CN217770801U - Air-water separator for ventilation and drainage of anchoring lawn in professional football field - Google Patents

Abstract

The utility model provides an air-water separator for professional football court anchor lawn ventilation drainage, which comprises a bod, the geomantic omen advances the pipe, the exhaust column, first drainage pipe and first liquid conveyor, the organism is including closed shell and inner chamber, the inner chamber is located closed shell, the one end that geomantic omen advances the pipe is connected closed shell and is led to the inner chamber, the other end is located closed shell outer and is used for connecting anchor lawn's ventilation drainage person in charge, closed shell and intercommunication inner chamber are connected to the one end of exhaust column, the other end is located closed shell outer and is used for the vacuum pump, first liquid conveyor sets up in the inner chamber and connects the one end of first drainage pipe, the other end of first drainage pipe wears to establish closed shell and exposes and is responsible for outside closed shell and is used for connecting anchor lawn's first drainage. The utility model discloses can satisfy the demand of the drainage of ventilating among the anchor lawn maintenance process, make things convenient for professional football court anchor lawn maintenance, design benefit, the structure is succinct, makes portably, and is with low costs, is suitable for extensive popularization and application.

Description

Air-water separator for ventilation and drainage of anchoring lawn in professional football field

Technical Field

The utility model relates to a building engineering technical field, in particular to professional football court anchor lawn construction and maintenance technical field specifically indicate an air water separator that is used for professional football court anchor lawn to ventilate drainage.

Background

The building engineering is an engineering entity which performs various technical works and completions such as planning, surveying, designing, constructing, completing and the like for newly building, reconstructing or extending building buildings and affiliated structures and installation engineering of lines, pipelines and equipment matched with the engineering entity.

In the process of maintaining the anchoring lawn of the professional football court, the anchoring lawn needs to be ventilated and drained, so that in the process of constructing the anchoring lawn of the professional football court, ventilation and drainage facilities need to be installed on the anchoring lawn. The traditional gas-water separator can separate gas from liquid, has the characteristics of high water removal efficiency, small volume and the like, and is widely applied to the separation of gas from liquid in an industrial liquid-containing system. But traditional deareator had both can't satisfy the demand of the anchor lawn maintenance in-process ventilation drainage, did not possess the characteristics of intelligence drainage yet simultaneously.

Therefore, it is desirable to provide a gas-water separator for ventilation and drainage of a professional football court anchoring lawn, which can meet the requirements of ventilation and drainage in the maintenance process of the anchoring lawn, is convenient for maintenance of the professional football court anchoring lawn, and preferably has the characteristics of intelligent drainage, saves the use and maintenance cost, and reduces the risk of damage to related equipment caused by improper manual operation.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming in the prior art, an object of the utility model is to provide an air-water separator for professional football court anchor lawn ventilation drainage, it can satisfy the demand of ventilation drainage among the anchor lawn maintenance process, makes things convenient for professional football court anchor lawn maintenance, is suitable for extensive popularization and application.

Another object of the utility model is to provide a gas-water separator for professional football court anchor lawn ventilation drainage, it still possesses the characteristics of intelligence drainage, practices thrift and uses and the maintenance cost, reduces because of the risk that the manual misoperation caused relevant equipment to damage, is suitable for extensive popularization and application.

Another object of the utility model is to provide a gas-water separator for professional football court anchor lawn ventilation drainage, its design benefit, the structure is succinct, makes portably, and is with low costs, is suitable for extensive popularization and application.

In order to achieve the above object, the utility model provides an air-water separator for professional football court anchor lawn ventilation drainage which its characteristics are, advance pipe, exhaust column, first drainage pipe and first liquid conveyor including organism, geomantic omen, wherein:

the organism is including closed shell and inner chamber, the inner chamber is located in the closed shell, the one end that the tuber water advances the pipe is connected closed shell and intercommunication the inner chamber, the other end that the tuber water advances the pipe is located the outer ventilation drainage person in charge that is used for connecting the anchor lawn of closed shell, the one end of exhaust column is connected closed shell and intercommunication the inner chamber, the other end of exhaust column is located the outer vacuum pump that is used for connecting of closed shell, first liquid conveyor sets up in the inner chamber and connect the one end of first blast pipe, the other end of first blast pipe is worn to establish closed shell and exposed the closed shell is outer and be used for connecting the first drainage person in charge on anchor lawn.

Preferably, the first liquid delivery means is a submersible pump.

Preferably, the closed housing and the inner cavity are both cubical.

Preferably, the closed housing includes an outer shell and an inner shell, the outer shell covers the inner shell, the inner cavity is located in the inner shell, one end of the air/water inlet pipe is connected to the outer shell and the inner shell, the other end of the air/water inlet pipe is located outside the outer shell, one end of the exhaust pipe is connected to the outer shell and the inner shell, the other end of the exhaust pipe is located outside the outer shell, and the other end of the first water discharge pipe penetrates through the inner shell and the outer shell and is exposed outside the outer shell.

More preferably, the outer shell is a concrete shell.

More preferably, the inner shell is an alloy shell.

Preferably, the air-water separator for ventilation and drainage of the anchoring lawn in the professional football court further comprises a first water level detection device, the first water level detection device is located in the inner cavity and arranged on the side wall of the inner cavity, the first water level detection device is used for detecting a first water level in the inner cavity, the first water level detection device is in signal connection with the first liquid conveying device and is used for sending a detected first water level signal to the first liquid conveying device, and the first liquid conveying device is used for starting operation according to the received first water level signal.

More preferably, the first water level detecting means is a water level sensor.

Preferably, the air-water separator for ventilation and drainage of the anchoring lawn in the professional football field further comprises a second water level detection device, a second drain pipe, a second liquid conveying device, a third drain pipe and a third liquid conveying device, wherein the second liquid conveying device is arranged in the inner cavity and connected with one end of the second drain pipe, the other end of the second drain pipe penetrates through the closed shell, is exposed outside the closed shell and is used for connecting with a second main drain pipe of the anchoring lawn, the third liquid conveying device is arranged in the inner cavity and is connected with one end of the third drain pipe, the other end of the third drain pipe penetrates through the closed shell, is exposed outside the closed shell and is used for connecting with a third main drain pipe of the anchoring lawn, the second water level detection device is arranged in the inner cavity and is arranged on the side wall of the inner cavity and is higher than the first water level detection device, the second water level detection device is used for detecting the second water level in the inner cavity, the second water level detection device is respectively in signal connection with the second liquid conveying device, and the third liquid conveying device is used for respectively sending a signal to the second liquid conveying device and the second liquid conveying device according to the signal.

Furthermore, the air-water separator for ventilation and drainage of the anchoring lawn in the professional football field further comprises a third water level detection device, a fourth drain pipe and a fourth liquid conveying device, wherein the fourth liquid conveying device is arranged in the inner cavity and connected with one end of the fourth drain pipe, the other end of the fourth drain pipe penetrates through the closed shell, is exposed outside the closed shell and is used for being connected with a fourth main drain pipe of the anchoring lawn, the third water level detection device is positioned in the inner cavity, is arranged on the side wall of the inner cavity and is higher than the second water level detection device, the third water level detection device is used for detecting a third water level in the inner cavity, the third water level detection device is in signal connection with the fourth liquid conveying device and is used for sending a detected third water level signal to the fourth liquid conveying device, and the fourth liquid conveying device is used for starting working according to the received third water level signal.

The beneficial effects of the utility model mainly lie in:

1. the utility model discloses an air-water separator for professional football court anchor lawn ventilation drainage includes the organism, the geomantic omen advances the pipe, the exhaust column, first drainage pipe and first liquid conveyor, the organism is including closed shell and inner chamber, the inner chamber is located closed shell, the geomantic omen advances the one end of pipe and connects closed shell and intercommunication inner chamber, the geomantic omen advances the other end of pipe and is located closed shell outside and is used for connecting the ventilation drainage in anchor lawn and be responsible for, closed shell and intercommunication inner chamber are connected to the one end of exhaust column, the other end of exhaust column is located closed shell outside and is used for the vacuum pump, first liquid conveyor sets up in the inner chamber and connects the one end of first drainage pipe, the other end of first drainage pipe is worn to establish closed shell and is exposed outside closed shell and is used for connecting the first drainage of anchor lawn and is responsible for, therefore, it can satisfy the demand of ventilation drainage in the anchor lawn maintenance lawn, make things convenient for professional football court anchor lawn, be suitable for extensive popularization and application.

2. The utility model discloses an air-water separator for professional football court anchor lawn ventilation drainage still includes first water level detection device, first water level detection device is located the inner chamber and sets up on the lateral wall of inner chamber, first water level detection device is arranged in detecting the first water level in the inner chamber, first water level detection device signal connection first liquid conveyor is used for sending the first water level signal that detects for first liquid conveyor, first liquid conveyor is used for starting work according to received first water level signal, therefore, it still possesses the characteristics of intelligence drainage water, use and maintenance cost are practiced thrift, reduce the risk that causes relevant equipment to damage because of the people is the operator, be suitable for extensive popularization and application.

3. The utility model discloses an air-water separator for professional football court anchor lawn ventilation drainage includes the organism, the geomantic omen advances the pipe, the exhaust column, first drainage pipe and first liquid conveyor, the organism includes closed shell and inner chamber, the inner chamber is located closed shell, the geomantic omen advances the one end of pipe and connects closed shell and intercommunication inner chamber, the geomantic omen advances the other end of pipe and is located closed shell outside and is used for connecting anchor lawn's ventilation drainage person in charge, closed shell and intercommunication inner chamber are connected to the one end of exhaust column, the other end of exhaust column is located closed shell outside and is used for the vacuum pump, first liquid conveyor sets up in the inner chamber and connects the one end of first drainage pipe, the other end of first drainage pipe wears to establish closed shell and exposes outside closed shell and is used for connecting anchor lawn's first drainage person in charge, therefore, the design benefit, the structure is succinct, the manufacture is simple and convenient, low cost, be suitable for extensive popularization and application.

These and other objects, features and advantages of the present invention will be fully apparent from the following detailed description and appended drawings, and may be realized by means of the instrumentalities, devices and combinations particularly pointed out in the specification.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the air-water separator for ventilation and drainage of the anchored lawn in the professional football field.

Fig. 2 is a schematic top view of the embodiment shown in fig. 1.

Fig. 3 is a schematic right-view of the embodiment shown in fig. 1.

Fig. 4 is a schematic front view of the embodiment shown in fig. 1.

Fig. 5 isbase:Sub>A schematic cross-sectional view at the positionbase:Sub>A-base:Sub>A in fig. 4.

(symbol description)

1, a machine body; 2, wind and water inlet pipe; 3, an exhaust pipe; 4 a first drain pipe; 5 a first liquid delivery device; 6 closing the housing; 7, an inner cavity; 8, an outer shell; 9 an inner shell; 10 a first water level detecting means; 11 a second water level detection device; 12 a second drain pipe; 13 second liquid delivery means; 14 a third water discharge pipe; 15 a third liquid delivery device; 16 a third water level detection device; 17 a fourth drain pipe; 18 fourth liquid delivery means.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following embodiments are specifically illustrated in detail.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, the air-water separator for ventilation and drainage of a professional football field anchoring lawn comprises a body 1, an air-water inlet pipe 2, an air exhaust pipe 3, a first drainage pipe 4 and a first liquid delivery device 5, wherein:

organism 1 is including closed shell 6 and inner chamber 7, inner chamber 7 is located in closed shell 6, the one end that the tuber pipe 2 was advanced to the geomantic omen is connected closed shell 6 and intercommunication inner chamber 7, the other end that the tuber pipe 2 was advanced to the geomantic omen is located the outer ventilation drainage who is used for connecting the anchor lawn of closed shell 6 is responsible for, the one end of exhaust column 3 is connected closed shell 6 and intercommunication inner chamber 7, the other end of exhaust column 3 is located the outer vacuum pump that is used for connecting of closed shell 6, first liquid conveyor 5 sets up in the inner chamber 7 and connect the one end of first drain pipe 4, the other end of first drain pipe 4 is worn to establish closed shell 6 and exposed the outer and be used for connecting of closed shell 6 the first drain on anchor lawn is responsible for.

The first liquid delivery device 5 may be any suitable liquid delivery device, and in a specific embodiment of the present invention, the first liquid delivery device 5 is a submersible pump.

The first liquid delivery device 5 is disposed in the inner cavity 7, and can be disposed at any suitable position of the inner cavity 7, please refer to fig. 5, in an embodiment of the present invention, the first liquid delivery device 5 is disposed on the bottom of the inner cavity 7.

The closed housing 6 and the inner cavity 7 may have any suitable shape, see fig. 1-5. In an embodiment of the invention, the closed housing 6 and the inner cavity 7 are both cubic.

The one end that the tuber pipe 2 was advanced to geomantic omen is connected close shell 6, can connect close shell 6's any suitable position, the one end of exhaust column 3 is connected close shell 6 can be connected close shell 6's any suitable position, the other end of first blast pipe 4 is worn to establish close shell 6 can be worn to establish close shell 6's any suitable position, preferably, geomantic omen advance the one end of pipe 2 with the one end of exhaust column 3 all connect close shell 6's lateral wall, the other end of first blast pipe 4 wear to establish close shell 6's lateral wall. Preferably, one end of the air and water inlet pipe 2 and one end of the exhaust pipe 3 are both connected to the upper part of the side wall of the closed shell 6, and the other end of the first water discharge pipe 4 penetrates through the upper part of the side wall of the closed shell 6. Referring to fig. 1 to 5, in an embodiment of the present invention, when the closed housing 6 and the inner cavity 7 are both cubic, one end of the air/water inlet pipe 2 is connected to an upper portion of a rear sidewall of the closed housing 6, one end of the exhaust pipe 3 is connected to an upper portion of a right sidewall of the closed housing 6, and the other end of the first drainage pipe 4 penetrates through an upper portion of a left sidewall of the closed housing 6.

The one end that advances pipe 2 of geomantic omen can be higher than the one end of exhaust column 3, also can be not be higher than the one end of exhaust column 3, the other end of first blow off pipe 4 with the one end of exhaust column 3 equal height, also can not be equal high, please refer to fig. 1, fig. 3 ~ 4 show, in a specific embodiment of the utility model, geomantic omen advance the one end of pipe 2 be higher than the one end of exhaust column 3, the other end of first blow off pipe 4 with the one end of exhaust column 3 equal height.

The number of the air and water inlet pipes 2 can be determined according to needs, preferably, the number of the air and water inlet pipes 2 is 2, and the 2 air and water inlet pipes 2 are horizontally arranged at intervals. Referring to fig. 1 to 5, in an embodiment of the present invention, when one end of the wind and water inlet pipe 2 is connected to an upper portion of a rear sidewall of the closed housing 6, 2 wind and water inlet pipes 2 are all arranged along a front-rear direction and are spaced from each other along a left-right direction.

The closed shell 6 may have any suitable structure, please refer to fig. 1 to 5, in a specific embodiment of the present invention, the closed shell 6 includes an outer shell 8 and an inner shell 9, the outer shell 8 is coated outside the inner shell 9, the inner cavity 7 is located inside the inner shell 9, one end of the air/water inlet pipe 2 is connected to the outer shell 8 and the inner shell 9, the other end of the air/water inlet pipe 2 is located outside the outer shell 8, one end of the exhaust pipe 3 is connected to the outer shell 8 and the inner shell 9, the other end of the exhaust pipe 3 is located outside the outer shell 8, and the other end of the first drainage pipe 4 penetrates through the inner shell 9 and the outer shell 8 and is exposed outside the outer shell 8.

The outer shell 8 may be made of any suitable material, and in an embodiment of the present invention, the outer shell 8 is a concrete shell.

The inner shell 9 may be made of any suitable material, and in a specific embodiment of the present invention, the inner shell 9 is an alloy shell.

A deareator for professional football court anchor lawn ventilation drainage can also include other any suitable constitutions, please see fig. 5, in a specific embodiment of the utility model, a deareator for professional football court anchor lawn ventilation drainage still include first water level detection device 10, first water level detection device 10 is located in the inner chamber 7 and set up on the lateral wall of inner chamber 7, first water level detection device 10 is used for detecting first water level in the inner chamber 7, first water level detection device 10 signal connection first liquid conveyor 5 is used for sending the first water level signal that detects to first liquid conveyor 5, first liquid conveyor 5 is used for according to the receipt first water level signal start-up work.

The first water level detecting device 10 may be any suitable water level detecting device, and in an embodiment of the present invention, the first water level detecting device 10 is a water level sensor.

The air-water separator for the ventilation and drainage of the anchoring lawn in the professional football field can also comprise any other suitable components, as shown in figures 1-2 and 5, in a specific embodiment of the present invention, the air-water separator for ventilation and drainage of the anchoring lawn in the professional football field further comprises a second water level detecting device 11, a second water discharging pipe 12, a second liquid conveying device 13, a third water discharging pipe 14 and a third liquid conveying device 15, the second liquid conveying device 13 is arranged in the inner cavity 7 and is connected with one end of the second water discharge pipe 12, the other end of the second water discharge pipe 12 penetrates through the closed shell 6, is exposed outside the closed shell 6 and is used for connecting a second water discharge main pipe for anchoring the lawn, the third fluid delivery means 15 is arranged in the inner chamber 7 and is connected to one end of the third drain pipe 14, the other end of the third water discharge pipe 14 penetrates through the closed shell 6, is exposed outside the closed shell 6 and is used for connecting a third water discharge main pipe for anchoring the lawn, the second water level detection device 11 is positioned in the inner cavity 7 and is arranged on the side wall of the inner cavity 7 and is higher than the first water level detection device 10, the second water level detecting device 11 is used for detecting a second water level in the inner cavity 7, the second water level detecting device 11 is respectively in signal connection with the second liquid conveying device 13 and the third liquid conveying device 15 and is used for respectively sending detected second water level signals to the second liquid conveying device 13 and the third liquid conveying device 15, and the second liquid conveying device 13 and the third liquid conveying device 15 are both used for starting to work according to the received second water level signal.

The second liquid delivery device 13 and the third liquid delivery device 15 may be any suitable liquid delivery device, in a specific embodiment of the present invention, the second liquid delivery device 13 and the third liquid delivery device 15 are submersible pumps.

The second liquid delivery device 13 is disposed in the inner cavity 7, and can be disposed at any suitable position of the inner cavity 7, and the third liquid delivery device 15 is disposed in the inner cavity 7, and can be disposed at any suitable position of the inner cavity 7, please refer to fig. 5, in an embodiment of the present invention, the second liquid delivery device 13 and the third liquid delivery device 15 are both disposed on the bottom of the inner cavity 7.

The other end of the second water drainage pipe 12 penetrates through the closed shell 6 and can penetrate through any suitable position of the closed shell 6, the other end of the third water drainage pipe 14 penetrates through the closed shell 6 and can penetrate through any suitable position of the closed shell 6, and further, the other end of the second water drainage pipe 12 and the other end of the third water drainage pipe 14 penetrate through the side wall of the closed shell 6. Particularly preferably, the other end of the second drain pipe 12 and the other end of the third drain pipe 14 penetrate through the upper portion of the side wall of the closed housing 6. Referring to fig. 1 to 2 and 5, in an embodiment of the present invention, when the closed housing 6 and the inner cavity 7 are both cubic, the other end of the second drainage pipe 12 and the other end of the third drainage pipe 14 penetrate through the upper portion of the left side wall of the closed housing 6.

The other end of the second drainage pipe 12 and the other end of the third drainage pipe 14 can be equal to the one end of the exhaust pipe 3, or unequal to the one end of the exhaust pipe 3, and as shown in fig. 1 and 4, in a specific embodiment of the present invention, the other end of the second drainage pipe 12 and the other end of the third drainage pipe 14 are equal to the one end of the exhaust pipe 3.

The second water level detecting device 11 may be any suitable water level detecting device, and in an embodiment of the present invention, the second water level detecting device 11 is a water level sensor.

The air-water separator for ventilation and drainage of the anchoring lawn in the professional football court can further comprise any other suitable components, please refer to fig. 1-2, 4 and 5, in a specific embodiment of the present invention, the air-water separator for ventilation and drainage of the anchoring lawn in the professional football court further comprises a third water level detection device 16, a fourth drainage pipe 17 and a fourth liquid delivery device 18, the fourth liquid delivery device 18 is disposed in the inner cavity 7 and connected to one end of the fourth drainage pipe 17, the other end of the fourth drainage pipe 17 penetrates through the closed shell 6 and is exposed outside the closed shell 6 and used for connecting to a fourth drainage main pipe of the anchoring lawn, the third water level detection device 16 is disposed in the inner cavity 7 and is disposed on the side wall of the inner cavity 7 and higher than the second water level detection device 11, the third water level detection device 16 is used for detecting a third water level in the inner cavity 7, the third water level detection device 16 is in signal connection with the fourth liquid delivery device 18 and is used for sending a third water level signal to the fourth liquid delivery device 18, and the third water level detection device 16 is used for starting the working liquid delivery device according to the third water level signal.

The fourth fluid delivery device 18 may be any suitable fluid delivery device, and in one embodiment of the present invention, the fourth fluid delivery device 18 is a submersible pump.

The fourth fluid delivery device 18 is disposed in the inner cavity 7, and can be disposed at any suitable position of the inner cavity 7, as shown in fig. 5, in an embodiment of the present invention, the fourth fluid delivery device 18 is disposed on the bottom of the inner cavity 7.

The other end of the fourth water drainage pipe 17 penetrates through the closed shell 6, and may penetrate through any suitable position of the closed shell 6, and particularly preferably, the other end of the fourth water drainage pipe 17 penetrates through a side wall of the closed shell 6. More preferably, the other end of the fourth water discharge pipe 17 is inserted through the upper portion of the sidewall of the closed casing 6. Referring to fig. 1 to 2 and 5, in an embodiment of the present invention, in the case that the closed shell 6 and the inner cavity 7 are both cube-shaped, the other end of the fourth drainage pipe 17 penetrates through the upper portion of the left side wall of the closed shell 6.

As shown in fig. 1 and 4, in a specific embodiment of the present invention, the other end of the fourth drainage pipe 17 and one end of the exhaust pipe 3 have the same height.

The third water level detecting device 16 may be any suitable water level detecting device, and in an embodiment of the present invention, the third water level detecting device 16 is a water level sensor.

During the installation, the constructor will the utility model discloses a ventilation drainage on anchor lawn is connected to the other end of geomantic omen admission pipe 2 is responsible for, connect the other end of exhaust column 3 with the vacuum pump, be responsible for the other end of first drain pipe 4, the other end of second drain pipe 12, the first drainage on anchor lawn is connected respectively to the other end of third drain pipe 14 and the other end of fourth drain pipe 17, the second drainage is responsible for, the third drainage is responsible for and the fourth drainage is responsible for (being responsible for the 4 drainage on anchor lawn promptly, be responsible for in order to distinguish these 4 drainage, be called first drainage respectively and be responsible for, the second drainage is responsible for, the third drainage is responsible for and the fourth drainage is responsible for).

When the device is used, air in the inner cavity 7 is extracted through the exhaust pipe 3 by the vacuum pump, so that negative pressure is generated in the inner cavity 7, water and air in the ventilation drainage main pipe of the anchoring lawn connected with the air-water inlet pipe 2 flow to the inner cavity 7, due to high water density, the air sinks to the bottom of the inner cavity 7, meanwhile, the air has low density and stays at the upper part of the inner cavity 7 and then flows into the exhaust pipe 3, as the water and the air continuously flow into the inner cavity 7 from the air-water inlet pipe 2, when the water level in the inner cavity 7 continuously rises and reaches a first water level, the air is detected by the first water level detection device 10, the first water level detection device 10 sends a first water level signal to the first liquid delivery device 5, the first liquid delivery device 5 starts to work after receiving the first water level signal, water in the inner cavity 7 is drained to the first drainage pipe 4 through the first drainage pipe 4, if the water in the air-water inlet pipe 2 flows into more and reaches a second drainage pipe, the second water level detection device 11 sends a second water level signal to the second liquid delivery device 13, the third liquid delivery device 13 and a third liquid delivery device 15, when the water delivery device reaches the third drainage pipe 13, the third liquid delivery device 16, the third liquid delivery device starts, when the third liquid delivery device 2 receives the water level signal, the third water delivery device 14, the third water delivery device and the fourth liquid delivery device 16, the third liquid delivery device detects the third water delivery device, the third water delivery device 14, the third water delivery device and the third water delivery device 16, when the third water delivery device and the fourth liquid delivery device 16, the third water delivery device 2 reach the fourth liquid delivery device 16, the third water delivery device 16, and finishing the gas-water separation work. Meanwhile, the air and water inlet pipe 2 is connected to the ventilation and drainage main pipe, and the ventilation and drainage main pipe is connected with the ventilation and water-permeable blind pipe at the lower part of the anchoring lawn, so that external air can sequentially flow into the ventilation and water-permeable blind pipe at the lower part of the anchoring lawn, the ventilation and drainage main pipe, the air and water inlet pipe 2, the exhaust pipe 3 and the vacuum pump, and the ventilation process of the anchoring lawn is completed.

Therefore, the utility model utilizes the exhaust pipe to be connected with the vacuum pump, so that the inner cavity and the air-water inlet pipe can generate negative pressure, air and water can move directionally, the air-water separation can be completed by utilizing the density difference of the water and the air, and meanwhile, the root of the anchoring lawn can be ventilated and ventilated; in addition, the water level condition can be automatically identified through the water level detection device and the liquid conveying device, the automation work is completed, the use and maintenance cost is saved, and the risk of damage to related equipment caused by manual misoperation is reduced.

To summer up, the utility model discloses an air-water separator for professional football court anchor lawn ventilation drainage can satisfy the demand of anchor lawn maintenance in-process ventilation drainage, makes things convenient for professional football court anchor lawn maintenance, design benefit, and the structure is succinct, makes portably, and is with low costs, is suitable for extensive popularization and application.

Therefore, the purpose of the utility model is completely and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments, and the embodiments may be modified without departing from the principles. Therefore, the present invention includes all modifications within the spirit and scope of the appended claims.

Claims (10)

1. The utility model provides a gas-water separator for professional football court anchor lawn ventilation drainage which characterized in that advances pipe, exhaust column, first drainage pipe and first liquid conveyor including organism, geomantic omen, wherein:

the organism is including closed shell and inner chamber, the inner chamber is located in the closed shell, the one end that the tuber water advances the pipe is connected closed shell and intercommunication the inner chamber, the other end that the tuber water advances the pipe is located the outer ventilation drainage person in charge that is used for connecting the anchor lawn of closed shell, the one end of exhaust column is connected closed shell and intercommunication the inner chamber, the other end of exhaust column is located the outer vacuum pump that is used for connecting of closed shell, first liquid conveyor sets up in the inner chamber and connect the one end of first blast pipe, the other end of first blast pipe is worn to establish closed shell and exposed the closed shell is outer and be used for connecting the first drainage person in charge on anchor lawn.

2. The air-water separator for ventilating and draining of an anchoring lawn of a professional football field as claimed in claim 1, wherein the first liquid delivery means is a submersible pump.

3. The air-water separator for ventilation and drainage of the anchoring lawn of the professional football court as claimed in claim 1, wherein the closed housing and the inner chamber are both cubic.

4. The air-water separator for the ventilation and drainage of the anchoring lawn in the professional football court as claimed in claim 1, wherein the closed housing comprises an outer shell and an inner shell, the outer shell is wrapped outside the inner shell, the inner cavity is located in the inner shell, one end of the air and water inlet pipe is connected with the outer shell and the inner shell, the other end of the air and water inlet pipe is located outside the outer shell, one end of the air exhaust pipe is connected with the outer shell and the inner shell, the other end of the air exhaust pipe is located outside the outer shell, and the other end of the first drainage pipe penetrates through the inner shell and the outer shell and is exposed outside the outer shell.

5. The air-water separator for ventilating and draining of an anchoring lawn of a professional football field as claimed in claim 4, wherein the outer shell is a concrete shell.

6. The air-water separator for ventilating and draining of an anchoring lawn of a professional football field as claimed in claim 4, wherein the inner shell is an alloy shell.

7. The air-water separator for the ventilation and drainage of the anchoring lawn in the professional football court as claimed in claim 1, further comprising a first water level detection device, wherein the first water level detection device is located in the inner cavity and is arranged on the side wall of the inner cavity, the first water level detection device is used for detecting a first water level in the inner cavity, the first water level detection device is in signal connection with the first liquid conveying device and is used for sending a detected first water level signal to the first liquid conveying device, and the first liquid conveying device is used for starting operation according to the received first water level signal.

8. The air-water separator for ventilating and draining of the professional football field anchoring lawn as claimed in claim 7, wherein the first water level detecting means is a water level sensor.

9. The air-water separator for ventilation and drainage of the anchoring lawn in the professional football field as claimed in claim 7, further comprising a second liquid level detection device, a second drain pipe, a second liquid delivery device, a third drain pipe and a third liquid delivery device, wherein the second liquid delivery device is disposed in the inner cavity and connected to one end of the second drain pipe, the other end of the second drain pipe penetrates through the closed housing and is exposed outside the closed housing and is used for connecting to a second main drain pipe of the anchoring lawn, the third liquid delivery device is disposed in the inner cavity and is connected to one end of the third drain pipe, the other end of the third drain pipe penetrates through the closed housing and is exposed outside the closed housing and is used for connecting to a third main drain pipe of the anchoring lawn, the second liquid level detection device is disposed in the inner cavity and is disposed on a side wall of the inner cavity and is higher than the first liquid level detection device, the second liquid level detection device is used for detecting the second liquid level in the inner cavity, and the second liquid delivery device is used for sending a second liquid delivery signal to the second liquid delivery device and the second liquid delivery device respectively based on a second liquid delivery signal, and a second liquid delivery signal is sent to the second liquid delivery device.

10. The air-water separator for ventilation and drainage of the anchoring lawn in the professional football field as claimed in claim 9, further comprising a third water level detection device, a fourth water drainage pipe and a fourth liquid delivery device, wherein the fourth liquid delivery device is disposed in the inner cavity and connected to one end of the fourth water drainage pipe, the other end of the fourth water drainage pipe penetrates through the closed housing, is exposed outside the closed housing and is connected to a fourth main water drainage pipe of the anchoring lawn, the third water level detection device is disposed in the inner cavity and is disposed on the side wall of the inner cavity and is higher than the second water level detection device, the third water level detection device is used for detecting a third water level in the inner cavity, the third water level detection device is in signal connection with the fourth liquid delivery device and is used for sending a detected third water level signal to the fourth liquid delivery device, and the fourth liquid delivery device is used for starting operation according to the received third water level signal.

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