KR20140053364A - Building built-in air conditioner - Google Patents

Abstract

The present invention relates to a building integrated type air conditioner, which comprises an external heat exchanger (1), a four-way control valve (3), a compressor (4), and a perforated pipe (9, 10, 11) A plurality of parallel connection ports on one side of the porous pipes 9, 10 and 11 are connected to a right connection port of the four-way control valve 3, and a plurality of parallel connection ports on the other side of the porous pipe The connection port is connected to the lower connection port of the external heat exchanger 1 via the adjustment member 5 and the upper connection port of the external heat exchanger 1 is connected to the left connection port of the four- , The inlet of the four-way control valve 3 is connected to the outlet of the compressor 4, and the external heat exchanger is connected to the air-cooled heat exchanger, the water-cooled heat exchanger, the base pile heat exchanger , And a solar panel heat exchanger. The air conditioner has a long service life, no noise, no maintenance, low carbon emission, low heating and cooling operation cost, simple construction process, environment friendly, low manufacturing cost, It can be solid.

Description

BUILDING BUILT-IN AIR CONDITIONER

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building integrated type air conditioner, and more particularly, to a building integrated type air conditioner that provides heating and cooling.

Currently, the air conditioner mainly uses the indoor fan coils to cool and heat the air, and since the specific heat of the air is very small, it is possible to transfer the energies only in the convection mode, and the temperature difference is large and the efficiency is very low. Since the minimum temperature of evaporation of the air heat source system should be below -20 ° C, the compression ratio is larger than 7 when any condenser temperature is 50 ° C, which greatly exceeds the operating range of conventional compressors. You can not provide heating in the area.

The present inventor has proposed a patent for low temperature heating using a capillary tube or a geothermal water tube. However, there is a problem in that the efficiency of the steam-water heat exchanger is low due to the loss of energy during the conversion process, the cost of installing the pump, the heat exchanger and the capillary is much higher than that of the present invention, .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new integrated air conditioner.

The heating efficiency of the heating system is represented by the equation Q = SρC where S is the heat dissipation area, ρ is the heat conduction coefficient and C is the temperature, and the heating efficiency of the Carnot cycle is expressed by the equation ε = Ta / Ta- T0 (where Ta is the condensation temperature and T0 is the evaporation temperature). The present invention improves the energy efficiency while minimizing the heat transfer resistance, maximizing the heat dissipation area, maximizing the condensation heat radiation temperature and maximizing the evaporation temperature based on the above two mathematical expressions.

When the condensation temperature is 26 ° C, the room temperature is 18 ° C, the concrete surface heat radiation amount is larger than 70W / m 2, and the heat transfer loss is very small, so that the heating demand at the outdoor temperature below -20 ° C can be satisfied.

The object of the present invention is realized as follows. An air conditioner, an external heat exchanger, a four-way reversing valve, a compressor, and a perforated pipe, wherein the perforated pipe is a metal capillary, and is tied to a building reinforcing bar (12) A plurality of parallel connection ports on one side of the meshed pipe are connected to the right connection port of the four-way control valve 3 and a plurality of parallel connection ports on the other side of the polycore pipe are connected to the lower connection port of the external heat exchanger 1 through the regulating member 5 The upper connection port of the external heat exchanger 1 is connected to the left connection port of the four-way control valve 3, the common connection port in the middle of the four-way control valve 3 is connected to the ventilation port of the compressor 4, (3) is connected to the outlet of the compressor (4), and the external heat exchanger is at least one of an air-cooled heat exchanger, a water-cooled heat exchanger, a base pile heat exchanger and a solar panel heat exchanger.

The compressor is two or more or inverter compressors.

The object of the present invention is to provide an air conditioner-integrated air conditioner including an external heat exchanger, a four-way control valve, a compressor and a perforated pipe, wherein the perforated pipe is a metal, PB or PERT capillary, And a parallel connection port on one side of the ceiling pore tube 9 is connected to a parallel connection port on one side of the wall pore tube 10 through a capillary tube 19 and both ends of the capillary tube 19 are connected to a solenoid valve And the parallel connection port on the other side of the wall porous pipe 10 is connected to the lower connection port of the external heat exchanger 1 through the adjustment member 5 and the upper connection port of the external heat exchanger 1 is connected to the four- The right connection port of the four-way control valve 3 is connected to the other parallel connection port of the ceiling pores 10 and the intermediate common connection port of the four-way control valve 3 is connected to the left connection port of the compressor 3, The air conditioner is connected to the ventilation hole of the building, It is.

And a heat conductive flat layer 16 formed of at least one of cement, sand, graphite and metal powder is formed between the pipes, and a heat conductive flat layer 16 is formed on the heat conductive flat layer 16 in one direction Temperature heat exchanger (17) is connected in series between the inlet of the four-way control valve (3) and the outlet of the compressor (4), and a water-cooled heat exchanger 17 are connected to the pipe through which the indoor hot water is desired through the pump 18. [

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner-integrated type air conditioner including an external heat exchanger, a four-way control valve, a compressor, a one-way valve, a perforated pipe, a ventilation dehumidifier, A plurality of parallel connection ports on one side of the porous pipe are connected to the right connection port of the four-way control valve 3 through a one-way valve 8, Is connected to the upper connection port of the external heat exchanger 1 and the lower connection port of the external heat exchanger 1 is connected to a plurality of parallel connection ports on the other side of the polycore pipe through the control member, The inlet of the four-way control valve 3 is connected to the outlet of the compressor 4 and the ventilation dehumidifier 28 is connected to both ends of the one-way valve 8 , Ventilation dehumidifier Type air conditioner in which the control pipe (31) is installed on one side to which the outlet end of the one-way valve (8) is connected.

The present invention relates to a structure-integrated type air conditioner including a base pile heat exchanger, a four-way control valve, and a compressive inflator, wherein the base pile heat exchanger (32) is constructed by pouring concrete into a building reinforcing bar (12) One side connection port of the base pile heat exchanger 32 is connected to the left connection port of the four-way control valve 3 and the other connection port of the base pile heat exchanger 32 is connected to the compression expander 33 The right connection port of the four-way control valve 3 is connected to a plurality of parallel connection ports on the other side of the bottom plate porous pipe 9, and the four- The middle common connection port of the compressor 3 is connected to the ventilator of the compression inflator 33 and the inlet of the four-way control valve 3 is connected to the outlet of the compression inflator 33.

An object of the present invention is to provide a structure-integrated type air conditioner including an external heat exchanger and a compressor, in which a concrete pipe is integrally formed by bundling a porous pipe to a building reinforcing bar or using porous reinforcing bars as building reinforcing bars, Or a plurality of parallel connection ports on one side of the porous reinforcing bars are connected to connection ports on one side of the compressor and a plurality of parallel connection ports on the other side of the porous tubular or reinforcing bars are connected to the lower connection port of the external heat exchanger 1 through the adjusting member 5, The upper connection port of the external heat exchanger 1 is connected to the other connection port of the compressor and the external heat exchanger 1 is connected to the air conditioner built-in type air conditioner, which is at least one type of air-cooled heat exchanger, water-cooled heat exchanger, foundation pile heat exchanger, .

An object of the present invention is to provide an air conditioner-integrated air conditioner including an external heat exchanger, a four-way control valve, a compressor and a porous reinforcing bar, wherein the porous reinforcing bars are welded to a net- A plurality of parallel connection ports on the other side of the porous reinforcing bars are connected to a lower connection port of the external heat exchanger 1 through a regulating member 5, The upper connection port of the machine 1 is connected to the left connection port of the four-way control valve 3, the middle common connection port of the four- way control valve 3 is connected to the ventilation port of the compressor 4, Is realized by a built-in air conditioner connected to the outlet of the compressor (4).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a structure integrated type air conditioner including an external heat exchanger, a four-way control valve, a compressor, and a metal radiation panel, The inlet of the metal radiation panel is connected to the left connection port of the four-way control valve (3), and the exit of the metal radiation panel is connected to the external heat exchanger (1) through the regulating member (5) The upper connection port of the external heat exchanger 1 is connected to the right connection port of the four-way control valve 3, the inlet of the four-way control valve 3 is connected to the outlet of the compressor 4, The intermediate common connection port of the four-way control valve 3 is connected to the ventilation port of the compressor 4, and the external heat exchanger is a built-in structure using at least one of the air-cooled heat exchanger, the water-cooled heat exchanger and the base pile heat exchanger It is realized by the control.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner-integrated type air conditioner including an external heat exchanger, a four-way control valve, a compressor and a perforated pipe, wherein the perforated pipe is at least one of metal capillary, PERT and PB capillary, A plurality of parallel connection ports on one side of the porous pipe are connected to the right connection port of the four-way control valve 3 and a left connection port of the four-way control valve 3 is connected to the upper connection port of the external heat exchanger 1 The lower connection port of the external heat exchanger 1 is connected to a plurality of parallel connection ports on the other side of the polycore pipe through an adjusting member and the intermediate common connection port of the four-way control valve 3 is connected to the ventilation port of the compressor 4, The inlet of the four-way control valve 3 is realized by a built-in air conditioner connected to the outlet of the compressor 4.

The integrated air conditioner according to the embodiment of the present invention has the following effects.

1. Condensation Pour concrete into reinforced concrete pipes and reinforcing bars to form a unitary structure. Concrete is heated and cooled in a large-area building by using a heat conduction coefficient 60 times higher than that of air, so that the heat resistance between the body and the heat- And the volume is designed to be small so as to maximize the effect of the conventional air conditioning technology.

2. Stainless steel or carbon steel pipes have very high tensile strength and are installed tightly, so they can replace steel bars and make buildings more robust.

3. The unit area cost is low and the total cost of the heating and air conditioning facilities is less in the current residential conditions. In particular, since there is no air blowing fan, pump, etc. at the heat dissipating end, the life is long, No work is required.

4. Low carbon footprint, low heating and cooling operation costs, average heating energy efficiency ratio of 4.5 in Beijing, China can be reduced by two thirds of heating cost, % Can be saved.

5. By using a forced pore tube with a thickness of 0.6mm and an outer diameter of 2.4mm, its own pressure supporting force is larger than 30MPa, and concrete is poured to increase the strength, so that general or high pressure environmentally friendly refrigerant can be used and carbon dioxide can be directly connected, It can provide very high efficiency. This is the effect that people have been hoping for years.

6. By adopting the technique of the present invention in a conventional structure, it is possible to use a steel pipe, but also to install it using a copper pipe, aluminum pipe, PB, PE, carbon tube fiber, etc., The manufacturing cost is low, and the environmentally-friendly, water-cooled capillary can stop the supply of heat and freeze the pipe.

7. The foundation piles are reinforced by reinforcing the reinforced concrete pile to provide the strength of the pile, and the huge energy contained in the soil is used to provide heating in the winter, to provide cooling in summer, and to have a long life as long as the building. By connecting air-cooled coil pipes in series in series or in parallel, it is possible to heat quickly in winter, and dehumidify in summer to provide cooling quickly.

8. The present invention is suitable not only for each user to use one or two small appliances but also to use one or two large variable capacity air-cooled heat pumps throughout the building. It is possible to operate for more than 10 years without failures by connecting a conventional Inverter Variable Capacitor as long as it is installed correctly and there is no leakage.

9. In the present invention, by designing the internal switching compressor, the maximum efficiency can be achieved by cooling and heating at two connection ports, omitting the four-way control valve in the prior art, reducing the failure and reducing the cooling loss.

10. Conventional construction reinforcing bars are manufactured to have an internal porous structure, welded in a net shape to pour concrete, and the outdoor unit is connected to the inlet and outlet connection ports, thereby achieving a long life and reducing the cost.

Other specific details of the invention are included in the detailed description and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing pouring and mounting concrete according to the present invention; Fig.
2 is a plan view showing connection and welding according to the present invention.
FIG. 3 is a principle diagram of a living hot water and a panel type dehumidifier according to the present invention.
4 is a cross-sectional view showing a metal radiation panel and a porous tube of the present invention.
5 is a view illustrating the principle of carbon fiber end packaging according to the present invention.
6 is a system principle diagram of the air-cooled dehumidifier of the present invention.
7 is a principle view of the basic pile heat exchanger carbon dioxide unit of the present invention.
8 is a principle diagram of the internal / external switching device of the compressor of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Although the first, second, etc. are used to describe various elements, components and / or sections, it is needless to say that these elements, components and / or sections are not limited by these terms. These terms are only used to distinguish one element, element or section from another element, element or section. Therefore, it goes without saying that the first element, the first element or the first section mentioned below may be the second element, the second element or the second section within the technical spirit of the present invention.

The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that the terms "comprises" and / or "comprising" used in the specification are intended to be inclusive in a manner similar to the inclusion of a stated element, step, operation and / Or formation is not excluded.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. And commonly used predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise.

Example 1

As shown in Fig. 1, a ceiling perforated pipe 9 having a thickness of 0.6 mm and an outer diameter of 2.4 mm is used for a panel-type building having a width of 16 m. This porous tube has a pressure holding capacity of 300MPa, a length of 30m, and an interval of 8cm between tubes. Both ends are welded to the guide pipes respectively, and when they are folded, they become 15m. The middle part is fixed with a catching material, so that the distance between the pipes becomes 4 cm. As shown in Fig. 2A (plane method of Figs. 2B and C may be adopted), it is integrally formed by being installed on the reinforcing bars 12 at the site, bundling well and then pouring cement. When installing 2500m on a 100m2 bottom plate, use a digital inverter outdoor unit with a heat exchanging surface area of 18.8m2, a total cross-sectional area of 2cm2, an internal volume ratio of 2.8L, and carbon dioxide of 3.5 to 10kw. When R410 refrigerant outdoor unit is connected, the length of one pipe is 5 ~ 30m and the thickness is 0.3 ~ 0.5mm, so the pressure supporting force can be satisfied. At the time of heating, the average value of the evaporation temperature design value is lower by 2 to 3 ° C than the outdoor temperature, and the condensation temperature is 24 to 30 ° C depending on the indoor use load. In the installation, the external heat exchanger 1 is installed facing the sun, and when the weather is not very cold, it operates by using half-electricity after midnight at the time of first use of heating. Since the temperature difference of the external heat exchanger 1 is small, Condensation does not occur. In the coldest season, there is plenty of sunlight at noon and the heat is stored in the entire power output at the highest temperature. At this time, the air is not damp, and the difference in evaporation heat exchange temperature is small, so it is not necessary to remove the frost from the electric furnace. The refrigerant flow rate is faster and the circulation speed is faster because the pore volume is smaller than that of an air conditioner indoor unit of general power equivalent. The thermal conductivity of reinforced concrete reaches 1.74w / m · c, the room temperature generally changes within 21 to 19 ℃, and the temperature is very comfortable because it is mostly infrared radiation.

4.0이고, 장치가 12시간 작업하면, 하루종일 난방 수요를 만족시킬 수 있다. 야간에 온도가 더 낮을 때 에어컨은 작동하지 않아도 된다. 또한, 겨울 난방비용 및 탄소 배출량이 예전에 집중적으로 난방하는 경우에 비해 3분의 1로 줄어들고, 압축기 출력 압력이 30℃ 이하로 낮아질 경우, 소음도 30% 낮아진다. In the coldest season in the north of China, the surface temperature is 24 ° C and the heat radiation amount of the bottom plate 13 is only 45w / m < 2 > And the amount of radiant heat radiated in the downward direction of the upper floor deck 13 reaches 40 w / m < 2 >

4.0, and if the device is working for 12 hours, it can satisfy the heating demand all day. The air conditioner does not have to operate when the temperature is lower at night. In addition, winter heating costs and carbon emissions are reduced by one-third compared to formerly intensive heating, and when the compressor output pressure drops below 30 ° C, the noise level is reduced by 30%.

When the evaporation temperature in the wall porous tube 10 reaches 15 to 20 占 폚 during cooling in summer, the bottom plate 13 can be cooled to about 23 占 폚, and the room temperature is lower than 26 占 폚. Since the amount of cold storage of the reinforced concrete is very large, the outdoor unit (7) can operate at the lowest temperature during the day, while the compressor (4) operates at half the load, Since the actual energy efficiency ratio COP can be as low as 8.0 and the electricity tax rate is reduced to half, using this technology will result in one sixth of the electricity cost of conventional air conditioners. If cooling is required on summer nights, the temperature in northern China is mostly at 20 ° C, and the condensation and evaporation temperature of the external heat exchanger (1) is 30 ° C. At this time, an evaporation temperature of 12 DEG C or more is adopted, and the output power of the compressor 4 doubles, and when the power load is 1 or 50%, the output power corresponds to the total output of the general air conditioner.

Instead of pouring concrete into the pores to further increase the pressure bearing capacity and increase the surface area, holes were formed in the interior of the conventional building reinforcing bars 12 and then directly welded as shown in Fig. 2B. The surface area of the building reinforcing bar 12 is much larger than that of the perforated pipe and the surface area of the reinforcing bar 12 in the entire building becomes enormously large. That is, when the reinforcement 12 having an outer diameter of 25 mm is formed by machining a hole of 1.2 mm, the thickness becomes 14 mm and the pressure supporting force reaches several hundreds of MPa, which can match the operation of the supercritical carbon dioxide, And the change in the temperature difference is small, and the water quantity is slightly increased, the building can be made more rigid (the bottom plate in FIG. 7). The connection method and operation principle are shown in Fig.

It is desirable to increase the amount of heat dissipation by installing large area and high density on indoor floor, ceiling or wall in areas mainly used for heating such as north of China.

It is desirable to combine the floor and ventilation dehumidification structure in the coastal area because the air is humid.

In areas with high climatic conditions, it is desirable to design ceiling and floor panels in combination with indoor ventilation.

Example 2

As shown in Figs. 3 and 4, a plurality of PERT or PB pouches are welded in parallel with an inner diameter of 0.5 to 1 mm, a thickness of 1 to 1.5 mm, and an interval of 2 to 3 mm, Or may be attached vertically to the wall surface, and the bottom surface may be provided with a groove 23, and cement, sand, and graphite may be laid on the floor.

Since the support pressure of the above-mentioned pores is low, it is suitable for medium and low pressure refrigerant machine work such as R22, R134A, R404. The pressure can be divided and controlled during summer heat storage operation. The electromagnetic valve 20 is closed and the control member 5 is adjusted to maintain the cooling evaporation temperature of the wall surface pipe 22 at 22 to 27 DEG C to prevent condensation and maintain the room temperature. The evaporation (pressure) temperature of the ceiling pores 9 is approximately 15 DEG C, which corresponds to the maximum compressor ventilation pressure of the conventional compressor. Since the bottom plate 13 is relatively thick, condensation does not occur within the normal working time, and when the surface temperature is 22 ° C, the cooling heat storage amount reaches 40 kW and is stored at night. When the cooling is increased in the room of the early evening, the evaporation temperature of the wall pipe 22 is 7 to 15 ° C by opening the electromagnetic valve 20, and cooling can be provided to the room by using condensation. The water tank 23 guides the condensed water outdoors.

The bushing or the panel type heat exchanger 17 is connected in series to the outlet of the compressor 4 and then wound around the outside of the compressor 4 to lower the noise to save space and to use the free heat of the cooling as hot water for domestic use .

The perforated pipe may employ the cross-sectional structure of FIG. 4A. That is, it is possible to increase the surface heat dissipation area and the pressure holding force, and reduce the volume of the entire system.

The maximum heat resistance temperature of the perforated pipe is only 100 占 폚 and the gas reaching 80 占 폚 is outputted from the compressor 4 during the winter heating but the bushing or the panel type heat exchanger 17 and the pump 18 And the heat radiation and the pressure supporting effect are satisfied by making the heat radiation temperature of the ceiling porous pipe 9 lower than 30 ° C.

By radiating the wall pipe 22 vertically adhered to the wall to the end, the efficiency is enhanced and the oil recovery is advantageous.

As shown in Fig. 4C, the pore tube is attached to a metal plate to be used as a ceiling-type and wall-mounted heat exchanger, and Fig. 4E shows a heat radiation effect by forming the metal pore tube in a wing shape.

The two aluminum plates are compressed, or the grooves are etched and thermally compressed to form a metal radiation panel integrally. As shown in FIGS. 4B and 4D, fine wave or rhombic channels are formed, Thereby forming a structure. The metal radiation panel may be attached to the wall, or may be laid on the floor or suspended from the ceiling.

Example 3

As shown in Fig. 5, after the guide tube 24 is formed of plastic such as PB, PP, or PE using both the carbon tube fibers 26 and both ends in the longitudinal direction, The high-strength thermally conductive adhesive 25 is used to form the reinforcing adhesive layer, and the guide pipe 24 is connected to the outdoor unit 7. [

The pressure of the carbon fiber tube having a wall thickness of 30 占 퐉 and an inner diameter of 20 占 퐉 is greater than 10 MPa and a peripheral surface area of the fabric guide pipe is May be larger than the packaging area. The carbon tube can be sealed with the high-strength thermally conductive adhesive 25 even when there is some damaged portion because the thermal conductivity is good and the thickness of the single-layer fabric pavement is smaller than 2 mm, and the cross-sectional area of distribution is larger than the outlet of the compressor 4, The efficiency of cooling and heating is very high.

Example 4

As shown in Fig. 6, the porous tube is at least one of a metal capillary tube, a PERT tube, and a PB capillary tube, and a plurality of the porous tubes are connected in parallel to each other, A plurality of parallel connection ports on one side of the porous pipe are connected to a right connection port of the four-way control valve 3 through a one-way valve 8, and a left connection port of the four-way control valve 3 is connected to an upper connection port of the external heat exchanger 1 And the lower end connection port of the external heat exchanger 1 is connected to a plurality of parallel connection ports on the other side of the polycore pipe through a regulating member and the intermediate common connection port of the four-way control valve 3 is connected to the ventilation port of the compressor 4, A ventilation dehumidifier 28 is connected to both ends of the one-way valve 8 and an outlet end of the ventilation dehumidifier 28 and the one-way valve 8 is connected to the outlet of the compressor 4, And a control tube 31 is provided at one side to be connected.

In this embodiment, a porous pipe is directly installed on the floor, then flattened by using graphite, sand, and cement. Then, the porous pipe is bonded to the ceiling using a thermally conductive adhesive, and the floor and ceiling pipes are connected in parallel And then connected to the four-way control valve 3 through the air-cooled heat exchanger 28. Since the coefficient of thermal conductivity of graphite is higher than that of a common metal, refrigerant enters the perforated pipe directly through the one-way valve 8 during heating. Since the bottom temperature and the condensation temperature in the pore tube are approximately the same, the highest efficiency of the heat dissipation end is achieved and by heating the air entering the room from outside the room by the overheating of the compressed gas, fresh air is maintained in the room.

In summer operation, the refrigerant from the one-way valve (8) enters the air-cooled heat exchanger (28) mainly through the control tube (31) and can remove moisture from the room at a temperature of 10 ° C or lower. The evaporation temperature in the fine hole tube is gradually lowered immediately at approximately 20 ° C to prevent condensation, and the temperature can be quickly lowered through the air-cooled heat exchanger (28) to obtain various effects.

Example 5

In the foundation stage of the building, a plurality of stainless steel or carbon steel porous pipes are juxtaposed together with the reinforced concrete of the foundation pile and the cement is poured together to form an integral body. Instead of the air-cooled heat exchanger of the outdoor air conditioner (7), the first and second floors of the building are provided with heating and cooling. As shown in Fig. 7, when the outer wall of the perforated pipe is thick, the diameter is large, and the strength is high, it is possible to directly substitute the building steel coil 12, and the total cost is lower than that of the air-cooled heat exchanger. Since the evaporation temperature is very high in winter and the condensation temperature is low in summer, the electric consumption is less than that of the fan, the cooling performance and the heating performance are greatly improved, the noise of the outdoor unit (7) is reduced, and the service life and reliability are improved. When used mainly for heating, the foaming insulating layer 27 can be provided before casting the bottom plate 13. [

Example 6

The conventional air conditioner compressor is designed to have a relatively large output pressure and can not exhibit the maximum efficiency when used in the present invention, especially in summer cooling operation. The four-way control valve is easily broken when used for a long period of time, The cooling and heat exchange efficiency is also lowered.

In the compressor (4) of the present invention, the middle portion is a motor, the right end is a heat pump operation chamber, and the left end is a cooling operation chamber. When the motor rotates forward, the left end is straight and the right end is compressing. When the motor rotates in the reverse direction, the right end is directly connected, and the cooling chamber at the left end performs the compression operation. For example, the flow plate using the scroll compressor is disengaged to become the right heat pump, and the compression and reverse rotation of the blade is left-handed to the cooling system to realize all of the above measures (see FIG. 8).

The optimum compression ratio is designed according to the different demands of cooling or heating. The condensing pressure on the cooling side is designed to be 30 캜 and the evaporation side is designed to 20 캜. The compression ratio may be smaller than 1, and the efficiency ratio is 15 or more.

The condensation pressure on the heat pump side is designed to be 25 to 30 ° C and the evaporation side is designed to be -10 ° C ± 15 ° C. The compression ratio is greater than 3 and the energy efficiency ratio is 4 to 6.

The housing is made of cast aluminum to minimize noise.

In the cooling operation or the heat pump operation, evaporation of the refrigerant end is all conducted through the motor, and the four-way control valve is omitted, so that the operation is reliable and the failure is small.

The object of the present invention is realized as described above.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1: external heat exchanger 2: blowing fan
3: Four-way control valve 4: Compressor
5: adjusting member 6: connecting valve
7: outdoor unit 8: one-way valve
9: ceiling porch 10: wall porch
11: Wall pier 12: Building reinforcing steel
13: bottom plate 14: floor adhesive or floor tiles
15: one-way high temperature inorganic thermally conductive material 16: thermally conductive flat layer
17: Panel type heat exchanger 18: Pump
19: capillary 20: solenoid valve
21: wall insulated plate 22: wall pipe
23: water tank 24: guide pipe
25: high strength thermally conductive adhesive 26: carbon tube fiber
27: foamed insulation layer 28: ventilation dehumidifier
29: windshield 30: air-cooled heat exchanger
31: Control tube 32: Base pile heat exchanger
33: Compression expander 34: Porous reinforcing bar

Claims (10)

In an integrated air conditioner including an outdoor heat exchanger (1), a four-way control valve (3), a compressor (4) and a perforated pipe,
The porous pipe is integrally formed by pouring concrete into a metal capillary by being bundled with a building reinforcing bar 12. A plurality of parallel connection ports on one side of the porous pipe are connected to a right connection port of the four-way control valve 3, A plurality of parallel connection ports on the other side of the outer heat exchanger 1 are connected to a lower connection port of the external heat exchanger 1 through a control member 5 and an upper connection port of the external heat exchanger 1 is connected to a left connection port And an intermediate common connection port of the four-way control valve 3 is connected to a ventilation port of the compressor 4 and an inlet of the four-way control valve 3 is connected to an outlet of the compressor 4, Wherein the heat exchanger (1) is at least one of an air-cooled heat exchanger, a water-cooled heat exchanger, a base pile heat exchanger, and a solar panel heat exchanger. The method according to claim 1,
Wherein the compressor (4) is at least two or an inverter compressor. In an integrated air conditioner including an outdoor heat exchanger (1), a four-way control valve (3), a compressor (4) and a perforated pipe,
The perforated pipe is a metal, PB or PERT capillary or carbon tube fiber. A plurality of perforated pipes are installed on the top of the bottom plate or attached to the wall, and the parallel connection port on one side of the perforated pipe 9 is connected to the capillary 19 The capillary 19 is connected to the solenoid valve 20 at both ends and the parallel connection port on the other side of the wall pore 10 is connected to the control member 5 And the upper connection port of the external heat exchanger 1 is connected to the left connection port of the four-way control valve 3 and the right connection port of the four-way control valve 3 is connected to the connection port of the left- Is connected to the other parallel connection port of the ceiling pores (10), and the intermediate common connection port of the four-way control valve (3) is connected to the ventilation port of the compressor (4). The method of claim 3,
Wherein a reinforcing steel bar is provided in the porous pipe and a thermally conductive flat layer 16 formed of at least one of cement, sand, graphite and metal powder is formed between the pipes, and an upper portion of the heat conductive flat layer 16 Wherein one side connection port of a water-cooled heat exchanger (17) is connected in series between an inlet of the four-way control valve (3) and an outlet of the compressor (4) And the other side connection port of the water-cooled heat exchanger (17) is connected to a desired pipe through the pump (18). 1. A building-integrated air conditioner including an external heat exchanger (1), a four-way control valve (3), a compressor (4), a one-
Wherein the perforated pipe is at least one of metal, PERT and PB capillaries, a plurality of the perforated pipes are attached in parallel on the ceiling or installed on the floor, and a plurality of parallel connection ports on one side of the perforated pipe are connected to the four- The left connection port of the four-way control valve 3 is connected to the upper connection port of the external heat exchanger 1 and the lower connection port of the external heat exchanger 1 is connected to the right connection port of the control valve 3, And the inlet of the four-way control valve (3) is connected to the outlet of the compressor (4) through an inlet of the compressor Way valve 8 is connected to both ends of the one-way valve 8 and connected to the ventilation dehumidifier 28. The ventilation dehumidifier 28 is connected to the outlet end of the one- The control tube (31) The air conditioner having a built-in air conditioner. In a building integrated type air conditioner including a base pile heat exchanger (32), a four-way control valve (3), and a compression expander (33)
The base pile heat exchanger 32 is constructed by pouring a porous pipe into a building reinforcing bar 12 and pouring concrete or casting a porous reinforcing bar 34 into a foundation pile, Is connected to the left connection port of the four-way control valve (3), and the other connection port of the base pile heat exchanger (32) is connected to a plurality of parallel connection ports at one side of the ceiling pore tube (9) through the compression expander , The right connection port of the four-way control valve 3 is connected to a plurality of parallel connection ports on the other side of the ceiling pores 9 and the intermediate common connection port of the four-way control valve 3 is connected to the ventilation port of the compression expander 33 , And the inlet of the four-way control valve (3) is connected to the outlet of the compression expander (33). In an integrated building type air conditioner including an external heat exchanger (1) and a compressor (4)
And a plurality of parallel connection ports at one side of the porous pipe or the porous reinforcing bars (34) are connected to the compressor And a plurality of parallel connection ports on the other side of the porous pipe or the porous reinforcing pipe 34 are connected to a lower connection port of the external heat exchanger 1 through a regulating member 5, The upper connection port of the compressor 1 is connected to the other connection port of the compressor, and the external heat exchanger 1 is at least one of an air-cooled heat exchanger, a water-cooled heat exchanger, a base pile heat exchanger, Building integrated air conditioner. 1. A building integrated type air conditioner including an external heat exchanger (1), a four-way control valve (3), a compressor (4), and a porous reinforcing bar (34)
The porous reinforcing bars 34 are welded to each other through a net-like channel heat exchanger and poured to form a single body. A plurality of parallel connection ports on one side of the porous reinforcing bars 34 are connected to the right connection port of the four- And the plurality of parallel connection ports on the other side of the porous reinforcing bar 34 are connected to the lower connection port of the external heat exchanger 1 through the adjustment member 5 and the upper connection port of the external heat exchanger Wherein an intermediate common connection port of the four-way control valve 3 is connected to a ventilation port of the compressor 4 and an inlet of the four-way control valve 3 is connected to a left connection port of the compressor 4, Wherein the air conditioner is connected to the outlet of the building. An outdoor heat exchanger, a four-way control valve, a compressor, and a metal radiation panel,
The metal radiation panel is thermally compressed to be laid on the floor or attached to a wall and a ceiling, and an inlet of the metal radiation panel is connected to the four-way control valve 3 is connected to the left connection port of the external heat exchanger 1 and the outlet of the metal radiation panel is connected to the other connection port of the external heat exchanger 1 through the adjustment member 5 and the upper connection port of the external heat exchanger 1, The inlet of the four-way control valve 3 is connected to the outlet of the compressor 4 and the intermediate common connection port of the four-way control valve 3 is connected to the outlet of the compressor 4, Wherein at least one of an air-cooled heat exchanger, a water-cooled heat exchanger, and a foundation pile heat exchanger is used as the external heat exchanger. In an integrated air conditioner including an outdoor heat exchanger (1), a four-way control valve (3), a compressor (4) and a perforated pipe,
The perforated pipe is at least one of a metal capillary, a PERT and a PB capillary. A plurality of the perforated pipes are attached in parallel on the ceiling or on the floor, and a plurality of parallel connection ports on one side of the perforated pipe The left connection port of the four-way control valve 3 is connected to the upper connection port of the external heat exchanger 1, and the lower connection port of the external heat exchanger 1 is connected to the right connection port, And the inlet of the four-way control valve 3 is connected to the outlet of the compressor 4, and the inlet of the four-way control valve 3 is connected to the outlet of the compressor 4 The integrated air conditioner is characterized by being connected.

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