CN209780134U - Building energy-saving floor - Google Patents

Abstract

The utility model relates to a building energy-saving floor, which belongs to the technical field of energy-saving buildings and particularly comprises a plurality of leveling track components laid on the ground and a plurality of floor modules arranged on the leveling track components, the floor modules are spliced and connected, each floor module mainly comprises a heat-conducting bearing plate, a fixed panel, a heat-insulating box and heating units, slide rails are arranged at two sides of the bottom of the heat-conducting bearing plate, the slide rails are arranged on the leveling track components, the heat-insulating box is also arranged at the bottom of the heat-conducting bearing plate, the heating units are arranged in the heat-insulating box and are fixed by being clung to the bottom of the heat-conducting bearing plate, the heat-insulating layer and an aluminum foil layer are arranged at the inner bottom surface and around the heat-insulating box, the fixed panel is arranged on the surface of the heat-conducting bearing plate, the construction is simple and convenient, and the installation efficiency is high.

Description

Building energy-saving floor

Technical Field

The utility model relates to a building energy-saving floor belongs to energy-conserving building technical field.

Background

Traditional floor does not have the function that generates heat, and cement, circulating pipe, heat preservation, floor need lay in proper order when the installation of current ground warm floor, and the installation is too loaded down with trivial details, and simultaneously, circulating pipe adorns under heat preservation and floor, and the thermal efficiency is lower, and calorific loss is serious, consequently need provide one kind and be convenient for install, the fast energy-conserving floor of heat transfer efficiency simultaneously.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem that prior art exists, the utility model provides an adopt the modularization installation, the construction is simple, convenient, the building energy-saving floor that the installation effectiveness is high.

In order to achieve the above object, the technical solution adopted by the present invention is a building energy-saving floor, comprising a plurality of leveling track assemblies laid on the ground and a plurality of floor modules installed on the leveling track assemblies, wherein the floor modules are connected in a splicing manner, the floor modules mainly comprise a heat-conducting loading plate, a fixing panel, a heat-insulating box and a heating unit, slide rails are installed on two sides of the bottom of the heat-conducting loading plate, the slide rails are installed on the leveling track assemblies, the heat-insulating box is also installed on the bottom of the heat-conducting loading plate, the heat-insulating box is fixed on the bottom of the heat-conducting loading plate through screws, the heating unit is installed in the heat-insulating box, the heating unit is fixed close to the bottom of the heat-conducting loading plate, a heat-insulating layer and an aluminum foil layer are installed on the inner bottom surface and the periphery of the heat-insulating, the fixed panel's both ends still are provided with Z type structure for concatenation between the fixed panel, still be provided with the abatvoix between fixed panel and the heat conduction loading board, be provided with the overlap joint section around the heat conduction loading board, connect through the removable panel between the floor module, the removable panel is located the overlap joint section.

Preferably, leveling track subassembly mainly comprises expansion bolts and track groove, expansion bolts fixes on ground, the bottom in track groove is provided with fixing hole, expansion bolts top cartridge is in fixing hole, and installs fastening nut and leveling nut on the expansion bolts, fastening nut and leveling nut are located the top and the bottom in track groove respectively, the cell wall top in track groove is provided with the protruding stupefied of first location, the bottom both sides of slide rail are provided with the protruding stupefied of second location, the protruding stupefied bottom of card in first location of second location.

Preferably, rubber pads are further arranged on two sides of the sliding rail.

Preferably, the heating unit is a heat exchange water pipe or an electric heating wire, the heat exchange water pipe is arranged in an S shape and fixed at the bottom of the heat conduction bearing plate through a pipe clamp, and the heat exchange water pipes are connected in series through pipe connecting pieces.

Preferably, the top surface of heat conduction loading board is provided with T type card rail, the bottom surface of fixed panel is provided with T type draw-in groove.

Compared with the prior art, the utility model discloses following technological effect has: the utility model discloses simple structure adopts unit, panel, heat preservation box and the integrated floor module of heat conduction loading board that will generate heat, then blocks the floor module on the leveling track subassembly that has the leveling function again, and the installation is simple, convenient, swift, and the unit installation that generates heat simultaneously is in heat preservation box to with heat conduction loading board direct contact, the heat can directly transmit for the panel, the thermal efficiency is high, and calorific loss is little, energy saving and consumption reduction.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the ground structure of the middle floor module of the present invention.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in figures 1 and 2, the building energy-saving floor comprises a plurality of leveling track assemblies 1 laid on the ground and a plurality of floor modules 3 installed on the leveling track assemblies 1, the floor modules 3 are spliced and connected, each floor module 3 mainly comprises a heat-conducting bearing plate 4, a fixing panel 5, a heat-insulating box 6 and a heating unit 7, slide rails 8 are installed on two sides of the bottom of each heat-conducting bearing plate 4, the slide rails 8 are installed on the leveling track assemblies 1, the bottom of each heat-conducting bearing plate 4 is also provided with the heat-insulating box 6, the heat-insulating box 6 is fixed at the bottom of each heat-conducting bearing plate 4 through screws 9, the heating unit 7 is installed in each heat-insulating box 6, the heating units 7 are fixed close to the bottom of each heat-conducting bearing plate 4, the heat-insulating layer 10 and the aluminum foil layer 11 are installed on the inner bottom surface and the periphery of each heat-insulating box 6, the two ends of the fixed panel 5 are also provided with Z-shaped structures for splicing between the fixed panels 5, the sound-absorbing boards 13 are further arranged between the fixed panels 5 and the heat-conducting bearing board 4, the lap joint sections 14 are arranged around the heat-conducting bearing board 4, the floor modules 3 are connected through the movable panels 15, and the movable panels 15 are positioned on the lap joint sections 14.

The leveling track component 1 mainly comprises an expansion bolt 16 and a track groove 17, the expansion bolt 16 is fixed on the ground, a fixing through hole 18 is formed in the bottom of the track groove 17, the top of the expansion bolt 16 is inserted into the fixing through hole 18, a fastening nut 19 and a leveling nut 20 are mounted on the expansion bolt 16, the fastening nut 19 and the leveling nut 20 are respectively located at the top and the bottom of the track groove 17, a first positioning protruding edge 21 is arranged at the top of the groove wall of the track groove 17, second positioning protruding edges 22 are arranged on two sides of the bottom of the slide rail 8, and the second positioning protruding edges 22 are clamped at the bottom of the first positioning protruding edges 21.

The utility model discloses when installing, with the ground that leveling track subassembly 1 was installed, evenly fix expansion bolts 16 on ground earlier, then fix track groove 17 on expansion bolts 16, through adjustment fastening nut 19 and leveling nut 20, adjust the roughness in track groove 17, make track groove 17 be located same horizontal plane, then installation floor module 3. During installation, the second positioning convex edge 22 on the sliding rail 8 is directly pressed and clamped below the first positioning convex edge 21 of the rail groove 17, so that the floor modules 3 are sequentially clamped on the rail groove 17, the splicing positions of the floor modules 3 are spliced through the movable panel 15, and the floor splicing tightness is ensured. The sound-absorbing board is arranged between the fixing panel 5 and the heat-conducting bearing plate 4 in the floor module 3, so that the noise generated by the floor can be effectively reduced. The heating unit is tightly attached to the bottom of the heat conduction bearing plate 4, so that heat can be directly transmitted to the fixing panel, the heat transmission speed is high, the heat efficiency is high, and meanwhile, the heat preservation box is internally provided with the heat preservation layer 10 and the aluminum foil layer 11, so that the heat preservation box has good heat preservation performance, the heat loss is avoided, and the heat preservation is lasting.

In addition, rubber pads 12 are arranged on two sides of the sliding rail 8, and the rubber pads 12 can prevent the heat conduction bearing plate 4 from generating noise due to friction with the rail grooves 17. The heating unit is a heat exchange water pipe or a heating wire, the heat exchange water pipe is arranged in an S shape and is fixed at the bottom of the heat conduction bearing plate through the pipe clamp 2, the heat exchange water pipe is connected in series through a pipe connecting piece, and the heat exchange water pipe is convenient to install and also selected according to actual conditions. The top surface of heat conduction loading board 4 is provided with T type card rail 23, and the bottom surface of fixed panel 5 is provided with T type draw-in groove 24, can guarantee that fixed panel is fixed reliable like this, and the location is accurate.

The foregoing is considered as illustrative and not restrictive of the preferred embodiments of the invention, and any modifications, equivalents and improvements made within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (5)

1. The building energy-saving floor is characterized in that: the floor module is spliced and connected and mainly comprises a heat conduction bearing plate, a fixing panel, a heat preservation box and a heating unit, wherein slide rails are arranged on two sides of the bottom of the heat conduction bearing plate, the slide rails are arranged on the leveling track assembly, the heat preservation box is further arranged at the bottom of the heat conduction bearing plate and is fixed at the bottom of the heat conduction bearing plate through screws, the heating unit is arranged in the heat preservation box, the heating unit is tightly attached to the bottom of the heat conduction bearing plate and is fixed, a heat preservation layer and an aluminum foil layer are arranged on the inner bottom surface and the periphery of the heat preservation box, the heat preservation layer and the aluminum foil layer are sequentially arranged from outside to inside, the fixing panel is arranged on the surface of the heat conduction bearing plate, and Z-shaped structures are further arranged at two ends of the fixing panel, the splicing structure is used for splicing between fixed panels, acoustic panels are further arranged between the fixed panels and the heat conduction bearing plates, lap joint sections are arranged around the heat conduction bearing plates, the floor modules are connected through movable panels, and the movable panels are located on the lap joint sections.

2. The building energy-saving floor as claimed in claim 1, wherein: leveling track subassembly mainly comprises expansion bolts and track groove, expansion bolts fixes on ground, the bottom in track groove is provided with fixed through hole, expansion bolts top cartridge is in fixed through hole, and installs fastening nut and leveling nut on the expansion bolts, fastening nut and leveling nut are located the top and the bottom in track groove respectively, the cell wall top in track groove is provided with the protruding stupefied of first location, the bottom both sides of slide rail are provided with the protruding stupefied of second location, the protruding stupefied card in the protruding stupefied bottom of first location of second location.

3. The building energy-saving floor as claimed in claim 2, wherein: rubber pads are further arranged on two sides of the sliding rail.

4. The building energy-saving floor as claimed in claim 1, wherein: the heating unit is a heat exchange water pipe or an electric heating wire, the heat exchange water pipe is arranged in an S shape and is fixed at the bottom of the heat conduction bearing plate through a pipe clamp, and the heat exchange water pipes are connected in series through pipe connecting pieces.

5. The building energy-saving floor as claimed in claim 1, wherein: the top surface of heat conduction loading board is provided with T type card rail, the bottom surface of fixed panel is provided with T type draw-in groove.