KR101302179B1 - combined heating and humidification system - Google Patents

Abstract

The present invention relates to a heating system for both humidifying and heating, comprising: a heat collecting unit and a heat collecting unit configured to heat the first heat medium oil to send the first heat medium oil through a transfer pipe, and to recover the first heat medium oil through a recovery pipe. It is connected to receive the first heat medium oil, which is heated by the transfer pipe and is transferred through the transfer pipe, and is recovered to the recovery pipe. The radiator is provided with a radiator that exchanges heat with the first heat medium oil and releases heat to the outside. A lower housing formed so as to be provided, a circulation tank installed in the lower housing and entering and exiting the first heat medium oil, an auxiliary housing installed in the circulation tank and heat-exchanged with the first heat medium oil, and extending from the auxiliary housing above the lower housing. Main heat exchanger which is composed of a plurality of heat pipes to exchange heat with the outside, An upper housing provided with a storage space, a hot water distribution pipe connected between the upper housing and the lower housing to be stored in the lower housing so that the heated water can be evaporated to the outside through the upper housing, and flowed into the upper housing through the hot water distribution pipe. It is further provided with an absorbing member formed of a porous material so that the absorbed water can be absorbed, and a filter made of charcoal on the absorbent member.

Description

Combined heating and humidification system

The present invention relates to a humidifying combined heating system, and more particularly, to a humidifying combined heating system using a solar heat collecting tube for handrails that can be heated and humidified using a solar heat collecting tube installed on a railing of a building.

In general, solar power is widely used for heating and hot water supply in buildings such as houses due to the infinite amount of energy and pollution.

In the solar heating or hot water supply system, the heat medium heated in the solar collector installed outside the building is transferred to the heat storage tank and heats the water in the heat storage tank through heat exchange. The hot water heated in the heat storage tank is supplied to the room by the heating circulation pump interlocked with the temperature controller which is turned on / off according to the high and low room temperature, and is used for the heating and the hot water supply for heating the room. However, when the solar radiation is insufficient according to the weather, the water in the heat storage tank is heated to a certain temperature using a boiler by an auxiliary heat source and used for heating and hot water supply.

On the other hand, most of the apartment railings have a wide area and are directed toward the southeast, where the sun is good, and has optimal conditions for collecting solar heat, and the balustrades are installed on the veranda and roof of the building. However, at present, apartment balconies and rooftop railings are not properly utilized.

The present inventor has applied for a heating and hot water supply system using a solar heat collecting pipe for railing in consideration of the above matters.

However, when the water heated through the solar heat collector tube is heated through the radiator, there is an inconvenience of having to use a separate humidifier because the room is dried.

The present invention has been made to solve the above requirements, the purpose of providing a humidifying combined heating system that can be combined with heating and humidification through a radiator using the heat of the solar heat collector tube that collects solar heat. There is this.

In order to achieve the above object, the combined humidification heating system according to the present invention is configured to heat the first heat medium oil, to send the first heat medium oil through a transfer pipe, and to recover the first heat medium oil through a recovery pipe. A heat collecting unit; A radiator heated by the heat collecting unit and connected to receive the first heat medium oil transferred through the transfer pipe and to be recovered to the recovery pipe, and radiate heat to the outside by heat exchange with the first heat medium oil; The radiator includes: a lower housing formed to store water; A circulation tank installed in the lower housing and into which the first heat medium oil flows in and out; A main heat exchanger installed in the circulation tank and configured to be heat-exchanged with the first heat medium oil, and a plurality of heat pipes extending from the auxiliary housing to be spaced apart from each other above the lower housing to exchange heat with the outside; An upper housing coupled to each other at an upper portion of the heat pipe, and having a storage space therein; A hot water distribution pipe connected between the upper housing and the lower housing and connected to the water stored in the lower housing so that heated water can evaporate to the outside through the upper housing; An absorbing member formed of a porous material to absorb water introduced into the upper housing through the hot water distribution pipe; It is further provided with a filter made of charcoal on the absorbent member.

Preferably, a flow path through which the second heat medium oil flows is formed in the auxiliary housing and the heat pipe of the heat exchange part.

The heat collecting unit includes a plurality of tubular solar heat collecting tubes installed on the porch of the building to heat the first heat medium oil by the collected heat.

In addition, a temperature sensor for detecting the temperature of the first heat medium oil in the circulation tank; A heater installed to heat water in the lower housing; And a controller configured to control the heater to operate when the temperature detected by the temperature sensor is less than a predetermined temperature.

More preferably, the upper housing further includes a cover rotatably coupled to expose or shield the filter to the outside, and the absorbing member is applied with a sponge.

According to the humidification combined heating system according to the present invention, it provides an advantage that can be combined with humidification and heating through a radiator with heat to be generated through the tubular solar heat pipe installed on the roof of the apartment house porch or a common building. .

1 is a view showing a humidification combined heating system using a solar heat collector for handrails according to the present invention,
2 is a side cross-sectional view of the radiator of FIG. 1,
3 is a perspective view illustrating a state in which the solar heat collecting tube of FIG. 1 is installed on a porch railing.

Hereinafter, the humidification combined heating system according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in more detail.

1 is a view showing a humidification combined heating system using a solar heat collector for handrails according to the present invention, Figure 2 is a side cross-sectional view of the radiator of FIG.

1 and 2, the humidifying combined heating system 100 according to the present invention includes a heat collecting unit 110 and a radiator 150.

The heat collecting unit 110 is provided with a plurality of tubular solar heat collecting pipes 112 installed on the railing 20 of the porch of the building and heating the first heat medium oil by the heat collected as shown in FIG. 3.

The collecting pipes 112 are arranged to be coupled to each other through the handrail 20 coupling member so that the first heat medium oil can be circulated therebetween.

The solar heat collecting tube 112 may send the first heat medium oil heated by the collected solar heat through the transfer pipe 116 and recover the first heat medium oil through the recovery pipe 118. have.

Here, the first thermal medium oil may be water or other fluid.

The detailed structure of the solar heat collecting tube 112 may be applied to various structures such as a structure in which a heat pipe is mounted in a convection tube convection tube disclosed in Korean Patent No. 10-0801321, and a detailed description thereof will be omitted.

The radiator 150 is connected to receive the first heat medium oil heated by the heat collecting unit 110 and transported through the transfer pipe 116 and to be recovered to the recovery pipe 118, thereby generating heat exchange with the first heat medium oil. The heat released to the outside.

Reference numeral 130 is a circulation motor installed on the transfer pipe 116 to pump the first heat medium oil to the radiator 150, and reference numerals 141 and 142 are electrons installed in the transfer pipe 116 and the recovery pipe 118, respectively. Valve.

The radiator 150 is capable of both humidifying and heating, and subdividing the structure into a lower housing 152, a circulation tank 154, a main heat exchanger 158, an upper housing 161, and a hot water distribution pipe 163. And an absorbing member 165 and a filter 167.

The lower housing 152 is able to be supported on the ground through the support bar 151 and has an accommodation space for storing water therein.

Reference numeral 155a is an injection hole for use when replenishing water to protrude outward in communication with the receiving space of the lower housing 152, and 155b is a stopper for opening and closing the injection hole.

Here, the support bar 151 may be replaced with a wheel, of course.

The circulation tank 154 is installed in the lower housing 152 and connected to the transfer pipe 116 and the recovery pipe 118, and is formed to have an entry / exit space through which the first heat medium oil circulates. Reference numeral 153 is a coupling piece for coupling the circulation tank 154 into the lower housing 152.

The heat exchange part 158 is installed in the entry / exit space of the circulation tank 154 and mutually stores the auxiliary housing 156 in which the second heat medium oil is heat-exchanged with the first heat medium oil, and from the auxiliary housing 156 above the lower housing 152. The plurality of heat pipes 157 extend apart and heat exchange with the outside.

Here, a flow path 159 through which the second heat medium oil flows is formed in the auxiliary housing 156 and the heat pipe 157 of the heat exchange part 158.

Meanwhile, the first heat medium oil and the second heat medium oil may be applied with the same fluid or different types of fluids.

The upper housing 161 is coupled to each other in the upper portion of the heat pipe 157, the inside is provided with a storage space (161a) with the top open.

The upper housing 161 is coupled to the heat pipe 157 so that the flow path of the heat pipe 157 is closed, and the hot water distribution pipe 163 to be described later is coupled to allow the hot water to flow.

The hot water distribution pipe 163 is connected between the upper housing 161 and the lower housing 152 so that the water stored in the lower housing 152 and the heated water may evaporate to the outside through the upper housing 161.

Although not shown, a valve for opening and closing the flow path on the hot water distribution pipe 163 may be further installed to close the flow path on the hot water distribution pipe 163 when the humidification function is not to be used.

Absorbing member 165 is mounted to be supported on the support piece 161c protruding inward in the storage space of the upper housing 161 is formed of a porous material to absorb the water introduced through the hot water distribution pipe 163. .

Absorbing member 165 is preferably a sponge is applied, it is a matter of course that can also be applied to the non-woven fabric having an absorption function.

The filter 177 is installed on the upper portion of the absorbing member 165, it is preferable to apply that made of charcoal powder.

The filter 177 may be applied to charcoal powder as it is, or may be applied to the charcoal powder filled in the net.

The lid 162 is rotatably coupled via a hinge 164 coupled to the side to expose or shield the open filter 167 of the upper housing 161 to the outside.

The temperature sensor 171 is installed to detect the temperature of the first heat medium oil in the circulation tank 154.

The heater 173 is applied for auxiliary use, and is installed to heat water in the lower housing 152.

The controller 175 controls the heater 173 to operate when the temperature detected by the temperature sensor 171 is less than the set temperature.

The operation unit 177 is provided with a key for selecting the operation on / off of the radiator 150 and the humidification temperature / off at the time of operation, and the control unit 177 is the humidification temperature mode while operating at the operation temperature. ), The valves 141 and 142 are opened, and when the temperature detected from the temperature sensor 171 is equal to or higher than the set temperature, the heater 173 is turned off, and the heat collecting tube unit 110 is cloudy. When the amount of heat supplied through the small temperature is less than the temperature detected from the temperature sensor 171 is set to turn on the heater 173.

In this process, the heat pipe 157 heats the heating area while radiating heat through the outer surface by the second heat medium oil that is heat-exchanged with the first heat medium oil.

In addition, the hot water heated by the heat exchange with the circulation tank 154 is evaporated through the hot water distribution pipe 163, the absorbing member 165 and the filter 167 to function as a humidification function.

The combined humidification heating system 100 may also be humidified together with heating, and the water stored in the lower housing 152 is evaporated through the filter 167 in a state in which the water stored in the lower housing 152 is absorbed by the absorbing member 165 to clean steam. It offers the advantage of being discharged.

110: heat collecting unit 150: radiator
165: absorbent member 167: filter

Claims (5)

A heat collecting unit configured to heat the first heat medium oil to send the first heat medium oil through a transfer pipe, and to recover the first heat medium oil through a recovery pipe;
A radiator heated by the heat collecting unit and connected to receive the first heat medium oil transferred through the transfer pipe and to be recovered to the recovery pipe, and radiate heat to the outside by heat exchange with the first heat medium oil; And
The radiator includes a lower housing formed to store water;
A circulation tank installed in the lower housing and into which the first heat medium oil flows in and out;
A main heat exchanger installed in the circulation tank and configured to be heat-exchanged with the first heat medium oil, and a plurality of heat pipes extending from the auxiliary housing to be spaced apart from each other above the lower housing to exchange heat with the outside;
An upper housing coupled to each other at an upper portion of the heat pipe, and having a storage space therein;
A hot water distribution pipe connected between the upper housing and the lower housing and connected to the water stored in the lower housing so that heated water can evaporate to the outside through the upper housing;
An absorbing member formed of a porous material to absorb water introduced into the upper housing through the hot water distribution pipe;
Humidifying combined heating system characterized in that it further comprises; a filter made of charcoal on the absorbent member. The heating system of claim 1, wherein a flow path through which the second heat medium oil flows is formed in the auxiliary housing and the heat pipe of the heat exchange part. The humidifying combined heating system according to claim 2, wherein the heat collecting unit includes a plurality of tubular solar heat collecting tubes installed on the porch of the building and heating the first heat medium oil by solar heat collected therein. 4. The apparatus of claim 3, further comprising: a temperature sensor for detecting a temperature of the first thermal medium oil in the circulation tank;
A heater installed to heat water in the lower housing;
And a control unit for controlling the heater to operate when the temperature detected by the temperature sensor is lower than a set temperature. According to claim 4, The upper housing further comprises a cover rotatably coupled to expose or shield the filter to the outside,
Humidifying combined heating system, characterized in that the absorbing member is a sponge.

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