, and the connecting joints are arranged at the end parts of the cavities. The interior of the floor body is of a hollow structure, so that the use of materials can be effectively saved, and the weight and the production cost are reduced. The floor body is separated into a plurality of cavities through the supporting ribs, the supporting ribs improve the supporting strength of the cavities, and the product quality is guaranteed.

Preferably, the connection joint comprises a joint body and positioning parts arranged at two ends of the joint body, and a limiting part protruding along the periphery of the joint body is arranged in the middle of the joint body. The floor bodies with adjacent end parts are positioned through the connecting joints, the positioning parts at the two ends of the connecting joints are respectively connected with the adjacent floor bodies, and the middle limiting parts can limit the relative positions of the connecting joints and the floor bodies and are convenient to clamp with the floor bodies in place.

Preferably, the outer end of the positioning part is provided with a chamfer surface. The connecting joint is guided by the chamfer surface, so that the positioning part and the floor body can be conveniently fixed, and the mounting efficiency is improved.

Preferably, last concatenation sand grip and splice sand grip down respectively with floor body structure as an organic whole, go up the concatenation sand grip and splice the sand grip down and arrange along floor body side length direction. Like this, floor body accessible section bar cutting mode produces, reduction in production cost when improving production efficiency.

Preferably, the connecting part is arc-shaped, and the central angle corresponding to the arc-shaped connecting part is less than or equal to 90 degrees. Like this, connecting portion are in the in-process of connecting groove relative slip on getting into, and the floor body of being convenient for rotates and splices fixedly to connecting portion arc is unanimous with the curved centre of a circle of inside groove, can effectively reduce the space between connecting groove and the connecting portion, improves the inseparable degree of cooperation.

Preferably, the bottom soft bottom film for buffering is further included, and the bottom soft bottom film is arranged between the floor body and the soaking layer. The soft bottom film is soft and elastic, and the rigid contact between the plate body and the soaking layer is avoided to play a role in buffering.

Preferably, the floor comprises a skirting board and a fixing strip, wherein the skirting board is vertically arranged on the edge of the floor body, a positioning groove matched with the fixing strip is formed in the back surface of the skirting board, and a sealing rubber strip is arranged between the skirting board and the floor body.

Preferably, the cross sections of the fixing strip and the positioning groove are trapezoidal, and the width of the bottom of the positioning groove is larger than the width of the opening of the positioning groove.

Preferably, a heat preservation and insulation pad is arranged below the extruded sheet.

The utility model has the advantages that: (1) the installation is convenient and quick, and the splicing construction efficiency is improved; (2) the floor bodies are reliably and stably connected, gaps and gaps are effectively reduced, and splicing quality is guaranteed; (3) the manufacturing and processing are convenient, the production cost is saved, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic view of the connection relationship of the floor body of the present invention;

fig. 4 is a schematic structural diagram of the connection joint of the present invention.

In the figure: the floor comprises a wall surface 1, a skirting board 2, a fixing strip 3, a sealing rubber strip 4, a floor body 5, a decoration layer 5a, a cavity 5b, a lower splicing convex strip 5c, a lower connecting groove 5d, an upper connecting groove 5e, an upper splicing convex strip 5f, a soaking layer 6, a heat pipe 7, an extruded sheet 8, a heat pipe positioning groove 8a, a heat-insulating pad 9, a ground 10, a bottom soft bottom film 11, a connecting joint 12, a limiting part 12a, a positioning part 12b and a chamfering surface 12 c.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment shown in fig. 1 and 2, the aluminum floor heating structure comprises a floor body 5 and an extruded sheet 8 located below the floor body 5, wherein the floor body 5 is in a flat shape, a decorative layer 5a is arranged on the upper surface of the floor, and the decorative layer 5a can be a solid wood layer or a film. The interior of the floor body 5 is provided with a cavity 5b, and the cavity 5b penetrates through the floor body 5 along the length direction of the floor body 5. There are four cavities 5b in every floor body 5 in this embodiment, and cavity 5b arranges along floor body 5's width direction interval, is equipped with the brace rod between the adjacent cavity 5b, and the brace rod vertical direction arranges, connects the upper and lower two sides of floor body 5. The top of the extruded sheet 8 is provided with a heat pipe positioning groove 8a, and a heat pipe 7 is arranged in the heat pipe positioning groove 8 a. A uniform heating layer 6 is arranged between the floor body 5 and the extruded sheet 8, and the uniform heating layer 6 is made of calcium silicate board. Further, it is also contemplated that the bottom soft bottom film 11 is provided between the floor body 5 and the soaking layer 6. The heat preservation and insulation pad is arranged below the extruded sheet 8, is made of glass fiber, is convenient to lay and has good heat insulation capability.

As shown in a combined drawing 3, a side face of the floor body 5 is provided with a splicing fastener, the splicing fastener comprises an upper splicing convex strip 5f positioned on the upper portion of the side face of the floor body 5 and a lower splicing convex strip 5c positioned on the lower portion of the side face of the floor body 5, the other side face of the floor body 5 is provided with an upper connecting groove 5e matched with the shape of the upper splicing convex strip 5f and a lower connecting groove 5d matched with the shape of the lower splicing convex strip 5c, the outer end of the upper splicing convex strip 5f is provided with a connecting part which is bent upwards, and the inner part of the upper connecting groove 5 e. Go up concatenation sand grip 5f and splice sand grip 5c down respectively with floor body 5 structure as an organic whole, go up concatenation sand grip 5f and splice sand grip 5c down and arrange along 5 side length directions in the floor body. The connecting portion are the arc, and the central angle that the connecting portion arc corresponds is less than or equal to 90 degrees.

The end of the floor body 5 is provided with a connection joint 12 that can be positioned with another floor body 5, the connection joint 12 being provided at the end of the cavity 5 b. As shown in fig. 4, the connection joint 12 includes a joint body and positioning portions 12b located at both ends of the joint body, and a limiting portion 12a protruding along the periphery of the joint body is provided in the middle of the joint body. The outer end of the positioning portion 12b is provided with a chamfered surface 12 c.

In addition, still include baseboard 2 and fixed strip 3, as shown in fig. 1, baseboard 2 is vertical to be set up at the edge of floor body 5, and baseboard 2's the back is equipped with the constant head tank with fixed strip 3 complex, is equipped with joint strip 4 between baseboard 2 and the floor body 5. The cross sections of the fixing strip 3 and the positioning groove are trapezoidal, and the width of the bottom of the positioning groove is larger than the width of the opening of the positioning groove. The fixing strip 3 is fixed on the wall surface 1, and the skirting board 2 is positioned with the fixing strip 3 through the trapezoidal locating slot, so that the skirting board 2 is ensured to be stably connected.

When the floor body 5 is produced in practice, the floor body is made of aluminum profiles, the end faces of the aluminum profiles are as shown in figure 3, appropriate lengths are cut according to design requirements, the production cost can be effectively reduced, the manufacturing difficulty is reduced, and meanwhile, the production flexibility is higher. Before splicing and installation, a heat-insulating pad 9 is laid on the ground 10, an extruded sheet 8 is laid on the heat-insulating pad 9, the side of the extruded sheet 8 provided with a heat pipe positioning groove 8a faces upwards, and a heat pipe 7 is installed in the heat pipe positioning groove 8 a. The heat-equalizing layer 6 and the bottom soft bottom film 11 are laid over the extruded sheet 8, and the floor body 5 is spliced on the bottom soft bottom film 11. Floor body 5 is rotatable slope when the concatenation, and one side that floor body 5 was equipped with the concatenation fastener is close to another floor body 5 and is equipped with one side of spread groove 5e and spread groove 5d down, utilizes last concatenation sand grip 5f kickup's connecting portion to align with last spread groove 5e, rotates the inside groove cooperation of inserting in-process connecting portion and last spread groove 5 e. The adjacent floor bodies 5 spliced at this time can relatively slide in the horizontal direction, so that the relative positions of the floor bodies 5 can be adjusted conveniently. The installation and positioning of the floor bodies 5 at the two ends can be realized by installing the connecting joints 12 at the end parts of the floor bodies 5.

Claims (9)

1. The utility model provides an aluminum floor heating structure, including floor body (5) and extruded sheet (8) that are located floor body (5) below, floor body (5) are the flat form, characterized by, the inside of floor body (5) is equipped with cavity (5 b), the tip of floor body (5) is equipped with can with the attach fitting (12) of another floor body (5) location, a side of floor body (5) is equipped with the concatenation fastener, the concatenation fastener includes last concatenation sand grip (5 f) that are located floor body (5) side upper portion and concatenation sand grip (5 c) down that are located floor body (5) side lower part, the another side of floor body (5) is equipped with last spread groove (5 e) with last concatenation sand grip (5 f) shape looks adaptation and with lower spread groove (5 d) of concatenation sand grip (5 c) shape looks adaptation down, the outer end of going up concatenation sand grip (5 f) is equipped with the connecting portion of kickup, an inner groove matched with the connecting portion is formed in the upper connecting groove (5 e), a heat pipe positioning groove (8 a) is formed in the top of the extruded sheet (8), a heat pipe (7) is arranged in the heat pipe positioning groove (8 a), and a heat equalizing layer (6) is arranged between the floor body (5) and the extruded sheet (8).

2. The aluminum floor heating structure as claimed in claim 1, wherein a plurality of cavities (5 b) are arranged inside the floor body (5), the cavities (5 b) are arranged at intervals along the width direction of the floor body (5), a support rib is arranged between every two adjacent cavities (5 b), the cavities (5 b) penetrate through the floor body (5) along the length direction of the floor body (5), and the connecting joint (12) is arranged at the end part of each cavity (5 b).

3. The aluminum floor heating structure as claimed in claim 1, wherein the connecting joint (12) comprises a joint body and positioning parts (12 b) arranged at two ends of the joint body, and a limiting part (12 a) protruding along the periphery of the joint body is arranged in the middle of the joint body.

4. The aluminum floor heating structure according to claim 3, wherein the outer end of the positioning portion (12 b) is provided with a chamfered surface (12 c).

5. The aluminum floor heating structure of claim 1, wherein the upper splicing convex strips (5 f) and the lower splicing convex strips (5 c) are respectively integrated with the floor body (5) into a whole, and the upper splicing convex strips (5 f) and the lower splicing convex strips (5 c) are arranged along the length direction of the side surface of the floor body (5).

6. The aluminum floor heating structure as claimed in claim 1, 2, 3, 4 or 5, wherein the connecting part is arc-shaped, and a central angle corresponding to the arc-shaped connecting part is less than or equal to 90 degrees.

7. The aluminum floor heating structure as claimed in claim 1, 2, 3, 4 or 5, further comprising a skirting board (2) and a fixing strip (3), wherein the skirting board (2) is vertically arranged at the edge of the floor body (5), a positioning groove matched with the fixing strip (3) is arranged on the back surface of the skirting board (2), and a sealing rubber strip (4) is arranged between the skirting board (2) and the floor body (5).

8. The aluminum floor heating structure as claimed in claim 7, wherein the cross section of the fixing strip (3) and the positioning groove is trapezoidal, and the width of the bottom of the positioning groove is larger than the width of the opening of the positioning groove.

9. An aluminium floor heating structure as claimed in claim 1 or 2 or 3 or 4 or 5, characterized in that the extruded sheet (8) is provided with a heat insulating pad (9) below it.

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