KR19990081168A - Cooling and Heating System - Google Patents

Abstract

The present invention integrates cooling and heating into a single system to allow the user to selectively perform cooling and heating as needed, thereby providing convenience of use while reducing the economic burden of the user, and in particular, the efficiency of cooling is greatly increased. It is to be improved.

To this end, the present invention provides a heater (1) for burning fuel to obtain combustion heat, a heating tube (2) installed in the heater and heated by combustion heat, and water embedded in a floor of a room where heating is performed. Circulating pipe (3) circulated, the first connecting pipe (4) connecting the inlet of the heating pipe (2) and the outlet of the circulation pipe (3), the outlet and the circulation pipe (3) of the heating pipe (2) The second connection pipe 5 for connecting the inlet of the), the pump 6 is provided in the first connection pipe (4) to provide a pumping force, and provided separately from the heater (2) to compress the refrigerant A condenser (7), an evaporator (8) comprising a refrigerant pipe (8a) and a plurality of cooling fins (8b) fixed to the refrigerant pipe so that the refrigerant compressed and condensed by the cooler performs an evaporation action; A sealed box 9 surrounding the evaporator 8 so that the evaporator is located in the inner space, and one end of the sealed foil A third connecting pipe 10 connected to the upper surface of the other end connected to the first connecting pipe 4, and installed at a connection portion between the third connecting pipe and the first connecting pipe 4, and opening and closing direction of the pipe line. The first pipe opening and closing valve 12 for different, and the fourth connecting pipe 13, one end of which is connected to the lower surface of the closed box (9) and the other end of which is connected to the second connecting pipe (5), The second connection pipe is installed on the connecting portion of the second connection pipe (5) is to consist of a second pipe opening and closing valve 14 to change the opening and closing direction of the pipe.

Description

Cooling and Heating System

The present invention relates to a cooling and heating system for cooling the room in the summer and heating the room in the winter, wherein the cooling and heating are selectively performed by one system to reduce the economic burden of the user. It is to ease the use, and to improve the efficiency of cooling in particular.

In general, a heating system for heating a room, as is well known, is provided with a heater (1) to burn fuel (kerosene or gas) to obtain the heat of combustion, the heater is heated by the heat of combustion (2) ) Is installed, and a circulation pipe 3 is buried in the bottom surface of the room where the heating is performed so that water is circulated, and the inlet of the heating tube 2 and the outlet of the circulation pipe 3 are the first. In addition to the connection pipe (4), the outlet of the heating pipe (2) and the inlet of the circulation pipe (3) is connected to the second connection pipe (5), providing a pumping force to the first connection pipe (4) The pump 6 is provided so that it may be.

Therefore, when the user selects the heating mode, since the heater 1 is turned on, fuel is burned as it enters the heater, so that heat ignition is generated. Accordingly, the heating tube 2 installed in the heater 1 is heated by the combustion heat.

On the other hand, when the heating tube 2 is heated by the combustion heat generated by the combustion of fuel in the heater 1, the inlet of the heating tube and the outlet of the circulation pipe 3 embedded in the floor of the room are connected. The pump 6 on the first connection pipe 4 is operated to provide pumping force, so that the water in the circulation pipe 3 passes through the first connection pipe 4 → heating tube 2 → second connection pipe 5. It goes through the circulation process to enter the circulation pipe (3), in which the water is heated by the heating of the heating tube in the course of passing through the heating tube (2), so the bottom surface temperature of the room eventually moves along the circulation pipe (3) The temperature rises by the temperature of the hot water and the room is heated accordingly.

On the other hand, the hot water moving through the circulation pipe (3) is gradually lowered as the temperature goes from the inlet side to the outlet side, and the water, which has been lowered, continues to be installed in the heater (1) through the first connecting pipe (4). The temperature rises again by the heating of the heating tube while entering the tube (2).

In addition, the cooling system for cooling the room is an air conditioner that is configured separately from the above heating system to cool the room by lowering the temperature of the indoor air. The configuration of the air conditioner and the subsequent cooling process of the room are well known and thus omitted. Shall be.

However, in the related art, since heating and cooling are performed by separate systems, both heating and cooling systems must be provided for the cooling and heating, and thus the cooling system is structurally complicated in consideration of the relatively high price. Of course, there is a problem that the economic burden is aggravated, there was a problem that is very inconvenient to use.

In addition, during cooling, the air temperature is cooled by lowering the temperature of the indoor air, and thus, the floor surface temperature of the room where the user's body is in contact with the air is not lowered.

The present invention has been made in order to solve the above-mentioned conventional problems, by integrating cooling and heating into a single system to allow the user to selectively perform cooling and heating as needed, thereby reducing the economic burden of the user. The purpose is to provide convenience and in particular to greatly improve the efficiency during cooling.

According to an aspect of the present invention for achieving the above object, a heater for burning fuel to obtain combustion heat, a heating tube installed in the heater and heated by combustion heat, and embedded in a floor surface of a room where heating is performed. A circulation pipe through which water is circulated, a first connection pipe connecting an inlet of the heating pipe and an outlet of the circulation pipe, a second connection pipe connecting an outlet of the heating pipe and an inlet of the circulation pipe, and the first connection A pump installed in the pipe to provide a pumping force, a cooler that is provided separately from the heater to compress and condense the refrigerant, and a refrigerant that is compressed and condensed by the cooler to the refrigerant pipe and the refrigerant pipe to perform evaporation. An evaporator composed of a plurality of fixed cooling fins, a sealed box surrounding the evaporator so that the evaporator is positioned in the inner space, and one end of the sealed box A third connection pipe connected to the first connection pipe and the other end connected to the first connection pipe, a first pipe opening / closing valve installed at a connection portion of the third connection pipe and the first connection pipe to change the opening and closing direction of the pipe line; A fourth connecting pipe connected to the lower surface of the sealed box and the other end connected to the second connecting pipe, and installed at a connection portion between the fourth connecting pipe and the second connecting pipe to change the opening and closing direction of the pipe; A cooling and heating system consisting of two pipeline opening and closing valves is provided.

1 is a block diagram of a conventional heating system

2 is a configuration of the present invention cooling, heating system

Explanation of symbols for main parts of the drawings

1. burner 2. heating tube

3. Circulation pipe 4. First connector

5. 2nd connector 6. Pump

7. Chiller 8. Evaporator

8a. Refrigerant line 8b. Cooling fins

9. Sealed box 10. Third connector

11. Injection nozzle 12. The first pipeline opening and closing valve

13. 4th connection pipe 14. 2nd pipe opening and closing valve

Hereinafter, the present invention will be described in more detail with reference to the accompanying FIG. 2 as an embodiment.

2 is a schematic diagram of a cooling and heating system according to the present invention. The present invention is provided with a heater 1 so as to burn fuel (kerosene or gas) to obtain combustion heat, and the heater is heated by combustion heat. (2) is installed, the circulation pipe (3) is embedded in the floor surface of the room where the heating is performed so that water is circulated, the inlet of the heating tube (2) and the outlet of the circulation pipe (3) is the first In addition to being connected to the connecting pipe (4), the outlet of the heating pipe (2) and the inlet of the circulation pipe (3) is connected to the second connecting pipe (5), to provide a pumping force to the first connecting pipe (4) The pump 6 is installed.

In addition to the heater 1, a cooler 7 for compressing a refrigerant and then condensing the refrigerant into a cold refrigerant is provided. The cooler includes a plurality of refrigerant tubes 8a and a plurality of refrigerant tubes fixed to the refrigerant tube to perform a heat exchange action. Evaporator (8) consisting of two cooling fins (8b) is connected, the evaporator is wrapped by a sealed box (9) to be located in the space portion, the upper surface of the sealed box of the third connecting pipe (10) One end is connected and the other end of the third connection tube 10 is orthogonally connected to the first connection tube 4 (), and one end of the third connection tube is located in the upper portion of the space of the sealed box 9. The injection nozzle 11 is coupled to a position where the first pipe opening / closing valve 12 is selectively connected to the opening and closing direction of the pipe to the connection portion of the third connecting pipe 10 and the first connecting pipe 4. ) Is connected, one end of the fourth connecting pipe 13 is connected to the lower surface of the sealed box (9) In addition, the other end of the fourth connecting pipe 13 is connected to the second connection pipe 5 in the orthogonal state, and the opening and closing direction of the pipe at the connection portion of the fourth connecting pipe and the second connecting pipe 5. The second pipe opening and closing valve 14 is connected to give a different.

Referring to the process of cooling or heating the room by the present invention the cooling, heating system configured as described in detail as follows.

When the user selects the heating mode, since the heater 1 is turned on, fuel enters and burns the heater. At this time, the first pipe opening / closing valve installed at the connection portion between the first connecting pipe 4 and the third connecting pipe 10 ( 12) closes the pipeline of the third connector 10 by receiving the control signal of the controller, and at the same time, the second pipeline open / close valve installed at the connection portion between the second connector 5 and the fourth connector 13 (14) closes the conduit of the fourth connector (13) by receiving the control signal of the controller.

On the other hand, when the fuel is burned by the heater 1 and generates combustion heat, the heating tube 2 installed in the heater is heated by the combustion heat, and at the same time, the pump 6 installed on the first connecting tube 4 is controlled by the controller. It operates by receiving the control signal of the pumping force so that the water in the circulation pipe (3) through the first connecting pipe (4) → heating pipe (2) → second connecting pipe (5) back to the circulation pipe (3) It goes through the circulation process, the water passing through the circulation is heated by the heating of the heating tube while passing through the heating tube (2) eventually the temperature of the floor surface of the room rises by the temperature of the hot water and thereby the room is heated will be.

In addition, when the user selects the cooling mode, the cooler 7 is turned on, so that the refrigerant is converted into cold refrigerant through compression and condensation in the cooler, and then circulated through the refrigerant pipe 8a constituting the evaporator 8. The first pipe opening / closing valve 12 installed at the connection portion between the first connecting pipe 4 and the third connecting pipe 10 receives the control signal of the controller, and the heater 2 side of the first connecting pipe 4 is received. A second pipe opening / closing valve 14 installed at the connection portion between the second connecting pipe 5 and the fourth connecting pipe 13 while receiving the control signal of the controller while closing the pipe line receives the second connecting pipe 5. To close the partial pipe on the heater (1) side.

Meanwhile, the cold refrigerant compressed and condensed by the cooler 7 is circulated along the refrigerant pipe 8a constituting the evaporator 8. In this process, the cold refrigerant is cooled in the refrigerant pipe and the refrigerant pipe. Since the heat dissipation to the outside by the cooling fins (8b) is considered that the evaporator (8) is surrounded by the sealed box (9) heat generated cold air remains in the sealed box, at the same time the first connection pipe (4) The pump 6 installed on the) operates under the control signal of the controller to provide a pumping force, so that the water in the circulation pipe 3 passes through the first connecting pipe 4 and the third connecting pipe 10 to the evaporator 8. ) Into the sealed box (9) enclosing the (9), the temperature is rapidly changed to cold water by the heat exchange by the evaporation of the evaporator (8), and then the fourth connector (13) → second connector (5) Go through the circulation process to enter the circulation pipe (3) again In this process, the bottom surface temperature of the room is eventually dropped by the temperature of the cold water moving along the circulation pipe (3), so the room is eventually cooled.

Then, when the temperature of the water entered into the sealed box 9 through the third connection pipe 10 drops sharply, the process of changing to cold water is described in detail.

Since one end of the third connection pipe 10 is connected to the upper surface of the sealed box 9, water entering the sealed box 9 through the third connection pipe 10 may have one end of the third connection pipe 10. It is injected into a relatively large area through the injection nozzle 11 installed at the lower end, the sprayed water is dropped from the upper to the lower by its own weight and fixed to the refrigerant pipe (8a) and the refrigerant pipe forming the evaporator (8) Since the contact with the plurality of cooling fins (8b) eventually the temperature of the water entering the sealed box (9) is to be changed to cold water.

Therefore, since the present invention is selectively performed by a single system in which heating and cooling are integrated, there is no need to provide a cooling and heating system, respectively, thereby reducing the economic burden of the user and making the use very convenient. have.

In addition, during cooling, the floor temperature of the room is directly lowered to cool, and thus, the cooling efficiency is greatly improved in comparison with the conventional air conditioner that cools by lowering the temperature of indoor air.

Claims (2)

A heater that burns fuel and obtains heat of combustion; A heating tube installed in the heater and heated by combustion heat; A circulation pipe buried in the floor of the room where the heating is performed and water is circulated; A first connecting pipe connecting the inlet of the heating pipe and the outlet of the circulation pipe; A second connecting pipe connecting the outlet of the heating pipe and the inlet of the circulation pipe; A pump installed at the first connection pipe to provide a pumping force; A cooler provided separately from the heater to compress and condense the refrigerant; An evaporator comprising a refrigerant pipe and a plurality of cooling fins fixed to the refrigerant pipe so that the refrigerant compressed and condensed by the cooler performs an evaporation action; A sealed box surrounding the evaporator so that the evaporator is located in the inner space; A third connection pipe having one end connected to an upper surface of the sealed box and the other end connected to the first connection pipe; A first pipe opening / closing valve installed at a connecting portion of the third connecting pipe and the first connecting pipe to change the opening and closing direction of the pipe; A fourth connector tube having one end connected to the lower surface of the sealed box and the other end connected to the second connector tube; Cooling and heating system characterized in that it is configured to the second pipe opening and closing valve which is installed on the connecting portion of the fourth connecting pipe and the second connecting pipe to change the opening and closing direction of the pipe. The method of claim 1, A spray nozzle is installed at one end of the third connecting pipe so as to be positioned above the space in the sealed box so that water entering the sealed box through the third connecting pipe flows down from the top to the bottom through the spray nozzle and contacts the evaporator. Cooling and heating system, characterized in that.