CN219261618U - Novel overhead ground heating module - Google Patents

Abstract

The utility model discloses a novel overhead ground heating module, and belongs to the field of overhead ground heating. The floor heating module comprises a floor heating module plate, wherein three integrally formed water pipe mounting grooves are formed in the upper end face of the floor heating module plate; the positioning clamping block is internally provided with a spring clamping plate for sliding fit; the XPS heat preservation cotton for reducing heat dissipation is arranged between the wood floor and the floor heating module board; and the connecting piece is embedded into the fixing groove and clamped with the spring clamping plate. The utility model solves the problems that after the existing overhead floor heating is modularized, the connecting effect between every two overhead floor heating is common and is not beneficial to long-term use. The two spring clamping plates are embedded into the limiting clamping grooves to be fixed, so that adjacent floor heating module plates are connected quickly through connecting pieces, the structural positions of each floor heating module plate are symmetrical, the structural integrity is improved through factory production and modularized production, four sides of the floor heating module plates can be spliced at will, and the installation effect is improved.

Description

Novel overhead ground heating module

Technical Field

The utility model relates to the technical field of overhead ground heating, in particular to a novel overhead ground heating module.

Background

In the built-in of the assembled building, the overhead floor heating realizes the separation of the building structure and equipment pipelines (water supply and drainage pipes, strong current and weak current pipelines, floor heating pipes and the like) from the structure, and the equipment pipelines are replaced, decorated and updated, building maintenance and layout space adjustment are carried out on the premise of not changing the main body structure.

In the prior art, for example, chinese patent publication No. CN 217235738U: the assembled overhead floor heating module comprises a floor heating paving module, wherein a reinforcing rod is fixedly connected to the side wall of the outer side of the lower end of the floor heating paving module, one end of a bolt penetrates through a mounting hole and is fixedly connected with the ground, a supporting block is fixedly connected to the upper end of a mounting plate through a supporting rod, the floor heating paving module is placed at the upper ends of four supporting blocks, and four corners of the floor heating paving module are positioned between two separation positioning blocks, so that the floor heating paving module is supported; through all having offered inwards arc groove with separating the four sides of lug, form the arc spread groove between the one end lateral wall of arc groove and separation lug one, play to connect the floor heating coil with curved state on warm up the laying module, fix a position the floor heating coil, and prevent to cause the damage to the floor heating coil, and prevent that the rivers in the floor heating coil are not unobstructed.

However, in the above technology, after the existing overhead floor heating is modularized, the connection effect between every two overhead floor heating systems is general, and the structure stability is general, which is not beneficial to long-term use.

In order to overcome the defects, a novel overhead floor heating module is required to be designed.

Disclosure of Invention

The utility model aims to provide a novel overhead ground heating module, which can solve the problems that after the existing overhead ground heating module is modularized, the connecting effect between every two overhead ground heating modules is common, the structural stability is common, and the long-term use is not facilitated.

In order to achieve the above purpose, the present utility model provides the following technical solutions: novel built on stilts warm module, include:

the floor heating module plate is characterized in that four corners inside the floor heating module plate are respectively provided with an integrally formed corner notch, four sides outside the floor heating module plate are respectively provided with two integrally formed connecting notches, and the upper end face of the floor heating module plate is provided with three integrally formed water pipe mounting grooves;

the method also comprises the following steps:

the positioning clamping block is used for connecting the floor heating module plate and is positioned in the connecting notch, and a spring clamping plate used for sliding fit is arranged in the positioning clamping block;

the fan-shaped clamping blocks, the semicircular clamping blocks and the round clamping blocks are used for uniformly distributing heating positions and are positioned on the upper end face of the floor heating module plate;

the wood floor is used for receiving heat and is positioned above the floor heating module board, and XPS heat preservation cotton used for reducing heat dissipation is arranged between the wood floor and the floor heating module board;

the connecting piece is used for connecting adjacent ground heating module board the connecting piece is located the inside of connecting notch, one side of connecting piece is provided with integrated into one piece's spacing draw-in groove, be provided with integrated into one piece's fixed slot in the middle of the inside of spacing draw-in groove, spring cardboard embedding fixed slot's inside and connecting piece block.

Preferably, the lower extreme of the floor heating module board is provided with a supporting foot seat, the supporting foot seat is used for supporting and overhead ground, the thickness of the floor heating module board is set to be 32mm, and the width of the floor heating module board is set to be 600mm.

Preferably, the water pipe mounting groove is used for mounting the circulating water pipe, the width of the water pipe mounting groove is set to 20mm, the depth of the water pipe mounting groove is set to 22mm, the two sides of the upper end of the water pipe mounting groove are both provided with auxiliary mounting grooves, and the auxiliary mounting grooves are used for dismounting the circulating water pipe.

Preferably, springs are arranged at the upper end and the lower end of the positioning clamping block, two spring clamping plates are arranged, one ends of the two spring clamping plates are respectively connected with the upper end and the lower end of the positioning clamping block in a sliding mode, the spring clamping plates are fixedly connected with the springs, an inclined plane sliding plate is arranged on one side of the connecting piece, and the inclined plane sliding plate is used for separating the two spring clamping plates.

Preferably, the radii of the fan-shaped clamping block, the semicircular clamping block and the circular clamping block are all set to be 70mm, the shape of the semicircular clamping block is set to be a half circular clamping block, and the shape of the fan-shaped clamping block is set to be a half semicircular clamping block.

Preferably, the outside of fan-shaped fixture block is provided with fan-shaped heat conduction groove, the outside of semicircle fixture block is provided with semicircle heat conduction groove, the outside of circular fixture block is provided with circular heat conduction groove, fan-shaped heat conduction groove, semicircle heat conduction groove and circular heat conduction groove's width all sets up to 20mm, just fan-shaped heat conduction groove, semicircle heat conduction groove and circular heat conduction groove's degree of depth all set up to 20mm.

Preferably, the first heat conducting port of integrated into one piece is all provided with between water pipe mounting groove and semicircle heat conducting groove and the circular heat conducting groove, be provided with integrated into one piece's second heat conducting port between water pipe mounting groove and the fan-shaped heat conducting groove, the width of second heat conducting port sets up to 10mm, the width of first heat conducting port sets up to 20mm, just the degree of depth of first heat conducting port and second heat conducting port all sets up to 20mm.

Preferably, the outside of XPS heat preservation cotton is provided with fan-shaped opening, circular opening, semicircle opening and heat conduction mesh, fan-shaped opening, circular opening, semicircle opening and heat conduction mesh's position is corresponding with fan-shaped fixture block, circular fixture block, semicircle fixture block and auxiliary installation groove's position respectively.

Compared with the prior art, the utility model has the following beneficial effects:

1. this novel built on stilts warm up module, in operation, the module board of warming up of adaptation quantity is selected to assemble according to the area of the ground, dock the four sides of a plurality of module boards of warming up, every connection notch position at the module board of warming up inserts two connecting pieces, insert between two spring clamping plates with the inclined plane slide of connecting piece, make two spring clamping plates imbeds spacing draw-in groove inside fix, make adjacent warm up the module board through connecting piece lug connection, the structural position symmetry of module board is warmed up in every, through the industrialization, modularized production is in order to improve the wholeness of structure, make the four sides of warm up the module board can splice at will, and is stable in structure, the mounting means is simple and convenient, easy operation is favorable to improving the installation effect.

2. This novel built on stilts warm up module, at work, the accessible is at the internally mounted circulating water pipe of water pipe mounting groove, after circulating water pipe flows hot water, the heat that produces is through first heat conduction mouth and second heat conduction mouth with the leading-in fan-shaped heat conduction groove of hot air, semicircle heat conduction groove and circular heat conduction inslot, make the even contact timber apron of hot air, and the fan-shaped through opening of XPS heat preservation cotton, circular through opening, semicircle through opening and heat conduction mesh are complete with the attached position of warm up the module board, evenly cover, the air flow mouth of cooperation evenly distributed, make timber apron be heated more evenly, than traditional heating environmental protection and energy saving, further promote the life of water heating, be favorable to long-term use.

Drawings

FIG. 1 is a top perspective view of the present utility model;

FIG. 2 is a bottom isometric view of the present utility model;

FIG. 3 is an exploded isometric view of the present utility model;

FIG. 4 is an isometric view of a floor heating module panel of the present utility model from above;

FIG. 5 is a schematic top view of a floor heating module board of the present utility model;

FIG. 6 is a schematic diagram of a side view of a floor heating module board of the present utility model;

fig. 7 is an isometric view of a connector of the present utility model from above.

In the figure: 1. a floor heating module board; 101. a support foot base; 102. corner notches; 103. a connecting notch; 104. a water pipe installation groove; 1041. an auxiliary installation groove; 1042. a first heat conducting port; 1043. a second heat conducting port; 105. positioning the clamping blocks; 1051. a spring clamping plate; 106. a fan-shaped clamping block; 1061. a fan-shaped heat conducting groove; 107. a semicircular clamping block; 1071. a semicircular heat conduction groove; 108. a circular clamping block; 1081. a circular heat conducting groove; 2. a wood floor; 3. a connecting piece; 301. a limit clamping groove; 302. an inclined plane sliding plate; 303. a fixing groove; 4. a circulating water pipe; 5. XPS heat preservation cotton; 501. a fan-shaped through opening; 502. a circular through hole; 503. a semicircular opening; 504. a thermally conductive mesh.

Detailed Description

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

In order to solve the technical problems that in the prior art, after the overhead floor heating is modularized, the connection effect between every two overhead floor heating is general and is unfavorable for long-term use, please refer to fig. 1-3 and fig. 6-7, the following technical scheme is provided:

novel built on stilts warm module, include:

the floor heating module board 1, four corners inside the floor heating module board 1 are provided with corner notches 102 formed integrally, four sides outside the floor heating module board 1 are provided with two connecting notches 103 formed integrally, and the upper end surface of the floor heating module board 1 is provided with three water pipe mounting grooves 104 formed integrally;

the method also comprises the following steps:

the positioning clamp block 105 is used for connecting the positioning clamp block 105 of the floor heating module board 1 to the inside of the connecting notch 103, and a spring clamp plate 1051 used for sliding jogging is arranged in the positioning clamp block 105;

the fan-shaped clamping blocks 106, the semicircular clamping blocks 107 and the circular clamping blocks 108 are used for uniformly distributing the fan-shaped clamping blocks 106, the semicircular clamping blocks 107 and the circular clamping blocks 108 at the heating positions and are positioned on the upper end face of the floor heating module board 1;

the wood floor 2 is used for receiving heat, the wood floor 2 is positioned above the floor heating module board 1, and XPS heat preservation cotton 5 used for reducing heat dissipation is arranged between the wood floor 2 and the floor heating module board 1;

the connecting piece 3 is used for connecting the connecting piece 3 of the adjacent ground heating module board 1 and is located the inside of connecting notch 103, one side of connecting piece 3 is provided with integrated into one piece's spacing draw-in groove 301, is provided with integrated into one piece's fixed slot 303 in the middle of the inside of spacing draw-in groove 301, and spring cardboard 1051 embedding fixed slot 303's inside and connecting piece 3 block.

The upper end and the lower extreme of location clamp splice 105 all are provided with the spring, and spring cardboard 1051 is provided with two, and two spring cardboard 1051's one end respectively with the upper end and the lower extreme sliding connection of location clamp splice 105, and spring cardboard 1051 and spring fixed connection, one side of connecting piece 3 is provided with inclined plane slide 302, and inclined plane slide 302 is used for separating two spring cardboard 1051.

Specifically, according to the ground area, select the module board 1 of warming up of adaptation quantity to assemble, dock the four sides of a plurality of module boards 1 of warming up, insert two connecting pieces 3 in every connection notch 103 position of module board 1 of warming up, insert between two spring cardboard 1051 with the inclined plane slide 302 of connecting piece 3, make two spring cardboard 1051 imbeds spacing draw-in groove 301 inside fix, make adjacent module board 1 warm up through connecting piece 3 quick connect, the structural position symmetry of module board 1 is warmed up in every, through the batch production, modularized production is in order to improve the wholeness of structure, make the four sides of module board 1 warm up at will splice, stable in structure, the mounting means is simple and convenient, easy operation is favorable to improving the installation effect.

In order to solve the technical problems of uneven heat conduction effect and influence on use of the water heating module in the prior art, please refer to fig. 3-5, the following technical scheme is provided:

the lower extreme of the floor heating module board 1 is provided with a supporting foot seat 101, the supporting foot seat 101 is used for supporting and overhead ground, the thickness of the floor heating module board 1 is set to be 32mm, and the width of the floor heating module board 1 is set to be 600mm.

The water pipe mounting groove 104 is used for installing the circulating water pipe 4, the width of the water pipe mounting groove 104 is set to 20mm, the depth of the water pipe mounting groove 104 is set to 22mm, the two sides of the upper end of the water pipe mounting groove 104 are both provided with auxiliary mounting grooves 1041, and the auxiliary mounting grooves 1041 are used for disassembling and assembling the circulating water pipe 4.

The radii of the sector-shaped clamp block 106, the semicircular clamp block 107 and the circular clamp block 108 are all set to 70mm, the shape of the semicircular clamp block 107 is set to be a half circular clamp block 108, and the shape of the sector-shaped clamp block 106 is set to be a half semicircular clamp block 107.

The outside of fan-shaped fixture block 106 is provided with fan-shaped heat conduction groove 1061, and the outside of semicircle fixture block 107 is provided with semicircle heat conduction groove 1071, and the outside of circular fixture block 108 is provided with circular heat conduction groove 1081, and fan-shaped heat conduction groove 1061, semicircle heat conduction groove 1071 and circular heat conduction groove 1081's width all sets up to 20mm, and fan-shaped heat conduction groove 1061, semicircle heat conduction groove 1071 and circular heat conduction groove 1081's degree of depth all sets up to 20mm.

The first heat conducting openings 1042 of integrated into one piece are arranged between the water pipe mounting groove 104 and the semicircular heat conducting groove 1071 and the circular heat conducting groove 1081, the second heat conducting openings 1043 of integrated into one piece are arranged between the water pipe mounting groove 104 and the fan-shaped heat conducting groove 1061, the width of the second heat conducting openings 1043 is set to 10mm, the width of the first heat conducting openings 1042 is set to 20mm, and the depths of the first heat conducting openings 1042 and the second heat conducting openings 1043 are set to 20mm.

The outside of XPS heat preservation cotton 5 is provided with fan-shaped opening 501, circular opening 502, semicircle opening 503 and heat conduction mesh 504, and fan-shaped opening 501, circular opening 502, semicircle opening 503 and heat conduction mesh 504's position corresponds with fan-shaped fixture block 106, circular fixture block 108, semicircle fixture block 107 and auxiliary mounting groove 1041's position respectively.

Specifically, in operation, through the internally mounted circulating water pipe 4 at the water pipe mounting groove 104, after the circulating water pipe 4 flows hot water, the generated heat is led into the fan-shaped heat conducting groove 1061, the semicircular heat conducting groove 1071 and the circular heat conducting groove 1081 through the first heat conducting opening 1042 and the second heat conducting opening 1043, so that the hot air is uniformly contacted with the wood floor 2 for dry operation, and the fan-shaped through openings 501, the circular through openings 502, the semicircular through openings 503 and the heat conducting meshes 504 of the XPS heat preservation cotton 5 are completely and uniformly covered with the attached positions of the floor heating module board 1, and the evenly distributed air flow openings are matched, so that the wood floor 2 is heated more uniformly, the environment-friendly and energy-saving compared with the traditional heating, the service life of water heating is further prolonged, and long-term use is facilitated.

Working principle: during installation, the floor heating module boards 1 with the adaptive quantity are selected to be assembled according to the ground area, four sides of the floor heating module boards 1 are butted, two connecting pieces 3 are inserted into each connecting notch 103 of the floor heating module boards 1, an inclined plane sliding plate 302 of each connecting piece 3 is inserted between two spring clamping plates 1051, the two spring clamping plates 1051 are embedded into a limiting clamping groove 301 to be fixed, adjacent floor heating module boards 1 are quickly connected through the connecting pieces 3, the structural position of each floor heating module board 1 is symmetrical, the structural integrity is improved through factory and modularized production, four sides of the floor heating module boards 1 can be spliced at will, the structure is stable, the installation mode is simple and convenient, the operation is simple, the installation effect is improved, after the floor heating module boards 1 are assembled, the floor heating module boards are supported on the ground through supporting leg seats 101, and after the assembly is completed, after the XPS thermal insulation cotton 5 is attached to the upper surface of the floor heating module board 1, the wooden floor board 2 is installed to complete floor heating assembly, in operation, the circulating water pipe 4 is installed in the water pipe installation groove 104, after hot water flows through the circulating water pipe 4, generated heat is guided into the fan-shaped heat conduction groove 1061, the semicircular heat conduction groove 1071 and the circular heat conduction groove 1081 through the first heat conduction opening 1042 and the second heat conduction opening 1043, so that the hot air uniformly contacts the wooden floor board 2 to perform dry operation, the attaching positions of the fan-shaped through opening 501, the circular through opening 502, the semicircular through opening 503 and the heat conduction mesh 504 of the XPS thermal insulation cotton 5 and the floor heating module board 1 are complete and uniformly covered, and the evenly distributed air flow openings are matched, so that the heating of the wooden floor board 2 is more uniform, the heating environment is more energy-friendly, the service life of the water heating is further prolonged than the traditional heating environment-friendly, is beneficial to long-term use.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Novel built on stilts warm module, include:

the floor heating module board (1), four corners inside the floor heating module board (1) are respectively provided with an integrally formed corner notch (102), four sides outside the floor heating module board (1) are respectively provided with two integrally formed connecting notches (103), and the upper end face of the floor heating module board (1) is provided with three integrally formed water pipe mounting grooves (104);

it is characterized in that the method also comprises the following steps:

the positioning clamping block (105) is used for connecting the positioning clamping block (105) of the floor heating module plate (1) to be positioned in the connecting notch (103), and a spring clamping plate (1051) used for sliding fit is arranged in the positioning clamping block (105);

the fan-shaped clamping blocks (106), semicircular clamping blocks (107) and round clamping blocks (108) are used for uniformly distributing the fan-shaped clamping blocks (106) and the round clamping blocks (108) at the heating positions, eight semicircular clamping blocks (107) are arranged, four fan-shaped clamping blocks (106) are respectively positioned at four corners of the upper end of the floor heating module plate (1), eight semicircular clamping blocks (107) are respectively positioned at the upper ends of four sides of the floor heating module plate (1), and four round clamping blocks (108) are respectively positioned at the upper end face of the floor heating module plate (1);

the floor heating system comprises a floor heating module board (1), a wood floor (2) and XPS heat preservation cotton (5) used for reducing heat dissipation, wherein the wood floor (2) used for receiving heat is positioned above the floor heating module board (1), and the XPS heat preservation cotton (5) used for reducing heat dissipation is arranged between the wood floor (2) and the floor heating module board (1);

connecting piece (3) for connect connecting piece (3) that adjacent ground warmed up module board (1) are located the inside of connecting notch (103), one side of connecting piece (3) is provided with integrated into one piece's spacing draw-in groove (301), be provided with integrated into one piece's fixed slot (303) in the middle of the inside of spacing draw-in groove (301), the inside and connecting piece (3) block of spring cardboard (1051) embedding fixed slot (303).

2. The novel overhead floor heating module of claim 1, wherein: the floor heating module board is characterized in that the lower end of the floor heating module board (1) is provided with a supporting foot seat (101), the supporting foot seat (101) is used for supporting and supporting the ground, the thickness of the floor heating module board (1) is set to be 32mm, and the width of the floor heating module board (1) is set to be 600mm.

3. The novel overhead floor heating module of claim 2, wherein: the water pipe mounting groove (104) is used for mounting the circulating water pipe 4 (), the width of the water pipe mounting groove 1 (04) is set to be 20mm, the depth of the water pipe mounting groove (104) is set to be 22mm, auxiliary mounting grooves (1041) are formed in two sides of the upper end of the water pipe mounting groove (104), and the auxiliary mounting grooves (1041) are used for dismounting the circulating water pipe (4).

4. A novel overhead floor heating module according to claim 3, wherein: the upper end and the lower extreme of location clamp splice (105) all are provided with the spring, spring cardboard (1051) is provided with two, two the one end of spring cardboard (1051) respectively with the upper end and the lower extreme sliding connection of location clamp splice (105), just spring cardboard (1051) and spring fixed connection, one side of connecting piece (3) is provided with inclined plane slide (302), inclined plane slide (302) are used for separating two spring cardboard (1051).

5. The novel overhead floor heating module of claim 4, wherein: the radius of the fan-shaped clamping block (106), the radius of the semicircular clamping block (107) and the radius of the circular clamping block (108) are all 70mm, the shape of the semicircular clamping block (107) is set to be a half circular clamping block (108), and the shape of the fan-shaped clamping block (106) is set to be a half semicircular clamping block (107).

6. The novel overhead floor heating module of claim 5, wherein: the fan-shaped clamping block is characterized in that a fan-shaped heat conducting groove (1061) is formed in the outer portion of the fan-shaped clamping block (106), a semicircular heat conducting groove (1071) is formed in the outer portion of the semicircular clamping block (107), a circular heat conducting groove (1081) is formed in the outer portion of the circular clamping block (108), the widths of the fan-shaped heat conducting groove (1061), the semicircular heat conducting groove (1071) and the circular heat conducting groove (1081) are 20mm, and the depths of the fan-shaped heat conducting groove (1061), the semicircular heat conducting groove (1071) and the circular heat conducting groove (1081) are 20mm.

7. The novel overhead floor heating module of claim 6, wherein: the novel heat pipe is characterized in that an integrally formed first heat conducting opening (1042) is formed between the water pipe mounting groove (104) and the semicircular heat conducting groove (1071) and between the water pipe mounting groove and the circular heat conducting groove (1081), an integrally formed second heat conducting opening (1043) is formed between the water pipe mounting groove (104) and the fan-shaped heat conducting groove (1061), the width of the second heat conducting opening (1043) is set to 10mm, the width of the first heat conducting opening (1042) is set to 20mm, and the depths of the first heat conducting opening (1042) and the second heat conducting opening (1043) are set to 20mm.

8. The novel overhead floor heating module of claim 7, wherein: the XPS thermal insulation cotton (5) is provided with a fan-shaped through hole (501), a round through hole (502), a semicircular through hole (503) and a heat conduction mesh (504), wherein the positions of the fan-shaped through hole (501), the round through hole (502), the semicircular through hole (503) and the heat conduction mesh (504) are respectively corresponding to the positions of the fan-shaped clamping block (106), the round clamping block (108), the semicircular clamping block (107) and the auxiliary mounting groove (1041).

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