CN210004503U - antibacterial flexible modular heating floor heating device - Google Patents

Abstract

The utility model discloses an antibiotic flexible module ground heating device that generates heat, including the floor layer and the high temperature resistant heat preservation that set up from top to bottom, be equipped with the layer that generates heat in the intermediate layer between floor layer and the high temperature resistant heat preservation, the layer that generates heat includes the heating module, the module that generates heat includes from the last high temperature resistant insulating layer that down sets gradually, electrically conductive heating layer, electrode layer and the high temperature resistant insulating layer of second, electrically conductive heating layer is graphite alkene silver nanometer line thick liquids layer, it has a plurality of holes to open on the graphite alkene silver nanometer line thick liquids layer, the electrode layer is connected to the wire connector through the wire, thereby make it generate heat for graphite alkene silver nanometer line thick liquids layer power supply through wire connector external power supply.

Description

antibacterial flexible modular heating floor heating device

Technical Field

The utility model relates to an kinds of cold-proof functional equipment of being applied to indoor, what especially relate to is kinds of antibiotic flexible module floor heating device that generates heat.

Background

In winter, people who are particularly obvious in northern areas often feel cold indoors due to low temperature, so that people are forced to reduce recreational activities.

The traditional heating system is an air conditioner and a heating system, which can heat the indoor air to achieve the final purpose of increasing the indoor temperature, the indoor heating of northern areas mainly adopts two modes of central heating and distributed heating, is the central heating of cells, and rural remote areas adopt a heated kang heating mode to heat, is the central heating of water ground, and the water ground is mainly heated by water heating pipeline equipment, but the water ground is complicated in pipe arrangement and high in maintenance cost.

Electric floor heating is a novel heating mode in recent years. The electric floor heating uses a heating cable, an electric heating film and the like as heating bodies to heat the floor so as to transfer heat from bottom to top and heat up, thus leading the human body to be more comfortable.

The existing electric heating film floor heating body is made of carbon fibers, carbon crystals and the like, the carbon fibers generate heat in a linear mode, the heating is uneven, short circuit caused by overhigh local temperature is easily caused, the aging is easy to be serious after long-time use, the carbon crystals are easy to attenuate, and the follow-up maintenance is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide kinds of antibiotic flexible module ization floor heating device that generates heat to the realization is generated heat evenly, the simple and convenient purpose of installation and maintenance in hope.

The utility model discloses a realize through following technical scheme:

antibacterial flexible modular heating floor heating device comprises a floor layer and a high-temperature-resistant heat preservation layer which are arranged up and down, wherein a heating layer is arranged in an interlayer between the floor layer and the high-temperature-resistant heat preservation layer, the heating layer comprises a heating module, the heating module comprises a th high-temperature-resistant insulating layer, a conductive heating layer, an electrode layer and a second high-temperature-resistant insulating layer which are sequentially arranged from top to bottom, the conductive heating layer is a graphene silver nanowire slurry layer, and a plurality of holes are formed in the graphene silver nanowire slurry layer;

the electrode layer is connected to the wire connector through a wire, and an external power supply is connected to the wire connector to supply power to the graphene silver nanowire slurry layer through the wire connector so as to enable the graphene silver nanowire slurry layer to generate heat.

And , connecting the wire connector to a control circuit board through a wire, connecting the control circuit board to a temperature sensor in the room, sensing the temperature in the room through the temperature sensor and transmitting a signal to the control circuit board, and controlling the on-off of the circuit of the heating module by the control circuit board according to the temperature signal.

, the electrode layer comprises a positive electrode and a negative electrode, each electrode comprises current collecting bars and a plurality of inner electrode bars perpendicular to the current collecting bars, the inner electrode bars are arranged on the inner sides of the current collecting bars and are distributed at equal intervals, the inner electrodes of the positive electrode and the negative electrode are distributed in a crossed mode at equal intervals to form an interdigital electrode structure, the graphene silver nanowire slurry layer is in contact with the inner electrode bars, and the current collecting bars of the positive electrode and the negative electrode are located on the left side and the right side of the graphene silver nanowire slurry layer and are spaced from the graphene silver nanowire slurry layer.

, the electrode layer is made of materials of metal foil, conductive cloth and conductive adhesive tape, and the th high-temperature-resistant insulating layer and the second high-temperature-resistant insulating layer are made of polyimide.

, the floor layer is marble bottom plate or wood floor, and the high temperature resistant heat insulation layer is glass fiber layer.

, the heat generating layer comprises a plurality of heat generating modules, and the wire connectors of the plurality of heat generating modules are connected in parallel or in series.

Compared with the prior art, the utility model has the following advantages:

1. the utility model provides a antibiotic flexible module ground heating device that generates heat, its main part that generates heat on layer adopts graphite alkene silver-colored nano wire thick liquids, has the even advantage of generating heat, cooperates high temperature resistant insulating layer, and material property is stable, can not cause local temperature too high and lead to the problem of short circuit, and the safety is good, uses for a long time can not decay the performance of generating heat.

2. The utility model provides a antibiotic flexible module ground heating device that generates heat, its graphene silver nanowire thick liquids layer that generates heat the module adopt screen printing technology to coat on the second high temperature resistant insulating layer that has the electrode layer, and the accessible chooses the half tone in equidimension not hole for use to carry out screen printing during the preparation to the size and the quantity in hole on the adjustment graphene silver nanowire thick liquids layer, and then the resistance size of adjusting graphene silver nanowire thick liquids layer.

3. The utility model provides a antibiotic flexible modularization floor heating device that generates heat, it generate heat the layer and include a plurality of modules that generate heat, adopt the modularized design, generate heat the conductor connector interconnect on layer through a plurality of modularization and can form the region that generates heat of bigger area, this kind of modularized design easily splices the equipment, installs and maintains simple and conveniently, and the area that generates heat can be big or small, application scope .

4. The utility model provides an antibiotic flexible module ization floor heating device that generates heat, its generate heat the module that generates heat that the layer adopted, the flexibility can curl, and the quality is frivolous, portable.

5. The utility model provides an antibiotic flexible module floor heating device that generates heat, its high temperature resistant heat preservation adopt glass fiber, and glass fiber is excellent performance's inorganic non-metallic material, and the kind is numerous, and the advantage is that insulating nature is good, the heat resistance is strong, corrosion resistance is good, and mechanical strength is high.

Drawings

Fig. 1 is a sectional view of the present invention.

Fig. 2 is an exploded view of the heating module of the present invention.

Fig. 3 is a top view of the heat generating module of the present invention with the th refractory insulating layer removed.

Fig. 4 is a schematic circuit diagram of the control circuit board of the present invention.

Fig. 5 is a circuit enlarged view of a power module portion of the control circuit board of the present invention.

Fig. 6 is a circuit enlarged view of the connection portion between the temperature detection module and the slave of the control circuit board according to the present invention.

Fig. 7 is a circuit diagram of a host chip of the control circuit board of the present invention.

Fig. 8 is a circuit diagram of the temperature display and setting module of the control circuit board of the present invention.

The reference numbers in the figure are 1 floor layer, 2 heating layer, 21 st th high-temperature-resistant insulating layer, 22 graphene silver nanowire slurry layer, 221 holes, 23 electrode layer, 231 current collecting bar, 232 inner electrode bar, 24 second high-temperature-resistant insulating layer, 25 lead, 26 lead connector and 3 high-temperature-resistant insulating layer.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments. All should be included in the present invention

Referring to fig. 1 to 3, this embodiment discloses kinds of antibiotic flexible module ground heating device that generates heat, including floor layer 1 and the high temperature resistant heat preservation 3 that set up from top to bottom, be equipped with layer 2 that generates heat in the intermediate layer between floor layer 1 and the high temperature resistant heat preservation 3, layer 2 that generates heat includes the heating module, the heating module includes high temperature resistant insulating layer 21, conductive heating layer 2, electrode layer 23 and the second high temperature resistant insulating layer 24 that down set gradually from the top, conductive heating layer 2 is graphite alkene silver nanometer line thick liquids layer 22, it has a plurality of holes 221 to open on the graphite alkene silver nanometer line thick liquids layer 22, electrode layer 23 is connected to wire connector 26 through wire 25, thereby makes its generate heat for graphite alkene silver nanometer line thick liquids layer 22 power supply through wire connector 26 external power.

The heating module is prepared according to the following process:

the method comprises the steps of firstly imprinting an electrode layer 23 on a second high-temperature-resistant insulating layer 24 through a high-temperature hot stamping process, then coating graphene silver nanowire slurry on the second high-temperature-resistant insulating layer 24 with the electrode layer 23 through a screen printing process, drying at a high temperature to form a graphene silver nanowire slurry layer 22, then connecting the electrode layer 23 with a lead 25, and then covering a th high-temperature-resistant insulating layer 21 on the graphene silver nanowire slurry layer 22. during manufacturing, screen printing is carried out by selecting screen printing plates with 221 gaps with different sizes, so that the size and the number of the holes 221 in the graphene silver nanowire slurry layer 22 are adjusted, and further the resistance of the graphene silver nanowire slurry layer 22 is adjusted.

The heating layer 2 comprises a plurality of heating modules, the wire connectors 26 of the heating modules are mutually connected in parallel or sequentially connected in series, the heating layer 2 adopts a modular design, the wire connectors 26 of the heating layer 2 are mutually connected to form a heating area with a larger area, the modular design is easy to splice and assemble, the installation and the maintenance are simple and convenient, the heating area can be large or small, the flexibility is good, and the application range is .

Specifically, the electrode layer 23 includes a positive electrode and a negative electrode, each electrode includes current collecting bars 231 and a plurality of inner electrode bars 232 perpendicular to the current collecting bars 231, the plurality of inner electrode bars 232 are disposed inside the current collecting bars 231 and arranged at equal intervals, the plurality of inner electrodes of the positive electrode and the negative electrode are arranged at equal intervals in a crossing manner to form an interdigital electrode structure, the current collecting bars 231 of the two electrodes are respectively connected to the positive electrode and the negative electrode of the power supply, so that the polarities of the adjacent inner electrode bars 232 are opposite, the graphene silver nanowire slurry layer 22 is in contact with the plurality of inner electrode bars 232, the current collecting bars 231 of the positive electrode and the negative electrode are located on the left side and the right side of the graphene silver nanowire slurry layer 22, and a gap is left between the current collecting bars and the graphene silver nanowire slurry layer 22.

Specifically, the electrode layer 23 is made of materials selected from metal foil, conductive cloth and conductive adhesive tape, the th high-temperature-resistant insulating layer 21 and the second high-temperature-resistant insulating layer 24 are made of polyimide, the floor layer 1 is a marble bottom plate or a wood floor, and the high-temperature-resistant insulating layer 3 is a glass fiber layer.

Specifically, the wire connector 26 is connected to a control circuit board through an electric wire, the control circuit board is further connected to a temperature sensor located in the room, the temperature sensor senses the temperature in the room and transmits a signal to the control circuit board, and the control circuit board controls the on-off of the circuit of the heating module according to the temperature signal.

Fig. 4 to 8 are schematic circuit diagrams of a control circuit board, the circuit mainly includes a host, a slave, a power module , a second power module, a temperature control module, a temperature detection module, a temperature display and setting module, and a WIFI module, the host uses an SN8F5708 chip, the slave uses an SN8P2722 chip, the heating module in this embodiment is connected to a position of the heating sheet corresponding to the temperature control module in the circuit, the temperature sensor is the temperature detection module in the circuit diagram, the temperature detection module is connected to a P4.0/AIN0 port of the slave, and the temperature display and setting module is connected to a port corresponding to the host.

The above description is only exemplary of the invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and principles of the invention is intended to be included within the scope of the invention.

Claims (6)

1. The antibacterial flexible modular heating floor heating device is characterized by comprising a floor layer and a high-temperature-resistant heat-insulating layer which are arranged up and down, wherein a heating layer is arranged in an interlayer between the floor layer and the high-temperature-resistant heat-insulating layer, the heating layer comprises a heating module, the heating module comprises a high-temperature-resistant insulating layer, a conductive heating layer, an electrode layer and a second high-temperature-resistant insulating layer which are sequentially arranged from top to bottom, the conductive heating layer is a graphene silver nanowire slurry layer, and a plurality of holes are formed in the graphene silver nanowire slurry layer;

   the electrode layer is connected to the wire connector through a wire, and an external power supply is connected to the wire connector to supply power to the graphene silver nanowire slurry layer through the wire connector so as to enable the graphene silver nanowire slurry layer to generate heat.
2. 2. The antibacterial flexible modular floor heating device as claimed in claim 1, wherein the wire connector is connected to a control circuit board through wires, the control circuit board is further connected to a temperature sensor located in a room, the temperature sensor senses the temperature in the room and transmits signals to the control circuit board, and the control circuit board controls the on/off of the circuit of the heating module according to the temperature signals.
3. 3. The antibacterial flexible modular heating floor heating device is characterized in that the electrode layer comprises a positive electrode layer and a negative electrode layer, each electrode layer comprises current collecting bars and a plurality of inner electrode bars perpendicular to the current collecting bars, the inner electrode bars are arranged on the inner sides of the current collecting bars and are distributed at equal intervals, the inner electrodes of the positive electrode layer and the negative electrode layer are distributed in a crossed mode at equal intervals to form an interdigital electrode structure, the graphene silver nanowire slurry layer is in contact with the inner electrode bars, the current collecting bars of the positive electrode layer and the negative electrode layer are located on the left side and the right side of the graphene silver nanowire slurry layer, and gaps are reserved between the current collecting bars of the positive electrode layer and the graphene silver nanowire slurry layer.
4. 4. The antibacterial flexible modular heating floor heating device is characterized in that the electrode layer is made of materials selected from metal foil, conductive cloth and conductive adhesive tape, and the th high-temperature-resistant insulating layer and the second high-temperature-resistant insulating layer are made of polyimide.
5. 5. The antibacterial flexible modular heating floor heating device of claim 1, wherein the floor layer is a marble floor or a wood floor, and the high temperature resistant insulation layer is a glass fiber layer.
6. 6. The antibacterial flexible modular floor heating device of claim 1, wherein the heating layer comprises a plurality of heating modules, and the wire connectors of the plurality of heating modules are connected in parallel or in series.

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