KR101354693B1 - Mixed wastewater and air evaporator heat pump system - Google Patents

Abstract

The present invention relates to an evaporator heat pump system mixing wastewater and air capable of preventing the freezing of wastewater by maintaining proper temperature by mixing the wastewater with room temperature by spraying it into an evaporating chamber and evaporating heat energy of the wastewater combined with the air into gas by circulating refrigerant gas. The evaporator heat pump system according to an embodiment of the invention includes a filter installed on a high position and removing foreign substances in the air, an air supply pipe supplying the air from which the substances are removed by the filter, a ring blower absorbing and discharging the air at the same time, an air discharge pipe formed in the top and bottom of the evaporating chamber and discharging the air by operating the ring blower, a spray nozzle spraying the air by being installed in the top and bottom of the air discharge pipe, an evaporating chamber mixing the air and the wastewater and moving the mixed wastewater zig-zag, a circulating pipe evaporating the mixed wastewater by circulating it by injecting the refrigerant gas into the evaporating chamber, a finishing cap combined with a side of the camber and sealing a refrigerant gas pipe, and the refrigerant gas pipe connected to the top and bottom of the finishing cap to supply and discharge the refrigerant gas at the same time.

Description

Mixed wastewater and air evaporator heat pump system

The present invention relates to an evaporator heat pump system in which waste water and air are mixed, and more particularly, injects room temperature air into an interior of an evaporation chamber to mix with wastewater to maintain an appropriate temperature to prevent freezing of the wastewater, and The present invention relates to an evaporator heat pump system in which waste water and air are mixed to circulate a refrigerant gas, thereby converting thermal energy of the waste water mixed with air into a gas.

In general, industrial wastewater is generated during the production and manufacture of products in domestic wastewater or in factories such as factories, which can be reused as it is. Say no polluted water.

Since such wastewater contains a large amount of harmful substances and is a major cause of water pollution, there is a problem that the wastewater must be purified before being discharged to sewerage or rivers in livestock farms, restaurants, and factories.

In order to solve this problem, conventionally, a boiler in which steam or hot water is circulated is used to evaporate the wastewater. However, the method of heating wastewater by using such a boiler is a heating method, which not only consumes a lot of management costs, but also causes various harmful substances mixed in the wastewater to easily corrode the pipe tube or eventually accumulate in scale. The problem arises that the device becomes unusable.

An object of the present invention is to spray the air at room temperature inside the evaporation chamber to mix with the waste water to maintain the proper temperature to prevent freezing of the waste water, and to circulate the refrigerant gas inside the heat energy of the waste water mixed with air as a gas The present invention provides an evaporator heat pump system in which wastewater and air mixed with evaporation are mixed.

An object of the present invention described above is installed in a high position such as a ceiling to remove dust or foreign matter mixed in the air at room temperature, an air supply pipe for supplying air at room temperature to remove the foreign matter by the filter, and the air supply pipe A ring blower that sucks and discharges the air supplied from the air, an air discharge pipe disposed at upper and lower portions of the evaporation chamber by discharging air at room temperature by the operation of the ring blower, and installed at upper and lower ends of the air discharge pipe. An injection nozzle for injecting air at room temperature, an evaporation chamber for mixing the air injected by the injection nozzle with waste water, and moving the waste water mixed with air to a zigzag; and injecting a refrigerant gas into the evaporation chamber to circulate the air And a circulation pipe for evaporating the mixed waste water and one side of the evaporation chamber to inject refrigerant gas into the refrigerant gas pipe. Sealed to finish the cap and the closing of the cap that, connected to the lower part characterized in that it comprises a gas pipe for discharging the refrigerant at the same time for supplying the refrigerant gas.

According to a preferred feature of the invention, the air discharge pipe is provided with a ball valve that can adjust the flow rate of the air discharged by the ring blower, and a check valve is installed to discharge the air in only one direction to prevent the reverse flow of waste water It features.

According to a more preferable feature of the present invention, the evaporation chamber is provided with a waste water supply pipe at the top to supply wastewater introduced from the outside, a plurality of partition walls are formed in the upper and lower portions of the inside to zigzag the waste water mixed with air The waste water discharge pipe is provided at the lower part to discharge the waste water moved zigzag by the partition wall, and a backflow prevention pipe is provided at one side to prevent the backflow of the waste water.

According to a further preferred feature of the invention, a plurality of vents are formed at the end of the injection nozzle is characterized in that for injecting the room temperature air into the evaporation chamber.

According to the evaporator heat pump system in which the wastewater and the air are mixed in the present invention, air is injected into the wastewater from outside to mix with air at room temperature to prevent freezing. By evaporating in the air, the waste water can be treated more cleanly.

In addition, the structure is simple, the manufacturing cost is low, and the maintenance and management costs are low, thereby having an economic effect.

1 is a schematic diagram of an evaporator heat pump system in which wastewater and air are mixed according to an embodiment of the present invention.
Figure 2 is a state of use of the evaporator heat pump system is a waste water and air mixed according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be described in detail so that those skilled in the art can easily carry out the present invention , And this does not mean that the technical idea and scope of the present invention are limited.

The evaporator heat pump system 1 in which the wastewater and air are mixed according to an exemplary embodiment of the present invention is installed at a high position such as a ceiling to remove dust or foreign matter mixed in air at room temperature, and a filter. An air supply pipe 20 for supplying air at room temperature from which foreign matters are removed by the 20, a ring blower 30 for sucking and discharging the air supplied from the air supply pipe 20, and a ring blower 30. Air discharge pipe 40 is formed by discharging the air at room temperature by the operation and installed above and below the evaporation chamber 60, and an injection nozzle 50 installed at the upper and lower ends of the air discharge pipe 40 to inject air at room temperature. ), The evaporation chamber 60 for mixing air and wastewater injected by the injection nozzle 50 and moving the waste water mixed with air in a zigzag, and injecting refrigerant gas into the evaporation chamber 60 for circulation. Circulation pipes for evaporating wastewater mixed with air ( 70 and coupled to one side of the evaporation chamber 60 is connected to the top and bottom of the closing cap 80 and the closing cap 80 to seal the refrigerant gas to the circulation pipe 70 to supply the refrigerant gas at the same time It comprises a refrigerant gas pipe 90 to discharge.

Hereinafter, referring to FIG. 1, the components and the connection relationship of the evaporator heat pump system 1 in which wastewater and air are mixed according to an exemplary embodiment of the present invention will be described.

Here, the filter 10 serves to transfer the filtered air to the air supply pipe 20, which will be described later by pretreating dust or foreign matter mixed in the warm room temperature air, so as to convey the warm room temperature air. It is installed at a high position such as a room temperature air has a heat source of 15 ℃ or more.

The air at room temperature filtered by the filter 10 described above is pumped to the air supply pipe 20. The air supply pipe 20 serves to supply air at room temperature to the ring blower 30 which will be described later. The same air supply pipe 20 is made of a metal material to be excellent in durability and heat resistance.

On the other hand, there is provided a ring blower 30 for sucking the air supplied by being connected to the above-described air supply pipe 20, the ring blower 30 generates a suction force, the air at room temperature supplied from the air supply pipe 20 described above In order to suck the, and to discharge to the air discharge pipe 40 which will be described later, such a ring blower 30 is the same as the ring blower 30 according to the prior art, the overlapping description for the sake of simplicity of the specification It will be omitted.

And connected to the ring blower 30 described above is provided with an air discharge pipe 40 for discharging air at room temperature of 15 ℃ or more, the air discharge pipe 40 serves to move the air to the injection nozzle 50 to be described later Like the above-described air supply pipe 20 is made of a metal material so as to have excellent durability and heat resistance and is formed in the upper and lower portions of the evaporation chamber 60 which will be described later. And the ball valve 41 to adjust the air flow at room temperature discharged by the ring blower 30 described above, and a check valve that the air is discharged only in one direction so as to prevent the waste water backflow of the evaporation chamber to be described later ( 42 are provided respectively.

The above-described air discharge pipe 40 is provided with a spray nozzle 50 protrudingly connected to the air discharge pipe 40. The spray nozzle 50 sprays 15 ° C or more of air into the evaporation chamber 60 which will be described later. The upper and lower portions of the above-described air discharge pipe 40 are formed to protrude in a zigzag shape, and a plurality of vent holes 51 are formed at the protruded ends to operate the ring blower 30 as described above. By injecting the air at room temperature through the vent hole 51 to the interior of the evaporation chamber (60).

In more detail, when the air at room temperature of 15 ° C. or more is injected into the evaporation chamber 60 through the aeration hole 51 of the aforementioned injection nozzle 50, the mixture is mixed with the wastewater supplied from the outside to the evaporation chamber 60. It forms air bubbles to prevent freezing and moves zigzag by the partition wall 62 of the evaporation chamber 60 which will be described later.

The air injected by the above-described injection nozzle is injected into the evaporation chamber 60. The evaporation chamber 60 is sprayed by the above-described injection nozzle 50 to mix with the wastewater and move in a zigzag. It is to serve to provide a waste water supply pipe 61 for supplying the waste water introduced from the outside in the cylindrical shape of the metal material, although the waste water supply pipe, although not shown, the controller can be installed to adjust the flow rate of the waste water. In addition, a plurality of partition walls 62 are formed at an upper side and a lower side to move the waste water supplied by the waste water supply pipe 61 to the zigzag by the air injected from the above-described injection nozzle 50, and the partition wall ( The wastewater discharge pipe 63 for discharging the wastewater moved to the zigzag by 62), and one side includes a backflow prevention tube 64 to prevent the backflow of the wastewater.

Through the above-described evaporation chamber 60, a plurality of circulation pipes 70 are provided therein. The circulation pipe 70 is a waste water in which refrigerant gas is circulated to move air zigzag in the evaporation chamber 60. In more detail, it serves to evaporate, so that the heat energy of the waste water mixed with air is absorbed and converted into a gas to evaporate.

One end of the above-described evaporation chamber 60 is provided with a closing cap 80. The closing cap 80 serves to seal the refrigerant gas injected into the aforementioned circulation pipe 70 so as not to leak. The through-hole is formed in the lower portion is connected to the refrigerant gas pipe 90 to be described later.

The upper and lower portions of the above-mentioned closing cap 80 are provided with a refrigerant gas pipe 90. The gas pipe 90 serves to discharge and supply refrigerant gas to the circulation pipe 70 described above. Use as an excellent metal material.

Hereinafter, referring to FIG. 2, the overall operation of the evaporator heat pump system 1 in which wastewater and air are mixed according to an exemplary embodiment of the present invention will be described.

First, when the ring blower 30 is operated, suction force is generated to remove dust or foreign matter mixed in the air at room temperature by using the filter 10 in the room temperature air of the room, and the ring blower 30 through the air supply pipe 20. Inhaled).

Then, after moving the air at room temperature through the air discharge pipe 40 connected to the ring blower 30, the air at room temperature is injected into the evaporation chamber 60 through the vent hole 51 of the injection nozzle 50. .

Therefore, when the air is heated at a normal temperature by the injection nozzle by operating the ring blower 30, the wastewater is zigzagly discharged to the wastewater discharge pipe 63 by a partition wall 62 formed to be spaced apart from the upper and lower portions inside the evaporation chamber 60. Will be moved to). At this time, the refrigerant gas is circulated in the circulation pipe 70 through which the refrigerant gas is injected through the refrigerant gas pipe 90 to absorb the thermal energy of the wastewater mixed with air, convert the gas into gas, and evaporate.

1: Evaporator Heat Pump System
10: filter
20: air supply pipe
30: ring blower
40: air discharge pipe
41: ball valve
42: check valve
50: injection nozzle
51: ventilator
60: evaporation chamber
61: wastewater supply pipe
62: bulkhead
63: wastewater discharge pipe
64: backflow prevention tube
70: circulation tube
80: finishing cap
90: refrigerant gas pipe

Claims (4)

A filter installed at a high position such as a ceiling to remove dust or foreign matter mixed in air at room temperature;
An air supply pipe for supplying air at room temperature from which foreign matter is removed by the filter;
A ring blower which sucks and discharges the air supplied from the air supply pipe;
An air discharge pipe disposed at upper and lower portions of the evaporation chamber to discharge air at room temperature by the operation of the ring blower;
An injection nozzle installed at upper and lower ends of the air discharge pipe to inject air at room temperature;
An evaporation chamber which mixes the air injected by the injection nozzle with the wastewater and moves the mixed air into the zigzag;
A circulation tube for injecting refrigerant gas into the evaporation chamber and circulating the evaporation to evaporate the wastewater mixed with air;
A closing cap coupled to one side of the evaporation chamber to seal the refrigerant gas into the refrigerant gas pipe; And
Evaporator heat pump system is a waste water and air is mixed, characterized in that it comprises; and a refrigerant gas pipe connected to the upper and lower parts of the closing cap to supply and discharge the refrigerant gas at the same time. The method according to claim 1,
The air discharge pipe is a ball valve that can adjust the flow rate of the air discharged by the ring blower, waste water and air is mixed, characterized in that the check valve is installed to prevent the reverse flow of the waste water and discharge the air in only one direction Evaporator heat pump system. The method according to claim 1,
The evaporation chamber is provided with a wastewater supply pipe at the upper part to supply wastewater introduced from the outside, and a plurality of partition walls are formed at the upper and lower portions of the inner side to move the wastewater mixed with air in a zigzag, and the wastewater discharge pipe is provided at the lower part. And discharging the wastewater moved to the zigzag by the partition wall and having a backflow prevention pipe on one side to prevent backflow of the wastewater. The method according to claim 1,
Evaporator heat pump system is a waste water and air mixed, characterized in that a plurality of vent holes are formed at the end of the injection nozzle to inject the air at room temperature into the evaporation chamber.

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