CN103167644B - Far infrared electric heating air conditioner heat generating component - Google Patents

Abstract

The present invention relates to a kind of Far infrared electric heating air conditioner heat generating component, described assembly includes heating module (102) and control circuit (9), described heating module (102) is by euthermic chip (101) and fin (5) is spaced is formed by stacking, the adhering layer (4) for connecting two substrates (1) and conducting strip (3) is provided with between two substrates (1), upper surface as the substrate (1) of layer is coated with conductive ink layer (2), above-mentioned conducting strip (3) covers on conductive ink layer (2), described euthermic chip (101) is provided with the conductive hole (1.1) running through conductive ink layer (2) and conducting strip (3), and conducting strip (3) is provided with downward flange at conductive hole (1.1) place, tube connector (7) is inserted with in described installing hole (1.2), contact tube (6) is inserted with in described conductive hole (1.1).Far infrared electric heating air conditioner heat generating component of the present invention, solves in air-conditioning heating process and causes indoor humidity to reduce and dry problem.

Description

Far infrared electric heating air conditioner heat generating component

Technical field

The present invention relates to a kind of heat generating component, especially relate to a kind of heat generating component on Far infrared electric heating air conditioner, belong to air-conditioning technical field.

Background technology

At present, people generally need using air-condition to heat to heating in room in winter, especially at northern area, every household needs to pass into heating installation with resisting cold, and the expense of annual each household flower in heating is just up to thousands of unit, and heating installation uses coal heating produces steam in addition, use fossil fuel not only contaminated environment, be unfavorable for energy-conserving and environment-protective, and in the transmitting procedure of heating installation, easily produce more loss.And for the air-conditioning of routine, its heating mainly contains two kinds of modes:

The first heats the heating principle of principle just as some electric heater.It is exactly the heating by electrothermal tube, direct is heat energy by electric energy conversion, by heat trnasfer, neighbouring air themperature is improved after electrothermal tube heating, this mode of heating efficiency is higher, but be generally used on the larger monomer air-conditioning of cabinet-type air conditioner constant power, the air conditioner of this mode of heating is commonly referred to as electric auxiliary pattern of fever air conditioner;

It is the same with refrigeration principle that the second heats principle, and its principle heated simply can be interpreted as from external world's absorption heat and then transfer to indoor by air conditioner, and we make this air conditioner be hot Pump air conditioner.But also therefore, when the temperature of outdoor is too low, absorb heat just very limited, so that indoor heating effect is poor.After zubzero temperature, the effect that hot Pump air conditioner plays is just poor.

Visible employing first kind of way, power consumption is comparatively large, and adopts its effect of the second way obvious not.And above-mentioned two kinds of mode of heatings, it all can cause indoor humidity to reduce in the course of the work, makes user feel very dry.

And from Germany scientist in 1800 breathe out inferior found infrared ray when studying solar spectrum since, infrared ray correlation technique has been widely used on industrial production, medical diagnosis, detection, treatment and prevention and health care; Medical infrared ray can be divided near infrared ray, middle infrared (Mid-IR) and far infrared according to Biological characteristics.Far infrared refers to the infrared ray of wavelength at 3-1000 micron, the infrared ray of this wave band of its medium wavelength 4-20 micron is important to the existence of the mankind and biological growing pullets, far infrared to human body effect primarily of line outside line far away three key properties determine (one be radiation, two be strong penetrations, three be absorb, resonance and sympathetic response).Human body surface accepts far infrared, and from outward appearance to inner essence conducts infiltration, by absorption produce thermogenetic effect, produce with in-vivo tissue cell resonate, sympathetic response, facilitate activity.And owing to producing thermogenetic effect, make human microvascular expand, self-disciplining is strengthened, and blood circulation is accelerated, and accelerates the mass exchange of cell and blood, thus facilitates the metabolism of body.Meanwhile, far infrared improves cytophagous phagocytic activity, is conducive to the absorption of chronic inflammation, dissipation, is applicable to treat various types of chronic inflammation, as some chronic inflammations of neuritis, myositis, arthritis and internal organ.Heat energy can reduce sensorineural excitability, and by relieve muscle spasms, detumescence, anti-inflammatory with improve blood circulation and treat various pain, as neuralgia and Crampy Pain, struvite and avascular pain etc.Therefore, far infrared is medically called " fertility light " by expert;

For this reason, the present inventor introduces FAR INFRARED HEATING mode in field of air conditioning, replaces traditional air-conditioning.

Summary of the invention

The object of the invention is to overcome above-mentioned deficiency, a kind of energy-conserving and environment-protective are provided and heat moist Far infrared electric heating air conditioner heat generating component.

The object of the present invention is achieved like this: a kind of Far infrared electric heating air conditioner heat generating component, and described assembly includes heating module and control circuit;

Described heating module is by euthermic chip and fin is spaced is formed by stacking, described euthermic chip includes two substrates as upper epidermis and layer, and two conducting strips playing electrode effect be arranged between two substrates, and the adhering layer be provided with between two substrates for connecting two substrates and conducting strip, upper surface as the substrate of layer is coated with conductive ink layer, above-mentioned conducting strip covers on conductive ink layer, described euthermic chip is provided with the conductive hole running through conductive ink layer and conducting strip, and conducting strip is provided with downward flange at conductive hole place, described euthermic chip is also provided with multiple installing hole,

Described fin is provided with the connecting hole of coupling corresponding with installing hole, this connection hole is to being arranged with flange, and this flange is placed in the installing hole of euthermic chip, tube connector is inserted with in described installing hole, contact tube is inserted with in described conductive hole, and contact tube does not contact with fin, described contact tube and conducting strip are through tube compact siro spinning technology, and described tube connector and fin are through tube compact siro spinning technology;

Described control circuit includes microprocessor, described microprocessor is connected with temperature detecting module by A/D change-over circuit one, described microprocessor is connected with humidity detecting module by A/D change-over circuit two, described microprocessor is connected with receiver module, described microprocessor is connected with clock and key-press module, described microprocessor is connected with display module, described microprocessor is connected with heating module by drive circuit, a detection module is also serially connected with between described microprocessor and heating module, described control circuit also includes a power module of powering to it.

Far infrared electric heating air conditioner heat generating component of the present invention, the periphery of described heating module is provided with fastener.

Far infrared electric heating air conditioner heat generating component of the present invention, described fastener includes backing plate and C-type steel, described backing plate is arranged at the two ends up and down of heating module, described C-type steel is placed in the two ends, left and right of heating module, described backing plate is provided with the through hole passed for contact tube and tube connector, is connected by bolt between described backing plate and C-type steel.

Far infrared electric heating air conditioner heat generating component of the present invention, described fastener includes backing plate, and described backing plate is arranged at the two ends up and down of heating module, and described backing plate is provided with the through hole passed for contact tube and tube connector, described tube connector has been arranged side by side many.

Far infrared electric heating air conditioner heat generating component of the present invention, described fastener includes backing plate and intercell connector, and described backing plate is arranged at the two ends up and down of heating module, is connected between described backing plate by intercell connector.

Compared with prior art, the invention has the beneficial effects as follows:

Adopt the air-conditioning of Far infrared electric heating air conditioner heat generating component of the present invention manufacture, compared to traditional air-conditioning heating mode, heating efficiency is higher, has the benefit of energy-conserving and environment-protective; Meanwhile, owing to using far infrared to heat, compared to the Electric heating of traditional air conditioner, adopt the electrothermal conditioner that heating module of the present invention is made, can humidity in holding chamber, user is used more comfortable; And far infrared has physical therapy function, while maintenance indoor temperature, good effect is had more to the healthy of user, effect that Fu Zhuzhiliao keeps healthy can be played.

Accompanying drawing explanation

Fig. 1 is the first fastening means structural representation of heating module in Far infrared electric heating air conditioner heat generating component of the present invention.

Fig. 2 is Far infrared electric heating air conditioner heat generating component Fig. 1's of the present invention partial enlarged drawing.

Fig. 3 is the second fastening means structural representation of heating module in Far infrared electric heating air conditioner heat generating component of the present invention.

Fig. 4 is Far infrared electric heating air conditioner heat generating component Fig. 3's of the present invention partial enlarged drawing.

Fig. 5 is the third fastening means structural representation of heating module in Far infrared electric heating air conditioner heat generating component of the present invention.

Fig. 6 is the structural representation of euthermic chip in Far infrared electric heating air conditioner heat generating component of the present invention.

Fig. 7 is Far infrared electric heating air conditioner heat generating component Fig. 6's of the present invention partial enlarged drawing.

Fig. 8 is the structural representation (namely the dash area in figure represents the shape of conductive ink layer) in Far infrared electric heating air conditioner heat generating component of the present invention on substrate after printing conductive inks layer.

Fig. 9 is the view in Far infrared electric heating air conditioner heat generating component of the present invention after an euthermic chip and the superposition of fin.

Figure 10 is Far infrared electric heating air conditioner heat generating component Fig. 9's of the present invention partial enlarged drawing.

Figure 11 is the structural representation of heating module in Far infrared electric heating air conditioner heat generating component of the present invention.

Figure 12 is the circuit block diagram of the control circuit of Far infrared electric heating air conditioner heat generating component of the present invention.

Wherein:

Substrate 1, conductive ink layer 2, conducting strip 3, adhering layer 4, fin 5, contact tube 6, tube connector 7, fastener 8, control circuit 9;

Euthermic chip 101, heating module 102;

Conductive hole 1.1, installing hole 1.2;

Connecting hole 5.1;

Backing plate 8.1, C-type steel 8.2, intercell connector 8.3;

Microprocessor 9.1, temperature detecting module 9.2, humidity detecting module 9.3, A/D change-over circuit 1, A/D change-over circuit 2 9.5, receiver module 9.6, clock 9.7, key-press module 9.8, detection module 9.9, drive circuit 9.10, display module 9.11.

Embodiment

See Fig. 1 ~ 12, a kind of Far infrared electric heating air conditioner heat generating component that the present invention relates to, described assembly includes heating module 102 and control circuit 9;

Described heating module 102 is by euthermic chip 101 and fin 5 is spaced is formed by stacking, and during superposition, the concrete quantity of euthermic chip 101 and fin 5 can be determined by rated power during installation;

Described euthermic chip 101 includes two substrates 1 as upper epidermis and layer, and two conducting strips 3 playing electrode effect be arranged between two substrates 1, and the adhering layer 4 be provided with between two substrates 1 for connecting two substrates 1 and conducting strip 3, upper surface as the substrate 1 of layer is coated with conductive ink layer 2(as shown in Figure 8), described conductive ink layer 2 can be arranged to linear structure or planar structure according to demand, under linear structure is applied to small-power state, under planar structure is applied to high-power state, above-mentioned conducting strip 3 covers on conductive ink layer 2, described euthermic chip 101 is provided with the conductive hole 1.1 running through conductive ink layer 2 and conducting strip 3, and conducting strip 3 is provided with downward flange (as shown in Figure 6 and Figure 7) at conductive hole 1.1 place, described euthermic chip 101 is also provided with multiple installing hole 1.2,

Described fin 5 is provided with the connecting hole 5.1 of coupling corresponding with installing hole 1.2, this connecting hole 5.1 place is to being arranged with flange, and this flange is placed in the installing hole 1.2 interior (as shown in Figure 9 and Figure 10) of euthermic chip 101, tube connector 7 is inserted with in described installing hole 1.2, contact tube 6 is inserted with in described conductive hole 1.1, and contact tube 6 does not contact with fin 5, described contact tube 6 is responsible for introducing electric current as introducing electrode, described contact tube 6 is with conducting strip 3 through tube compact siro spinning technology, and described tube connector 7 and fin 5 are through tube compact siro spinning technology (as shown in figure 11);

The periphery of described heating module 102 is provided with fastener 8,

This fastener 8 has three kinds of implementation structures:

The first implementation structure is: described fastener 8 includes backing plate 8.1 and C-type steel 8.2, described backing plate 8.1 is arranged at the two ends up and down of heating module 102, described C-type steel 8.2 is placed in the two ends, left and right of heating module 102, described backing plate 8.1 is provided with the through hole passed for contact tube 6 and tube connector 7, between described backing plate 8.1 and C-type steel 8.2, is connected (as depicted in figs. 1 and 2) by bolt;

The first implementation structure is: described fastener 8 includes backing plate 8.1, described backing plate 8.1 is arranged at the two ends up and down of heating module 102, described backing plate 8.1 is provided with the through hole passed for contact tube 6 and tube connector 7, described tube connector 7 has been arranged side by side many, to strengthen the firmness (as shown in Figure 3 and Figure 4) connected;

The second implementation structure is: described fastener 8 includes backing plate 8.1 and intercell connector 8.3, and described backing plate 8.1 is arranged at the two ends up and down of heating module 102, is connected (as shown in Figure 5) between described backing plate 8.1 by intercell connector 8.3;

See Figure 12, described control circuit 9 includes microprocessor 9.1, described microprocessor 9.1 is connected with temperature detecting module 9.2 by A/D change-over circuit 1, described microprocessor 9.1 is connected with humidity detecting module 9.3 by A/D change-over circuit 2 9.5, described temperature detecting module 9.2 and humidity detecting module 9.3 are for the temperature and humidity in sensing chamber, described microprocessor 9.1 is connected with receiver module 9.6, for receiving the signal of remote controller, described microprocessor 9.1 is connected with clock 9.7 and key-press module 9.8, temporal information is obtained by clock 9.7, key-press module 19.8 obtains relevant button operation information, described microprocessor 9.1 is connected with display module 9.11, described display module 9.11 is for displaying time, temperature, humidity, the relevant informations such as electricity display, described microprocessor 9.1 is connected with heating module 102 by drive circuit 9.10, a detection module 9.9 is also serially connected with between described microprocessor 9.1 and heating module 102, for detecting in real time heating module 102 electric current, described control circuit 9 also includes a power module of powering to it.

During use, indoor can be emitted to after the far infrared that the conductive ink layer 2 on euthermic chip 101 sends conducts to fin 5 and carry out warming operation; By installing fan additional to add block thermal cycle simultaneously when being assembled into air-conditioning.

Claims (5)

1. a Far infrared electric heating air conditioner heat generating component, is characterized in that: described assembly includes heating module (102) and control circuit (9);

Described heating module (102) is by euthermic chip (101) and fin (5) is spaced is formed by stacking, described euthermic chip (101) includes two substrates (1) as upper epidermis and layer, and two conducting strips (3) of playing electrode effect be arranged between two substrates (1), and the adhering layer (4) be provided with between two substrates (1) for connecting two substrates (1) and conducting strip (3), upper surface as the substrate (1) of layer is coated with conductive ink layer (2), above-mentioned conducting strip (3) covers on conductive ink layer (2), described euthermic chip (101) is provided with the conductive hole (1.1) running through conductive ink layer (2) and conducting strip (3), and conducting strip (3) is provided with downward flange at conductive hole (1.1) place, described euthermic chip (101) is also provided with multiple installing hole (1.2),

Described fin (5) is provided with the connecting hole (5.1) with installing hole (1.2) corresponding coupling, this connecting hole (5.1) place is to being arranged with flange, and this flange is placed in the installing hole (1.2) of euthermic chip (101), tube connector (7) is inserted with in described installing hole (1.2), contact tube (6) is inserted with in described conductive hole (1.1), and contact tube (6) does not contact with fin (5), described contact tube (6) and conducting strip (3) are through tube compact siro spinning technology, and described tube connector (7) and fin (5) are through tube compact siro spinning technology;

Described control circuit (9) includes microprocessor (9.1), described microprocessor (9.1) is connected with temperature detecting module (9.2) by A/D change-over circuit one (9.4), described microprocessor (9.1) is connected with humidity detecting module (9.3) by A/D change-over circuit two (9.5), described microprocessor (9.1) is connected with receiver module (9.6), described microprocessor (9.1) is connected with clock (9.7) and key-press module (9.8), described microprocessor (9.1) is connected with display module (9.11), described microprocessor (9.1) is connected with heating module (102) by drive circuit (9.10), a detection module (9.9) is also serially connected with between described microprocessor (9.1) and heating module (102), described control circuit (9) also includes a power module of powering to it.

2. a kind of Far infrared electric heating air conditioner heat generating component as claimed in claim 1, is characterized in that: the periphery of described heating module (102) is provided with fastener (8).

3. a kind of Far infrared electric heating air conditioner heat generating component as claimed in claim 2, it is characterized in that: described fastener (8) includes backing plate (8.1) and C-type steel (8.2), described backing plate (8.1) is arranged at the two ends up and down of heating module (102), described C-type steel (8.2) is placed in the two ends, left and right of heating module (102), described backing plate (8.1) is provided with the through hole passed for contact tube (6) and tube connector (7), is connected by bolt between described backing plate (8.1) and C-type steel (8.2).

4. a kind of Far infrared electric heating air conditioner heat generating component as claimed in claim 2, it is characterized in that: described fastener (8) includes backing plate (8.1), described backing plate (8.1) is arranged at the two ends up and down of heating module (102), described backing plate (8.1) is provided with the through hole passed for contact tube (6) and tube connector (7), described tube connector (7) has been arranged side by side many.

5. a kind of Far infrared electric heating air conditioner heat generating component as claimed in claim 2, it is characterized in that: described fastener (8) includes backing plate (8.1) and intercell connector (8.3), described backing plate (8.1) is arranged at the two ends up and down of heating module (102), is connected between described backing plate (8.1) by intercell connector (8.3).