KR102535486B1 - Wastewater heat recovery device - Google Patents

Abstract

An apparatus for recovering waste water heat, according to the present invention, comprises: a main body including a storage space to which water to be heat-exchanged is introduced; an insulating material charged in an inner surface of the main body; a heating space surrounding an inner surface of the insulating material and filled with clean water to be heat-exchanged; a heating pipe through which heated rinse water used as washing water passes; a rinse water inflow connector which is disposed at an upper portion of the heating pipe and to which hot water, which is rinse water, is introduced; a rinse water discharge connector which is disposed on a lower portion of the heating pipe and through which hot water, which is rinse water, is discharged; a cold water inflow connector through which cold water is introduced so that the cold water fills the heating space and is heated to hot water; and a hot water discharge connector such that cold water charged in the heating space is heated and discharged to be used as hot water. Accordingly, heated washing water used in a dishwasher, which is maintained in a continuously heated state while passing through a heating pipe, transfers heat to cooling water charged in a heating space while flowing within the heating space. As a result, cooling water is automatically heated by the heating pipe by absorbing heat contained in rinse water, which is washing water, and clean cooling water is heated through a heat transfer process in the heating space. Accordingly, there is no need to wash the heating space in which clean cooling water is automatically heated. Therefore, the apparatus is easy to use, has a simple structure, and is easy to manufacture, thereby reducing labor costs and manufacturing costs and subsequently creating demands. Accordingly, the apparatus can contribute to energy saving.

Description

Wastewater heat recovery device {Wastewater heat recovery device}

The present invention relates to a wastewater heat recovery device, and more specifically, the cooling water to be used by circulating heated washing water containing detergent used in a dishwasher using a heating tube and absorbing heat of the washing water to heat it By placing the heating tube in the heating space that accommodates the inside, the heated washing water used in the dishwasher passes through the heating tube and flows in the heating space in a continuously heated state, and since the cooling water is filled in the heating space, the washing water Since the cooling water in a clean state is heated in the heating space while being automatically heated by the heating tube by absorbing the heat it has, there is no need to clean the heating space, making it convenient to use and simplifying the structure, making manufacturing easy. It relates to a wastewater heat recovery device that can be manufactured at a low cost.

In general, in large-scale catering facilities such as schools or companies, meals are provided using food trays, etc., and a dishwasher is used to wash these food trays.

These conventional dishwashers rinse and wash dishes using hot water at 70 to 80 ° C rather than cold water in consideration of washing efficiency and disinfection effect. Because.

Accordingly, the dishwasher includes a heater for heating the rinsing water and, in some cases, a built-in water heater for supplying hot water to the rinsing bucket. At this time, it is common for the washing water in the washing tub to be heated by rinsing water.

In other words, in most commercial dishwashers currently in use, hot water primarily heated by a gas water heater or electric water heater is supplied to the rinsing tub, and secondary heating is performed using an electric heater in the rinsing tub to generate high-temperature rinsing water. are getting However, recently, a high-efficiency dishwasher that recovers wastewater heat to produce and supply hot water has been developed and sold. In such a high-efficiency dishwasher, there is no need to install a gas water heater or an electric water heater to supply hot water.

However, establishments using dishwashers often use hot water for purposes other than dishwashing, which causes a problem of installing a gas water heater or an electric water heater separately from the dishwasher.

In order to solve this problem, Korean Registered Patent No. 10-1868671, titled 'hot water supply device using a dishwasher', is installed in the rinse box 20 of the dishwasher to generate hot water using high-temperature rinse water. As a device, an inlet water pipe 11 through which external water is introduced; a discharge water pipe 12 through which heated water is discharged; A connection pipe 17 connecting the upper side of the inlet water pipe 11 and the upper side of the discharge water pipe 12; a coil type heat exchanger 13 installed to surround the discharge water pipe 12; an opening/closing valve 15 installed in the middle of the connection pipe 17 and automatically opened and closed according to the water level of the rinsing tub 20; a first branch pipe 14 installed at the lower end of the inlet water pipe 11 so that water is supplied to the inlet side of the coil type heat exchanger 13; A second branch pipe 16 installed at the upper end of the discharge water pipe 12 to let the water coming out of the connection pipe 17 or the coil type heat exchanger 13 escape through the discharge water pipe 12; The opening/closing valve 15 is a buoyancy type valve operated by buoyancy caused by the rinsing water in the rinse bucket 20, or a signal from a water level sensor 23 detecting the water level in the rinse bucket 20. A hot water supply device using a dishwasher, characterized in that it is a solenoid valve, has been proposed, but the biggest disadvantage of the above invention is that the high-temperature rinse water flowing into the rinse box 20 and containing oil or debris ), and in a state where the inlet pipe 11, the outlet pipe 12, and the coil type heat exchanger 13 are immersed in the rinse box 20, they exchange heat with the rinse water, so that the rinse box 20 The inside of the must be cleaned periodically, for example, once a day or once every 2 days, and if the inside of the rinse box 20 is not cleaned, the rinse box 20 There is a problem in that odor and decay are generated from the inside, so periodic cleaning is required.

In particular, since the inlet pipe 11, the outlet pipe 12, and the coil type heat exchanger 13 that come into contact with the rinsing water and exchange heat must be washed, as well as the inner cleaning of the rinse box, there is a problem that is very cumbersome.

In addition, the present invention requires many complex components, for example, the valve 15, the water level sensor 23 ), the first branch pipe 14, the second branch pipe 16, and the heater 25 are essential, so the manufacturing cost is significantly increased and a lot of manufacturing time is required, resulting in labor cost. It costs a lot and the configuration is complicated, so there is a problem that failure often occurs.

Registered Patent No. 10-1868671

An object of the present invention is to solve this problem, and to circulate heated washing water containing detergent used in a dishwasher using a heating tube, and coolant heated by the heated washing water is passed through the heating tube. so that the heated washing water used in the dishwasher passes through the heating pipe and flows in the heating space in a continuously heated state, and since the cooling water is filled in the heating space, the heat of the washing water is absorbed through the heat transfer process and is automatically heated by the heating tube, but since the cooling water in a clean state is heated in the heating space, there is no need to clean the heating space, making it convenient to use and simplifying the structure. It is to provide a wastewater heat recovery device that is easy to manufacture and has a reduced manufacturing cost while shortening the manufacturing period.

An object of the present invention is to provide a main body having a storage space for heat exchanged water and a heating tube therein, an insulator filled in the inner surface of the main body, and heating filled with clean water that exchanges heat while surrounding the inner surface of the insulator. A space, a heating pipe through which the heated rinsing water used as the washing water is bent several times with high heat transfer efficiency and passes through the heating space, and a rinse water inlet connector disposed above the heating pipe through which hot water, which is the rinsing water, flows, A rinse water discharge connector through which hot water, which is rinsing water, is discharged disposed at the lower part of the heating tube, a cold water inlet connector through which cold water flows in to fill the heating space to become hot water, and the cold water filled in the heating space performs a heat transfer process. It is achieved by the wastewater heat recovery device according to the present invention including a hot water discharge connector that is heated through and discharged to be used as hot water.

A wastewater heat recovery device according to the present invention includes a main body having a storage space for heat exchanged water therein, an insulator filled in the inner surface of the main body, and a heating space filled with clean water that is heat exchanged while surrounding the inner surface of the insulator. And, a heating tube through which the heated rinsing water used as the washing water passes, a rinse water inlet connector through which hot water, which is the rinsing water, is introduced, disposed above the heating tube, and hot water, which is the rinse water, disposed below the heating tube Including a rinse water discharge connector through which the water is discharged, a cold water inlet connector through which cold water flows in to fill the heating space to be heated as hot water, and a hot water discharge connector through which the cold water filled in the heating space is heated and discharged to be used as hot water. , Washing water using the heated detergent used in the dishwasher is circulated using a heating tube, and the cooling water to be used by heating it with hot water is placed in a heating space accommodating the heating tube inside, so that the heated washing water used in the dishwasher In a continuously heated state while passing through the heating tube, heat is transferred to the cooling water filled in the heating space while flowing in the heating space, so the cooling water absorbs the heat of the rinsing water, which is the washing water, and is automatically heated by the heating tube, but is clean. Since the cooling water is heated through the heat transfer process in the heating space, there is no need to clean the heating space where the cooling water in a clean state is automatically heated. As it becomes cheaper to manufacture, there is an excellent effect of being able to contribute to energy saving by creating a lot of demand.

1 is a perspective view of a wastewater heat recovery device according to a first embodiment of the present invention
Figure 2 is a schematic longitudinal cross-sectional view of a wastewater heat recovery device according to a first embodiment of the present invention
Figure 3 is a schematic longitudinal cross-sectional view cut from the side of the wastewater heat recovery device according to the first embodiment of the present invention

As shown in FIGS. 1 to 3, the wastewater heat recovery device (A) according to the first embodiment of the present invention has a body 1 having a storage space for heat exchanged water (cold water and hot water) and a heating pipe therein. ), a heat insulating material 2 filled on the inner surface of the main body 1, a heating space 3 filled with clean water that is heat exchanged while surrounding the inner surface of the heat insulating material 2, and heating used as the washing water A heating pipe 4 through which the rinse water passes, a rinse water inlet connector 41 into which hot water, which is the rinse water disposed above the heating pipe, flows, and a rinse water disposed below the heating pipe 4 A rinse water discharge connector 42 through which hot water is discharged, a cold water inlet connector 5 through which cold water flows in to fill the heating space 3, and the cold water filled in the heating space 3 is heated to hot water It includes a hot water discharge connector 6 to be used and a plurality of support legs 11 formed on the lower part of the main body 1.

In this embodiment, the main body 1 is formed to have a rectangular parallelepiped shape by cutting and bending a stainless plate, and there is formed a storage space for heat exchanged water (cold water and hot water) and a heating pipe 4 therein, A support leg 11 is installed at the bottom and supported on the floor.

The heat insulating material 2 is installed in such a way that a heat insulating material having excellent heat insulating properties is filled on the inner surface of the body 1 in order to block heat transfer with the outside, but is not limited thereto, and the heat insulating material of the body 1 It may be installed in a manner that is adhered to the inner surface.

In this embodiment, the heating space 3 is formed of a stainless plate to surround the inner surface of the heat insulating material 2, heated rinsing water flows inside the heating space 3, and heat transfer efficiency is high. A pipe 4 is installed, and cold water flows in and fills the outside of the heating pipe 4, and through a heat transfer process with the heating pipe 4, the cold water is heated to hot water and the heated hot water is discharged for use used for space

In this embodiment, the heating tube 4 is preferably a copper spiral tube with a diameter of 19.05 mm.

The heating tube 4 is bent so that the heated rinsing water passes through the heating space 3 by being bent several times to increase heat transfer efficiency.

The rinsing water inlet connector 41 connected to the upper end of the heating pipe 4 is connected to the rinsing water pipe 71 by installing a connection joint into which rinsing water in a state of already being used and heated is introduced.

The rinsing water discharge connector 42 connected to the lower part of the heating pipe 4 is already heat-exchanged with clean water in the heating space 3 and has a connection joint through which the rinsing water in a cooled state is discharged, and this embodiment The rinse water discharge connector 42 is connected to the three-way connector 43 so that it is discharged through a drain valve 43a installed on one side of the three-way connector 43 or through another branch pipe 43b. It can be discharged to the outside through (44).

In this way, since the heating tube 4 always flows in a state where the heated rinsing water flows, dirt such as scale is not adhered to the inside of the heating tube 4, and even if a small amount of scale is adhered, it is discharged to the outside Therefore, since the clean water in the heating space 3 used as hot water by heat exchange with the rinsing water cannot be polluted, periodic cleaning of the heating space 3 is not necessary, so it is very convenient to use.

In addition, since the heating tube 4 uses a copper tube having an excellent heat transfer rate as a material, heat exchange with clean water filled in the heating space 3 is excellent, so that hot water in the heating space 3 is easily heated. will be.

The cold water inlet connector 5 is formed in the lower part of the heating space 3 so that cold water flows in to fill the heating space 3 to fill the heating space 3, and is heated so that convection can be used. It is installed in the lower part of the space (3).

The hot water discharge connector 6 is formed at the top of the heating space 3 so that clean hot water heated in the heating space 3 and heated to hot water can be used to be used as washing water for dishwashers again. ) is installed on top of the

Although the wastewater heat recovery device (A) according to the first embodiment of the present invention is described as being formed in a rectangular shape, it is not limited thereto and it will be understood that it may be formed in other shapes such as a circle or a polygon.

The effect of operation (A) of the wastewater heat recovery device according to the first embodiment of the present invention having such a configuration will be described in detail below.

First, in the wastewater heat recovery device (A) according to the first embodiment of the present invention, the heated washing water containing detergent passes through the heating tube 4, and heat exchanges with the washing water passing through the heating tube 4 Since cold water in the state of tap water (which becomes hot water when heated) is filled in the heating space 3, the heating space 3 is not contaminated by the washing water and can always be kept clean, so the heating space ( Since periodic cleaning for 3) becomes unnecessary, management of the heating space 3 can be performed very conveniently.

In addition, since the washing water flows inside the heating pipe 4 in a heated state, scale is not caught inside the heating pipe 4, so that the inside of the heating pipe 4 is not clogged and fluidity can be guaranteed. In particular, since the washing water passes through in a heated state, it is possible to keep the heating tube 4 clean without further scale.

In addition, since the heating tube 4 also uses a copper tube, the heat transfer efficiency is increased, so that the heat of the rinsing water can be easily absorbed by cold water, so that the heating tube 4 is easy to heat and the heat transfer efficiency is increased, and the structure is simple, so that the dishwasher ( The rinse water discharged from (not shown) is connected to the rinse water inlet connector 41 into which hot water, which is the rinse water disposed above the heating pipe 4, is introduced, and the rinse water after heat exchange is discharged Rinsing water Since the discharge connector 42 is discharged through the drain valve 43a or discharged to the outside through the external extension pipe 44 through another branch pipe 43b, the installation can be made simple.

Since the outer surface of the heating tube 4 installed in the heating space 3 has a smooth cylindrical appearance, there is no risk of scale being caught on the outer surface of the heating tube 4, so the heating tube 4 and the heating space 3 Since there is no need to wash separately, the heated hot water contained in the heating space 3 can be used hygienically.

As described above, in the wastewater heat recovery device according to the present invention, the washing water using the heated detergent used in the dishwasher is circulated using a heating tube, and the cooling water to be used by heating it with hot water is a heating space accommodating the heating tube inside. The heated washing water used in the dishwasher passes through the heating pipe and flows in the heating space in a continuously heated state, transferring heat to the cooling water filled in the heating space, and the cooling water absorbs the heat of the rinsing water, which is the washing water. Therefore, since the cooling water in a clean state is heated through the heat transfer process in the heating space while being automatically heated by the heating tube, there is no need to clean the heating space where the cooling water in a clean state is automatically heated, making it convenient to use and structure It becomes simple and easy to manufacture, and as labor costs are reduced, the manufacturing price becomes low, creating a lot of demand and contributing to energy saving.

The wastewater heat recovery device according to the present invention will be said to be an invention with industrial applicability because it is possible to repeatedly manufacture the same product in the manufacturing industry of general hot water supply devices.

A. Waste water heat recovery system
1. Body 2. Insulation
3. Heating space 4. Heating pipe
5. Cold water inlet connector 6. Hot water outlet connector
41. Rinse water inlet connector 42. Rinse water outlet connector

Claims (3)

In the wastewater heat recovery device (A),
The wastewater heat recovery device (A) includes a main body (1) having a storage space for heat exchanged water and a heating tube therein,
A heat insulating material 2 adhered to the inner surface of the main body 1,
A heating space (3) filled with clean water that is heat-exchanged while surrounding the inner surface of the insulator (2);
a heating tube 4 having a cylindrical cross section through which heated rinsing water used as washing water passes;
A rinsing water inlet connector 41 through which hot water, which is rinsing water, is introduced, disposed above the heating pipe;
A rinsing water discharge connector 42 through which hot water, which is rinsing water, is discharged, disposed under the heating pipe 4;
A cold water inlet connector 5 installed at the bottom of the heating space 3 so that cold water flows in to fill the heating space 3 and uses a convection phenomenon;
A hot water discharge connector 6 installed at the top of the heating space 3 so that the cold water filled in the heating space 3 is heated and discharged to be used as hot water;
It includes a support leg 11 installed at the bottom of the main body 1 and supporting it in contact with the bottom surface,
The heating space (3) is formed of a stainless plate to surround the inner surface of the heat insulating material (2), and heated rinsing water flows inside the heating space (3) and the heating pipe (4) is bent several times with high heat transfer efficiency. being installed
The outside of the heating pipe 4 of the heating space 3 is filled with cold water and used as a space in which the cold water is heated to hot water through a heat transfer process with the heating pipe 4,
The heating tube 4 is a copper tube with high heat transfer efficiency,
The heating tube 4 is bent so that the heated rinsing water is bent several times with high heat transfer efficiency and passes through the heating space 3,
A three-way connector 43 is connected to the rinse water discharge connector 42 to drain water through a drain valve 43a installed on one side of the three-way connector 43 or through another branch pipe 43b to an external extension pipe ( A wastewater heat recovery device characterized in that it drains to the outside through 44). delete delete

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