CN219995037U - Gas storage container capable of discharging accumulated water inside - Google Patents

Abstract

The utility model discloses a gas storage container capable of discharging internal accumulated water, which comprises a container main body; a drain pipe group which is openably and closably connected to the container body, the drain pipe group including a first drain unit and a second drain unit which is normally in a closed state; the detection component is arranged on the drain pipe group, is positioned between the container main body and the water outlet of the first drain unit and is used for detecting accumulated water in the drain pipe group; the detection assembly detects water flow to control the first drainage unit to be started and stopped, and reacts when the accumulated water level of the first drainage unit is between the container main body and the detection assembly; therefore, the test operation required by personnel during inspection of the drainage pipeline is avoided, the workload is greatly reduced, the inspection times can be increased on the basis, the first drainage unit can be timely caused when the first drainage unit is blocked, the second drainage unit is started to drain, and unnecessary loss caused by returning condensed water to the container main body when the condensed water is excessively accumulated is effectively avoided.

Description

Gas storage container capable of discharging accumulated water inside

Technical Field

The utility model discloses the technical field of container main body drainage systems, in particular to a gas storage container capable of draining accumulated water in the container main body.

Background

At present, most of containers for storing gas are filled with gas through an air compressor, condensed water is formed in the containers after the gas is compressed, and excessive condensed water accumulated in the containers can generate corrosion which is easy to block a gas transmission pipeline so as to influence the subsequent gas transmission; the amount of condensed water generated by contact between the compressed gas and the inner wall of the container is large, manual drainage cannot accurately control drainage time, and operators forget to drain water easily, so that equipment damage is easy to cause, and unnecessary loss is generated.

The automatic drainage device is used in the air storage tank, an automatic drainage system is adopted, when accumulated water exists in a pipeline is detected, a drainage pipeline is automatically opened to drain water, otherwise, no accumulated water exists in the pipeline, the drainage pipeline is controlled to be closed, and accordingly the effect of timely draining condensed water in the air storage tank is achieved, and loss of the air storage tank and the air transmission pipeline can be effectively reduced under the condition that the automatic drainage system operates normally.

The existing automatic drainage system has the defects that the drainage pipeline adopted by the automatic drainage system is required to be manually maintained, so that when the drainage pipeline is blocked, the normal operation of the automatic drainage pipeline is ensured by manually maintaining the fault of the drainage system and removing the blockage, and more complicated test and technical operation are required for manually judging whether the drainage pipeline is blocked or not, so that the current inspection can be carried out only regularly by manual work, and the drainage pipeline cannot be found out in time when the drainage pipeline is blocked during the inspection, thereby causing accumulated water to continuously accumulate and return to the air storage tank, and further causing unnecessary loss to the air storage tank and the air transmission pipeline.

Disclosure of Invention

The utility model discloses a gas storage container capable of discharging internal accumulated water, which aims to solve the technical problem that the accumulated water condition of a drain pipe group is monitored in real time and corresponding reaction is continuously carried out on the basis of opening and closing a water flow control pipeline by arranging a detection assembly on the drain pipe group; meanwhile, the drain pipe group is also provided with a second drain unit serving as a standby drain pipeline, so that the normal drainage of the drain pipe group is not affected when the fault of the drain pipe group is eliminated.

In order to solve the above-mentioned technical problems, an embodiment of the present disclosure provides a gas storage container capable of discharging accumulated water inside, including a container body for storing gas; a drain pipe group which is openably and closably connected to the container body, the drain pipe group including a first drain unit and a second drain unit which is normally in a closed state; the detection component is arranged on the drain pipe group, is positioned between the container main body and the water outlet of the first drain unit and is used for detecting accumulated water in the drain pipe group; wherein, the detection component detects water flow and controls the first drainage unit to be opened and closed, and reacts when the accumulated water level is between the container main body and the detection component.

In some embodiments, the drain tube set further comprises a third drain unit; the first drainage unit and the second drainage unit are connected with the container main body through the third drainage unit; the third water discharge unit is provided with a first upper limit water level through a detection assembly.

In some embodiments, the detection assembly includes a liquid level sensor; the liquid level sensor is mounted on the third water discharge unit to form a first upper limit water level on the third water discharge unit.

In some embodiments, the detection assembly includes an on-off assembly mounted on the first drain unit; the opening and closing assembly comprises a first opening and closing piece and a controller, and the controller is positioned on one side of the first opening and closing piece, which is far away from the water outlet of the first water draining unit.

In some embodiments, the controller has a water storage space, and a float for controlling the first shutter and a second upper limit water level are provided in the water storage space.

In some embodiments, a second drain section which can be controlled to open and close is arranged on the third drain unit, and the second drain section is positioned between the container main body and the liquid level sensor.

In some embodiments, the first water draining unit is provided with a first water draining section capable of controlling opening and closing, and the first water draining section is located between the third water draining unit and the opening and closing assembly.

In some embodiments, a filter is also provided on the first drainage unit.

In some embodiments, the filter is positioned in a direction of an end of the first drain section proximate the on-off assembly.

In some embodiments, the drain pipe group is composed of a main drain pipe and first and second branch drain pipes connected to the main drain pipe, respectively; the first branch drain pipe and the second branch drain pipe are connected with the container main body through the main drain pipe.

According to the technical scheme, the detection assembly is arranged in the drain pipe group and can realize automatic drainage by controlling the opening and closing of the drain pipe group through water flow, and the detection assembly is used for monitoring the water accumulation condition in the drain pipe group in real time and making corresponding reactions, so that when people patrol the drain pipe group, whether the drain pipe group is blocked is clear at a glance, the workload of patrol personnel can be reduced without carrying out complicated test operation, the patrol density is increased, and unnecessary losses caused by incapability of timely finding out when the drain pipe group is blocked are avoided; and the second drainage unit in the drainage pipe group is used as a standby drainage pipeline, when the first drainage unit is blocked, the second drainage unit is started so as to drain accumulated water in time, thereby avoiding missing effective drainage time when the first drainage unit is overhauled.

Drawings

In order to more clearly illustrate the disclosed embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present disclosure, and other drawings may be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is a schematic view showing a structure of a gas container capable of discharging accumulated water inside according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a container body;

2. a drain pipe group; 21. a main drain pipe; 211. a second opening and closing member; 22. a first branched drain pipe; 221. a third opening and closing member; 23. a second branch drain pipe; 231. a fourth opening and closing member;

3. an opening and closing assembly; 31. a first opening and closing member; 32. a controller;

4. a liquid level sensor;

5. and (3) a filter.

Detailed Description

Embodiments of the present disclosure are described in further detail below with reference to the accompanying drawings and examples. The following detailed description of the embodiments and the accompanying drawings are provided to illustrate the principles of the present disclosure and are not intended to limit the scope of the disclosure, which may be embodied in many different forms, not limited to the specific embodiments disclosed herein, but rather to include all technical solutions falling within the scope of the claims.

The present disclosure provides these embodiments in order to make the disclosure thorough and complete, and to fully convey the scope of the disclosure to those skilled in the art. It should be noted that: the relative arrangement of parts and steps, the composition of materials, numerical expressions and numerical values set forth in these embodiments should be construed as exemplary only and not limiting unless otherwise specifically stated.

In the description of the present disclosure, unless otherwise indicated, the meaning of "plurality" is greater than or equal to two; the terms "upper," "lower," "left," "right," "inner," "outer," and the like are merely used for convenience in describing the present disclosure and to simplify the description, and do not denote or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present disclosure. When the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

Furthermore, the use of the terms first, second, and the like in the present disclosure do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The "vertical" is not strictly vertical but is within the allowable error range. "parallel" is not strictly parallel but is within the tolerance of the error. The word "comprising" or "comprises" and the like means that elements preceding the word encompass the elements recited after the word, and not exclude the possibility of also encompassing other elements.

It should also be noted that, in the description of the present disclosure, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the present disclosure may be understood as appropriate by those of ordinary skill in the art. When a particular device is described as being located between a first device and a second device, there may or may not be an intervening device between the particular device and either the first device or the second device.

All terms used in the present disclosure have the same meaning as those of ordinary skill in the art to which the present disclosure pertains, unless specifically defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but where appropriate, the techniques, methods, and apparatus should be considered part of the specification.

Referring to fig. 1, the present utility model provides a gas storage container capable of discharging accumulated water inside, which mainly includes a container body 1 for storing gas; a drain pipe group 2 openably and closably connected to the container body 1, the drain pipe group including a first drain unit and a second drain unit in a normally closed state; the detection component is arranged on the drain pipe group 2, is positioned between the container main body 1 and the water outlet of the first drain unit and is used for detecting accumulated water in the drain pipe group 2; wherein, the detection component detects water flow to control the opening and closing of the first water discharge unit, and reacts when the accumulated water level is between the container main body 1 and the detection component.

With the above structure, the drain pipe group 2 is openably and closably connected to the bottom of the container body 1 for draining condensed water in the container body 1, the drain pipe group 2 includes a first drain unit and a second drain unit, the first drain unit serves as an automatic drain line, and the second drain unit serves as a standby drain line; the detection component controls the opening and closing of the first drainage unit through water flow detection on one hand so as to realize automatic drainage of accumulated water in the container main body 1, and on the other hand can monitor the accumulated water amount in the drainage pipe group 2 in real time and make corresponding reactions, so that test operation required by personnel in inspection of the drainage pipe group 2 is avoided, workload is greatly reduced, inspection times can be increased on the basis, the first drainage unit can be timely caused when the first drainage unit is blocked, the second drainage unit is started to drain water, and unnecessary loss caused by returning of condensed water to the container main body 1 when excessive accumulation is effectively avoided.

In some embodiments, the drain tube group 2 further comprises a third drain unit; the first drainage unit and the second drainage unit are connected with the container main body 1 through a third drainage unit; the third water discharge unit is provided with a first upper limit water level through a detection assembly.

By adopting the structure, the first drainage unit and the second drainage unit are connected with the container main body 1 through the third drainage unit, when the first drainage unit is blocked, accumulated water is preferentially accumulated in the first drainage unit and the second drainage unit because the second drainage unit is in a closed state, so that the time for returning the accumulated water to the container main body 1 can be slowed down, and meanwhile, when the accumulated water level reaches or exceeds the first upper limit water level on the third drainage unit, the detection assembly performs corresponding reaction, and the blocking phenomenon is generated in the first drainage unit, so that inspection personnel can find out in time.

In some embodiments, the detection assembly comprises a liquid level sensor 4; the liquid level sensor 4 is mounted on the third water discharge unit to form a first upper limit water level on the third water discharge unit.

By adopting the structure, the liquid level sensor 4 is preferably used, so that the ponding condition in the third water discharge unit can be accurately detected, and corresponding reactions can be made, thereby realizing real-time detection of the first water discharge unit, and enabling a patrol inspector to clearly know whether the first water discharge unit has a blockage fault or not.

In some embodiments, the detection assembly comprises an on-off assembly 3 mounted on the first drain unit; the opening and closing assembly 3 comprises a first opening and closing member 31 and a controller 32, wherein the controller 32 is positioned on one side of the first opening and closing member 31 away from the water outlet of the first water discharge unit.

By adopting the structure, the controller 32 judges whether the first opening and closing member 31 needs to be opened or closed through water flow, the third drainage unit drains the condensed water in the container main body 1 into the first drainage unit, the controller 32 is preferentially used, and when the accumulated water flow reaches the flow set by the controller 32, the first opening and closing member 31 is controlled to be opened to drain the accumulated water, so that the automatic drainage function of the first drainage unit is realized.

In some embodiments, the controller 32 has a water storage space, and a float for controlling the first shutter 31 and a second upper limit water level are provided in the water storage space.

With the adoption of the structure, the water storage space is used for accumulating condensed water flowing into the first water discharge unit, the float can move up and down in the water storage space through the buoyancy of the water, when the float reaches the second upper limit water level in the water storage space, the first opening and closing member 31 is triggered to open so as to discharge accumulated water in the first water discharge unit, and when the accumulated water in the first water discharge unit is emptied, the first opening and closing member 31 is automatically closed so as not to cause excessive leakage of gas in the container main body 1, so that the opening or closing of the opening and closing assembly 3 is controlled through water flow; it should be noted that the opening and closing assembly 3 is preferably a float drain valve, and other valves capable of automatically draining water can be selected and used, which are all within the protection scope of the present utility model.

In some embodiments, the third water discharging unit is provided with a second water discharging section capable of controlling opening and closing, and the second water discharging section is positioned between the container main body 1 and the liquid level sensor 4.

With the above structure, when the liquid level sensor 4 is used for a period of time, calibration and replacement are required, and when the liquid level sensor 4 is dismounted, the whole drain pipe group 2 is prevented from being dismounted, so that the second drain pipe section is arranged on the third drain unit, and when the second drain pipe section is closed, the container main body 1 is blocked from draining accumulated water or gas into the drain pipe group 2, so that the dismounting work of the liquid level sensor 4 can be completed without dismounting the drain pipe group 2; specifically, the second opening and closing member 211 is provided on the second drain section, so that the flow of the gas or liquid in the container body 1 to the drain pipe group 2 outside the second drain section is blocked.

In some embodiments, the first water discharging unit is provided with a first water discharging section capable of controlling opening and closing, and the first water discharging section is positioned between the third water discharging unit and the opening and closing assembly 3.

By adopting the structure, when the plug in the first drainage unit is cleaned, the opening and closing assembly 3 is required to be replaced or maintained or the first drainage unit is dredged, the opening and closing assembly 3 is required to be removed, and in order to avoid uncontrolled unloading of gas or liquid in the container main body 1, the first drainage section is arranged on the first drainage unit, so that when the opening and closing assembly 3 is removed, the first drainage section is actively closed, the second drainage unit is manually opened for drainage, namely, under the condition that normal drainage is not influenced, the second drainage unit is overhauled, and the phenomenon that uncontrolled leakage of gas or liquid influences normal operation of storage and overhaul of the container main body 1 is avoided; specifically, the first drain section is provided with a third opening and closing member 221, which can block the flow of gas or liquid in the container body 1 to the end of the first drain unit removal opening and closing assembly 3.

In some embodiments, a filter 5 is also provided on the first drainage unit.

By adopting the structure, the filter 5 is used for filtering impurities in accumulated water so as to reduce the blocking times of the first drainage unit, the filter 5 is provided with an impurity storage space, so that the filtered impurities are prevented from being directly blocked on a water conveying channel of the filter 5, the impurity storage space is provided with the sealing cover which can be twisted to be opened, and when the impurities in the impurity storage space need to be cleaned regularly, the sealing cover is detached to perform cleaning operation.

In some embodiments, the filter 5 is located in the direction of the first drain section near the end of the on-off assembly 3.

By adopting the structure, the gas or liquid in the container main body 1 can be prevented from unloading when the filter 5 is cleaned, and the gas or liquid can be blocked from continuously flowing into the first drainage section after the third opening and closing part 221 is closed, so that the cleaning operation of the filter 5 can be smoothly completed, and the third opening and closing part 221 is actively opened after the cleaning is completed, so that the first drainage unit for automatically draining water can normally operate.

In some embodiments, the drain pipe group 2 is composed of a main drain pipe 21 and first and second branch drain pipes 22 and 23 respectively connected to the main drain pipe 21; the first and second branch drain pipes 22 and 23 are connected to the container body 1 through the main drain pipe 21.

With the above structure, the third drain unit is the main drain pipe 21; the first drainage unit is a first branch drainage pipe 22, and the second drainage unit is a second branch drainage pipe 23; specifically, the main drain pipe 21 serves as a main force water pipe for conveying the accumulated water in the container body 1 to the drain pipe group 2, so that the liquid level sensor 4 is arranged on the main drain pipe 21 to form a first upper limit water level, namely, the accumulated water can be preferentially accumulated in the first branch drain pipe 22 and the second branch drain pipe 23, and the time for returning the accumulated water back to the container body 1 is reduced; the first branch drain pipe 22 is provided with an opening and closing component 3 which is used as an automatic drain pipe; the second branch drain pipe 23 is provided with a fourth opening/closing member 231 which is manually opened/closed as a spare drain pipe so that the drain operation of the container body 1 can be completed through the second branch drain pipe 23 when the first branch drain pipe 22 is clogged.

Thus, various embodiments of the present disclosure have been described in detail. In order to avoid obscuring the concepts of the present disclosure, some details known in the art are not described. How to implement the solutions disclosed herein will be fully apparent to those skilled in the art from the above description.

Although certain specific embodiments of the present disclosure have been described in detail by way of example, it will be appreciated by those skilled in the art that the foregoing examples are for illustration only and are not intended to limit the scope of the present disclosure. It will be understood by those skilled in the art that the foregoing embodiments may be modified and equivalents substituted for elements thereof without departing from the scope and spirit of the disclosure. In particular, the technical features mentioned in the respective embodiments may be combined in any manner as long as there is no structural conflict.

Claims (10)

1. A gas storage container capable of discharging accumulated water inside, comprising:

a container body (1) for storing a gas;

a drain pipe group (2) which is openably and closably connected to the container body (1), the drain pipe group including a first drain unit and a second drain unit which is normally in a closed state; and

the detection component is arranged on the drain pipe group (2), is positioned between the container main body (1) and the water outlet of the first drain unit and is used for detecting accumulated water in the drain pipe group (2);

wherein the detection assembly detects water flow to control the opening and closing of the first water discharge unit and reacts when the accumulated water level thereof is between the container body (1) and the detection assembly.

2. The gas storage container capable of discharging accumulated water inside according to claim 1,

the drain pipe group (2) further comprises a third drain unit;

the first drainage unit and the second drainage unit are connected with the container main body (1) through the third drainage unit;

the third water discharge unit is provided with a first upper limit water level through the detection assembly.

3. The gas storage container capable of discharging accumulated water inside according to claim 2,

the detection assembly comprises a liquid level sensor (4);

the liquid level sensor (4) is mounted on the third water discharge unit to form the first upper limit water level on the third water discharge unit.

4. The gas storage container capable of discharging accumulated water inside according to claim 2,

the detection assembly comprises an opening and closing assembly (3) arranged on the first drainage unit;

the opening and closing assembly (3) comprises a first opening and closing piece (31) and a controller (32), and the controller (32) is located on one side, away from the water outlet of the first drainage unit, of the first opening and closing piece (31).

5. The gas storage container capable of discharging accumulated water inside according to claim 4,

the controller (32) is provided with a water storage space, and a float for controlling the first opening and closing member (31) and a second upper limit water level are arranged in the water storage space.

6. A gas storage container capable of discharging accumulated water therein as claimed in claim 3,

the third water draining unit is provided with a second water draining section capable of controlling opening and closing, and the second water draining section is positioned between the container main body (1) and the liquid level sensor (4).

7. The gas storage container capable of discharging accumulated water inside according to claim 4,

the first drainage unit is provided with a first drainage section capable of controlling opening and closing, and the first drainage section is positioned between the third drainage unit and the opening and closing assembly (3).

8. The gas storage container capable of discharging accumulated water inside according to claim 7,

the first water discharge unit is also provided with a filter (5).

9. The gas storage container capable of discharging accumulated water inside according to claim 8,

the filter (5) is positioned at the first water discharge section in the direction close to one end of the opening and closing assembly (3).

10. The gas storage container capable of discharging accumulated water inside according to claim 2,

the drain pipe group (2) is composed of a main drain pipe (21), a first branch drain pipe (22) and a second branch drain pipe (23) which are respectively connected with the main drain pipe (21);

the first branch drain pipe (22) and the second branch drain pipe (23) are connected with the container main body (1) through the main drain pipe (21).