CN214841088U

CN214841088U - Floor heating module

Info

Publication number: CN214841088U
Application number: CN202121608821.5U
Authority: CN
Inventors: 涂向群; 彭雄; 游志华
Original assignee: Wuhan Ruiqi Ertai Technology Co ltd
Current assignee: Wuhan Ruiqi Ertai Technology Co ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2021-11-23
Anticipated expiration: 2031-07-15

Abstract

The utility model relates to a floor heating module, which comprises a module body, a plurality of heat dissipation bosses and a heat insulation layer, wherein the heat dissipation bosses are arranged on one surface of the module body close to a floor; a plurality of heating grooves are formed in one surface of the module body, the heating grooves are formed in gaps among the plurality of radiating bosses and are located on one surface close to the floor, the heating grooves are parallel to each other, and the distance between every two adjacent heating grooves is equal; the side, away from the module body, of each of the plurality of radiating bosses is provided with lugs arranged in a circumferential array, and the lugs are in contact with the floor; the heat preservation heat insulation layer set up in the module body is kept away from in the one side of heat dissipation boss, the utility model provides a warm up the module and can make warm up to heat more evenly.

Description

Floor heating module

Technical Field

The utility model relates to a warm up technical field in the house, especially relate to a warm up module.

Background

The floor heating module is a short-for-short prefabricated groove dry-type floor heating module, an integrated floor heating plate which is capable of fixing and protecting a heating pipe and performing heat soaking by utilizing the groove of the heat insulation plate is an important heat soaking radiation tail end of a floor heating system. The floor heating module is used for replacing auxiliary materials such as insulation boards, reflecting films and clamping nails in a traditional floor heating system, floor tiles or floors can be directly paved without cement backfilling, floor heating installation procedures can be greatly simplified, floor heating thickness is reduced, downward heat transfer loss is reduced, and floor heating is more energy-saving.

The module warms up now usually sets up the standing groove of placing the steam heating pipe on the module warms up, then puts into the standing groove with the steam heating pipe, seals in the bottom plate together again to the realization is through the heat dissipation of steam heating pipe, realizes the effect of heating.

However, the material itself of ground heating module has thermal-insulated function usually to avoid the heat of steam heating pipe to run off towards underground, so when needing to warm up, all only utilize the autonomic heat dissipation of steam heating pipe usually, because the steam heating pipe is set up at the inslot, autonomic heat dissipation is slow, leads to making warm slowly, and makes warm effect inhomogeneous.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a warm up module and solve warm up module and heat slow and the inhomogeneous problem of effect of heating.

In order to achieve the above object, the utility model provides a technical scheme of technical problem provides a warm up module, include: the module comprises a module body, a plurality of radiating bosses and a heat insulation layer, wherein the radiating bosses are arranged on one surface of the module body close to a floor in an array manner; a plurality of heating grooves are formed in one surface of the module body, the heating grooves are formed in gaps among the plurality of radiating bosses and are located on one surface close to the floor, the heating grooves are parallel to each other, and the distance between every two adjacent heating grooves is equal; the side, away from the module body, of each of the plurality of radiating bosses is provided with lugs arranged in a circumferential array, and the lugs are in contact with the floor; the heat preservation heat insulation layer set up in the module body is kept away from on the one side of heat dissipation boss.

Further, the module body is hollow inside.

Furthermore, be provided with the joint boss on two lateral walls in heating installation groove to with the heating pipe joint in the heating installation groove.

Further, the module body is far away from the one side of heat preservation heat insulation layer all be provided with the heat conduction coating on the lateral wall of warm braw groove and the bottom.

Further, the lug is spherical.

Further, the heat preservation heat insulation layer with the module body is kept away from the one side dislocation connection of heat dissipation boss.

Furthermore, the heat-insulating layer protrudes out of one side of the module body, a connecting bolt is arranged on one side of the module body, the module body is far away from one side of the heating groove, and a connecting hole is formed in one side of the module body far away from the connecting bolt.

Furthermore, the number of the connecting pins and the number of the connecting holes are all a plurality, and the number of the connecting pins is equal to that of the connecting holes.

Further, the heat preservation heat insulation layer includes first heat preservation and second heat preservation, first heat preservation with module body dislocation connection, the second heat preservation connect in first heat preservation is kept away from in the one side of module body, connecting pin set up in first heat preservation protrusion and be close to in the one side of module body.

Compared with the prior art, the utility model provides a floor heating module has following beneficial effect:

through the lug that sets up the circumference array and arrange on a plurality of heat dissipation bosss to make the heat of steam heating pipe carry out the first back that gives off through the interval between a plurality of heat dissipation bosss, give off in the clearance department that gets into between a plurality of lugs, and directly with heat transfer to floor, thereby realize heating more even effect.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the protection scope of the present invention.

Drawings

Fig. 1 is a schematic structural diagram of a floor heating module according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a side view of the floor heating module of fig. 1;

fig. 4 is a partially enlarged view of fig. 3 at B.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Please refer to fig. 1-4, the utility model provides a pair of floor heating module 10, set up between floor and cement ground, it includes module body 20, heat dissipation boss 30 and heat preservation heat insulation layer 40, the quantity of heat dissipation boss 30 is a plurality of, the setting in the one side that module body 20 is close to the floor of a plurality of heat dissipation boss 30 arrays, the steam heating pipe is placed between a plurality of heat dissipation bosses 30, heat preservation heat insulation layer 40 sets up in the one side that module body 20 is close to cement ground, prevent the heat of steam heating pipe towards the direction flow of cement ground through module body 20 and heat preservation heat insulation layer 40, and utilize the clearance between a plurality of heat dissipation bosses 30, increase the thermal dispersion of heating pipe, thereby when heating speed with higher speed, make the heat disperse more even, realize even heating.

It can be understood that ground heating module 10 generally lays in the house, and cement ground is the bottom in house, and the floor is for laying on cement ground, and module body 20 is located between bottom plate and the cement ground, and in some embodiments, the floor can be for arbitrary materials such as wooden, ceramic tile.

Specifically, a plurality of warm air tanks 21 have been seted up on the one side of module body 20, and a plurality of warm air tanks 21 are seted up in the clearance department between a plurality of heat dissipation bosss 30, are located the one side that is close to the floor, are parallel to each other between a plurality of warm air tanks 21, and the interval between two adjacent warm air tanks 21 equals. A plurality of steam heating pipes joint respectively in a plurality of warm braw grooves 21, are parallel to each other and the interval between two adjacent warm braw grooves 21 equals through a plurality of warm braw grooves 21 for when a plurality of steam heating pipes dispel the heat in a plurality of warm braw grooves 21 simultaneously, thermal propagation is more even.

All be provided with the lug 31 that is the circumference array and arranges on the one side that module body 20 was kept away from to a plurality of heat dissipation bosss 30, lug 31 and floor contact to when the heat at the steam heating pipe was broadcast through a plurality of heat dissipation bosss 30, through lug 31, utilize heat dissipation boss 31 on a plurality of heat dissipation bosss 30 to shunt the heat once more, make the heat dissipation more even, also the more even transmission of heat that the steam heating pipe gived off is to the floor.

It can be understood that through set up the lug 31 that is the circumference permutation and arranges on the one side that module body 20 was kept away from to a plurality of heat dissipation bosss 30, and the heating pipe joint is in being located the heating groove 21 between a plurality of heat dissipation bosss 30, and after the heating pipe heated the air, the hot-air rose, and clearance department between a plurality of heat dissipation bosss 30 gets into between a plurality of lugs 31. And the surface of the lug 31 far away from the heat dissipation lug bosses 30 is contacted with the floor, and the hot air enters the gaps among the lug bosses 31 and is contacted with the floor to heat the ground connection wire, so that the hot air is uniformly distributed and contacted with the floor by utilizing the gaps among the lug bosses 31 on the plurality of heat dissipation lug bosses 30, and the uniform heating effect is realized.

It can be understood that, in the present embodiment, the position relationship of the heating slot 21, the heat dissipation bosses 30 and the bumps 31 along the direction perpendicular to the ground is sequentially from short to high, so that the hot air is separated and dispersed twice when passing through the heat dissipation bosses 30 and the bumps 31 on the heat dissipation bosses 30 respectively by using the principle that the hot air rises, thereby achieving the effect of uniform heating.

It can be understood that the arrangement mode that is the circumference array through with a plurality of lugs 31 sets up on heat dissipation boss 30, after the clearance between a plurality of heat dissipation bosses 30 of hot space carries out diffusion for the first time, has conflict each other between the hot-air that a plurality of steam heating pipes produced to make the hot-air when the clearance department between a plurality of lugs 31 of entering, can detain between lug 31, thereby increase the effect of heating.

It is understood that insulating layer 40 may be polystyrene foam, polyurethane foam, or other low thermal conductivity insulating material.

Further, the module body 20 is hollow to increase the heat insulation effect, and the hollow structure can be formed through foaming, so that the process is simpler.

Further, be provided with joint boss 211 on two lateral walls of heating installation 21 to be located the heating pipe in heating installation 21 through joint boss 211 joint, thereby fix the heating pipe.

Furthermore, a heat conducting coating (not shown) is disposed on a side of the module body 20 away from the thermal insulation layer 40, and on a side wall and a bottom of the heating channel 21, so as to increase the heat dissipation speed of the heating pipe.

It can be understood that the heat-conducting coating can be made of materials with good heat-conducting property, such as graphite, graphene, nano inorganic heat-conducting materials and the like.

Further, the bump 31 is formed in a spherical shape, and the contact area between the hot air and the floor in the gap between the plurality of bumps 31 is increased by providing the spherical bump 31 so that the bump 31 is in point contact with the floor when in contact.

Further, the heat insulation layer 40 and the module body 20 are connected in a staggered manner on the side far away from the heat dissipation boss 30, so that the floor heating modules 10 can be spliced.

It can be understood that through setting up heat preservation heat insulation layer 40 and module body 20 dislocation connection, form the step form promptly after heat preservation heat insulation layer 40 and the laminating of module body 20 to there is interval H between the same limit of messenger's heat preservation heat insulation layer 40 and module body 20, thereby when laying and warm up module 10, the step that usable dislocation formed, splice a plurality of modules 10 that warm up in proper order.

Furthermore, a connecting pin 41 is disposed on one side of the thermal insulation layer 40 protruding from the module body 20, and a connecting hole (not shown) is disposed on one side of the module body 20 away from the side where the heating groove 21 is disposed and away from the connecting pin 41.

It can be understood that, when a plurality of floor heating modules 10 are spliced, the connecting pin 41 on one floor heating module 10 is inserted into the connecting hole on the adjacent floor heating module 10, so as to fix the two floor heating modules 10 after being spliced.

Furthermore, the number of the connecting pins 41 and the number of the connecting holes are all plural, and the number of the connecting pins 41 and the number of the connecting holes are equal.

Further, heat preservation heat insulation layer 40 includes first heat preservation 42 and second heat preservation 43, and first heat preservation 42 and module body 20 be connected in dislocation, and second heat preservation 43 is connected on the one side of keeping away from module body 20 in first heat preservation 42, and connecting pin 41 sets up on the one side that first heat preservation 42 is protruding and is close to module body 20.

The utility model discloses a theory of operation does: utilize the echelonment that the dislocation between module body 20 and the heat preservation heat insulation layer 40 was connected and is formed, with a plurality of modules 10 that warm up lay cement subaerially in proper order, then with the heating pipe joint in a plurality of heating grooves 21 that are parallel to each other and adjacent interval equals, at last with a plurality of lugs 31 of floor laminating to accomplish and lay, thereby utilize a plurality of heat dissipation bosss 30 and the lug 31 that is the circumference array on the heat dissipation boss 30 to realize evenly heating.

Claims

1. A floor heating module, comprising:

the module comprises a module body, a plurality of radiating bosses and a heat insulation layer, wherein the radiating bosses are arranged on one surface of the module body close to a floor in an array manner;

a plurality of heating grooves are formed in one surface of the module body, the heating grooves are formed in gaps among the plurality of radiating bosses and are located on one surface close to the floor, the heating grooves are parallel to each other, and the distance between every two adjacent heating grooves is equal;

the side, away from the module body, of each of the plurality of radiating bosses is provided with lugs arranged in a circumferential array, and the lugs are in contact with the floor;

the heat preservation heat insulation layer set up in the module body is kept away from on the one side of heat dissipation boss.

2. The floor heating module of claim 1, wherein:

the module body is hollow.

3. The floor heating module of claim 1, wherein:

be provided with the joint boss on two lateral walls of heating installation groove to with the heating pipe joint in the heating installation groove.

4. The floor heating module of claim 1, wherein:

the module body is kept away from the one side of heat preservation heat insulation layer all be provided with the heat conduction coating on the lateral wall of warm braw groove and the bottom.

5. The floor heating module of claim 1, wherein:

the convex block is spherical.

6. The floor heating module of claim 1, wherein:

the heat preservation heat insulation layer with the module body is kept away from the one side dislocation connection of heat dissipation boss.

7. The floor heating module of claim 6, wherein:

the heat insulation layer protrudes out of one side of the module body, a connecting bolt is arranged on one side of the module body, the module body is far away from one side of the heating groove, and a connecting hole is formed in one side of the connecting bolt.

8. The floor heating module of claim 7, wherein:

the number of connecting pins and connecting holes is all a plurality of, just connecting pins with the quantity of connecting hole equals.

9. The floor heating module of claim 7, wherein:

the heat preservation heat insulation layer includes first heat preservation and second heat preservation, first heat preservation with module body dislocation connection, the second heat preservation connect in first heat preservation is kept away from in the one side of module body, connecting pin set up in first heat preservation protrusion is close to in the one side of module body.