KR20220053122A - Backward Power System of Waste Heat Recovery System Using Cyclones - Google Patents

Abstract

The present invention relates to a backwashing device of a waste heat recovery system using cyclones, which is configured to increase efficiency of a waste heat recovery machine, a device that dramatically reduces energy by absorbing heat of domestic waste hot water that is used in a large sauna, a dry hot sauna, a dyeing factory, etc. and is discarded as it is, and configured to efficiently remove impurities stuck in a tube inside the waste heat recovery machine by a means that circulates a bearing along with water in the waste heat recovery machine using the centrifugal force of cyclones. The present invention comprises: a plurality of waste heat recovery machines (1-3) which recover waste heat included in introduced domestic waste hot water, exchange heat between boiler water supplement and the waste heat, and deliver the waste heat to a boiler; a plurality of cyclones (5, 6) of which waste hot water, discharged through the waste heat recovery machines (1-3), is introduced to the side surface and which separate bearings and water by means of the centrifugal force while rotating; a plurality of shut-off valves (S1-S8) which are installed between the waste heat recovery machines and the cyclones and installed on the output side of the cyclones to open and close water; a pump (P) installed between the shut-off valves and configured to pump out water; and a control panel for controlling the opening and closing of the shut-off valves.

Description

Backward Power System of Waste Heat Recovery System Using Cyclones

The present invention relates to a backwashing device for a waste heat recovery device using a cyclone, and in particular, the efficiency of a waste heat recovery device, which is a device that dramatically saves energy by absorbing the heat of domestic waste hot water that is used in large saunas, kilns, dyeing factories, etc. and discarded as it is. In order to increase the efficiency, impurities attached to the tube inside the waste heat recovery device can be efficiently removed by means of circulating the bearing together with water in the waste heat recovery device using the centrifugal force of the cyclone.

In general, if you take a hot shower in a shower room or washroom, or use hot water in the bathtub, the hot water is usually thrown away when the washbasin or bathtub is finished.

In addition, in order to operate a boiler or the like, water is not heated from the beginning to become hot water, but water at a normal temperature is gradually converted into hot water by consuming a lot of energy by heating the boiler or the like.

Therefore, there is an urgent need for a means of recycling waste hot water that can save energy used for boiler operation by recovering the heat of hot water and sending it back to a boiler without disposing of the hot water used in the conventional shower room to the outside. there is a reality

In the related art, when a waste heat recovery device is used for a long time, impurities are trapped in a plurality of tube tubes in the waste heat recovery device.

Patent Application No. 10-2012-0105052 Patent Application No. 10-2017-0015674 Patent Application No. 10-2017-0067503

The present invention is to solve such conventional drawbacks, and an object of the present invention is to increase the efficiency of a waste heat recovery machine that recovers the heat of domestic waste hot water that is used in a large sauna or shower room and is discarded as it is. To provide a backwashing device for waste heat recovery using a cyclone that can efficiently remove impurities attached to the tube by passing through the tube in the waste heat collector while passing a number of bearings alternately through two cyclones using centrifugal force. there is.

In order to prevent impurities contained in the obtained domestic waste hot water from adhering to a plurality of tube pipes inside the waste heat recoverer, the present invention for achieving the above object provides a bearing through a waste hot water inlet pipe that flows into the waste heat recoverer. It is designed to prevent impurities from adhering to the tube pipe by passing it through, and to be recovered through the waste hot water outlet pipe. A plurality of shutoff valves installed between the first and second cyclones, the waste heat recovery device and the first and second cyclones and installed on the output side of the first and second cyclones to open and close water, and between the shutoff valves It is characterized in that it comprises a pump for pumping water, and a control panel for controlling the on-off of the shut-off valve installed in the.

According to the present invention, as described above, the heat of domestic waste hot water used in a washroom or shower room and discarded as it is can be utilized in a boiler, etc. through a waste heat recovery machine, so that an energy saving effect can be obtained, as well as using the centrifugal force of a plurality of cyclones This has the effect of efficiently removing impurities attached to the tube in the waste heat recovery machine by circulating the bearing.

1 is a view showing a one-time washing process of a backwashing device of a waste heat recovery device using a cyclone of the present invention;
2 is a view showing the double washing process of the backwashing device of the waste heat recovery device using the cyclone of the present invention;
3 is a view showing a cyclone of the present invention

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

1 is a view showing one time washing of the backwashing device for a waste heat recovery device using a cyclone of the present invention, and FIG. 2 is a view showing two times washing of the backwashing device for a waste heat recovery device using a cyclone of the present invention A plurality of waste heat recovery units (1-3) for recovering waste water heat, heat exchange with boiler make-up water, and sending it to the boiler (7), and a water supply unit (4) for supplying water to the waste heat recovery device (1-3); The first cyclone 5 and the second cyclone 6 for storing the bearing by separating the bearing and water by centrifugal force when the waste hot water discharged through the waste heat recovery device (1-3) is obtained from the side and rotated together with the bearing; , installed between the waste heat recovery device (1-3) and the first and second cyclones (5, 6), and installed on the output side of the first and second cyclones (5, 6) to open and close water of a shut-off valve (S1-S7), a pump (P) installed between the shut-off valves (S1-S8) for pumping water, and a control panel (not shown) for controlling the opening and closing of the shut-off valves (S1-S8) city) is included.

However, it is preferable that the bearing is made of an aluminum material and the like and has a specific gravity greater than that of water.

3 shows, for example, a first cyclone 5 of the present invention, wherein the bearing 8 and water are separated using the centrifugal force of the first cyclone 5, and the side of the first cyclone 5 When the water inlet pipe 9 is connected and water is obtained through the water inlet pipe 9, the bearing 8 and water rotate by centrifugal force to separate the bearing 8 and water, and the bearing 8 is waste heat. It is a small bearing that can pass through the tube in the recovery machine.

However, the first cyclone 5 and the second cyclone 6 are centrifugal force dust collectors, and the bearings 8 floating in the revolving waste hot water use centrifugal force to move the first and second cyclones 5 and 6) It moves toward the wall of the cyclone and eventually collides with the wall of the cyclone to separate from water and store the bearing through the lower part of the cone.

The operation of the present invention constructed in this way will be described.

First, FIG. 1 shows a one-time washing process, and FIG. 2 shows a two-time washing process, which alternately washes water and bearings ( 8) is stored separately.

For example, when the pump (P) is operated, the bearing stored in the first cyclone (5) flows into the waste hot water inlet tube of the waste heat recovery unit (1-3) to remove impurities inside the tube and the second cyclone ( 6) is saved.

Here, the reason for using the centrifugal force of the surrounding shut-off valve or cyclone is to prevent the bearing from flowing into the suction part of the pump (P).

During the first washing, the waste hot water that has passed through the waste heat recovery unit 1-3 and the bearing are stored in the second cyclone 6 through the shut-off valve S6 by centrifugal force.

In addition, the waste hot water passing through the second cyclone (6) passes through the shut-off valve (S5), the pump (P), the shut-off valve (S3), the first cyclone (5), and the shut-off valve (S7) to the waste heat recovery unit (1- 3) to protect the pump (P).

That is, the bearing is stored in the second cyclone 6, and only waste hot water flows into the waste heat recovery unit 1-3 through the pump P, so that the bearing does not pass through the pump P to protect the pump P. will become

During the one-time cleaning, the shut-off valves S1, S2, S4, and S8 are closed, so that the hot waste water does not pass toward these shut-off valves.

That is, the waste hot water discharged upward of the second cyclone 6 is pumped by the pump P through the shut-off valve S5, which is blocked by pumping the half-moved waste hot water through the pump P. The pressurized waste water is sent to the valve (S3), and the pressurized waste water is continuously operated until the bearing stored in the first cyclone (5) is consumed. When it is completely moved to and stored, one wash is completed.

On the other hand, when the one-time washing process is completed as described above, the second washing process is performed as shown in FIG. 2 .

That is, the second washing process is performed when the waste hot water that has passed through the waste heat recovery unit (1-3) passes through the first cyclone (5), the shut-off valve (S1), and the shut-off valve (S4) through the shut-off valve (S2). After the bearings stored in the second cyclone 6 pass through the first waste heat recovery unit 1-3 to remove impurities, they are stored in the first cyclone 5 .

In the second washing, the shut-off valves S3, S5, S6, and S7 are closed, so that the hot waste water cannot pass through.

When washing twice, the waste hot water moved from the waste heat recovery unit (1-3) is supplied to the side of the first cyclone (5) through the shut-off valve (S2) and rotates together with the bearing (8) in the first cyclone (5) As a result, the waste hot water and the bearing 8 are separated, and only the waste hot water moves while the bearing 8 is stored in the first cyclone 5 .

That is, in the first and second cyclones 5 and 6 of the present invention, the bearing 8 is moved to the first cyclone 5 or the second While being alternately stored in the cyclone (6), waste hot water and the bearing (8) are circulated without damage to the circulation pump (P) to efficiently remove impurities attached to the tube in the waste heat recoverer (1-3). will be.

Although the present invention as described above has been described by various embodiments, various modifications are possible without departing from the scope of the various embodiments of the present invention, and the scope of such various embodiments is limited to the described embodiments It should not be and should be determined by the claims described below as well as the claims and equivalents.

1-3: waste heat recovery machine 4: water supply part
5: First cyclone 6: Second cyclone
7: Boiler 8: Bearing
9: Inlet pipe S1-S8: Shut-off valve

Claims (3)

A plurality of waste heat recovery devices for recovering waste water heat contained in the received domestic waste hot water and sending it to the boiler by exchanging heat with the boiler make-up water, and the waste hot water discharged through the waste heat recovery device is obtained from the side and rotated to rotate bearings and water by centrifugal force A plurality of cyclones to separate the cyclones, a plurality of shutoff valves installed between the waste heat recoverer and the cyclone and installed on the output side of the cyclone to open and close water, and a pump installed between the shutoff valves to pump water; Backwashing device for waste heat recovery using a cyclone, characterized in that it includes a control panel for controlling the opening and closing of the shut-off valve
According to claim 1, wherein the cyclone, when waste hot water is received through the water inlet pipe formed on the side, the bearing and water rotate by centrifugal force and pass through the waste heat recovery device, and the bearings are alternately stored in two cyclones. A backwashing device of a waste heat recovery device using a cyclone.
The backwashing device of claim 1, wherein the bearing is prevented from flowing into the pump by the centrifugal force of the plurality of shutoff valves and the cyclone.

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