KR101894936B1 - Air conditioning apparatus - Google Patents

Abstract

An air conditioning apparatus capable of adaptively increasing the cooling / heating efficiency according to seasonal conditions and the like is disclosed. An air conditioning apparatus according to an embodiment of the present invention includes an air conditioning duct for supplying air for air conditioning in an indoor space; A cold water pipe which is installed apart from the air conditioning duct and supplies cold water to the cold water use place; A hot water pipe which is installed apart from the air conditioning duct and supplies hot water to the hot water use place; A heat exchange plate installed in the air duct for heat exchange with air flowing in the air duct; A cold / hot water branch pipe branching from the cold water pipe and the hot water pipe and joining to the cold water pipe and the hot water pipe via the heat exchange plate; And a controller for controlling the flow rate of the cold water and the flow rate of the hot water, which are provided in the cold / hot water branch pipe, through the heat exchange plate.

Description

{AIR CONDITIONING APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of improving cooling and heating efficiency.

Air-condition ducts for residents and hot water and cold water pipes for residential areas are arranged in a trunk space in a marine platform or residential space of a ship. Through the air duct, cold air for cooling the indoor space is supplied to the indoor space in summer, and warm air for heating the indoor space is supplied to the indoor space in winter. Cold and hot water is always supplied through individual piping, regardless of season. In order to prevent hot water from affecting the air duct directly in the summer and to prevent cold air of the cold water from directly affecting the air duct in winter, the pipe supplying cold and hot water in the trunk is separated from the air duct Respectively.

The present invention provides an air conditioner capable of increasing air conditioning efficiency.

Also, the present invention provides an air conditioning apparatus capable of selectively exchanging heat between cold water flowing into a cold water pipe in a trunk and hot water flowing into a hot water pipe and air flowing in the air duct, thereby maximizing cooling and heating efficiency according to the season.

The problems to be solved by the present invention are not limited to the above-mentioned problems. Other technical subjects not mentioned will be apparent to those skilled in the art from the description below.

According to an aspect of the present invention, there is provided an air conditioning system comprising: an air conditioning duct for supplying air for air conditioning in an indoor space; A cold water pipe spaced apart from the air conditioning duct and supplying cold water to a cold water use place; A hot water piping installed apart from the air conditioning duct and supplying hot water to a hot water use place; A heat exchange plate installed in the air conditioning duct for heat exchange with air flowing in the air conditioning duct; A cold / hot water branch pipe branched from the cold water pipe and the hot water pipe and joined to the cold water pipe and the hot water pipe via the heat exchange plate; And an adjuster installed in the cold / hot water branch pipe for adjusting a flow rate of cold water and a flow rate of hot water passing through the heat exchange plate.

The cold / hot water branch pipe includes a cold water branch pipe branched from one side of the cold water pipe; A hot water branch pipe branching from one side of the hot water pipe; A first connection pipe connected to the cold water branch pipe and the hot water branch pipe and extending toward the heat exchange plate and supplying cold water supplied through the cold water branch pipe or hot water supplied through the hot water branch pipe to the heat exchange plate, ; A heat exchange pipe installed in the heat exchange plate and performing heat exchange with the heat exchange plate by cold water or hot water supplied from the first connection pipe; A second connection pipe connected to the heat exchange pipe and extending toward the cold water pipe and the hot water pipe; A cold water joining pipe for joining the cold water supplied through the second connecting pipe to the other side of the cold water pipe; And a hot water joining pipe for joining the hot water supplied through the second connecting pipe to the other side of the hot water pipe.

A first three-way valve provided between the cold water pipe and the cold water branch pipe for controlling a flow rate of cold water flowing into the cold water pipe from the cold water pipe; A second three-way valve provided between the hot water pipe and the hot water branch pipe for controlling a flow rate of hot water flowing from the hot water pipe to the hot water branch pipe; A third three-way valve that is provided between the cold water branch pipe, the hot water branch pipe, and the first connection pipe and controls the flow rate of cold water and hot water flowing into the first connection pipe from the cold water branch pipe and the hot water branch pipe, valve; And a fourth connecting pipe provided between the second connecting pipe and the cold water joining pipe and the hot water joining pipe for controlling a flow rate of cold water and hot water flowing into the cold water joining pipe and the hot water joining pipe from the second connecting pipe, Way valve.

Wherein the controller controls the first three-way valve, the second three-way valve, the third three-way valve, and the third three-way valve based on at least one of the temperature of the indoor space, the temperature of the external environment, And a controller for controlling the fourth three-way valve.

The air conditioning apparatus may further include a heat conduction pipe communicating with the heat exchange pipe and extending into the air conditioning duct and having a plurality of fins for heat exchange with air flowing through the air conditioning duct.

Further comprising: a sprinkler installed in the air conditioning duct, wherein the sprinkler includes: a temperature sensor for measuring a temperature of the air conditioning duct; A sprinkler pipe installed in the air conditioning duct; A sprinkler head installed in the sprinkler pipe; A fire water supply pipe connected between the heat conduction pipe and the sprinkler pipe for supplying cold water or hot water of the heat conduction pipe to the fire water; And a valve unit installed in the fire-water supply pipe and operating according to the measured value of the temperature sensor to supply cold water or hot water of the thermally conductive pipe to the sprinkler pipe.

According to the embodiment of the present invention, an air conditioner capable of increasing the cooling and heating efficiency is provided.

Further, according to the embodiment of the present invention, there is provided an air conditioner capable of selectively exchanging heat between cold water flowing into a cold water pipe in a trunk and hot water flowing into a hot water pipe, and air flowing into the air conditioning duct, thereby maximizing cooling and heating efficiency according to the season do.

The effects of the present invention are not limited to the effects described above. Unless stated, the effects will be apparent to those skilled in the art from the description and the accompanying drawings.

1 is a side view schematically showing a ship having an air conditioner according to an embodiment of the present invention.
2 is a partially cutaway perspective view showing an air conditioner according to an embodiment of the present invention.
3 and 4 are views for explaining the operation of the air conditioner shown in Fig.
5 is a partially cutaway perspective view showing an air conditioner according to another embodiment of the present invention.
FIG. 6 is an enlarged view showing the portion 'A' of FIG. 5. FIG.

Other advantages and features of the present invention and methods for accomplishing the same will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, and the present invention is only defined by the scope of the claims. Although not defined, all terms (including technical or scientific terms) used herein have the same meaning as commonly accepted by the generic art in the prior art to which this invention belongs. A general description of known configurations may be omitted so as not to obscure the gist of the present invention. In the drawings of the present invention, the same reference numerals are used as many as possible for the same or corresponding configurations. To facilitate understanding of the present invention, some configurations in the figures may be shown somewhat exaggerated or reduced.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises", "having", or "having" are intended to specify the presence of stated features, integers, steps, operations, components, Steps, operations, elements, parts, or combinations thereof, whether or not explicitly described or implied by the accompanying claims.

The air conditioning apparatus according to an embodiment of the present invention is configured to heat-exchange cold water flowing in a cold water pipe or hot water flowing in a hot water pipe with air selectively flowing through the air conditioning duct according to a season. Accordingly, the cooling efficiency can be improved in summer, and the heating efficiency can be improved in winter.

Also, the air conditioner according to the embodiment of the present invention may further include a heat conduction pipe having a plurality of fins for heat exchange with the air for air conditioning in the air conditioning duct, thereby further improving the cooling / heating efficiency. Further, the air conditioner according to the embodiment of the present invention can effectively suppress the fire in the air conditioning duct by using hot water or cold water in the heat conduction pipe.

1 is a side view schematically showing a ship 10 having an air conditioner 100 according to an embodiment of the present invention. Referring to Figure 1, a ship 10 includes a hull 12 and an air conditioning and cold / hot water system 14 and a habitat 16 provided within the hull 12. The air conditioning and cold / hot water system 14 supplies the air for air conditioning and the cold / hot water for the resident of the residence 16 to the indoor space of the residence 16 and the use place of the cold / hot water. The air conditioner 100 of the air conditioner and the cold / hot water system 14 supplies the air for air conditioning for the occupants to the indoor space provided in the residence 16 through the trunk space, It can be supplied as a place of use.

2 is a partially cutaway perspective view showing an air conditioner 100 according to an embodiment of the present invention. 1 and 2, the air conditioning apparatus 100 includes a trunk case 110, an air conditioning duct 120 installed in a space in the trunk case 110, a cold water pipe 130, a hot water pipe 140, A heat exchange plate 150, a cold / hot water branch pipe 160, and a regulator 170.

The air conditioning duct 120 may be provided to supply the air for air conditioning of the indoor space to the accommodation port 16 side. Cool air for cooling the dwelling unit 16 is supplied to the indoor space of the dwelling unit 16 through the inner space of the air conditioning duct 120 during summer and warm air for heating the dwelling unit 16 And can be supplied to the indoor space of the sphere 16.

The cold water pipe 130 is installed to be spaced apart from the air conditioning duct 120 so as not to have a thermal influence on the air conditioning duct 120 in winter, and supplies cold water to the cold water use place. Cold water uses can be provided, for example, in washrooms, toilets, water supply facilities, or other cold water demanding sites.

The hot water piping 140 is installed to be spaced apart from the air conditioning duct 120 so as not to affect the air conditioning duct 120 in the summer, and supplies hot water to a hot water use place such as a washroom or a water supply facility.

The heat exchange plate 150 is installed in the air conditioning duct 120 so as to improve the cooling and heating efficiency by the air conditioning duct 120 adaptively to the seasons, A cold / hot water branch pipe 160 and an adjusting unit 170 are installed between the pipe 140 and the heat exchange plate 150.

The heat exchange plate 150 is installed in the air conditioning duct 120 for heat exchange with air flowing in the air conditioning duct 120. The heat exchange plate 150 may be made of a metal having high thermal conductivity or other materials. The heat exchange plate 150 may be provided in a plate-like shape so as to be in contact with the side surface of the air conditioning duct 120 so as to increase the heat conduction efficiency with the air conditioning duct 120.

The cold / hot water branch pipe 160 branches off from one side of the cold water pipe 130 and the hot water pipe 140 and joins to the other side of the cold water pipe 130 and the hot water pipe 140 via the heat exchange plate 150. The controller 170 controls the flow rate of the cold water and the flow rate of the hot water passing through the heat exchange plate 150.

The cold / hot water branch pipe 160 is connected to the cold water branch pipe 161, the hot water branch pipe 162, the first connection pipe 163, the heat exchange pipe 164, the second connection pipe 165, A second three-way valve 172, a third three-way valve 176, and a fourth three-way valve 178. The first three-way valve 176, the second three-way valve 176, ).

The cold water branch pipe 161 branches from one side of the cold water pipe 130. The first three-way valve 174 is provided between the cold water pipe 130 and the cold water branch pipe 161 and is opened and closed by a control unit (not shown) so that the cold water pipe 130 is connected to the cold water branch pipe 161 The flow rate of the incoming cold water can be adjusted.

The hot water branch pipe (162) is branched at one side of the hot water pipe (140). The second three-way valve 172 is provided between the hot water pipe 140 and the hot water branch pipe 162 and is opened and closed by a control unit (not shown) so that the hot water from the hot water pipe 140 to the hot water branch pipe 162 The flow rate of the incoming hot water can be adjusted.

The first connection pipe 163 is connected to the cold water branch pipe 161 and the hot water branch pipe 162 and extends toward the heat exchange plate 150. The first connection pipe 163 is connected to the cold water or hot water branch pipe 162 can be supplied to the heat exchange plate 150.

The third three-way valve 176 is provided between the cold water branch pipe 161, the hot water branch pipe 162 and the first connection pipe 163 and is controlled to open and close by a control unit (not shown) 161 and the hot water branch pipe 162 to the first connection pipe 163.

The heat exchange pipe 164 is installed in the heat exchange plate 150 and performs heat exchange with the heat exchange plate 150 by cold water or hot water supplied from the first connection pipe 163. [ The heat exchange pipe 164 may be provided in a bent shape to increase the contact area with the heat exchange plate 150 and the contact time.

The second connection pipe 165 is connected to the cold / hot water discharge side of the heat exchange pipe 164 and extends toward the cold water pipe 130 and the hot water pipe 140. The cold water joining pipe 166 joins the cold water supplied through the second connecting pipe 165 to the other side of the cold water pipe 130. The hot water joining pipe 167 joins the hot water supplied through the second connecting pipe 165 to the other side of the hot water pipe 140.

The fourth four-way valve 178 is provided between the second connecting pipe 165, the cold water joining pipe 166 and the hot water joining pipe 167 and is controlled by a control unit (not shown) The flow rate of the cold water and the hot water flowing into the cold water joining pipe 166 and the hot water joining pipe 167 can be adjusted.

The control unit (not shown) of the control unit 170 controls the operation of the control unit 170 based on the indoor space temperature of the residence 16, the temperature of the external environment, the target temperature input by the user of the residence 16, The first three-way valve 174, the second three-way valve 172, the third three-way valve 176 and the fourth three-way valve 178 can be controlled.

3 and 4 are views for explaining the operation of the air conditioner 100 shown in Fig. FIG. 3 is an operation diagram for increasing the heating efficiency of the air conditioning duct 120 in winter, and FIG. 4 is an operation diagram for increasing the cooling efficiency of the air conditioning duct 120 in summer.

3, in order to allow the cold water to flow into the cold water pipe 130 without passing through the heat exchange plate 150 in winter, and to allow the hot water to pass through the heat exchange plate 150, the first three- Cuts off the cold water outlet on the side of the cold water branch pipe 161 and opens the cold water outlet on the cold water pipe 130 side. The second three-way valve 172 blocks the hot water outlet on the hot water pipe 140 side and opens the hot water outlet on the hot water branch pipe 162 side.

The third three-way valve 176 blocks the cold water inlet on the cold water branch pipe 161 side and opens the hot water inlet on the hot water branch pipe 162 side and the fourth three- 166), and opens the hot water outlet of the hot water joining pipe 167 side.

The hot water supplied to the hot water pipe 140 has a temperature of about 50 to 70 ° C and the hot water is circulated to the heat exchanging plate 150 side for heat exchange so that the air flowing in the air conditioning duct 120 is secondarily It is possible to obtain the effect of improving the heating efficiency in the winter season.

Conversely, referring to FIG. 4, in order to allow the hot water to flow into the hot water pipe 140 without passing through the heat exchange plate 150 in summer, and to allow the cold water to pass through the heat exchange plate 150, 174 open the cold water outlet on the cold water branch pipe 161 side and shut off the cold water outlet on the cold water pipe 130 side. The second three-way valve 172 opens the hot water outlet on the hot water pipe 140 side and blocks the hot water outlet on the hot water branch pipe 162 side.

In the summer, the third three-way valve 176 opens the cold water inlet on the cold water branch pipe 161 side, blocks the hot water inlet on the hot water branch pipe 162 side, and the fourth three- The cold water outlet on the pipe 166 side is opened and the hot water outlet on the hot water joining pipe 167 side is shut off.

The cold water supplied to the cold water pipe 130 has a temperature of about 15 to 20 ° C. This cold water is refluxed to the heat exchange plate 150 side to perform heat exchange so that the air flowing in the air conditioning duct 120 is secondarily The cooling effect is improved and the cooling efficiency in summer is improved.

As described above, according to the embodiment of the present invention, the cold water can be branched into the heat exchange plate 150 in summer to improve the cooling efficiency, and in winter, the hot water can be branched to the heat exchange plate 150 to improve the heating efficiency.

The regulator 170 may selectively divert cold water and hot water to the heat exchange plate 150 in a variety of ways. For example, when the indoor temperature is lower than the first set temperature, or when the external temperature is lower than the first reference temperature, hot water may be automatically adjusted to be supplied to the heat exchange plate 150 to improve the heating efficiency of the indoor space, When the temperature exceeds the second set temperature, or when the external temperature exceeds the second reference temperature, the cold water may be automatically adjusted to be supplied to the heat exchange plate 150 to improve the cooling efficiency of the indoor space.

As another example, the control unit 170 may be automatically controlled according to a user's cooling / heating command input, season, or day / night situation. For example, in order to improve the cooling efficiency in summer, cold water is automatically adjusted to be supplied to the heat exchange plate 150, and the hot water is automatically adjusted to be supplied to the heat exchange plate 150 in order to improve the heating efficiency in winter, The cold water is automatically adjusted to be supplied to the heat exchange plate 150 and the hot water may be automatically adjusted to be supplied to the heat exchange plate 150 at night time.

5 is a partially cutaway perspective view showing an air conditioning apparatus 100 according to another embodiment of the present invention. FIG. 6 is an enlarged view showing the portion 'A' of FIG. 5. FIG. In describing the embodiments of FIGS. 5 and 6, redundant description may be omitted for the same or corresponding components to those of the previously described embodiment.

5 and 6 are different from the above-described embodiments in that a heat conduction pipe 168 and a sprinkler 180 are further provided inside the air conditioning duct 120. [ The heat conduction pipe 168 is connected to the heat exchange pipe 164 and extends to the inner space of the air conditioning duct 120.

The heat conduction pipe 168 may be provided with a material having a high thermal conductivity (for example, copper). The heat conduction pipe 168 has a plurality of fins 168a for heat exchange with the air flowing in the air conditioning duct 120. The contact area with the air for air conditioning is increased by the plurality of fins 168a, and the cooling / heating efficiency is further improved.

The sprinkler 180 includes a sprinkler pipe installed in the air conditioning duct 120 and at least one sprinkler head installed therein, a temperature sensor 182 for measuring the temperature of the air conditioning duct 120, a thermal sensor 182 disposed between the thermal conduction pipe 168 and the sprinkler pipe A water supply pipe 186 connected to the water supply pipe 186, and a valve unit 184 installed in the water supply pipe 186.

The valve 184 operates according to the measured value of the temperature sensor 182 so that the cold water or hot water of the heat conduction pipe 168 is supplied to the sprinkler pipe through the fire water supply pipe 186, . When a fire occurs in a residential area of an offshore platform, the fire is diffused mainly through a duct which is an air transmission means. When the fire is diffused in the duct, the sprinkler can be operated to prevent the fire spreading quickly and effectively. Also, the fire in the air duct can be suppressed by utilizing the cold / hot water of the cold / hot water pipe provided in the trunk space.

It is to be understood that the above-described embodiments are provided to facilitate understanding of the present invention, and do not limit the scope of the present invention, and it is to be understood that various modifications are possible within the scope of the present invention. It is to be understood that the technical scope of the present invention should be determined by the technical idea of the claims and the technical scope of protection of the present invention is not limited to the literary description of the claims, To the invention of the invention.

10: Ship 12: Hull
14: Air conditioning and cold / hot water system 16: Residential area
100: air conditioner 110: trunk case
120: Air conditioning duct 130: Cold water piping
140: hot water piping 150: heat exchange plate
160: cold / hot water branch pipe 161: cold water branch pipe
162: hot water branch pipe 163: first connection pipe
164: Heat exchange pipe 165: Second connection pipe
166: Cold water joining pipe 167: Hot water joining pipe
168: heat conduction pipe 168a: pin
170: regulator 172: second three-way valve
174: first three-way valve 176: third three-way valve
178: fourth four-way valve 180: sprinkler
182: Temperature sensor 184: Valve part
186: Fire-fighting water supply pipe

Claims (6)

An air conditioning duct for supplying air for air conditioning of an indoor space;
A cold water pipe spaced apart from the air conditioning duct and supplying cold water to a cold water use place;
A hot water piping installed apart from the air conditioning duct and supplying hot water to a hot water use place;
A heat exchange plate installed in the air conditioning duct for heat exchange with air flowing in the air conditioning duct;
A cold / hot water branch pipe branched from the cold water pipe and the hot water pipe and joined to the cold water pipe and the hot water pipe via the heat exchange plate; And
And an adjuster installed in the cold / hot water branch pipe for adjusting a flow rate of cold water and a flow rate of hot water passing through the heat exchange plate,
The cold / hot water branch pipe
A cold water branch pipe branching from one side of the cold water pipe;
A hot water branch pipe branching from one side of the hot water pipe;
A first connection pipe connected to the cold water branch pipe and the hot water branch pipe and extending toward the heat exchange plate and supplying cold water supplied through the cold water branch pipe or hot water supplied through the hot water branch pipe to the heat exchange plate, ;
A heat exchange pipe installed in the heat exchange plate and performing heat exchange with the heat exchange plate by cold water or hot water supplied from the first connection pipe;
A second connection pipe connected to the heat exchange pipe and extending toward the cold water pipe and the hot water pipe;
A cold water joining pipe for joining the cold water supplied through the second connecting pipe to the other side of the cold water pipe; And
And a hot water joining pipe for joining the hot water supplied through the second connecting pipe to the other side of the hot water pipe. delete The method according to claim 1,
The control unit includes:
A first three-way valve provided between the cold water pipe and the cold water branch pipe for controlling a flow rate of cold water flowing into the cold water pipe from the cold water pipe;
A second three-way valve provided between the hot water pipe and the hot water branch pipe for controlling a flow rate of hot water flowing from the hot water pipe to the hot water branch pipe;
A third three-way valve that is provided between the cold water branch pipe, the hot water branch pipe, and the first connection pipe and controls the flow rate of cold water and hot water flowing into the first connection pipe from the cold water branch pipe and the hot water branch pipe, valve; And
And a third three-way valve provided between the second connection pipe, the cold water merging pipe and the hot water merging pipe for regulating the flow rate of cold water and hot water flowing from the second connecting pipe into the cold water merging pipe and the hot water joining pipe, An air conditioning system comprising a valve. The method of claim 3,
The control unit includes:
Wherein the first three-way valve, the second three-way valve, the third three-way valve, the fourth three-way valve, and the fourth fourth valve, based on at least one of the temperature of the indoor space, the temperature of the external environment, And a control unit for controlling the three-way valve. The method according to claim 1,
And a heat conduction pipe communicating with the heat exchange pipe and extending to the inside of the air conditioning duct and having a plurality of fins for heat exchange with air flowing through the air conditioning duct. 6. The method of claim 5,
Further comprising a sprinkler installed in the air conditioning duct,
In the sprinkler,
A temperature sensor for measuring a temperature of the air conditioning duct;
A sprinkler pipe installed in the air conditioning duct;
A sprinkler head installed in the sprinkler pipe;
A fire water supply pipe connected between the heat conduction pipe and the sprinkler pipe for supplying cold water or hot water of the heat conduction pipe to the fire water; And
And a valve unit installed in the fire-water supply pipe and operating according to a measured value of the temperature sensor to supply cold water or hot water of the thermally conductive pipe to the sprinkler pipe.

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