CN105910160A - Electric heating module, heating floor, installation method for heating floor and heating roof - Google Patents

Abstract

The invention relates to an electric heating module which comprises a heat insulation plate. A wire arranging groove with a groove opening facing upwards is formed in the upper surface of the heat insulation plate. A heat conduction layer is arranged on the upper surface of the heat insulation plate. Downwards-concave grooves are formed in the parts, provided with the wire arrangement groove, of the heat conduction layer. Thus, a wire arrangement groove does not need to be formed in a floor body, and the phenomenon that the floor body is subjected to layering and cracking due to grooving or direct contact with a heating wire can be avoided. The wire arrangement groove of the heat insulation plate can be formed when a heat insulation layer is formed, and subsequent grooving is not needed, so that liners can be produced in batches in a factory, the technological process of grooving is omitted, labor and material resources are saved, and the production efficiency is greatly improved. In addition, when a floor is installed, the electric heating module can be laid on the ground and then covered with the floor body, and the installation manner of the heating floor is more convenient than that of a traditional heating floor.

Description

A kind of electric heating module and heating floor and the installation method of heating floor and heating roof

Technical field

The application relates to a kind of electric heating module and heating floor and the installation method of heating floor and heating roof.

Background technology

In the prior art, the line with heating function of heating floor is typically laid on floor body, offers winding displacement groove on floor body, and not only grooving processes is complicated, and easily causes the defects such as floor delamination splitting.Prior art also has line with heating function is laid in cement, but it is slow so to easily cause heating, power consumption height.

Summary of the invention

The technical problem to be solved is to overcome the deficiencies in the prior art, it is provided that a kind of electric heating module and heating floor and the installation method of heating floor and heating roof.

For solving above technical problem, the present invention adopts the following technical scheme that:

A kind of electric heating module, it includes that thermal insulation board, the upper surface of described thermal insulation board are provided with notch winding displacement groove upwards, and described thermal insulation board upper surface is provided with heat-conducting layer, and described heat-conducting layer is provided with the groove of concave downward at described winding displacement groove location.

Preferably, the carbon fiber heating line generated heat after being equipped with energising in described groove.

Preferably, described heat-conducting layer is the metallic plate or metal forming being laid on thermal insulation board.

Preferably, described heat-conducting layer is the heat conducting film being coated in described thermal insulation board upper surface, and described heat conducting film is that carbon crystalline substance material is made.

Preferably, described winding displacement groove has many places bending, makes described winding displacement groove in the serpentine-like arrangement of upper surface of described thermal insulation board or back-shaped arrangement.

Preferably, the two ends of described winding displacement groove extend to the same side edge of thermal insulation board and form line outlet.

Preferably, at least one lateral edges of described thermal insulation board is provided with the Wiring trough that can accommodate the power line being connected with carbon fiber heating line of concave downward.

Preferably, the upper surface of described thermal insulation board is completely covered by described heat-conducting layer.

Preferably, described heat-conducting plate being provided with multiple pressure-ray film for being blocked in groove by carbon fiber heating line, described multiple pressure-ray films are distributed along the bearing of trend of groove.

Preferably, described pressure-ray film includes the free end that the root that a root and can be relatively described stirs, the root of described pressure-ray film is positioned at described groove mouth upper edge, pressure-ray film has free state and line ball state, when described pressure-ray film is in free state, the free end of described pressure-ray film and described root are positioned at the same side of groove mouth top edge；When described pressure-ray film is in line ball state, described free end crosses described groove mouth makes described root and described free end be positioned at the opposite side of groove mouth.

The application also provides for a kind of heating floor, and described heating floor includes multiple described electric heating module, and is laid on the floor above described electric heating module, and the lower surface on described floor contacts with the upper surface of described heat-conducting layer.

Preferably, described floor is solid wooden floor board or is composited by plywood.

Preferably, described floor includes floor body and covers the second heat-conducting layer in floor body lower surface, and the lower surface of the second described heat-conducting layer contacts with the upper surface of described heat-conducting layer.

Preferably, the monomer of described electric heating module is rectangle, and multiple described electric heating modules are mutually spliced.

Preferably, described floor is formed by multiple wood board splicings, and the width of described plank is less than the width of described electric heating module.

The application also provides for the installation method of a kind of described heating floor, it is characterised in that described mount scheme comprises the following steps:

(1) described heat-conducting layer is arranged on described thermal insulation board upper surface；

(2) described carbon fiber heating line is laid in described groove；

(3) at heat-conducting layer upper surface laying floor.

Preferably, after described step (2) is specifically, be laid on described carbon fiber heating line in described groove, described multiple electric heating modules are mutually spliced.

Preferably, described step (2) also includes, after described multiple electric heating modules mutually being spliced, lays power line, and be connected with described power line by described carbon fiber heating line in Wiring trough.

The application also provides for a kind of heating roof, and described heating roof includes multiple described electric heating module, and is laid on the multiple tiles above described electric heating module.

Preferably, the monomer of described electric heating module is rectangle, and multiple described electric heating modules are mutually spliced.Due to the employing of above technical scheme, the present invention compared with prior art has the advantage that

Heating module described herein, is to be laid on by line with heating function in electric heating module, and electric heating module includes thermal insulation board, and thermal insulation board is provided with winding displacement groove.This way it is not necessary to offer winding displacement groove on floor body, thus without the delamination splitting occurring that floor body causes because of fluting or direct contact with line with heating function.The winding displacement groove of thermal insulation board can be formed when thermal insulation layer molding, without follow-up fluting, therefore, it can produce liner in batches in factory, also eliminates this technical process of fluting, use manpower and material resources sparingly, substantially increase production efficiency.It addition, when installing floor, electric heating module can be laid on ground, be then covered by floor body, it is convenient that mounting means compares traditional heating floor.

Accompanying drawing explanation

Fig. 1 is the top view of thermal insulation board described herein；

Fig. 2 is the Fig. 1 sectional view in A-A direction；

Fig. 3 is the top view after installing heat-conducting layer on thermal insulation board；

Fig. 4 is the Fig. 3 sectional view in B-B direction；

Fig. 5 is the top view after laying line with heating function on heat-conducting layer；

Fig. 6 is the Fig. 5 sectional view in C-C direction；

Fig. 7 is the spliced top view of electric heating module；

Fig. 8 is the Fig. 7 partial enlarged drawing in E position；

Fig. 9 is the top view after laying floor body on Fig. 7；

Figure 10 is the Fig. 9 partial enlarged drawing in F position；

Figure 11 is the sectional view in D-D direction of a kind of embodiment shown in Figure 10；

Figure 12 is the sectional view in D-D direction of the another kind of embodiment shown in Figure 10；

Figure 13 is ground, heating roof described herein top view,

1, thermal insulation board；11, winding displacement groove；12, Wiring trough；13, line outlet；2, heat-conducting layer；21, groove；22, pressure-ray film；23, punching；3, carbon fiber heating line；4, power line；5, floor body；6, the second heat-conducting layer；7, tile.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is described in further details.Should be understood that these embodiments are for the ultimate principle of the present invention, principal character and advantage are described, and the present invention is not limited by the scope of following example.The implementation condition used in embodiment can do adjustment further according to specific requirement, and not marked implementation condition is usually the condition in normal experiment.

As shown in figs. 1 to 6, the invention provides a kind of electric heating module, including the thermal insulation board 1 shown in Fig. 1, the upper surface of described thermal insulation board 1 is provided with notch winding displacement groove 11 upwards, described winding displacement groove 11 has many places bending at described thermal insulation board 1, making described winding displacement groove 11 in the serpentine-like arrangement of upper surface of described thermal insulation board 1 or back-shaped arrangement, the two ends of described winding displacement groove 11 extend to the same side edge of thermal insulation board 1 and form line outlet 13.Described thermal insulation board 1 upper surface is provided with heat-conducting layer 2, described heat-conducting layer 2 has downward groove 21 in described winding displacement groove 11 position, the shape size of described heat-conducting layer 2 is consistent with the upper surface of described thermal insulation board 1, it is possible to be completely covered by the surface of described thermal insulation board 1.As it is shown in figure 5, be equipped with carbon fiber heating line 3 in described groove 21.Described heat-conducting layer 2 can be to be laid on the metallic plate on thermal insulation board 1 or metal forming, and metallic plate and metal forming can use aluminum alloy materials to make, and can pass through viscose glue phase adhesion between described thermal insulation board 1 and described heat-conducting layer 2.Heat-conducting layer 2 can also be the heat conducting film being coated in described thermal insulation board 1 upper surface, and described heat conducting film is that carbon crystalline substance material is made, for carbon crystalline substance superconduction hotting mask.In a preferred embodiment, described thermal insulation board 1 is foaming or extrusion moulding, make for polyurethane or polystyrene material, there is heat insulation effect, described winding displacement groove 11 is formed in one with described thermal insulation board 1, i.e. winding displacement groove 11 is to be formed when thermal insulation board 1 molding, eliminates grooving processes, can produce thermal insulation board 1 in batches in factory.Winding displacement groove 11 on thermal insulation board 1 can also be arranged by other means, if the technical problems to be solved in this application of can solve the problem that.At least one lateral edges concave downward of described thermal insulation board 1 forms the Wiring trough 12 that can accommodate power line 4.As shown in Figure 3 and Figure 5, described heat-conducting plate being provided with multiple pressure-ray film 22 for being blocked in groove 21 by carbon fiber heating line 3, described multiple pressure-ray films 22 are distributed along the bearing of trend of groove 21.22 1 roots of described pressure-ray film and one can be relatively described the free end that stirs of root, described pressure-ray film 22 is positioned at described groove 21 upper edge, pressure-ray film 22 free state and line ball state, when described pressure-ray film 22 free state, described pressure-ray film 22 is positioned at the same side of groove mouth top edge by end and described root；When described pressure-ray film 22 line ball state, described free end crosses described groove 21 makes described root and described free end be positioned at the opposite side of groove mouth, carbon fiber heating line 3 is blocked in groove 21, prevent carbon fiber heating line 3 from running out of in groove 21, now, on heat-conducting plate, original pressure-ray film 22 status is set to a punching 23.

As it is shown in fig. 7, be that 12 pieces of electric heating modules are mutually spliced, make described Wiring trough 12 be interconnected formed can the line passage that passes through of power supply source line 4, and make described line outlet 13 be connected with line passage.As shown in FIG. 7 and 8, four sides all concave downward of described thermal insulation board 1 form Wiring trough 12, carbon fiber heating line 3 is connected with power line 4 after line outlet 13 stretches out, and the carbon fiber heating line 3 of described multiple electric heating modules mode in parallel connects with power line 4.When reality is spliced and uses this electric heating module, user can use suitable connecting method as required, can solve the technical problem that as long as the application can be solved, be not limited solely to connecting method as depicted.In this application, the length of carbon fiber heating line 3 is roughly equal with the length of winding displacement groove 11 in electric heating module, and after being laid by carbon fiber heating line 3, the two ends of carbon fiber heating line 3 are stretched out from line outlet 13 and are connected with power line 4.

As shown in Fig. 9～10, electric heating module being equipped with floor, described floor can be solid wooden floor board or is composited by plywood.Described floor can be formed by multiple wood board splicings, and the width of described plank is less than the width of described electric heating module.As shown in figure 11, for a kind of embodiment of the application heating floor, in this embodiment, floor directly overlays the upper surface of electric heating module.As shown in figure 12, another kind of embodiment for the application heating floor, in this embodiment, floor includes floor body 5 and covers in the second heat-conducting layer 6 of described floor body 5 lower surface, the second described heat-conducting layer 6 is to be located at the heat-conducting plate between described floor body 5 and described electric heating module or is the heat conducting film being coated in described floor body 5 lower surface, comparing former embodiment, the heat-conducting effect of this embodiment is more preferable.

The installation method of the heating floor of the application specifically includes that described heat-conducting layer 2 is located on described thermal insulation board 1 by (1)；(2) described carbon fiber heating line 3 is laid on described Electric heating module is formed in groove 21, described multiple electric heating modules are mutually spliced and on the ground, and described carbon fiber heating line 3 is connected with power line 4, the carbon fiber heating line 3 of described multiple electric heating modules mode in parallel connects with power line 4, while multiple electric heating modules are mutually spliced, make described Wiring trough 12 be interconnected formed can the line passage that passes through of power supply source line 4, and make described line outlet 13 be connected with line passage；(3) laying floor in electric heating module.

Carbon fiber heating line 3 of the present invention is made for carbon fibre material, and the electric conversion rate of carbon fibre material is high, good insulating, even if contact water also will not get an electric shock, moreover it is possible to emitting far-infrared while heating, has health care to human body, thus the safest.Carbon fiber electrically heating is as a kind of safe and clean, comfortable heating system, to promoting energy-saving and emission-reduction, obvious action of having improved the quality of living.According to measuring and calculating, compared with tradition heating system, each ten thousand squares of wooden heating areas can save coal-fired 68.25 tons a heating season, and uncontaminated gases is discharged.

Heating floor described herein, is to be laid in electric heating module by carbon fiber heating line 3, and electric heating module includes thermal insulation board 1, and thermal insulation board 1 is provided with winding displacement groove 11.This way it is not necessary to offer winding displacement groove 11 on floor body 5, thus without the delamination splitting occurring that floor body 5 causes because of fluting or direct contact with carbon fiber heating line 3.The winding displacement groove 11 of thermal insulation board 1 can be formed when thermal insulation layer molding, without follow-up fluting, therefore, it can produce liner in batches in factory, also eliminates this technical process of fluting, use manpower and material resources sparingly, substantially increase production efficiency.It addition, when installing floor, electric heating module can be laid on ground, be then covered by floor body 5, it is convenient that mounting means compares traditional heating floor.

Electric heating module described herein is except applying on floor, can be applied in the place such as wall or roof, as shown in figure 13, for a kind of heating roof described herein, including multiple described electric heating modules, and it is laid on the multiple tiles 7 above described electric heating module.The monomer of described electric heating module is rectangle, and multiple described electric heating modules are mutually spliced.This heating roofing is convenient, can use manpower and material resources sparingly, substantially increase work efficiency during installation.

Above-below direction in the application refers to, after electric heating module has been laid, the normal observation angle definition of user.

Above the present invention is described in detail; the explanation of embodiment is only intended to help to understand method and the core concept thereof of the present invention; its object is to allow the personage being familiar with this art will appreciate that present disclosure and to implement according to this, can not limit the scope of the invention with this.All equivalence changes made according to spirit of the invention or modification, all should contain within protection scope of the present invention.

Claims (20)

1. an electric heating module, it is characterised in that: it includes thermal insulation board (1), described The upper surface of thermal insulation board (1) is provided with notch winding displacement groove (11) upwards, described thermal insulation board (1) upper surface is provided with heat-conducting layer (2), and described heat-conducting layer (2) is at described winding displacement groove (11) Position is provided with the groove (21) of concave downward.

A kind of electric heating module the most according to claim 1, it is characterised in that: described Groove (21) in be equipped with the carbon fiber heating line (3) of heating after energising.

A kind of electric heating module the most according to claim 2, it is characterised in that: described Heat-conducting layer (2) for be laid on the metallic plate on thermal insulation board (1) or metal forming.

A kind of electric heating module the most according to claim 2, it is characterised in that: described Heat-conducting layer (2) be the heat conducting film being coated in described thermal insulation board (1) upper surface, described leads Hotting mask is that carbon crystalline substance material is made.

A kind of electric heating module the most according to claim 2, it is characterised in that: described Winding displacement groove (11) there is many places bending, make described winding displacement groove (11) described heat insulation The serpentine-like arrangement of upper surface of plate (1) or back-shaped arrangement.

A kind of electric heating module the most according to claim 5, it is characterised in that: described The two ends of winding displacement groove (11) extend to the same side edge of thermal insulation board (1) and form outlet Mouth (13).

A kind of electric heating module the most according to claim 6, it is characterised in that: described At least one lateral edges of thermal insulation board (1) be provided with and send out with carbon fiber can accommodating of concave downward The Wiring trough (12) of the power line (4) that hot line (3) is connected.

A kind of electric heating module the most according to claim 2, it is characterised in that: described The upper surface of thermal insulation board (1) be completely covered by described heat-conducting layer (2).

A kind of electric heating module the most according to claim 2, it is characterised in that: described Heat-conducting layer (2) on be provided with multiple for carbon fiber heating line (3) is blocked in groove (21) Interior pressure-ray film (22), described multiple pressure-ray films (22) are along the extension side of groove (21) To distribution.

A kind of electric heating module the most according to claim 9, it is characterised in that: described Pressure-ray film (22) include the freedom that the root that a root and can be relatively described stirs End, the root of described pressure-ray film (22) is positioned at described groove (21) oral area top edge Place,

Pressure-ray film (22) has free state and line ball state, when described pressure-ray film (22) When being in free state, free end and the described root of described pressure-ray film (22) are positioned at The same side of groove (21) oral area top edge；When described pressure-ray film (22) is in line ball shape During state, described free end is crossed described groove (21) oral area and is made described root and institute The free end stated is positioned at the opposite side of groove (21) oral area.

11. 1 kinds of heating floors, it is characterised in that: described heating floor includes multiple right Require the electric heating module described in 2～10 any one, and be laid in described electric heating module The floor of side, the lower surface on described floor connects with the upper surface of described heat-conducting layer (2) Touch.

12. a kind of heating floors according to claim 11, it is characterised in that: described Floor be solid wooden floor board or be composited by plywood.

13. a kind of heating floors according to claim 11, it is characterised in that: described Floor include floor body (5) and cover in the second heat conduction of floor body (5) lower surface Layer (6), the lower surface of described the second heat-conducting layer (6) is upper with described heat-conducting layer (2) Surface contacts.

14. a kind of heating floors according to claim 11, it is characterised in that: described The monomer of electric heating module be rectangle, multiple described electric heating modules are mutually spliced.

15. a kind of heating floors according to claim 14, it is characterised in that: described Floor formed by multiple wood board splicings, the width of described plank is less than described electric heating mould The width of block.

The installation method of the heating floor described in 16. 1 kinds of claim 11, it is characterised in that Described mount scheme comprises the following steps:

(1) described heat-conducting layer (2) is arranged on described thermal insulation board (1) upper surface；

(2) described carbon fiber heating line (3) is laid in described groove (21)；

(3) at heat-conducting layer (2) upper surface laying floor.

The installation method of 17. a kind of heating floors according to claim 16, its feature It is: described step (2) is specifically, be laid on described carbon fiber heating line (3) After in described groove (21), described multiple electric heating modules are mutually spliced.

The installation method of 18. a kind of heating floors according to claim 17, its feature It is: described step (2) also includes, described multiple electric heating modules are mutually spliced After, in Wiring trough (12), lay power line (4), and by described carbon fiber heating line (3) It is connected with described power line (4).

19. 1 kinds of heating roofs, it is characterised in that: described heating roof includes multiple right Require the electric heating module described in 2～10 any one, and be laid in described electric heating module Multiple tiles of side.

20. a kind of heating roofs according to claim 19, it is characterised in that: described The monomer of electric heating module be rectangle, multiple described electric heating modules are mutually spliced.