CN219399046U - Geothermal water degassing device based on geothermal water supply - Google Patents

Abstract

The utility model relates to the technical field of geothermal water degassing, in particular to a geothermal water degassing device based on geothermal water supply, which comprises a degassing bin, wherein a water inlet is fixedly connected to one side of the degassing bin, a water outlet is fixedly connected to one side of the bottom of the degassing bin, a degassing pipe is fixedly connected to the top of the degassing bin, a telescopic rod is fixedly connected to the bottom of the degassing bin, and a buoyancy block and a sealing ball are fixedly connected to the output end of the telescopic rod. The utility model has the advantages that: through set up the degasification storehouse in geothermal water piping, make the gas that gets into in the degasification storehouse rise can increase the time of remaining in the degasification storehouse, make things convenient for the degasification pipe to fully absorb gas, avoid geothermal water to flow too fast in the pipeline, single degassing unit is difficult to with gas exhaust's condition, set up the delivery port in the gas removal storehouse bottom the lowest department can avoid the gas removal storehouse in-storage geothermal water, take out the gas of gas removal storehouse top deposit through the fan of breathing in for gas exhaust efficiency.

Description

Geothermal water degassing device based on geothermal water supply

Technical Field

The utility model relates to the technical field of geothermal water degassing, in particular to a geothermal water degassing device based on geothermal water supply.

Background

Geothermal water is a good renewable and clean energy source, the geothermal water is developed and utilized as a heat source of a heat supply system to supply heat to a building, namely, the geothermal water heat supply system has important energy saving and environment protection values, a large amount of steam can be generated due to the fact that the geothermal water is too high in temperature, if the geothermal water is not timely discharged, the device is blocked, the flow of the geothermal water is affected, and therefore a degassing device is required to be arranged in a geothermal water supply pipeline to timely discharge the gas.

The geothermal water degassing device for geothermal water supply disclosed in chinese patent CN202220129988.1 improves the installation efficiency of the filter plate by arranging a fixing plate, a clamping block, a clamping groove and a pressing plate, and facilitates the early installation and the later disassembly maintenance of the filter plate.

The existing geothermal water degassing device has the defects that: the geothermal water flows fast in the water supply pipeline, and it is difficult to pour all the gas in the geothermal water at one time, so a plurality of exhaust structures are required to exhaust the gas, or a fan is arranged in the degassing device to accelerate the gas absorption speed, but the geothermal water is easily absorbed into the pipeline in the gas absorption process, so that the equipment is damaged.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a geothermal water degassing device based on geothermal water supply, which effectively solves the defects of the prior art.

The aim of the utility model is achieved by the following technical scheme: the utility model provides a geothermal water degassing unit based on geothermal water supply, includes the degasification storehouse, one side fixedly connected with water inlet in degasification storehouse, one side fixedly connected with delivery port in degasification storehouse bottom, the top fixedly connected with degasification pipe in degasification storehouse, the bottom fixedly connected with telescopic link in degasification storehouse, the output fixedly connected with buoyancy piece of telescopic link, the top fixedly connected with seal ball of buoyancy piece.

Optionally, the bottom of degasification storehouse is the inclined plane, delivery port tip is located the high minimum of degasification storehouse bottom, the water inlet is connected with geothermal water delivery pipe, the delivery port is connected with geothermal water piping.

The technical scheme is adopted: through set up the degasification storehouse in geothermal water piping, make the gas that gets into in the degasification storehouse rise can increase the time of remaining in the degasification storehouse, make things convenient for the degasification pipe to fully absorb gas, avoid geothermal water to flow too fast in the pipeline, single degassing unit is difficult to with gas exhaust's condition, sets up the delivery port in the bottom of the degasification storehouse lowest department can avoid the interior accumulation geothermal water of degasification storehouse.

Optionally, the top of degasification storehouse is the funnel form of inversion, be provided with the air suction fan between degasification storehouse and the degasification pipe, the air suction fan produces the air current to the degasification outside of storehouse.

The technical scheme is adopted: the gas stored at the top of the degassing bin is pumped out through the air suction fan, so that the gas exhausting efficiency is accelerated, and the gas can be more easily and intensively enter the degassing pipe by arranging the top of the degassing bin into a funnel shape.

Optionally, the telescopic rod is located right below the water outlet, and the diameter of the sealing ball is larger than the diameter of the top of the degassing bin.

Optionally, the material of seal ball is rubber, the top shape and the inner wall shape looks adaptation in degasification storehouse top when seal ball rises.

Optionally, the buoyancy that the buoyancy piece received in water is greater than the sum of telescopic link output gravity and sealed ball gravity, the buoyancy piece height is higher than the height of water inlet when sealed ball and degassing bin top butt joint.

The technical scheme is adopted: through setting up the telescopic link in the bottom in degasification storehouse, make buoyancy piece and seal ball can go up and down under the degasification pipe tip, interior water level rises after the gas in the degasification storehouse is drawn off by most, then buoyancy piece drive seal ball goes up and down, then seal ball seal the gas removal pipe at degasification storehouse top when the water level is high enough to avoid the condition that the gas is taken away geothermal water after being discharged in the degasification device.

Optionally, the bottom of buoyancy piece and the top of telescopic link main part are all fixedly connected with magnetic plate, two magnetism of magnetic plate faying surface is opposite, magnetic force between the magnetic plate is less than the buoyancy of buoyancy piece in water.

The technical scheme is adopted: through setting up the magnetic plate between the buoyancy piece, then can adsorb the buoyancy piece and keep at lower height through the magnetic plate when making the buoyancy piece height lower, avoid the suction of suction fan to act on the seal ball and make its rising seal the circumstances of removing the trachea.

The utility model has the following advantages:

1. this geothermal water degassing unit based on geothermal water supply, through set up the degasification storehouse in geothermal water piping, make the gas that gets into in the degasification storehouse rise and can increase the time of remaining in the degasification storehouse, make things convenient for the degasification pipe to fully absorb gas, avoid geothermal water to flow too fast in the pipeline, single degasification unit is difficult to with gas exhaust's condition, set up the delivery port in the lowest department of degasification storehouse bottom can avoid the gas in the degasification storehouse to deposit the geothermal water, take out the gas of degasification storehouse top deposit through the suction fan, accelerate gas exhaust efficiency, set up the degasification storehouse top into the funnel form and can make gas more easily concentrate into the degasification pipe.

2. This geothermal water degassing unit based on geothermal water supply through set up the telescopic link in the bottom in degasification storehouse, makes buoyancy piece and seal ball can go up and down under the degasification pipe tip, and the inside water level rises after the gas in the degasification storehouse is pumped out by most, then buoyancy piece drive seal ball and go up and down, then seal the gas removal pipe at degasification storehouse top when the water level is high enough to avoid the condition of taking away geothermal water after the gas in the degasification device is discharged.

3. According to the geothermal water degassing device based on geothermal water supply, the magnetic plates are arranged between the buoyancy blocks, so that the buoyancy blocks can be adsorbed and kept at a lower height through the magnetic plates when the buoyancy blocks are lower, and the condition that the degassing pipe is closed by the fact that the suction force of the suction fan acts on the sealing ball to enable the suction force to rise is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the degassing state of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 4 is a schematic cross-sectional view of the present utility model in a closed state;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4B according to the present utility model;

fig. 6 is an enlarged schematic view of the structure of fig. 4C according to the present utility model.

In the figure: 1-degassing bin, 2-water inlet, 3-water outlet, 4-degassing pipe, 5-telescopic rod, 6-buoyancy block, 7-sealing ball, 8-air suction fan and 9-magnetic plate.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

As shown in fig. 1 to 6, a geothermal water degassing device based on geothermal water supply comprises a degassing bin 1, wherein a water inlet 2 is fixedly connected to one side of the degassing bin 1, a water outlet 3 is fixedly connected to one side of the bottom of the degassing bin 1, a degassing pipe 4 is fixedly connected to the top of the degassing bin 1, a telescopic rod 5 is fixedly connected to the bottom of the degassing bin 1, a buoyancy block 6 is fixedly connected to the output end of the telescopic rod 5, and a sealing ball 7 is fixedly connected to the upper side of the buoyancy block 6.

Example 1: the bottom of the degassing bin 1 is an inclined plane, the end part of the water outlet 3 is positioned at the lowest part of the bottom of the degassing bin 1, the water inlet 2 is connected with a geothermal water supply pipe, the water outlet 3 is connected with a geothermal water pipeline, the time for keeping the degassing bin 1 can be increased by rising gas entering the degassing bin 1 through the arrangement of the geothermal water pipeline, the gas is conveniently and fully absorbed by the degassing pipe 4, the situation that the flow rate of the geothermal water in a pipeline is too fast and the single degassing device is difficult to exhaust the gas is avoided, and the water outlet 3 is arranged at the lowest part of the bottom of the degassing bin 1 to avoid the accumulation of the geothermal water in the degassing bin 1.

Example 2: the top of the degassing bin 1 is in an inverted funnel shape, an air suction fan 8 is arranged between the degassing bin 1 and the degassing pipe 4, the air suction fan 8 generates air flow outside the degassing bin 1, air deposited at the top of the degassing bin 1 is pumped out through the air suction fan 8, the efficiency of air exhaust is accelerated, and the top of the degassing bin 1 is arranged in a funnel shape, so that the air can be more easily concentrated to enter the degassing pipe 4.

Example 3: the telescopic rod 5 is positioned right below the water outlet 3, and the diameter of the sealing ball 7 is larger than that of the top of the degassing bin 1.

Example 4: the sealing ball 7 is made of rubber, and the top shape of the sealing ball 7 is matched with the shape of the inner wall of the top of the degassing bin 1 when the sealing ball is lifted.

Example 5: buoyancy that buoyancy piece 6 received in water is greater than the sum of telescopic link 5 output gravity and closure ball 7 gravity, the buoyancy piece 6 highly is higher than the height of water inlet 2 when closure ball 7 and the butt joint of degasification storehouse 1 top, through set up telescopic link 5 in the bottom of degasification storehouse 1, make buoyancy piece 6 and closure ball 7 can go up and down under the degasification pipe 4 tip, inside water level rises after the gas in the degasification storehouse 1 is pumped out by most, then buoyancy piece 6 drives closure ball 7 and goes up and down, then closure ball 7 seals the degasification pipe 4 at degasification storehouse 1 top when the water level is high enough, thereby avoid the condition that the gas is taken out the geothermal water after the degasification device.

Example 6: the bottom of buoyancy piece 6 and the equal fixedly connected with magnetic plate 9 in top of telescopic link 5 main part, the magnetism of two magnetic plate 9 faying surfaces is opposite, and magnetic force between the magnetic plate 9 is less than the buoyancy of buoyancy piece 6 in water, through set up magnetic plate 9 between buoyancy piece 6, then can adsorb the buoyancy piece 6 when high lower and keep at lower height through the magnetic plate, avoids suction effect of suction fan 8 to make it rise on seal ball 7 with the confined condition of degassing tube 4.

The working principle of the utility model is as follows:

s1, when the water level in the degassing bin 1 rises after most of gas is pumped out, the buoyancy block 6 drives the sealing ball 7 to lift

S2, when the water level is high enough, the sealing ball 7 seals the degassing pipe 4 at the top of the degassing bin 1, so that the situation that the geothermal water is pumped away after the gas in the degassing device is discharged is avoided.

Compared with the prior art, the utility model has the following beneficial effects compared with the prior art:

1. this geothermal water degassing unit based on geothermal water supply, through set up degasification storehouse 1 in geothermal water piping, make the gas that gets into in the degasification storehouse 1 rise and can increase the time of remaining in the degasification storehouse 1, make things convenient for the gas removal pipe 4 to fully absorb gas, avoid geothermal water to flow too fast in the pipeline, single degasification device is difficult to with gas exhaust's condition, set up delivery port 3 in the lowest department of degasification storehouse 1 bottom can avoid the interior accumulation geothermal water of degasification storehouse 1, take out the gas of the top deposit of degasification storehouse 1 through suction fan 8, accelerate gas exhaust efficiency, set up the top of degasification storehouse 1 into the funnel form and can make gas more easily concentrate into gas removal pipe 4.

2. According to the geothermal water degassing device based on geothermal water supply, the telescopic rod 5 is arranged at the bottom of the degassing bin 1, so that the buoyancy block 6 and the sealing ball 7 can be lifted right below the end part of the degassing pipe 4, when most of gas in the degassing bin 1 is pumped out, the inner water level rises, the buoyancy block 6 drives the sealing ball 7 to lift, when the water level is high enough, the sealing ball 7 seals the degassing pipe 4 at the top of the degassing bin 1, and therefore the situation that the geothermal water is pumped away after the gas in the degassing device is discharged is avoided.

3. According to the geothermal water degassing device based on geothermal water supply, the magnetic plates 9 are arranged between the buoyancy blocks 6, so that the buoyancy blocks 6 can be adsorbed and kept at a lower height through the magnetic plates when the height is lower, and the condition that the degassing pipe 4 is closed by the suction force of the suction fan 8 acting on the sealing ball 7 to enable the suction force to rise is avoided.

Claims (7)

1. Geothermal water degassing unit based on geothermal water supply, its characterized in that: including degasification storehouse (1), one side fixedly connected with water inlet (2) of degasification storehouse (1), one side fixedly connected with delivery port (3) of degasification storehouse (1) bottom, the top fixedly connected with degasification pipe (4) of degasification storehouse (1), the bottom fixedly connected with telescopic link (5) of degasification storehouse (1), the output fixedly connected with buoyancy piece (6) of telescopic link (5), the top fixedly connected with of buoyancy piece (6) seals ball (7).

2. A geothermal water degassing apparatus based on geothermal water supply according to claim 1, wherein: the bottom of the degassing bin (1) is an inclined plane, the end part of the water outlet (3) is positioned at the lowest position of the bottom of the degassing bin (1), the water inlet (2) is connected with a geothermal water supply pipe, and the water outlet (3) is connected with a geothermal water pipeline.

3. A geothermal water degassing apparatus based on geothermal water supply according to claim 2, wherein: the top of the degassing bin (1) is in an inverted funnel shape, an air suction fan (8) is arranged between the degassing bin (1) and the degassing pipe (4), and the air suction fan (8) generates air flow outside the degassing bin (1).

4. A geothermal water degassing apparatus based on geothermal water supply according to claim 3, wherein: the telescopic rod (5) is positioned right below the water outlet (3), and the diameter of the sealing ball (7) is larger than that of the top of the degassing bin (1).

5. The geothermal water degassing apparatus based on geothermal water supply of claim 4, wherein: the sealing ball (7) is made of rubber, and the shape of the top of the sealing ball (7) is matched with the shape of the inner wall of the top of the degassing bin (1) when the sealing ball is lifted.

6. The geothermal water degassing apparatus based on geothermal water supply of claim 5, wherein: the buoyancy force received by the buoyancy block (6) in water is greater than the sum of the gravity of the output end of the telescopic rod (5) and the gravity of the sealing ball (7), and the height of the buoyancy block (6) is higher than the height of the water inlet (2) when the sealing ball (7) is in butt joint with the top of the degassing bin (1).

7. The geothermal water degassing apparatus based on geothermal water supply of claim 6, wherein: the bottom of buoyancy piece (6) and the top of telescopic link (5) main part are all fixedly connected with magnetic plate (9), two magnetism of magnetic plate (9) faying surface is opposite, magnetic force between magnetic plate (9) is less than buoyancy piece (6) buoyancy in water.