KR101787270B1 - Waste heat recovery warm water production apparatus - Google Patents

Abstract

The present invention relates to an apparatus for generating hot water by recovering waste heat, including: a liquid moving member which is installed in an air compressor or a compressor of a refrigerator, and into which water is introduced to move therein; a gas moving member which is disposed at one side of the liquid moving member, and into which high-temperature gas discharged from the compressor is introduced to move therein, and transfers heat to the liquid moving member so as to generate hot water; a control member for controlling an operation by a users operation; and a hot water storage member for storing the generated hot water. Accordingly, the present invention is able to generate hot water using the heat that is thrown away from an industrial air compressor and a compressor of a refrigerator, thereby being economically efficient due to no cost taken in generating hot water and being environmental-friendly due to no requirement of additional power.

Description

[0001] Waste heat recovery warm water production apparatus [0002]

The present invention relates to a hot water producing apparatus, and more particularly, to a hot water producing apparatus for producing hot water by using waste heat.

Compressors and freezers are widely used in production facilities and refrigeration and refrigeration systems for food storage and distribution.

Compressors and compressors of refrigerators and refrigerators compress air to discharge them, and heat is generated and all of the heat is discharged to the atmosphere.

Especially, industrial air compressor (compressor) or industrial refrigerator and refrigerator are large in size, so that much energy is consumed, resulting in a lot of waste heat.

Accordingly, there is a need for an apparatus that generates hot water without additional energy consumption by utilizing energy for waste heat and operation of the apparatus.

Korean Registered Patent No. 10-1277682 (June 17, 2013), "Waste Heat Recovery Boiler Apparatus Including Rotary Pot" Korean Registered Patent No. 10-1422148 (July 26, 2014), "Waste Heat Recovery Unit for Year"

SUMMARY OF THE INVENTION An object of the present invention is to provide a waste heat recovery hot water production device that generates hot water by using waste heat that is installed in a compressor of an industrial gas compressor or a refrigerator.

According to one aspect of the present invention for achieving the object of the present invention, there is provided a waste heat recovery hot water production apparatus, which is installed in a compressor of an air compressor or a compressor of a refrigerator, A liquid moving member; A gas moving member disposed in the liquid moving member, the gas moving member moving a high temperature gas discharged from a compressor to move inside and transferring heat to the liquid moving member to generate hot water; A control member for controlling an operation by a user's operation; And a hot water storage member for storing the generated hot water.

Here, the liquid moving member may be provided in a plate shape or a tubular shape having a space formed therein.

The gas moving member may be provided in a plate shape having a space therein when the liquid moving member is provided in a plate shape.

In addition, the gas moving member may be provided in a shape such that the gas moving member can contact the outer peripheral surface when the liquid moving part is provided in a cylindrical shape.

Further, the gas moving member may be formed with a curved concavity and convexity on its outer surface by spot welding, and a line through which the gas moves may be formed.

The liquid moving member may include a first liquid flow pipe connected to a water supply pipe for supplying water to the hot water storage member, an input end connected to the liquid moving member, and supplying water to the liquid moving member; And a second liquid flow pipe connecting an input end to the liquid moving member and an output end connected to the water supply pipe to discharge water from the liquid moving member.

The gas moving member includes: a first gas moving pipe through which an input end is connected to a gas discharge pipe of the compressor and an output end is connected to the gas moving member to introduce gas into the gas moving member; And a second gas flow pipe connecting an input end to the gas moving member and an output end connected to the gas discharge pipe of the compressor to discharge gas from the gas moving member.

The control member may include a temperature measuring sensor disposed on the hot water storage member and measuring a temperature of hot water stored in the hot water storage member.

The control member may include: a first opening / closing valve provided in the first liquid moving pipe; A second opening valve provided in the second liquid flow pipe; A third opening / closing valve installed in the water supply pipe; A fourth opening / closing valve installed in the first gas moving pipe; A fifth opening / closing valve installed in the second gas moving pipe; And a sixth open / close valve installed in the gas discharge pipe.

Furthermore, the control member may control the first and second open / close valves and the sixth open / close valve by using the temperature of the hot water measured by the temperature measuring sensor to maintain the hot water stored in the hot water storage member at a predetermined temperature.

The apparatus may further include an oil moving member disposed to be in contact with the liquid moving member and moving in the high temperature oil used in the compressor to transmit heat to the liquid moving member to generate hot water, have.

Wherein the oil moving member includes: a first oil moving pipe having an input end connected to an oil discharge pipe of the compressor, an output end connected to the oil moving member to introduce oil into the oil moving member; And a second oil pass pipe connected to the oil moving member and having an output end connected to the oil drain pipe of the compressor to discharge oil from the oil moving member.

The control member may include: a seventh opening / closing valve provided in the first oil moving pipe; An eighth gate valve provided in the second oil passage; And a ninth opening / closing valve installed in the oil discharge pipe.

Further, the control member may control the first and second open / close valves to the ninth opening / closing valve by using the temperature of the hot water measured by the temperature measuring sensor to maintain the hot water stored in the hot water storing member at a predetermined temperature.

The oil moving member may be formed with a line through which oil moves by spot welding.

According to the waste heat recovery hot water production apparatus according to the embodiment of the present invention,

First, since hot water can be produced using the heat that is discharged from the compressors of industrial air compressors and refrigerators, it is economically efficient because it does not require cost to produce hot water, and it is environment-friendly because it does not require additional power and saves energy.

Secondly, since it is applicable to manufacture and food industry using air compressors and freezers, the application fields are wide and practical.

Third, since the gas moving member is formed by bending unevenness on the outer surface by spot welding, the surface area can be widened, so that heat transfer efficiency to the liquid moving member can be increased.

Fourthly, since the gas moving member is applied to the row adjacent to the spot welding, the time required for the gas to stay in the gas moving member is increased by increasing the moving time of the gas, so that the heat transfer can be effectively performed by the liquid moving member.

Fifth, the liquid moving member may be provided in a plate shape or a tubular shape, so that it can be selected and used according to circumstances.

Sixth, since the gas moving member can be provided in a shape that maximizes the heat transfer efficiency according to the shape of the liquid moving member, efficient heat transfer can be maintained.

Seventh, it is easy to maintain the hot water at the temperature set by the user by providing the temperature measuring sensor in the hot water storage member.

Eighth, the additional heat can be transferred to the liquid moving member by the oil moving member, thereby maximizing the productivity of hot water.

Ninth, the control member controls the first to ninth opening / closing valves by using the temperature measuring sensor, so that the temperature of the hot water can be efficiently and easily maintained at the set temperature.

1 is a conceptual view illustrating a waste heat recovery hot water production apparatus according to an embodiment of the present invention.
2 is an assembled perspective view of the liquid moving member and the gas moving member.
3 is an assembled perspective view of the liquid moving member and the gas moving member of different shapes.
4 is a perspective view of the gas moving member.
5 is a cross-sectional view taken along the line A-A 'shown in Fig.
6 is a plan view showing gas movement of the gas moving member shown in FIG.
7 is a conceptual diagram illustrating a waste heat recovery hot water production apparatus according to another embodiment of the present invention.
8 is an assembled perspective view of the liquid moving member, the gas moving member, and the oil moving member.
9 is a perspective view of the oil moving member shown in Fig.
10 is a plan view showing the oil movement of the oil moving member shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 1 is a conceptual view illustrating a waste heat recovery hot water production apparatus according to an embodiment of the present invention, FIG. 2 is a perspective view showing a combination of a liquid moving member and a gas moving member, FIG. 3 is an assembled perspective view of the liquid moving member and a gas moving member 4 is a cross-sectional view taken along a line A-A 'shown in Fig. 4, and Fig. 6 is a plan view showing a gas movement of the gas moving member shown in Fig. 4 .

1 to 6, a waste heat recovery hot water producing apparatus 100 of the present invention installed in a compressor of an air compressor or a refrigerator includes a liquid moving member 110, a gas moving member 120, a control member 140 and a hot water storage member 150.

The liquid moving member 110 is provided in a plate shape or a tubular shape in which a space is formed therein, and water flows in and moves inside.

The liquid moving member 110 includes a first liquid moving tube 111 and a second liquid moving tube 112.

The first liquid moving pipe 111 is connected to the water supply pipe 151 through which the water is supplied to the hot water storage member 150 and the output end is connected to the liquid moving member 110, Supply.

The second liquid moving pipe 112 has an input end connected to the liquid moving member 110 and an output end connected to the water supply pipe 151 to discharge water from the liquid moving member 110.

The gas-moving member 120 is disposed on one side of the liquid-moving member 110, and a high-temperature gas discharged from a compressor flows into the liquid-moving member 110 and transfers heat to the liquid-moving member 110 to generate hot water .

When the liquid moving member 110 is provided in the shape of a plate as shown in FIG. 2, the gas moving member 120 is formed in a plate shape having a space therein As shown in FIG. 3, when the liquid-moving member 110 is provided in a cylindrical shape, the liquid-moving member 110 is provided so as to surround and contact the outer circumferential surface.

Furthermore, the gas-moving member 120 is shown as a spot weld W as shown in Fig. 4, in which the spot weld W is applied staggered with neighboring rows to form a line through which the gas moves.

5 and 6, the gas moving member 120 is applied so that the rows of the spot welds W are staggered from each other, so that the gas travels because the gas does not travel straight ahead, The staying time is long and the heat transfer can be effectively performed by the liquid moving member 110.

In addition, the gas moving member 120 includes a first gas moving tube 121 and a second gas moving tube 122.

The first gas moving tube 121 has an input end connected to the gas discharge pipe 11 of the compressor 10 and an output end connected to the gas moving member 120 to introduce the gas into the interior of the gas moving member 120.

The second gas moving pipe 122 has an input end connected to the gas moving member 120 and an output end connected to the gas exhaust pipe 11 of the compressor 10 to discharge the gas from the gas moving member 120.

The control member 140 controls the operation of the waste heat recovery hot water producing apparatus 100 by the user's operation.

The control member 140 includes a temperature sensor S, a first opening / closing valve 141, a second opening / closing valve 142, a third opening / closing valve 143, a fourth opening / closing valve 144, 145 and a sixth open / close valve 146.

The temperature measurement sensor S is disposed in the hot water storage member 150 to measure the temperature of the hot water stored in the hot water storage member 150.

Therefore, the temperature of the hot water stored in the temperature storage member 150 can be easily maintained at a temperature set by the user.

The first on-off valve 141 is installed in the first liquid moving pipe 111, the second on-off valve 142 is installed on the second liquid moving pipe 112, the third on- Respectively.

The fifth on-off valve 145 is installed on the second gas moving pipe 122 and the sixth on-off valve 146 is provided on the gas exhaust pipe 11).

The control member 140 controls the first to sixth on-off valves 141 to 146 by using the temperature of the hot water measured by the temperature measuring sensor S to control the hot water stored in the hot water storing member 150 Is maintained at the temperature set by the user.

For example, when the user sets the temperature to 40 ° C and the temperature of the hot water measured by the temperature measuring sensor S is measured to be 40 ° C or more, the control member 140 controls the fourth open / close valve 144 and the fifth open / The valve 145 is closed and the sixth opening / closing valve 146 is opened to prevent the high temperature gas discharged from the compressor 10 from flowing into the gas inflow member 120, so that the temperature of the hot water can be maintained at an appropriate temperature.

In addition, the temperature of the hot water may be adjusted by closing the first on-off valve 141 and the second on-off valve 142 and opening the third on-off valve 143 to introduce cold water into the hot water storage member 150.

Then, when the temperature of the hot water measured by the temperature measuring sensor S is measured to be 40 캜 or less, the control member 140 controls the first opening / closing valve 141, the second opening / closing valve 142, Off valve 143 and the sixth on-off valve 146 are opened to allow the hot gas and cold water discharged from the compressor 10 to flow into the gas inflow member 120 and the liquid inflow member 110 to restart hot water production.

The hot water production apparatus 150 stores the generated hot water.

FIG. 7 is a conceptual diagram showing a waste heat recovery hot water production apparatus according to another embodiment of the present invention, FIG. 8 is a perspective view of the liquid moving member, the gas moving member, and the oil moving member, 10 is a plan view showing oil movement of the oil moving member shown in Fig. 9. Fig.

7 to 10, a waste heat recovery hot water production apparatus 200 according to another embodiment of the present invention includes an oil transfer member 130 and a control member 140 in a waste heat recovery hot water production apparatus 100 of the above- And other configurations are the same, so that detailed description of other configurations is omitted.

The oil-moving member 130 is disposed on the other side of the liquid-moving member 110, and the hot oil used in the compressor 10 flows into the liquid-moving member 110 to transfer heat to generate hot water .

The oil-moving member 130 includes a first oil-moving pipe 131 and a second oil-moving pipe 132.

The first oil moving pipe 131 has an input end connected to the oil drain pipe 12 of the compressor 10 and an output end connected to the oil moving member 130 to introduce the high temperature oil into the oil moving member 130.

The second oil moving pipe 132 has an input end connected to the oil moving member 130 and an output end connected to the oil drain pipe 12 of the compressor 10 to discharge the oil from the oil moving member 130.

Further, the oil moving member 130 is formed with a line through which oil moves by spot welding.

The oil-moving member 130 has the same shape as the gas-moving member 120 described above.

The control member 140 further includes a seventh opening / closing valve 147, an eighth opening / closing valve 148, and a ninth opening / closing valve 149.

The seventh on-off valve 147 is installed in the first oil moving pipe 131, the eighth on-off valve 148 is provided on the second oil moving pipe 132, ).

The control member 140 controls the first to ninth valves 141 to 149 by using the temperature of the hot water measured by the temperature measuring sensor S so that the hot water stored in the hot water storage member 150 Is maintained at the temperature set by the user.

The waste heat recovery hot water producing apparatus 200 according to the present embodiment is installed in a compressor 10 using oil. When it is difficult to generate hot water using only a high temperature gas discharged from the compressor 10, The hot water used can be additionally used to produce hot water.

For example, when the control member 140 maintains the temperature of the hot water, it is assumed that the user sets the temperature to 40 占 폚.

If the temperature of the hot water measured by the intermediate temperature measuring sensor S producing the hot water using the hot gas discharged from the compressor 10 is maintained at 40 ° C or lower for a long time, The control member 140 opens the seventh opening and closing valve 147 and the eighth opening and closing valve 148 and locks the ninth opening and closing valve 149 to allow the high temperature oil discharged from the compressor 10 to flow into the oil inflow member 130 So that additional heat can be transferred to the liquid moving member 110, thereby increasing production efficiency.

Thereafter, when the temperature of the hot water measured by the temperature measuring sensor S is measured to be 40 ° C or more, the control member 140 locks the seventh open / close valve 147 and the eighth open / close valve 148 opened, 9 opening / closing valve 149 to prevent the oil from flowing into the oil moving member 130.

Even if the temperature of the hot water measured by the temperature measuring sensor S is measured to be 40 캜 or higher, the same process as the process of maintaining the hot water temperature of the waste heat recovering hot water generator 100 of the previous embodiment is performed.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

110 ... liquid moving member 111 ... first liquid moving pipe
112 ... second liquid moving pipe 120 ... gas moving member
121 ... first gas moving tube 122 ... second gas moving tube
130 ... Oil moving member 131 ... First oil moving pipe
132 ... second oil passage 140 ... control member
150 ... hot water storage member

Claims (15)

1. A waste heat recovery hot water production device installed in a compressor of an air compressor or a refrigerator,
A liquid moving member in which water flows in and moves;
A gas moving member disposed at one side of the liquid moving member and having a high temperature gas discharged from a compressor flowing therein to move inside and transmit heat to the liquid moving member to generate hot water;
A control member for controlling an operation by a user's operation; And
And a hot water storage member for storing the generated hot water,
Wherein the liquid-
A first liquid moving pipe connected to a water supply pipe for supplying water to the hot water storage member and having an output end connected to the liquid moving member to supply water to the liquid moving member; And
And a second liquid flow pipe connected to the liquid moving member and having an output end connected to the water supply pipe to discharge water from the liquid moving member. The method according to claim 1,
Wherein the liquid-
Wherein the heat recovery device is provided in a plate shape or a tubular shape with a space formed therein. 3. The method of claim 2,
The gas-
Wherein when the liquid moving member is provided in a plate shape, the liquid moving member is provided in a plate shape having a space therein. 3. The method of claim 2,
The gas-
Wherein when the liquid transfer part is provided in a cylindrical shape, the liquid transfer part is provided so as to be in contact with the outer circumferential surface. The method according to claim 3 or 4,
The gas-
Wherein a curved concavity and convexity is formed on the outer surface by spot welding, and a line through which the gas moves is formed in the inside. delete The method according to claim 1,
The gas-
A first gas moving pipe through which an input end is connected to a gas discharge pipe of the compressor and an output end is connected to the gas moving member to introduce gas into the gas moving member; And
And a second gas moving pipe connected to the gas moving member and having an output end connected to the gas discharge pipe of the compressor to discharge gas from the gas moving member. 8. The method of claim 7,
Wherein the control member comprises:
And a temperature measuring sensor disposed in the hot water storage member for measuring a temperature of hot water stored in the hot water storage member. 9. The method of claim 8,
Wherein the control member comprises:
A first opening / closing valve provided in the first liquid moving pipe;
A second opening valve provided in the second liquid flow pipe;
A third opening / closing valve installed in the water supply pipe;
A fourth opening / closing valve installed in the first gas moving pipe;
A fifth opening / closing valve installed in the second gas moving pipe; And
And a sixth open / close valve installed in the gas discharge pipe. 10. The method of claim 9,
Wherein the control member comprises:
Wherein the control unit controls the first opening / closing valve to the sixth opening / closing valve using the temperature of the hot water measured by the temperature measuring sensor to maintain the hot water stored in the hot water storing member at a predetermined temperature. 10. The method of claim 9,
And an oil moving member which is disposed on the other side of the liquid moving member and which receives hot oil used in a compressor to move inside and transmit heat to the liquid moving member to generate hot water, Waste heat recovery hot water production equipment. 12. The method of claim 11,
Wherein the oil-
A first oil passage through which an input end is connected to an oil discharge pipe of the compressor and an output end is connected to the oil moving member to introduce oil into the oil moving member; And
And a second oil transfer pipe connected to the oil moving member and having an output end connected to the oil discharge pipe of the compressor to discharge oil from the oil moving member. 13. The method of claim 12,
Wherein the control member comprises:
A seventh open / close valve installed in the first oil moving pipe;
An eighth gate valve provided in the second oil passage; And
Further comprising a ninth opening / closing valve installed in the oil discharge pipe. 14. The method of claim 13,
Wherein the control member comprises:
Wherein the control unit controls the first opening / closing valve to the ninth opening / closing valve by using the temperature of the hot water measured by the temperature measuring sensor to maintain the hot water stored in the hot water storing member at a predetermined temperature. 15. The method of claim 14,
Wherein the oil-
Wherein a line through which oil moves is formed by spot welding.

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