CN218393025U - Quantitative drainage mechanism and gas-liquid separator - Google Patents

Abstract

The utility model relates to a ration drainage mechanism and vapour and liquid separator technical field specifically are a ration drainage mechanism and vapour and liquid separator include: the bottom of the water storage tank is connected with a water discharge pipe, a communicating pipe is arranged on the water discharge pipe, the communicating pipe penetrates through a floating assembly, the floating assembly is arranged at one end of a connecting plate, and the other end of the connecting plate is fixed on a valve; the beneficial effects are that: the utility model provides a quantitative drainage mechanism and vapour and liquid separator can know the water storage state at the inside storage water tank of vapour and liquid separator body through communicating pipe of transparent material according to the principle of linker to when reacing a certain amount communicating pipe, can promote the subassembly that floats upwards, and then upwards drives the valve through the connecting plate, open the valve, discharge the water in the storage water tank, and can adjust the height of floating plate on the subassembly that floats through the threaded rod on the subassembly that floats, and then can discharge the water yield of the different water levels of storage water tank.

Description

Quantitative drainage mechanism and gas-liquid separator

Technical Field

The utility model relates to a vapour and liquid separator technical field specifically is a ration drainage mechanism and vapour and liquid separator.

Background

The gas is often mixed with a certain amount of liquid for some reasons (such as condensation) during operation, and the liquid is unfavorable for the operation of a system using the gas and needs to be separated from the gas to achieve the purpose of secondary utilization of the gas.

In the prior art, a gas-liquid separator is generally adopted to separate liquid in gas, the liquid is collected through a water storage device, and an electromagnetic valve is adopted to drain water periodically.

However, if the gas contains more liquid, the electromagnetic valve is not opened timely under the condition that the liquid is stored fully before water in the liquid tank is extracted, so that the problem of untimely water drainage occurs, and water flows back into the pipeline due to untimely water drainage, so that the separation effect is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a ration drainage mechanism and vapour and liquid separator to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a quantitative drainage mechanism and a gas-liquid separator, the quantitative drainage mechanism and the gas-liquid separator comprising:

the water storage tank, the bottom connecting drain pipe of water storage tank, installation communicating pipe on the drain pipe, pass the subassembly that floats in the communicating pipe, the subassembly setting that floats is in the one end of connecting plate, and the other end of connecting plate is fixed on the valve, and the valve passes spherical bulge, and spherical bulge sets up on the drain pipe.

Preferably, the drain pipe is "L" venturi tube column structure, and the outer fixed surface installation supporting seat of drain pipe, supporting seat are "protruding" shape block column structure, and the tip of supporting seat sets up to circular-arc.

Preferably, the communicating pipe is transparent, and the surface is provided with the scale, and the subassembly that floats is "T" shape shaft-like structure, and the shaft shoulder outer lane of subassembly that floats is provided with seal ring, and the stock of subassembly that floats is the threaded rod, and the handle is installed to the subassembly tip that floats.

Preferably, the connecting plate is "Z" shaped plate column structure, and connecting plate threaded connection is on the threaded rod of subassembly that floats, and the valve is spherical structure, and connects a stock, and the connecting plate is fixed on the stock of valve, and the spheroid of valve sets up in the drain pipe.

Preferably, the installation box is fixed on the inner wall of the drain pipe and provided with two groups, and the two groups of installation boxes are arranged on two sides of the spherical bulge and are uniformly and symmetrically distributed relative to the spherical bulge.

Preferably, the fixed mounting sleeve passes in the sleeve and connects the movable rod on the inner wall of install bin, and the sleeve is provided with the sealing washer with the contact surface of movable rod, and the movable rod is "T" shape rod-like structure, and the spring is established to the cover in the movable rod, and the spring setting is close to spherical bellied one side at movable rod and sleeve.

Preferably, the one end fixed mounting of movable rod is on the dog, and the dog is the rectangle structure, and one end is provided with the fillet of inside excision, the fillet contact valve's of dog surface.

A gas-liquid separator comprises a gas-liquid separator body, wherein the quantitative drainage mechanism is arranged on the gas-liquid separator body.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a quantitative drainage mechanism and vapour and liquid separator can know the water storage state at the inside storage water tank of vapour and liquid separator body through communicating pipe of transparent material according to the principle of linker to when reacing a certain amount communicating pipe, can promote the subassembly that floats upwards, and then upwards drives the valve through the connecting plate, open the valve, discharge the water in the storage water tank, and can adjust the height of floating plate on the subassembly that floats through the threaded rod on the subassembly that floats, and then can discharge the water yield of the different water levels of storage water tank.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the quantitative drainage structure of the present invention;

FIG. 3 is a schematic sectional view of the quantitative drainage structure of the present invention;

fig. 4 is an enlarged schematic view of the structure at a in fig. 3.

In the figure: the gas-liquid separator comprises a gas-liquid separator body 1, a drain pipe 2, a supporting seat 3, a water storage tank 4, a spherical bulge 5, a communicating pipe 6, a floating assembly 7, a handle 8, a connecting plate 9, a valve 10, a stop block 11, a movable rod 12, a spring 13, a sleeve 14 and an installation box 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some embodiments of the invention and are not limiting of the invention, and that all other embodiments obtained by those of ordinary skill in the art without the exercise of inventive faculty are within the scope of the invention.

Example one

Please refer to fig. 2 to fig. 3 to provide a technical solution: a quantitative drainage mechanism and a gas-liquid separator, the quantitative drainage mechanism and the gas-liquid separator comprising: a water storage tank 4, wherein the bottom of the water storage tank 4 is connected with a drain pipe 2, a communicating pipe 6 is arranged on the drain pipe 2, a floating assembly 7 penetrates through the communicating pipe 6, the floating assembly 7 is arranged at one end of a connecting plate 9, the other end of the connecting plate 9 is fixed on a valve 10, the valve 10 penetrates through a spherical bulge 5, and the spherical bulge 5 is arranged on the drain pipe 2;

according to the principle of communicating vessel, can know the water storage state at the inside storage water tank 4 of vapour and liquid separator body 1 through communicating pipe 6 of transparent material to when communicating pipe 6 reachs a certain amount, can promote subassembly 7 that floats upwards, and then drive valve 10 upwards through connecting plate 9, open the valve, discharge the water in the storage water tank 4, and can adjust the height of subassembly 7 floating plate on floating through the threaded rod on the subassembly 7 that floats, and then can discharge the water yield of the different water levels of storage water tank 4.

Example two

As shown in fig. 1 and 4, on the basis of the first embodiment, in order to realize quantitative drainage of the gas-liquid separator, the drain pipe 2 is of an "L" shaped tubular structure, the outer surface of the drain pipe 2 is fixedly provided with the support seat 3, the support seat 3 is of a "convex" shaped block structure, the end part of the support seat 3 is arc-shaped, the communicating pipe 6 is of a transparent material, the surface of the communicating pipe is provided with scales, the floating component 7 is of a "T" shaped rod structure, the outer ring of the shaft shoulder of the floating component 7 is provided with a sealing gasket, the long rod of the floating component 7 is a threaded rod, the end part of the floating component 7 is provided with the handle 8, the connecting plate 9 is of a "Z" shaped plate structure, the connecting plate 9 is in threaded connection with the threaded rod of the floating component 7, the valve 10 is of a spherical structure and is connected with a long rod, the connecting plate 9 is fixed on the long rod of the valve 10, the ball body of the valve 10 is arranged in the drain pipe 2, the mounting box 15 is fixedly arranged on the inner wall of the drain pipe 2, two groups of mounting boxes 15 are arranged on the mounting box 15, the two groups of mounting boxes 15 are arranged on two sides of the spherical bulge 5 and are uniformly and symmetrically distributed relative to the spherical bulge 5, the sleeve 14 is fixedly arranged on the inner wall of the mounting box 15, the sleeve 14 is internally connected with the movable rod 12 in a penetrating manner, a sealing ring is arranged on a contact surface of the sleeve 14 and the movable rod 12, the movable rod 12 is in a T-shaped rod-shaped structure, the movable rod 12 is internally sleeved with the spring 13, the spring 13 is arranged on one side, close to the spherical bulge, of the movable rod 12 and the sleeve 14, one end of the movable rod 12 is fixedly arranged on the stop block 11, the stop block 11 is in a rectangular structure, one end of the stop block is provided with a fillet which is cut inwards, and the fillet of the stop block 11 is in contact with the surface of the valve 10;

the handle 8 is rotated to drive the floating assembly 7 to rotate in the connecting plate 9, the height of the floating plate of the floating assembly 7 in the communicating pipe 6 is adjusted to reach the water level in the water storage tank 4 to be discharged, when the water level in the water storage tank 4 reaches the discharged water amount, the water level in the communicating pipe 6 reaches the floating plate of the floating assembly 7, and when water is injected into the water storage tank, the water in the communicating pipe 6 pushes the floating assembly 7 upwards, the valve 10 is driven upwards through the connecting plate 9, the valve 10 upwards pushes the stop blocks 11 towards two sides, the movable rod 12 is driven to move towards two sides in the sleeve 14, the spring 13 is compressed, the valve 10 upwards enters the spherical bulge 5, and the water in the water storage tank 4 flows out through the water discharge pipe 2;

after the water level in the storage water tank descends, the floating assembly 7 descends, and then the valve 10 descends, and the two groups of check blocks 11 are clamped on the upper side of the valve 10 under the acting force of the spring 13 to place water flow to flow out.

When the water-saving water storage tank is actually used, the handle 8 is rotated to drive the floating assembly 7 to rotate in the connecting plate 9, the height of the floating plate of the floating assembly 7 in the communicating pipe 6 is adjusted to reach the water level in the water storage tank 4 to be discharged, when the water level in the water storage tank 4 reaches the discharged water amount, the water level in the communicating pipe 6 reaches the floating plate of the floating assembly 7, and then when water is injected into the water storage tank, the water in the communicating pipe 6 can push the floating assembly 7 upwards, so that the valve 10 is driven upwards through the connecting plate 9, the valve 10 upwards pushes the stop blocks 11 towards two sides, so that the movable rod 12 is driven to move towards two sides in the sleeve 14, the spring 13 is compressed, the valve 10 upwards enters the spherical bulge 5, and the water in the water storage tank 4 flows out through the water discharge pipe 2;

after the decline of the water level in the storage water tank, subassembly 7 that floats descended, and then valve 10 descends, and two sets of dog 11 are under spring 13's effort, and the card is in the upside of valve 10, place rivers and flow.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A quantitative drainage mechanism is characterized in that: the quantitative drainage mechanism comprises:

storage water tank (4), row water pipe (2) is connected to the bottom of storage water tank (4), installation communicating pipe (6) on drain pipe (2), pass unsteady subassembly (7) in communicating pipe (6), unsteady subassembly (7) set up the one end in connecting plate (9), the other end of connecting plate (9) is fixed on valve (10), valve (10) pass spherical arch (5), spherical arch (5) set up on drain pipe (2).

2. A metered dose drain mechanism as claimed in claim 1, wherein: the water discharging pipe (2) is of an L-shaped pipe-shaped structure, the supporting seat (3) is fixedly installed on the outer surface of the water discharging pipe (2), the supporting seat (3) is of a convex-shaped block-shaped structure, and the end portion of the supporting seat (3) is arc-shaped.

3. A quantitative drain mechanism as claimed in claim 2, wherein: communicating pipe (6) are transparent material, and the surface is provided with the scale, and floating assembly (7) are "T" shape shaft-like structure, and the shaft shoulder outer lane of floating assembly (7) is provided with seal ring, and the stock of floating assembly (7) is the threaded rod, and handle (8) are installed to floating assembly (7) tip.

4. A metered dose drain mechanism as claimed in claim 3, wherein: connecting plate (9) are "Z" shaped plate column structure, and connecting plate (9) threaded connection is on the threaded rod of subassembly (7) floats, and valve (10) are spherical structure, and connect a stock, and connecting plate (9) are fixed on the stock of valve (10), and the spheroid setting of valve (10) is in drain pipe (2).

5. A metered dose discharge mechanism as claimed in claim 4, wherein: the water draining pipe is characterized in that the mounting boxes (15) are fixedly arranged on the inner wall of the water draining pipe (2), the mounting boxes (15) are arranged in two groups, and the two groups of mounting boxes (15) are arranged on two sides of the spherical bulge (5) and are uniformly and symmetrically distributed relative to the spherical bulge (5).

6. A metered dose discharge mechanism as claimed in claim 5, wherein: fixed mounting sleeve (14) on the inner wall of install bin (15), pass in sleeve (14) and connect movable rod (12), the contact surface of sleeve (14) and movable rod (12) is provided with the sealing washer, and movable rod (12) are "T" shape rod-like structure, and spring (13) are established to the cover in movable rod (12), and spring (13) set up and are close to spherical bellied one side in movable rod (12) and sleeve (14).

7. A metered dose drain mechanism as claimed in claim 6, wherein: one end of the movable rod (12) is fixedly installed on the stop block (11), the stop block (11) is of a rectangular structure, a fillet which is cut inwards is arranged at one end of the stop block, and the fillet of the stop block (11) contacts with the surface of the valve (10).

8. A gas-liquid separator, characterized in that it comprises a gas-liquid separator body (1), the gas-liquid separator body (1) being fitted with a quantitative drainage mechanism as claimed in any one of claims 1 to 7.

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