KR20160102853A - Water supply settling tank - Google Patents

Abstract

The present invention relates to a process for extracting a water-soluble fragrance component containing a fragrance component and a phytoncide component by a precipitation method, wherein the water-soluble fragrance is a solution of a fragrant component and a phytoncide component, which is obtained by diluting leaves and stems of a directional plant with water, A water precipitation tank for controlling the temperature of the sediment to prevent the precipitation process of separating water and sludge from the temperature and the temperature of 15 ° C or more to prevent the sludge from decaying due to external temperature difference or from delaying the precipitation process due to the low temperature .
The water-settling tank for controlling the water temperature of the sediment according to the present invention includes an inner water tank 200 connected to the inner water tank 100 through a single body, The present invention relates to a sedimentation tank in which cold water (112) or hot water (122) is supplied to prevent a change in the fragrance or the aroma of a fragrance due to a change in temperature of the precipitate.
For this purpose, the present invention is characterized in that a through hole (140) is formed in a side surface of a bottom of a water tank in which a lower end surface of a cylindrical body having an open upper end is formed in a semicircular shape and a cold water inflow port (110) and a hot water inflow port An outer water tank 100 in which a drain pipe 130 is formed at the bottom surface of the top surface 180 to be natural drainage by a water level and a plurality of supports 160 are formed at a bottom end thereof;
A through hole 220 is formed through the elbow connecting pipe 150 to be welded and connected to the center of the water tank bottom having a lower end surface of a cylindrical body having a smaller diameter than the inside diameter of the external water tank 100 and open at an upper end, An internal water tank 200 in which a sediment inlet 210 is formed on the bottom surface of the top surface 230;
An inner water tank cover 300 closing the top surface 230 of the inner water tank 200; The center of the inner bottom surface of the inner water tank 200 and the outer surface of the outer water tank 100 are welded to each other by an elbow connecting pipe 150. The outer water tank 100 is welded with a plurality of welding iron materials 400, And the external face of the inner face of the inner water tank 200 is joined to the outer face of the outer face of the inner face of the inner water tank 200 to form a single body.

Description

Water supply settling tank for water temperature control of sediment

The present invention relates to a sedimentation tank for separating water and sludge in which aromatic fragrance is dissolved in the course of extracting a fragrance of a natural material from a directional plant, And more particularly, to a water-settling tank for controlling water temperature of a sediment which can keep the temperature of the sediment inside the sedimentation tank properly by introducing the hot water 122 when the temperature is low and the cold water 112 when the temperature is high.

More specifically, the hot water (122) or the cold water (112) can be selectively introduced into the space between the outer water tank (100) and the inner water tank (200) The hot water 122 or the cold water 112 is discharged through the flow pipe 130 to meet the user's required temperature.

(Registered No. 10-0725155 Date of Registration: May 05, 2007) (Summary) The sedimentation tank wastewater freezing suppression system according to the present invention is as follows. According to the present invention, although the waves spread widely on the water surface, they do not deeply penetrate into the water, so the icing suppression function is maintained. However, there is no fear that the sedimentation function such as scattering of the precipitate is lowered. It is possible to maintain the icing suppression function stably at all times.

(Prior art document)

(Patent Literature)

(Patent registration 1) Registration number 10-0725155 Registration date 2007. 05 .29 Drawings 1 and 2

1. An air distribution pipe disposed in a settling tank and having a plurality of air nozzles; An air supply pipe for supplying air to the air distribution pipe; An air compressor for supplying pressurized air through the air supply pipe; And an automatic operation means for automatically operating the air compressor according to temperature to supply air to the air distribution pipe.

The present invention is characterized in that the inner water tank 200 is connected to the inner side of the outer water tank 100 so that the cold water 112 or the hot water 122 is supplied to the empty space between the outer water tank 100 and the inner water tank 200, And to prevent the change of the fragrance or the aroma of the fragrant agent due to the change of the temperature of the precipitate, and to provide a water-settling tank for controlling the temperature of the precipitate.

According to an aspect of the present invention, there is provided a water tank, comprising: a cylindrical body having an opened upper end formed with a through hole in a side surface of a water tank bottom having a semi- An external water tank 100 in which an inlet 120 is formed and a drain pipe 130 is formed at the bottom of the upper surface 180 to be drained by a water level and a plurality of supports 160 are formed at a lower end;

A through hole 220 is formed through the elbow connecting pipe 150 to be welded and connected to the center of the water tank bottom having a lower end surface of a cylindrical body having a smaller diameter than the inside diameter of the external water tank 100 and open at an upper end, An internal water tank 200 in which a sediment inlet 210 is formed on the bottom surface of the top surface 230;

An inner water tank cover 300 for closing the upper surface 230 of the inner water tank 200; The center of the inner bottom surface of the inner water tank 200 and the outer surface of the outer water tank 100 are welded to each other by an elbow connecting pipe 150. The outer water tank 100 is welded with a plurality of welding iron materials 400, And the outer surface of the inner water tank 200 is joined to the outer water tank 100 and the inner water tank 200 to form a single body.

As described above, the present invention is capable of freely adjusting the temperature inside the feedwater settling tank, thereby preventing the sludge in the settling process from being corrupted at high temperatures and preventing the settling from being delayed by freezing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an external water tank in which a water-settling tank for water temperature control of a precipitate according to the present invention is disassembled; FIG.
FIG. 2 is a perspective view showing a state where the elbow connecting pipe 150 is welded and joined in the state of FIG.
FIG. 3 shows an internal water tank in which the water settling tank for water temperature control of the present invention is disassembled. FIG. 3 (a) shows the upper end of the inner water tank cover 300, and FIG. 3 (b) is a perspective view showing the lower end.
4 is a perspective view showing a state where an external water tank and an internal water tank are combined.
5 is a perspective view showing a state in which the liquid sediment 500 is flowing into the internal water tank 200 in the state of FIG. 4 as an embodiment.
6 is a perspective view showing a state in which cold water 112 flows in the state shown in FIG. 5 and flows out to the drain pipe 130. FIG.
7 is a perspective view showing a state in which the hot water 122 flows in the state shown in FIG. 5 and flows out to the drain pipe 130. FIG.
Description of the symbols used in the main parts of the drawings
100: External tank
110: cold water inlet
111: cold water inflow pipe
112: cold water
120: Hot water inlet
121: Hot water inlet pipe
122: Hot water
130:
140: Through hole (for connecting through an elbow hole)
150: Elbow connector
160: Support
170: Inside surface of outer tank
180: Top surface
190: welded part (joining the elbow inserted into the external water tank through the outside of the water tank)
200: Internal water tank
210: sediment inlet
211: sediment inlet pipe
220: Through hole (for connecting through an elbow hole)
221: Welded part (inner barrel inner surface and elbow connection pipe are joined)
230: Top surface
240: Inside water tank side
300: inner tank cover
400: Steel for welding
410: outer tank weld
420: inner water tank weld
500: liquid sediment.

The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing an external water tank 100 in which a water supply settling tank for water temperature control according to the present invention is disassembled. FIG. 2 is a perspective view showing a state in which the elbow connection pipe 150 is welded in the state of FIG. 1, As follows.

Reference numeral 100 denotes an outer water tank made of iron. The cylindrical body having an open upper end is formed with a through hole 140 on the side of the bottom surface of the water tank having a lower end surface in a semicircular shape, and a cold water inlet 110 A hot water inlet 120 is formed and a drain pipe 130 is formed at the bottom of the upper surface 180 to be drained by the water level and a plurality of supports 160 are formed at the lower end.

Reference numeral 110 denotes a cold water inlet which is welded to an outer lower end surface of the outer water tank 100 and is connected to a cold water inflow pipe 111 to cool water in a space between the outer water tank 100 and the inner water tank 200 (112) is introduced.

The hot water inflow pipe 120 is welded to the outer bottom surface of the outer water tank 100 and connects the hot water inflow pipe 121 to the hot water inflow pipe 121, (122).

Reference numeral 130 denotes a drain pipe, which is a drain pipe through which the cold water 112 or the hot water 122 flows into the bottom surface of the upper surface 180 of the outer tank 100, .

Reference numeral 150 denotes an elbow connection pipe which is inserted into the through hole 140 and connected to a side surface of the external water tank 100 and an inner center portion of the internal water tank 200 and flows into the internal water tank 200, It is a discharge pipe for discharging sludge and supernatant.

FIG. 3 shows an internal water tank 200 in which the water precipitation tank for controlling water temperature of the present invention is disassembled. FIG. 3 (a) shows the upper end of the internal water tank cover 300, Is as follows.

Reference numeral 200 denotes an inner water tank made of iron and has an elbow connecting pipe 150 at a central portion of the water tank bottom having a lower end surface of a cylindrical body having a smaller diameter than the inner diameter of the outer water tank 100 and having an open top, And a sediment inlet pipe 210 is formed on the bottom surface of the upper end surface 230. The through-

Reference numeral 210 denotes a sediment inlet. The sediment inlet 210 is welded to an outer upper end surface of the inner water tank 200, and is connected to the sediment inlet pipe 211 and is an inlet through which the liquid sediment 500 flows.

Reference numeral 300 denotes a cover of an internal water tank made of iron or polyvinyl chloride (PVC), which is intended to prevent the aromatic fragrance from being discharged into the air during the precipitation process.

4 is a perspective view showing a state in which the external water tank 100 and the internal water tank 200 are combined, and the structure and action thereof are as follows.

The connection of the present invention is achieved by inserting the elbow connecting pipe 150 into the through hole 140 in the outer water tank 100 and welding the water through the elbow connecting pipe 150. The through hole 220 formed in the center of the lower surface of the inner water tank 200, The upper surface 180 of the outer water tank 100 and the outer surface of the inner water tank 200 are joined by welding using the welding iron material 400 after the connection pipe 150 is inserted and welded, 100 and the internal water tank 200 are made to be a single body. When the cold water 112 or the hot water 122 flows into the water-settling tank as described above and the water reaches the water level of the overflow pipe 130, the inflow water is discharged so that the water is discharged under the condition of the temperature of the inner water tank 200 By providing the correct water supply, the sedimentation effect can be maximized.

FIG. 5 is a perspective view illustrating a state in which the liquid sediment 500 is introduced into the internal water tank 200 in the state of FIG. 4 as an example. The leaf and stem of the oriental plant are pulverized and subjected to a primary dehydration process The liquid precipitate 500 flows from the inner bottom surface of the inner water tank 200 closed by the opening and closing device formed at the outlet port through which the liquid precipitate 500 flows through the sediment inlet 210 and is coupled to the elbow connection pipe 150, ) Is introduced to indicate the state of the tank.

FIG. 6 is a perspective view illustrating a state in which the cold water 112 flows into the drain pipe 130 in the state of FIG. 5. When the temperature of the liquid precipitate 500 is 15 degrees or more due to an increase in outside temperature, The temperature of the liquid precipitate 500 is lowered by introducing the cold water 112 through the heat exchanger 110.

7 is a perspective view showing a state in which the hot water 122 flows in the state shown in FIG. 5 and flows out to the drain pipe 130. When the temperature of the liquid precipitate 500 at the outside temperature is a freezing point of 0 degree or less, The temperature of the liquid precipitate 500 is increased by introducing the hot water 122 through the heat exchanger 120.

Claims (1)

A water hole 140 is formed in a side surface of a bottom surface of the water tank in which the lower end surface of the cylindrical body with the upper end opened is formed in a semicircular shape. A cold water inlet 110 and a hot water inlet 120 are formed on the side below the center of the body. An outer water tank 100 in which a drain pipe 130 that is natural drainage by a water level is formed on a bottom surface of the water tank 100 and a plurality of supports 160 are formed on a lower end thereof;
A through hole 220 is formed through the elbow connecting pipe 150 to be welded and connected to the center of the water tank bottom having a lower end surface of a cylindrical body having a smaller diameter than the inside diameter of the external water tank 100 and open at an upper end, An internal water tank 200 in which a sediment inlet 210 is formed on the bottom surface of the top surface 230;
An inner water tank cover 300 closing the top surface 230 of the inner water tank 200; The center of the inner bottom surface of the inner water tank 200 and the outer surface of the outer water tank 100 are welded to each other by an elbow connecting pipe 150. The outer water tank 100 is welded with a plurality of welding iron materials 400, Wherein the outer water tank 100 and the inner water tank 200 are formed as a single body by joining the upper surface 180 of the inner water tank 200 and the outer surface of the inner water tank 200 to each other.

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