KR200412458Y1 - Heating and cooling boiler - Google Patents

Abstract

The present invention is a cooling and cooling system using utility water No. 0369566, filed on September 23, 2004, under the name of a combined heating and cooling boiler, and an on-dol cooling heater that enables both heating and cooling by using a heat exchanger for heating. The present invention relates to a heating and cooling combined use boiler that can simultaneously realize heating and cooling and hot and cold water functions with one heat exchanger by supplementing the ondol-type cold heater of Utility Model Registration No. 20-2005-0034460, filed December 7, 2005.

The combined heating and cooling boiler system in the summer opens the high-temperature, high-pressure refrigerant compressed by the compressor (40) in the summer, from the outlet refrigerant pipe (11) to the outlet 3-way automatic opening and closing valve (31) to the refrigerant pipe (23) in the condenser direction. The heat exchanger 2 in which heat exchange is performed through the condenser 50, in which the coolant is discharged, the motor 60, and the heat exchanger 28 through the expansion valve 28, and the refrigerant heat exchanged in the heat exchanger 2 are at the inlet side. The refrigerant returned by the three-way automatic opening and closing valve 32 is circulated back to the compressor 40, and in the winter, the high temperature and high pressure refrigerant compressed by the compressor 40 flows out through the outlet refrigerant pipe 11. Refrigerant returning through the three-way automatic open / close valve (32) after the heat exchange is made through the heat exchanger (2) through the refrigerant pipe (24) without the condenser 50 by the three-way automatic open / close valve (31). To compressor 40 to recompress Circulated. A water inlet pipe 22 and a circulation pump 20 for sending the heat exchanged water to each of the heat exchangers 2; A water outlet pipe 21 for sending the water from each room back to the heat exchanger; A water supply pipe 41 for supplying water to the hot water pipe and the supplemental water tank 3; A replenishment water tank 3 for refilling water in the heat exchanger 2; a level control valve 65 for controlling water supply from the replenishment water tank 3 to the heat exchanger 2; Water supplied to the heat exchanger (2) through the hot water pipe (63) in the water supply pipe (41) for supplying water to the supplemental water tank (3) and hot water supply pipe (63) for supplying hot water after the heat exchange Hot water outlet pipe 42; A heating coil 76 that thaws the internal ice during the freezing and heats the water in the heat exchanger 2 for instant hot water; A temperature sensor 61 for detecting an internal temperature of the heat exchanger 2 and a freezing sensor 62 for detecting freezing; An indoor temperature sensor 12 that detects a room temperature; A thermostat 70 for temperature setting; An automatic control control box 85 that maintains the set temperature by controlling the compressor 40 and the 3-way automatic opening / closing valves 31 and 32 in response to a signal of maintaining and sensing the temperature set by the temperature controller 70. And the like.

Air-conditioning piping, air-conditioning system, cooling water, air-conditioning and hot water heat exchanger, condenser, compressor, temperature controller, make-up water tank, 3-way automatic opening and closing valve, level control valve,

Description

Heating and cooling boilers {omitted}

1 is a block diagram of a combined heating and cooling boiler according to the present proposal.

<Description of the code | symbol about the principal part of drawing>

DESCRIPTION OF SYMBOLS 1: Each room (part with a heating piping) 2: Heat exchanger 3: Supplement water tank 5: Each piping 11: Outflow refrigerant piping 12: Room temperature sensor 20: Circulation pump 21: Water outflow piping 22: Water inflow piping 23 : Refrigerant piping on the cooling system 24: Refrigerant piping on the heating system 28: Expansion valve 31: 3 way automatic opening and closing valve on the refrigerant outlet side 32: 3 way automatic opening and closing valve on the refrigerant inlet side 40: Compressor 41: Water supply pipe 42: Hot water outlet pipe 50: Condenser 60: condenser 휀 motor 61: temperature sensor 62: freezing sensor 63: hot water line inlet pipe 64: make-up water tank water inlet pipe 65: water level control valve 66 for heat exchanger water level control valve 70: temperature controller 76 : Heating coil 80: Compressor relay 85: Automatic control box

This proposal is a cooling and heating boiler that can be combined with heating and cooling by using a heating pipe in the room. In summer, condensation of the high-temperature and high-pressure refrigerant compressed by the compressor into a condenser, followed by cooling the cooling water cooled in the heat exchanger through an expansion valve. In systems and winters, the high-temperature and high-pressure refrigerant generated by the compressor is recovered by the heat exchanger as a heating heat through a converter, and heated.In the case of heat exchange in the heat exchanger through a separate line, hot water can be used in winter and cold water in the summer. It is a combined heating and cooling boiler with the function of supplying hot and cold water.

In general, the boiler is heated in winter and the air conditioner is cooled in summer, but for this purpose, it is cumbersome to have different facilities, and when using gas and oil boilers, the gas is toxic to the human body. It is inconvenient to have space and ventilation facilities. Air-conditioning for cooling in summer uses air as a medium to cool the room, so the room must be sealed and bacteria and pollutants in the filter can be infected through the air. In addition, there have been various problems such as fear of harming health when the lamp is operated for a long time.

The present invention was devised to solve the above-mentioned problems of the prior art, and the compressor is used in a cooling system that cools the floor by circulating the cooling water using the heating piping of the cooling system using the cooling water of Utility Model Registration No. 0369566, which was filed by the applicant. Application of a utility model registered on December 7, 2005, which is a technology that allows the heating and cooling of high-temperature and high-pressure refrigerant at the time of compressing the refrigerant through a heat exchanger for heating and cooling at the same time. Completion of the technology of No. 20-2005-0034460 aims to increase the efficiency of its function by enabling the heating and cooling of cold and hot water with a single heat exchanger.

The heating and cooling combined use boiler of the present invention for achieving the above objects is a cooling heat exchanger system for cooling the water circulating in the piping of each room and a heat exchanger system for heating to recover the heat generated from the refrigerant of high temperature and high pressure to raise the water temperature Compressor for compressing the refrigerant at high temperature and high pressure; A three-way automatic shutoff valve on the refrigerant outlet side to separate the compressed refrigerant into a refrigerant pipe having a condenser for cooling the summer and a refrigerant pipe for heating in the winter, thereby converting the movement of the refrigerant according to the cooling and heating functions; A three-way automatic open / close valve for the refrigerant inlet port for converting the refrigerant pipe for the cooling system and the refrigerant pipe for the heating system from the heat exchanger into a refrigerant pipe connected to the compressor; A circulation pump for circulating the heat exchanged water through the pipes disposed in each room; A water inlet pipe for circulating each room and introducing the returned water to the heat exchanger; A water outlet pipe for supplying heat exchanged water to each room in the heat exchanger; A replenishment tank for replenishing water in the heat exchanger; A level control valve for adjusting the level in the make-up tank and the heat exchanger; Water inlet pipe for cold and hot water supply; Cold and hot water outlet pipe for supplying the cold and hot water heat exchanged; A compressor for compressing the refrigerant coming out of the refrigerant pipe; A condenser for condensing the compressed refrigerant from the compressor to release heat generated; Zum motor for cooling the heat of the condenser; A temperature sensor for sensing a temperature of the inside of the heat exchanger; An icing detection sensor for detecting a icing state of water in the heat exchanger; A heating coil that defrosts it when frozen and heats the inside of the heat exchanger if instantaneous hot water is needed; A temperature sensor for sensing indoor temperature; A thermostat for setting room temperature; An automatic control control box that maintains a set temperature and controls valves, compressors, and heating coils by receiving signals from various sensors; And the like.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a combined heating and cooling boiler according to the present invention.

As shown, the combined heating and cooling boiler of the present invention includes a heat exchanger (2) and a refrigerant pipe (11.23.24) of the heat exchanger for cooling water circulating in each pipe (5); A compressor (40) for compressing the refrigerant coming from the refrigerant pipe in the heat exchanger; A three-way automatic opening and closing valve (31) for separating and converting the refrigerant having a high temperature and high pressure from the compressor into a cooling system side pipe (23) and a heating system side pipe (24); A three-way automatic opening and closing valve (32) for converting the refrigerant passing through the heat exchanger into a cooling system pipe and a heating system pipe and converting the refrigerant pipe into a compressor through one refrigerant pipe; A circulation pump 20 circulating the heat-exchanged water to the pipes 5 of the rooms 1; A temperature sensor 61 for detecting a temperature of water in the heat exchanger; An ice detection sensor 62 for detecting an ice inside the heat exchanger; A heating coil 76 that thaws it when frozen and heats the inside of the heat exchanger 2 when an instant hot water supply is required; A temperature sensor 12 for detecting an indoor temperature; Temperature controller 70 for setting the room temperature; An automatic control control box 85 that maintains a set temperature by receiving a set temperature of the temperature controller and a signal of a sensing sensor and controls a valve or the like; A relay (80) for operating the compressor (40) and the condenser fan motor (60) and the circulation pump (20) by the signal of the automatic control control box; A supplemental water tank (2) for supplying water to the water supply pipe (41) heat exchanger (2) for supplying water to the supplemental water tank (3) and the cold and hot water supply pipe (63); Water level control valves 65 and 66 for adjusting the water level in the make-up water tank 3 and the heat exchanger 2; It consists of a cold / hot water outflow pipe 42 which supplies cold / hot water.

When the summer cooling system is operating, the high-temperature, high-pressure refrigerant compressed by the compressor 40 is discharged from the refrigerant pipe 11 through the 3-way automatic opening and closing valve 31 at the outlet side of the condenser through the condenser (23). After the heat exchange in the heat exchanger (2) through the 50) is returned to the compressor 40 through the inlet side 3-way automatic opening and closing valve 32 is compressed by the compressor again to achieve a cooling system.

When the winter heating system is operating, the high-temperature, high-pressure refrigerant compressed by the compressor 40 is transferred to the heat exchanger through the refrigerant pipe 24 without the condenser by the 3-way automatic opening and closing valve 31 at the outlet side of the refrigerant pipe 11. After the heat exchange in 2) the refrigerant is converted through the inlet side three-way automatic opening and closing valve 32 is recovered through the refrigerant pipe connected to the compressor 40 is compressed again in the compressor 40 is achieved by the heating system.

The present invention has been discarded without utilizing the heat generated during cooling, but by using it as a heating heat, it is possible to solve the cooling and heating at the same time with a single machine. Due to continuous high oil prices, it is possible to save money in many places such as homes using oil boilers, and because only electricity is used, it is possible to reduce air pollution since no pollutants are generated from gas in terms of environment. Since there is no need to install a separate space, it can be easily installed anywhere and is safe and can be used in various aspects.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various changes or modifications can be made within the spirit and scope of the present invention. It will have to belong to the claims.

Claims (1)

The compressor 40 converts the refrigerant of high temperature and high pressure into a cooling system and a heating system by a three-way automatic switching valve 31, and provides a cooling refrigerant pipe 23 and a heating refrigerant pipe 24 to one heat exchanger 2. Heat exchanger (2) consisting of; A three-way automatic opening and closing valve (32) for converting the refrigerant passing through the heat exchanger (2) into a refrigerant pipe having different cooling and heating refrigerant pipes toward the compressor (40); Compressor 40 for compressing the refrigerant returned through the refrigerant pipe; An inlet pipe 21 for circulating the pipes 5 in each room and introducing the returned water into each heat exchanger 2; Outflow pipes 22 which are discharged to each room after the heat exchange in the heat exchanger (2); A circulation pump 20 for circulating water in the water outlet pipe 21 and the water inlet pipe 22; And a condenser (50) and shock motor (60) for condensing the refrigerant compressed by the compressor (40). A heat sensor 2 for detecting the temperature of the water inside the heat exchanger 2 and a freezing sensor 62 for detecting the freezing of the water; A heating coil 76 which thaws freezing and heats the inside of the heat exchanger if instantaneous hot water is needed; An automatic control control box 86 for automatically controlling the detection sensor according to a preset temperature; a replenishment water tank 3 for replenishing water in the heat exchanger 2; And level control valves (65,66) A temperature controller 70 for controlling room temperature; A water inlet pipe 63 for supplying water to a heat exchanger for hot water supply; A hot water outlet pipe 42 for supplying hot water with heat exchange; By using the heat generated by the high temperature and high pressure by the compressor (40), one heat exchanger (2) having both heating and cooling and hot water lines can simultaneously supply cooling and heating hot water, and includes hot and cold water function by circulating water in an ondol pipe. Combined heating and boiler system

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