CN208473355U - A kind of coating formula photoelectricity Carbon fiber thermal insulation room - Google Patents

Abstract

The utility model discloses a kind of coating formula photoelectricity Carbon fiber thermal insulation rooms, include insulated building, its main feature is that: several carbon fiber heating items are attached in the interior walls of insulated building, each carbon fiber heating item includes at least one carbon fiber coating layer, a copper strips is equipped with along lower section in the carbon fiber coating layer two sides of each carbon fiber heating item, each copper strips one end is concordant with corresponding carbon fiber heating one end, each copper strips other end stretches out the corresponding carbon fiber heating other end and is connected with a crimp type terminal, each carbon fiber heating item is electrically connected by the 24V alternating current output end with a toroidal transformer corresponding with the crimp type terminal that copper strips connects, each toroidal transformer input terminal passes through a relay correspondence and is electrically connected with a technical grade temperature controller, each technical grade temperature controller is electrically connected with insulated building ammeter.The utility model has the advantages that: structure is simple and convenient to operate, constructs that convenient, low energy consumption, thermal loss is few and heat insulation effect is good.

Description

A kind of coating formula photoelectricity Carbon fiber thermal insulation room

Technical field

The utility model relates to insulated building technical fields, particularly relate to a kind of coating formula photoelectricity Carbon fiber thermal insulation Room.

Background technique

In electric heating field, traditional method is all to use metallic resistance silk and its deformable body as heater to overlap power grid 220V or 380V AC power supply, electric conversion efficiency are very limited and influence, and the power ratio usually configured is real Border heating power is much bigger, and a kind of helpless waste.In addition, existing the taken technical solution in electric heating field, usually exists On heating efficiency and its heat propagation mode, there is significant limitations.

In recent years, the development with Filamentous carbon fiber as fever body technique, has been successfully entered market and has occupied larger Share, since it is very significantly improved compared to traditional heater in heating efficiency and heat propagation mode, so it is very It needs to be applied on the field or product of heating and thermal insulation more,

Insulated building is widely used in industry, agricultural, business and major neck such as live as a kind of building heat preservation facility Domain, right existing insulated building are the function that heat preservation is realized by improvement wall self construction mostly, such as: it takes in wall Wall is thickeied or is embedded in a set of independent electric heating system using MULTILAYER COMPOSITE wall or by wall by filling thermal insulation material To realize the heat insulation function of insulated building.Wherein, it thickeies using the filling thermal insulation material in wall or by wall or is answered using multilayer The insulated building structure for closing wall, has the drawback that: wall heaviness, constructional difficulties, there are cold bridge or heat bridge, heat losses are fast, Later maintenance cost is high；Using the insulated building structure for being embedded in a set of independent electric heating system in wall, exist the disadvantage is that: make Valence is high, and energy consumption is high.

Although carbon fiber is applied already in insulated building field, at present merely as a kind of heat preservation raw material It is entrained in other architecture engineering materials and is used together as heat-preserving wall, is not used alone as electric heating body.

Utility model content

For the insulated building status in background technique, simple, construction that the purpose of this utility model is to provide a kind of structures The material formula photoelectricity Carbon fiber thermal insulation room that convenient, easy to operate, low cost, heating efficiency are high, heat insulation effect is good, opens a carbon Fiber fever application approach new in insulated building.

To achieve the above object, the technical solution that the utility model is taken are as follows: a kind of coating formula photoelectricity Carbon fiber thermal insulation room, Comprising insulated building, several carbon fiber heating items, each carbon fiber heating are attached in the interior walls of the insulated building Item includes at least one carbon fiber coating layer, is equipped in the carbon fiber coating layer two sides of each carbon fiber heating item along lower section One copper strips, each described copper strips one end is concordant with corresponding carbon fiber heating one end, and each copper strips other end is equal Stretch out the corresponding carbon fiber heating other end and be connected with a crimp type terminal, each carbon fiber heating item by with copper The crimp type terminal correspondence of band connection is electrically connected with the 24V alternating current output end of a toroidal transformer, each annular transformation Device input terminal passes through relay correspondence and is electrically connected with a technical grade temperature controller, each technical grade temperature controller with The electrical connection of insulated building ammeter.

In above-mentioned technical proposal, the insulated building ammeter is located on the insulated building interior walls or external wall, the annular Transformer, relay and technical grade temperature controller are arranged in a control cabinet, and the control cabinet is located at the insulated building interior wall On wall or external wall.

In above-mentioned technical proposal, also distinguish in the carbon fiber coating layer two sides of each carbon fiber heating item along lower section Equipped with one layer of grid cloth and one layer of double faced adhesive tape, the grid cloth is between carbon fiber coating layer and copper strips, the double faced adhesive tape Between copper strips and the interior walls of insulated building, the copper strips is pasted onto the interior walls of the insulated building by double faced adhesive tape, The carbon fiber coating layer is adhered on the copper strips by grid cloth；Wherein, grid cloth is used for adhesion carbon fiber coating layer and copper strips, After preventing rising-heat contracting-cold, the inner wall surface of copper strips and insulated building is detached from.

In above-mentioned technical proposal, the carbon fiber coating layer width of each carbon fiber heating item is 50cm, with a thickness of 0.3~ 0.5mm。

In above-mentioned technical proposal, each copper strips is the red copper copper strips of 0.2mm thickness, 30mm wide.

In above-mentioned technical proposal, the temperature controlling range of the technical grade temperature controller is -20 DEG C~+120 DEG C.

In above-mentioned technical proposal, the carbon fiber coating layer uses photoelectricity carbon fiber coating for raw material.

In above-mentioned technical proposal, the grid cloth is the alkali-proof glass fiber mesh of 0.5mm thickness, 100mm width.

In above-mentioned technical proposal, the width of the double faced adhesive tape is 40mm, with a thickness of 0.2mm.

A kind of working principle in coating formula photoelectricity Carbon fiber thermal insulation room provided by the utility model are as follows:

First passing through toroidal transformer makes the forceful electric power voltage AC of 220V be converted into the low-voltage AC of 24V, then connects Circuit is powered by copper strips electrode directly to carbon fiber heating item, and the electronics in carbon atom in carbon fiber heating item is in electric field Under the action of, it is excited and carries out energy level transition, transit to high level from low-lying level；After of short duration excitation state, return again quickly Again into the lower energy level of energy, while the energy lost is distributed in the form of electric field and magnetic field energy packet, this energy Packet i.e. infrared photon are measured, forms heat radiation (infra-red radiation) at this time, after infrared photon, which encounters solid body, to be stopped, It is absorbed by molecular solids, is converted into mechanical oscillation, to be converted into thermal energy.

Compared with prior art, the utility model has the beneficial effects that using the conductive exothermal characteristic of coating formula carbon fiber, Qualified copper strips conductive electrode is mixed, then so that the forceful electric power voltage AC of 220V is converted into the low of 24V by toroidal transformer It presses alternating current as power supply, then is aided with technical grade temperature controller, form the novel heat insulation of a complete temperature-controllable Room heat preservation system, to realize the heat preservation purpose to insulated building, the novel heat insulation room simple, operation side with structure Just, construct the advantages that convenient, low energy consumption, thermal loss is few, heat insulation effect is good, be widely portable to need INSULATION DESIGN, example Such as: household sweat-steaming house, finish-baking room for automobile, in the building constructions such as wood baking room.

Detailed description of the invention

Fig. 1 is a kind of specific embodiment in the utility model coating formula photoelectricity Carbon fiber thermal insulation room；

Fig. 2 is the first embodiment of carbon fiber heating item in the utility model insulated building；

Fig. 3 is Section A-A figure in Fig. 2；

Fig. 4 is section B-B figure in Fig. 2；

Fig. 5 is second of embodiment of carbon fiber heating item in the utility model insulated building；

Fig. 6 is the electronic schematic diagram in the utility model coating formula photoelectricity Carbon fiber thermal insulation room；

Fig. 7 is the system principle block diagram in the utility model coating formula photoelectricity Carbon fiber thermal insulation room；

In figure: 1, insulated building；2, carbon fiber heating item；21, carbon fiber coating layer；22, copper strips；23, crimp type terminal；24, net Ge Bu；25, double faced adhesive tape；3, toroidal transformer；4, technical grade temperature controller；5, relay；6, insulated building ammeter；7, control cabinet.

Specific embodiment

To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below In conjunction with the drawings and specific embodiments, it is further described how the utility model is implemented.

As shown in Figure 1, a kind of coating formula photoelectricity Carbon fiber thermal insulation room that this example provides, includes insulated building 1, in insulated building Several carbon fiber heating items 2 are attached in 1 interior walls, as shown in Figure 1, Figure 2 and shown in Fig. 5, each carbon fiber heating item 2 is wrapped Containing at least one carbon fiber coating layer 21, as shown in Figures 2 to 5, one is equipped with along lower section in each 21 two sides of carbon fiber coating layer A copper strips 22, each 22 one end of copper strips is concordant with corresponding 2 one end of carbon fiber heating item, and each 22 other end of copper strips stretches out Corresponding 2 other end of carbon fiber heating item is simultaneously connected with a crimp type terminal 23, as shown in Fig. 6 and Fig. 7, each carbon fiber hair Hot item 2 is electrically connected by the corresponding 24V alternating current output end with a toroidal transformer 3 of the crimp type terminal 23 connected with copper strips 22 It connects, each 3 input terminal of toroidal transformer passes through the correspondence of relay 5 and is electrically connected with a technical grade temperature controller 4, Mei Gegong Industry grade temperature controller 4 is electrically connected with insulated building ammeter 6.

Wherein, it in the interior walls of the settable insulated building 1 of insulated building ammeter 6, may also be arranged on the external wall of insulated building 1, It is connected for 220V mains system；In this example, as shown in Figure 1, insulated building ammeter 6 is arranged in the interior walls of insulated building 1.

For convenient for centralized management, all toroidal transformers 3, relay 5 and technical grade temperature controller 4 are arranged at a control In cabinet 7 processed, in the interior walls of the settable insulated building 1 of control cabinet 7, it may also be arranged on the external wall of insulated building 1；In this example In, as shown in Figure 1, control cabinet 7 is arranged in the interior walls of insulated building 1.

As shown in Figure 3 and Figure 4, also distinguish in 21 two sides of carbon fiber coating layer of each carbon fiber heating item 2 along lower section Equipped with one layer of grid cloth 24 and one layer of double faced adhesive tape 25；Wherein, grid cloth 24 is double between carbon fiber coating layer 21 and copper strips 22 For face sticker 25 between copper strips 22 and the interior walls of insulated building 1, copper strips 22 is pasted onto the interior of insulated building 1 by double faced adhesive tape 25 On wall, carbon fiber coating layer 21 is adhered on copper strips 22 by grid cloth 24；Grid cloth 24 is mainly used for adhesion carbon fiber coating layer 21 with copper strips 22, after preventing rising-heat contracting-cold, the inner wall surface of copper strips 22 and insulated building 1 is detached from.

Wherein, 21 width of carbon fiber coating layer of each carbon fiber heating item 2 is 50cm, with a thickness of 0.3~0.5mm, each 21 length of carbon fiber coating layer of carbon fiber heating item 2 can determine according to the size requirements that actual power configures, such as Fig. 2 and Fig. 5 institute Show, the carbon fiber coating layer 21 that it can be continuously arranged for one is constituted, can also be by the carbon fiber coating layer 21 of multiple interruption settings It constitutes.

Wherein, each copper strips 22 is 0.2mm thickness, the red copper copper strips composition of 30mm wide.

When requiring 1 room temperature of insulated building to reach 70-80 DEG C, at this time the temperature of 1 interior walls of insulated building should cannot be too high, The operator of disengaging cannot be formed and be burnt and other are dangerous, so 1 inner wall surface temperature of insulated building should be lower than 150 DEG C, therefore And in the present invention, taking temperature controlling range is that -20 DEG C~+120 DEG C of technical grade temperature controller 4 carrys out real-time monitoring guarantor The on-off of temperature change and the control entire heating system circuit of insulated building in hot house 1.

Wherein, carbon fiber coating layer 21 uses Germany Carbon4 (abbreviation C4) photoelectricity carbon fiber coating for raw material, Germany Carbon4 refers to German carbon4 company, initiates to set up by 4 dealers.

Wherein, grid cloth 24 is the alkali-proof glass fiber mesh of 0.5mm thickness, 100mm width.

Wherein, the width of double faced adhesive tape 25 is 40mm, with a thickness of 0.2mm.

As shown in Figure 6 and Figure 7, the working principle tool in a kind of coating formula photoelectricity Carbon fiber thermal insulation room provided by the utility model Body is as follows:

External AC 220 is first entered into the heat supply route in insulated building 1 (comprising multiple branches by insulated building ammeter 6 Heat supply route) in, then the High Level AC Voltage of 220V is turned by the annular power transformation device 5 being arranged in each branched heat-supplying route It changes the low-voltage AC of 24V into and serves as the power supply of each branched heat-supplying route as the carbon fiber in each branched heat-supplying route It ties up heating strip 2 and electric energy is provided；Wherein, after the carbon fiber coating layer 21 in carbon fiber heating item 2 is energized, in carbon fiber coating layer 21 Carbon fiber material contained by carbon atom under the action of electric field, surrounding electronics, which is excited, carries out energy level transition, from low Energy level transition is returned in the lower energy level of energy, and big at release again quickly to high level, and after excessively of short duration excitation state The energy of amount, this energy are distributed in the form of electric field and magnetic field energy packet, this energy packet is infrared photon, at this time It forms heat radiation (infra-red radiation) to radiate into entire insulated building Room 1, when infrared photon encounters solid body (such as insulated building Other solid-state articles in interior wall or insulated building) stop after, will by molecular solids sorption enhanced be mechanical oscillation, then by machine Tool can be converted into thermal energy, after the air in the thermal energy insulation room released absorbs, increase 1 room temperature of insulated building, in turn It is embodied as the heat preservation purpose of insulated building 1.

During carbon fiber heating 2 heating power of item, pass through the technical grade temperature controller 4 on every branched heat-supplying route Included 1 indoor temperature change generated in case of thermocouple sensor (not shown) real-time detection insulated building, it is excessively high to avoid room temperature Cause the interior wall wall temperature of insulated building 1 excessively high, burns and other are dangerous to be formed to the operator of disengaging insulated building 1；

(a) when the thermocouple sensor of the technical grade temperature controller 4 on every branched heat-supplying route detects that room temperature is inclined It is high and when being more than systemic presupposition Upper Limit of Normal Value, then the relay 5 from technical grade temperature controller 4 on this every branched heat-supplying route Open command is issued, so that annular 3 main circuit of power transformation device controlled on this every branched heat-supplying route disconnects, is suspended to insulated building Heat supply, until restarting when insulated building room temperature falls back to systemic presupposition lower limits of normal to insulated building heat supply；

(b) when the thermocouple sensor of the technical grade temperature controller 4 on every branched heat-supplying route detects that room temperature is inclined Bottom and when being more than systemic presupposition lower limits of normal, the then relay 5 from technical grade temperature controller 4 on this every branched heat-supplying route Close command is issued, so that annular 3 main circuit of power transformation device controlled on this every branched heat-supplying route is connected, is started to insulated building Heat supply, until pause continues heat supply to insulated building 1 when 1 room temperature of insulated building rises to systemic presupposition Upper Limit of Normal Value；

The heat supplying process of repetitive cycling above-mentioned (a)~(b), and then realize to 1 heat supply preservation and controlling of insulated building, so that heat preservation Room 1 is always maintained at good heat insulation effect.

Fig. 6 is the electronic schematic diagram in the utility model coating formula photoelectricity Carbon fiber thermal insulation room, in figure, Q1, Q11~ Qn1 indicates that breaker, KA1~KAn indicate that relay, LM1~LMn indicate that demand limiter, TA1~TAn indicate annular transformation Device, 1C4~nC4 indicate that carbon fiber heating item, WK1~WKn indicate technical grade temperature controller.

Finally illustrate, the above description is only the embodiments of the present invention, is not intended to limit the patent of the utility model Range, equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, or directly or Other related technical areas are used in indirectly, are also included in the patent protection scope of the utility model.

Claims (9)

1. a kind of coating formula photoelectricity Carbon fiber thermal insulation room includes insulated building (1), it is characterised in that: in the interior of the insulated building (1) Several carbon fiber heating items (2) are attached on wall, each carbon fiber heating item (2) applies comprising at least one carbon fiber Layer (21), is equipped with a copper strips along lower section in carbon fiber coating layer (21) two sides of each carbon fiber heating item (2) (22), each copper strips (22) one end is concordant with corresponding carbon fiber heating item (2) one end, and each copper strips (22) is another One end stretches out corresponding carbon fiber heating item (2) other end and is connected with a crimp type terminal (23), each carbon fiber Heating strip (2) is corresponding defeated with the 24V alternating current of a toroidal transformer (3) by crimp type terminal (23) that connect with copper strips (22) Outlet electrical connection, each toroidal transformer (3) input terminal pass through relay (5) correspondence and a technical grade temperature control Device (4) electrical connection, each technical grade temperature controller (4) are electrically connected with insulated building ammeter (6).

2. coating formula photoelectricity Carbon fiber thermal insulation according to claim 1 room, it is characterised in that: the insulated building ammeter (6) In the insulated building (1) interior walls or external wall, the toroidal transformer (3), relay (5) and technical grade temperature controller (4) it is arranged in a control cabinet (7), the control cabinet (7) is located on the insulated building (1) interior walls or external wall.

3. coating formula photoelectricity Carbon fiber thermal insulation according to claim 1 room, it is characterised in that: sent out in each carbon fiber Carbon fiber coating layer (21) two sides of hot item (2) further respectively have one layer of grid cloth (24) and one layer of double faced adhesive tape along lower section (25), the grid cloth (24) is located between carbon fiber coating layer (21) and copper strips (22), and the double faced adhesive tape (25) is located at copper strips (22) between the interior walls of insulated building (1), the copper strips (22) is pasted onto the insulated building (1) by double faced adhesive tape (25) In interior walls, the carbon fiber coating layer (21) is adhered on the copper strips (22) by grid cloth (24).

4. coating formula photoelectricity Carbon fiber thermal insulation according to claim 1 room, it is characterised in that: each carbon fiber heating Carbon fiber coating layer (21) width of item (2) is 50cm, with a thickness of 0.3~0.5mm.

5. coating formula photoelectricity Carbon fiber thermal insulation according to claim 1 room, it is characterised in that: each copper strips (22) is equal For 0.2mm thickness, the red copper copper strips of 30mm wide.

6. coating formula photoelectricity Carbon fiber thermal insulation according to claim 1 room, it is characterised in that: the technical grade temperature controller (4) temperature controlling range is -20 DEG C~+120 DEG C.

7. coating formula photoelectricity Carbon fiber thermal insulation according to claim 1 room, it is characterised in that: the carbon fiber coating layer (21) Use photoelectricity carbon fiber coating for raw material.

8. coating formula photoelectricity Carbon fiber thermal insulation according to claim 3 room, it is characterised in that: the grid cloth (24) is The alkali-proof glass fiber mesh of 0.5mm thickness, 100mm width.

9. coating formula photoelectricity Carbon fiber thermal insulation according to claim 3 room, it is characterised in that: the double faced adhesive tape (25) Width is 40mm, with a thickness of 0.2mm.