CN105163407B - A kind of preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board - Google Patents

Abstract

The invention discloses a kind of preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board, it is related to heating field, this method is included on the first fixed bed after spraying conducting resinl, laying heating conductive filament, first electrode is fixed in one end of heating conductive filament, the other end fixes second electrode, the alignment of first fixed bed is placed into the top surface and bonding of the second fixed bed, after carrying out hot pressing, first plug is welded at top, by the first plug and first electrode, second electrode connects, spliced eye is opened on the first base material layer, heating layer is arranged between the first base material layer and the second substrate layer, and first plug insertion spliced eye, the method of the present invention is fairly simple, obtained heating board is safer, and use cost can be reduced.

Description

A kind of preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board

Technical field

The present invention relates to heating field, and in particular to a kind of preparation side of multifunctional remote intelligent control of low temp electric heat-emitting board Method.

Background technology

With stepping up for living standard, also more and more higher, heating floor are a kind of for requirement of people's door to living environment The floor of heat can be provided for house, mainly can after being powered by the built-in heating layer in the floor of routine, the heating layer Heating, and then to indoor offer heat energy, heating floor generally includes two base materials, and heating layer is bonded between two base materials, hair Thermosphere includes electrode and the plug connector being used cooperatively with electrode, and heating layer is connected by plug connector with external power supply.Existing hair Heating floor when in use, there is following defect：

1st, existing heating layer generally use graphite, carbon dust or Dao electricity Tan be used as raw material, the heating of these raw materials is former Reason is the relative motion between molecule, but graphite, carbon dust or Dao electricity Tan molecular motion in easily produce spark, compare It is dangerous.

2nd, the matrix density of heating layer is generally higher, and adhesive can not penetrate heating layer and bond upper and lower base material completely, lead Cause floor internal bond strength not up to standard, easy caused delamination after heating layer work a period of time, and then cause floor to go out Existing bulge, foaming, even puncture equivalent damage, the floor after damage is difficult to be continuing with, it is necessary to re-replace, the use on floor into This is higher.

3rd, the electrode of heating layer is turned on plug connector by way of extruding contacts, and low temperature electric heat-emitting board uses process In, a certain degree of deformation can occur due to expanding with heat and contract with cold, connector and the empty connection of warm core electrode can be caused, so as to produce local mistake Thermal conductivity causes product by " breakdown ".

The content of the invention

For defect present in prior art, it is an object of the invention to provide a kind of multifunctional remote intelligent control is low The preparation method of warm electric heat-emitting board, it is not only relatively safer, and also cost is relatively low, and this method comprises the following steps：

A, prefabricated first fixed bed and the second fixed bed, in the top surface even application conducting resinl of the first fixed bed, by length For 3~7mm heating conductive filament according to 20~26 grams/m²Dosage be uniformly laid on the surface of the second fixed bed；It is solid second Some first electrodes and some second electrodes are installed in given layer, one end of some heating conductive filaments is connected with a first electrode Connect, the other end connects with corresponding second electrode；

The alignment of first fixed bed is placed into the top surface and bonding of the second fixed bed, hot pressing is carried out, obtain hot pressing layer B, will Hot pressing layer cuts into the size of needs after drying, obtain some heating layer semi-finished product, determine the resistance of all heating layer semi-finished product It is worth size, and judges whether the proof voltage of heating layer semi-finished product can qualified, if qualified, first is welded on heating layer semi-finished product Plug, the second plug is installed at the top of the first plug, the first plug includes anode connection terminal and negative pole connection end, positive pole is connected Connect end to be connected with first electrode, negative pole connection end is connected with second electrode, obtains hot pressing layer finished product；

C, prefabricated the first base material layer and the second substrate layer, it is some slotting for installing first along longitudinally opening on the first base material layer The spliced eye of head, resin glue is coated in the bottom surface of the first base material layer, heating layer is bonded in the bottom surface of the first base material layer, and cause First plug is located in mounting groove, and in the top surface coated with resins glue of the second substrate layer, the top surface of the second substrate layer is bonded in into hair On the bottom surface of thermosphere, electric heat-emitting board semi-finished product are obtained, electric heat-emitting board semi-finished product are put into plane hot press hot pressing fitting, obtain base Plate, cut by specification and process assembled notch.

Further, conducting resinl is sprayed described in step A, wherein the quantity for spray of conducting resinl is according to the first fixed bed, second Depending on the area of fixed bed, the quantity for spray of the first fixed bed is 18 grams/m², the quantity for spray of the second fixed bed is 15 grams/m²。

Further, hot pressing described in step B concretely comprises the following steps：The alignment of first fixed bed is placed into the second fixed bed Top surface and bonding after, hot pressing is that to be put into temperature be 110 DEG C, in pressure 3.5MP, rotating speed 700mm/min drum-type hot press Carry out hot pressing.

Further, the coated weight of the first base material layer base resin glue described in step C is 110 grams/m², the second substrate layer The coated weight of top surface resin glue is 110 grams/m²。

A kind of multifunctional remote intelligent control of low temp electric heat-emitting board prepared using any one of Claims 1-4 method, The low-temperature heating plate is used for consolidated floor, multi-layer solid wood floor or heating wallboard.

Further, the heating board includes the first base material layer and the second substrate layer, the first base material layer and the second base Material layer is oppositely arranged, it is characterised in that：Heating layer is provided between the first base material layer and the second substrate layer；The heating layer Size be less than the first base material layer and the second substrate layer, edge optional position and the first base material layer or second of the heating layer The distance between substrate layer edge optional position is all higher than being equal to 8mm；

Further, the heating layer includes the first fixed bed and the second fixed bed being oppositely arranged, the first fixed bed Top is provided with the first adhesive layer, and the second adhesive layer is provided between the first fixed bed and the second fixed bed, the second fixed bed Bottom is provided with the 3rd adhesive layer.

Further, first electrode, second electrode and some heating conductive filaments are fixed with second adhesive layer, it is some The conductive filament that generates heat is that one end is connected with first electrode, and the other end is connected with second electrode, and first electrode and second electrode are Width is 10mm copper strips electrode；The first plug is provided with the top of first adhesive layer, the first plug includes positive terminal and negative pole End, positive terminal are connected by wire with first electrode, and negative pole end is connected by wire with second electrode.

Further, spliced eye is provided with the first base material layer, the first plug is located in spliced eye, the top of the first plug Portion is provided with the second plug, the first plug and the second plug clamping, and resin glue is filled with spliced eye.

Further, first fixed bed, the second fixed bed are network structure, the first fixed bed, the second fixed bed It is less than or equal to the cloth of 100 mesh, heat resisting temperature higher than 150 DEG C using mesh number to be made.

Compared with prior art, the advantage of the invention is that：

(1) preparation method of the multifunctional remote intelligent control of low temp electric heat-emitting board in the present invention, is included in the first fixation Conducting resinl on layer and the second fixed bed, after the first fixed bed and the alignment of the second fixed bed are pasted, conducting resinl can not only pass through First fixed bed is bonded with the first base material layer, and the second fixed bed and the second substrate layer can be passed through to bond so that the first base Material layer, the second substrate layer and heating layer can be brought into close contact, and can be ensured the bond strength inside low temperature electric heat-emitting board, be avoided out The phenomenon that existing heating layer peels off, while heatproof flame-retardant, thermal conversion rate is unattenuated using not aging in 500,000 hours higher than 98%, should Method is fairly simple, not only relatively safety, and can reduce use cost.

(2) multifunctional remote intelligent control of low temp electric heat-emitting board prepared by the method in the present invention, including heating layer, heating The distance between edge optional position and the first base material layer edge of layer are not less than 8mm, can avoid in heating layer and air Vapor contact is leaked electricity, relatively safety.

(3) multifunctional remote intelligent control of low temp electric heat-emitting board prepared by the method in the present invention, including temperature controller, The information that the temperature controller can be sent according to temperature sense module, management module and partition control module, control power supply, the One electrode, second electrode, current region and the temperature under the period are adjusted, can not only meet the needs of user, Er Qieneng The enough effectively save energy, Remote temperature control device are remotely connected by network with mobile phone or the network terminal, and user can pass through The temperature in control room, use are more convenient at an arbitrary position for mobile phone or the network terminal.

Brief description of the drawings

Fig. 1 is the structural representation of multifunctional remote intelligent control of low temp electric heat-emitting board in the embodiment of the present invention；

Fig. 2 is the structural representation of heating layer in the embodiment of the present invention；

Fig. 3 is the structural representation of the second adhesive layer in the embodiment of the present invention.

In figure：1 is the first base material layer, and 2 be the second substrate layer, and 3 be decorative layer, and 4 be the second plug, and 5 be heat-insulation layer, and 6 are Heating layer, 7 be the first fixed bed, and 8 be the second fixed bed, and 9 be the first plug, and 10 be the first adhesive layer, and 11 be the second adhesive layer, 12 be the 3rd adhesive layer, and 13 be first electrode, and 14 be heating conductive filament, and 15 be second electrode.

Embodiment

Embodiments of the invention are described in further detail below in conjunction with accompanying drawing.

Shown in Figure 1, the embodiment of the present invention provides a kind of preparation of multifunctional remote intelligent control of low temp electric heat-emitting board Method, comprise the following steps：

S1：The prefabricated fixed bed 8 of first fixed bed 7 and second, the first fixed bed 7 is identical with the size of the second fixed bed 8, The top surface even application conducting resinl of first fixed bed 7, the quantity for spray of conducting resinl is depending on the area of the first fixed bed 7, spraying Measure as 18 grams/m², by length be 5mm heating conductive filament 14 according to 20~26 grams/m²Dosage be uniformly laid on the second fixed bed 8 surface；15 grams/m is pressed in the bottom surface of the second fixed bed 8²Dosage even application conducting resinl after, pacify on the second fixed bed 8 Some first electrodes 13 and some second electrodes 15 are filled, one end of some heating conductive filaments 14 is connected with a first electrode 13 Connect, the other end connects with corresponding second electrode 15.

S2：The alignment of first fixed bed 7 is placed into the top surface and bonding of the second fixed bed 8, is put into temperature as 110 DEG C, pressure Power 3.5MP, rotating speed 700mm/min drum-type hot press in carry out hot pressing, obtain hot pressing layer, will hot pressing layer dry after cut into The size needed, some semi-finished product of heating layer 6 are obtained, there is a first electrode 13 and one on each semi-finished product of heating layer 6 Individual second electrode 15, determines the resistance value size of all semi-finished product of heating layer 6, and judges the proof voltage of the semi-finished product of heating layer 6 Can whether qualified, if qualified, first plug 9 is welded on the semi-finished product of heating layer 6, the first plug 9 includes anode connection terminal With negative pole connection end, anode connection terminal is connected with first electrode 13, negative pole connection end is connected with second electrode 15, obtains heat Laminate layer finished product.

S3：The prefabricated substrate layer 2 of the first base material layer 1 and second, some plug connector grafting are opened along longitudinal direction on the first base material layer 1 Hole, resin glue is coated in the bottom surface of the first base material layer 1, coated weight is 110 grams/m², heating layer 6 is bonded in the first base material layer 1 Bottom surface, and plug connector be located in mounting groove, in the top surface coated with resins glue of the second substrate layer 2, coated weight for 110 grams/ m², the top surface of the second substrate layer 2 is bonded on the bottom surface of heating layer 6, obtains electric heat-emitting board semi-finished product.

S4：Electric heat-emitting board semi-finished product are put into plane hot press hot pressing fitting, blanket is obtained, is cut by specification and process spelling Tankage mouth.

Consolidated floor, multi-layer solid wood floor and heating wallboard can be used in using the above method.

Middle-high density fiber electric heat-emitting board (i.e. for consolidated floor) and multi-layer solid wood electricity can be obtained using the above method Heating board (i.e. for multi-layer solid wood floor).

When heating board is middle-high density fiber electric heat-emitting board, step S4 specifically includes following steps：Electric heat-emitting board half into The bottom of product set by way of heat pressing dipping bond paper moistureproof heat-insulation layer, top by way of heat pressing dipping bond paper according to Secondary setting decorative layer and wearing layer, then carry out health, are cut by specification and process assembled notch, examine qualified packaging and storage. When mating formation, before the first plug 9 and the clamping of the second plug 4, appropriate heat setting vresin glue is injected into spliced eye, in sealed damp-proof While prevent conductor electric leakage.

When heating board is multi-layer solid wood electric heat-emitting board, step S4 specifically includes following steps：By electric heat-emitting board semi-finished product Cut by specification and process assembled notch, after the wire drawing sanding of surface, first apply 5 priming paint in plate face, then apply 3 times in primed surface After finish paint, the paint is ultraviolet photo-curing paint UV paints or is heat cure PU paints, examines qualified packaging and storage.When mating formation, Before the first plug 9 and the second plug 4, appropriate AB types heat setting vresin glue is injected into hole, prevents to lead while sealed damp-proof Body drain electricity.

The multifunctional remote intelligent control prepared using the preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board Low temperature electric heat-emitting board, including Remote temperature control device, the substrate layer 2 of the first base material layer 1 and second, Remote temperature control device pass through net Network is remotely connected with mobile phone or the network terminal, and the first base material layer 1 is oppositely arranged with the second substrate layer 2, the first base material layer 1 and second Heating layer 6 is provided between substrate layer 2, the thickness of heating layer 6 is less than or equal to 0.3mm, the substrate layer 2 of the first base material layer 1 and second The less deformation of generation can be just bonded completely with heating layer 6, and after the laying of the substrate layer 2 of the first base material layer 1 and second, surface will not Any projection of generation.

The size of heating layer 6 is less than the substrate layer 2 of the first base material layer 1 or second, the edge optional position of heating layer 6 and the The distance between edge optional position of one substrate layer 1 is not less than 8mm, and heating layer 6 can be avoided to leak electricity.

The top surface of the first base material layer 1 is disposed with waterproof layer and heat-insulation layer 5, the bottom surface of the second substrate layer 2 from bottom to top It is provided with decorative layer 3 and wearing layer from top to bottom, in the embodiment of the present invention, heat-insulation layer 5 selects high temperature resistant PVC foam sponge system Thickness into, the heat-insulation layer 5 is 3~7mm, and the thickness of heat-insulation layer 5 is 5mm in the present embodiment, and its heat resisting temperature is 300 DEG C, together When, the heat-insulation layer 5 also has sound insulation function, after the heat-insulation layer 5, can effectively prevent heat earthward or metope penetrates It is lost in, enhances product energy-saving effect, compared with not using the product of the heat-insulation layer, the heating effect of heat insulation floor in the present invention Rate can improve 8~10%.

Heating layer 6 includes the first fixed bed 7 and the second fixed bed 8 being oppositely arranged, and the top of the first fixed bed 7 is provided with First adhesive layer 10, the second adhesive layer 11, the bottom of the second fixed bed 8 are provided between the first fixed bed 7 and the second fixed bed 8 It is provided with the 3rd adhesive layer 12.

Some first through hole are provided with first fixed bed 7, some second through holes are provided with the second fixed bed 8, first fixes The 7, second fixed bed 8 of layer is less than or equal to the cloth of 100 mesh, heat resisting temperature more than or equal to 150 DEG C using mesh number and is made, and the present invention is real Apply in example, the first fixed bed 7 and the second fixed bed 8 are filter cloth, and the specification of filter cloth is 20~90 mesh, and 80 are selected in the present embodiment Mesh, the heat resisting temperature of filter cloth are that 200 DEG C are selected in 150~250 DEG C of the present embodiment.

It is shown in Figure 2, be fixed with heating conductive filament 14 in the second adhesive layer 11, the length of heating conductive filament 14 for 3~ 7mm, heating conductive filament 14 are made of carbon fiber wire, in the industry in use, the length of heating conductive filament 14 can be according to reality Border needs to be selected, and can be 4~6mm, and in the embodiment of the present invention, the length for the conductive filament 14 that generates heat is 5mm.Generate heat conductive filament 14 one end is fixed with first electrode 13, and the other end is fixed with second electrode 15, and first electrode 13 and second electrode 15 are width Spend the copper strips electrode for 10mm.The top of first adhesive layer 10 is provided with the first plug 9, and the first plug 9 includes positive terminal and born Extremely, positive terminal is connected by wire with first electrode 13, and negative pole end is connected by wire with second electrode 15.First electrode 13rd, it is equipped with chip in second electrode 15.

In actual fabrication heating layer 6, the previously prepared substrate layer 2 of the first base material layer 1 and second, heating layer 6 needs to install Between the substrate layer 2 of the first base material layer 1 and second, resin glue is sprayed on the first fixed bed 7 and the second fixed bed 8, by first After the alignment of the fixed bed 8 of fixed bed 7 and second pastes, after resin glue passes through the first fixed bed 7, in the top shape of the first fixed bed 7 Into the first adhesive layer 10, the first fixed bed 7 is bonded by the first adhesive layer 10 with the first base material layer 1.Positioned at the He of the first fixed bed 7 Resin glue between second fixed bed 8 forms the second adhesive layer 11, and the first fixed bed 7 is fixed by the second adhesive layer 11 and second Layer 8 bonds.After resin glue passes through the second fixed bed 8, the and the 3rd adhesive layer 12, the second fixed bed are formed on the bottom of fixed bed 8 are bonded by the 3rd adhesive layer 12 and the second substrate layer 2.The first base material layer 1, the second substrate layer 2 and heating layer 6 can be pasted closely Close, the bond strength inside low temperature electric heat-emitting board can be ensured, avoid the occurrence of the phenomenon of the peeling of heating layer 6.

Spliced eye is provided with the first base material layer 1, the first plug 9 is located in spliced eye, and the top of the first plug 9 is provided with Two plugs 4, the first plug 9 and the clamping of the second plug 4, be filled with resin glue in the space in spliced eye, for insulating, it is moistureproof and Sealing.

The outside of first plug 9 is provided with two anti-slip tanks, and the outside of the second plug 4 is provided with anticreep distensible ring, and second inserts First 4 outside is provided with the non-slipping block for being used cooperatively with anti-slip tank, after the first plug 9 and the clamping of the second plug 4, non-slipping block It is caught in anti-slip tank, the second plug 4 can be avoided to be separated with the first plug 9.

On the basis of existing temperature controller, Remote temperature control device of the invention also includes temperature sense module, pipe Manage module, partition control module and time-division transfer module, temperature sense module is used for induced environment temperature, and by environment temperature It is transferred to management module；Partition control module is used for the demand temperature for recording different zones, and determines low temperature electric heat-emitting board service Region, the temperature of the coverage demand is sent to management module；Time-division transfer module is used to record different time sections Demand temperature, and when changing the period, the demand temperature after change is sent to management module；Management module is used for The information sent according to temperature sense module, management module and partition control module, control power supply, the electricity of first electrode 13 and second Chip regulation current region in pole 15 and the temperature under the period, can not only meet the needs of user, and can have Effect saves the energy, and Remote temperature control device is remotely connected by network with mobile phone or the network terminal, and user can pass through mobile phone Or the temperature in control room, use are more convenient at an arbitrary position for the network terminal.

Further, management module is built-in with wireless WIFI signal module, can pass through the network platform, network-termination device Or other control management softwares, information exchange is realized by network and management module, and then realize remote real_time control and fortune The monitoring of row state.Temperature controller after improvement can allow the energy sufficiently to be applied, and be improved while reducing and wasting The service life of product and safety management.

The present invention is not only limited to above-mentioned preferred forms, and anyone can show that other are each under the enlightenment of the present invention The product of kind of form, however, make any change in its shape or structure, it is every have with the present invention it is same or like as Technical scheme, within its protection domain.

Claims (10)

1. A kind of 1. preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board, it is characterised in that：Comprise the following steps：

   A, prefabricated first fixed bed (7) and the second fixed bed (8), will in the top surface even application conducting resinl of the first fixed bed (7) Length is 3~7mm heating conductive filament (14) according to 20~26 grams/m²Dosage be uniformly laid on the tables of the second fixed bed (8) Face；Some first electrodes (13) and some second electrodes (15) are installed on the second fixed bed (8), by some heating conductive filaments (14) one end is connected with a first electrode (13), and the other end connects with corresponding second electrode (15)；

   First fixed bed (7) alignment is placed into the top surface and bonding of the second fixed bed (8), hot pressing is carried out, obtain hot pressing layer B, Will hot pressing layer dry after cut into the sizes of needs, obtain some heating layers (6) semi-finished product, determine all heating layers (6) half into The resistance value size of product, and judge whether the proof voltage of heating layer (6) semi-finished product can qualified, if qualified, in heating layer (6) half The first plug (9) is welded on finished product, the second plug (4) is installed at the top of the first plug (9), the first plug (9) includes positive pole Connection end and negative pole connection end, anode connection terminal is connected with first electrode (13), by negative pole connection end and second electrode (15) Connection, obtains hot pressing layer finished product；

   C, prefabricated the first base material layer (1) and the second substrate layer (2), it is some for installing along longitudinally opening on the first base material layer (1) The spliced eye of first plug (9), resin glue is coated in the bottom surface of the first base material layer (1), heating layer (6) is bonded in the first base material The bottom surface of layer (1), and the first plug (9) is located in mounting groove, will in the top surface coated with resins glue of the second substrate layer (2) The top surface of second substrate layer (2) is bonded on the bottom surface of heating layer (6), obtains electric heat-emitting board semi-finished product, by electric heat-emitting board half into Product are put into plane hot press hot pressing fitting, and conducting resinl can pass through the first fixed bed (7) to be bonded with the first base material layer (1), and energy It is enough to be bonded through the second fixed bed (8) and the second substrate layer (2), blanket is obtained, is cut by specification and processes assembled notch.
2. 2. the preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 1, it is characterised in that step Spray conducting resinl described in rapid A, wherein the quantity for spray of conducting resinl according to the first fixed bed (7), the second fixed bed (8) area and Fixed, the quantity for spray of the first fixed bed (7) is 18 grams/m², the quantity for spray of the second fixed bed (8) is 15 grams/m²。
3. 3. the preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 1, it is characterised in that step Hot pressing concretely comprises the following steps described in rapid B：First fixed bed (7) alignment is placed into the top surface and bonding of the second fixed bed (8) Afterwards, hot pressing is to be put into temperature to be 110 DEG C, carry out hot pressing in pressure 3.5MP, rotating speed 700mm/min drum-type hot press.
4. 4. the preparation method of multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 1, it is characterised in that step The coated weight of the first base material layer (1) base resin glue is 110 grams/m described in rapid C², the second substrate layer (2) top surface resin glue Coated weight is 110 grams/m²。
5. A kind of 5. preparation of multifunctional remote intelligent control of low temp electric heat-emitting board using any one of Claims 1-4 Multifunctional remote intelligent control of low temp electric heat-emitting board prepared by method, it is characterised in that：The low-temperature heating plate is used to strengthen ground Plate, multi-layer solid wood floor or heating wallboard.
6. 6. multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 5, it is characterised in that：The heating board bag The first base material layer (1) and the second substrate layer (2) are included, the first base material layer (1) is oppositely arranged with the second substrate layer (2), described Heating layer (6) is provided between the first base material layer (1) and the second substrate layer (2)；The size of the heating layer (6) is less than the first base Material layer (1) and the second substrate layer (2), edge optional position and the first base material layer (1) or the second base material of the heating layer (6) The distance between layer (2) edge optional position is all higher than being equal to 8mm.
7. 7. multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 5, it is characterised in that：The heating layer (6) the first fixed bed (7) and the second fixed bed (8) being oppositely arranged are included, it is viscous to be provided with first at the top of the first fixed bed (7) Layer (10) is closed, the second adhesive layer (11) is provided between the first fixed bed (7) and the second fixed bed (8), the second fixed bed (8) Bottom is provided with the 3rd adhesive layer (12).
8. 8. multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 7, it is characterised in that：Second bonding First electrode (13), second electrode (15) and some heating conductive filaments (14), some heating conductive filaments are fixed with layer (11) (14) it is that one end is connected with first electrode (13), the other end is connected with second electrode (15)；The first electrode (13) and Two electrodes (15) are the copper strips electrode that width is 10mm；It is provided with the first plug (9) at the top of first adhesive layer (10), first Be connected with the second plug (4) at the top of plug (9), the first plug (9) includes positive terminal and negative pole end, positive terminal by wire with First electrode (13) is connected, and negative pole end is connected by wire with second electrode (15).
9. 9. multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 8, it is characterised in that：The first base material Spliced eye is provided with layer (1), the first plug (9) and the second plug (4) are located in spliced eye, and resin glue is filled with spliced eye.
10. 10. multifunctional remote intelligent control of low temp electric heat-emitting board as claimed in claim 8, it is characterised in that：Described first is solid Given layer (7), the second fixed bed (8) are network structure, and the first fixed bed (7), the second fixed bed (8) are less than or equal to using mesh number The cloth of 100 mesh, heat resisting temperature more than or equal to 150 DEG C is made.