CN217077027U - Waste water collecting device - Google Patents

Abstract

The utility model discloses a waste water collection device, this waste water collection device is including a jar body, the liquid level detection part, the liquid storage pot, the transmission pipe, a jar body is equipped with the holding chamber, the holding chamber is used for depositing waste water, the holding chamber is located to the liquid level detection part, the liquid level detection part is used for detecting the liquid level of waste water, the liquid storage pot is used for depositing the washing liquid, the jar body and liquid storage pot are connected to the transmission pipe, the transmission pipe is equipped with first valve, first valve is used for controlling the washing liquid and gets into the holding intracavity, with wasing the liquid level detection part, or, first valve is used for controlling the washing liquid and stops getting into the holding intracavity. This waste water collection device need not the manual waste residue on the clearance liquid level detection part of manual work, can simplify the washing mode of liquid level detection part, reduces the potential safety hazard when wasing liquid level detection part simultaneously.

Description

Waste water collecting device

Technical Field

The utility model relates to a chemical industry equipment technical field especially relates to a wastewater collection device.

Background

Some waste water is generated in the food production process, collected in a waste water tank, and automatically discharged into an acid hydrolysis kettle tank for acid hydrolysis after the waste water in the waste water tank is stored to a certain amount, and therefore, a liquid level detection part, such as a tuning fork level switch or a diaphragm level meter, is generally disposed in the waste water tank to detect the liquid level of the waste water in the waste water tank. However, when the waste water is discharged out of the waste water tank, waste residues in the waste water are easily stuck on the liquid level detection part, and the normal operation of the waste water tank is affected.

In the correlation technique, adopt artifical abluent mode to clear away the waste residue of card on the liquid level detection part usually, promptly, the staff need stand at the top of waste water tank usually, opens the back with the top cap of waste water tank, washes the waste residue on the liquid level detection part. However, the cleaning mode is troublesome, tedious and unclean in washing, and the waste water tank is high in height and easy to have potential safety hazards.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses waste water collection device need not the waste residue on the artifical manual clearance liquid level detection part, can simplify the cleaning processes of liquid level detection part, reduces the potential safety hazard when wasing the liquid level detection part simultaneously.

In order to achieve the above object, the utility model discloses a wastewater collection device, include:

the tank body is provided with an accommodating cavity, and the accommodating cavity is used for storing wastewater;

the liquid level detection component is arranged in the accommodating cavity and is used for detecting the liquid level of the wastewater;

the liquid storage tank is used for storing cleaning liquid; and

the conveying pipe is connected with the tank body and the liquid storage tank and provided with a first valve, and the first valve is used for controlling the cleaning liquid to enter the accommodating cavity so as to clean the liquid level detection component, or the first valve is used for controlling the cleaning liquid to stop entering the accommodating cavity.

As an optional implementation manner, in the embodiment of the present invention, the wastewater collection device further includes a controller, the controller is electrically connected to the first valve, and the controller is configured to control the first valve to open when the liquid level detection component is in a false alarm state, so that the cleaning liquid enters the accommodating cavity.

As an optional implementation manner, in the embodiment of the present invention, the wastewater collection device further includes a first emptying pipe, a second emptying pipe and a transfer pump, the transfer pump passes through the first emptying pipe and the tank body, the transfer pump passes through the second emptying pipe and is connected to the wastewater treatment device, and the transfer pump is used for pumping the wastewater in the tank body into the wastewater treatment device.

As an optional implementation manner, in the embodiment of the present invention, the wastewater collection device further includes a controller and a pressure gauge, the pressure gauge is located the second evacuation pipe, the pressure gauge is electrically connected to the controller, the pressure gauge is used for detecting in the second evacuation pipe the pressure of wastewater, and send the detected pressure value to the controller, the controller is used for controlling when receiving the pressure value is less than the preset pressure value just the transfer pump operates the first valve is opened.

As an optional implementation manner, in an embodiment of the present invention, the waste water collecting device further includes a second valve, and the second valve is disposed in the first evacuation pipe.

As an optional implementation manner, in an embodiment of the present invention, the waste water collecting device further includes a spraying component, the spraying component is connected to the transmission pipe and located in the accommodating cavity, and the spraying component is configured to spray the cleaning liquid to the liquid level detecting component.

As an alternative, in the embodiment of the present invention, the spraying component is rotatably connected to the transmission pipe.

As an optional implementation manner, in the embodiment of the present invention, the spraying component is located at the top of the accommodating chamber and is located in the middle of the accommodating chamber.

As an optional implementation manner, in the embodiment of the present invention, the wastewater collection device further includes a booster pump, the booster pump is connected to the transmission pipe, and the booster pump is used for increasing the pressure of the cleaning solution in the transmission pipe.

As an optional implementation manner, in the embodiment of the present invention, the liquid level detection component includes a first liquid level detection component and a second liquid level detection component, the first liquid level detection component and the second liquid level detection component are located in the accommodating cavity, the first liquid level detection component is used for detecting the highest liquid level of the wastewater, and the second liquid level detection component is used for detecting the lowest liquid level of the wastewater.

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

an embodiment of the utility model provides a pair of waste water collection device, through addding liquid storage pot and transmission pipe, so that liquid storage pot and jar body are connected to the transmission pipe, thereby when the liquid level detection part in the jar body is blocked by the waste residue and the mistake is reported, can open the first valve on the transmission pipe, so that the liquid storage pot can be through transmission pipe and holding chamber intercommunication, thereby make the washing liquid of depositing in the liquid storage pot can transmit the holding intracavity to the jar body through the transmission pipe, wash the waste residue on the liquid level detection part, in order to relieve the mistake report of liquid level detection part. Therefore, the wastewater collecting device does not need to manually clean the liquid level detection object by workers, can simplify the cleaning process of the liquid level detection part, and effectively reduces the potential safety hazard of the workers during working.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wastewater collection device provided by an embodiment of the present invention.

Icon: 1. a tank body; 2. a liquid level detection section; 3. a liquid storage tank; 4. a conveying pipe; 5. a first evacuation tube; 6. a second evacuated tube; 7. a transfer pump; 8. a controller; 9. a spray component; 10. a booster pump; 11. an accommodating cavity; 21. a first liquid level detection section; 22. a second liquid level detection section; 41. a first valve; 51. a second valve; 61. and a pressure gauge.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The technical solution of the present invention will be further described with reference to the following embodiments and the accompanying drawings.

Referring to fig. 1, an embodiment of the present invention provides a wastewater collecting device. Specifically, this waste water collection device includes jar body 1, liquid level detection part 2, liquid storage pot 3 and transmission pipe 4, and jar body 1 is equipped with holding chamber 11, and holding chamber 11 is used for depositing waste water. The liquid level detection part 2 is arranged in the accommodating cavity 11, and the liquid level detection part 2 is used for detecting the liquid level of the waste water. The liquid storage tank 3 is used for storing cleaning liquid. The transmission pipe 4 is connected with the tank body 1 and the liquid storage tank 3, the transmission pipe 4 is provided with a first valve 41, the first valve 41 is used for controlling the cleaning liquid to enter the accommodating cavity 11 so as to clean the liquid level detection part 2, or the first valve 41 is used for controlling the cleaning liquid to stop entering the accommodating cavity 11.

It is understood that the liquid level detection part 2 can be a tuning fork liquid level switch or a diaphragm type liquid level meter and other parts with liquid level detection functions. When the liquid level detection part 2 needs to be cleaned, the first valve 41 can be opened to communicate the liquid storage tank 3 with the tank body 1 through the transmission pipe 4, then the cleaning liquid in the liquid storage tank 3 can be transmitted into the accommodating cavity 11 through the transmission pipe 4 to clean the liquid level detection part 2, and when the liquid level detection part 2 does not need to be cleaned, the first valve 41 can be kept closed to ensure that the liquid storage tank 3 is not communicated with the tank body 1, and then the cleaning liquid cannot enter the accommodating cavity 11.

For example, if the waste water in the accommodating chamber 11 has been discharged to a position where the liquid level thereof is located below the liquid level detection component 2, but the detection result of the liquid level detection component 2 still shows that the liquid level of the waste water is equal to or higher than the height where the liquid level detection component 2 is located, it can be determined that the liquid level detection component 2 has a false alarm, so as to control the first valve 41 to open, so that the cleaning liquid stored in the liquid storage tank 3 can be transmitted into the accommodating chamber 11 via the transmission pipe 4 to flush the liquid level detection component 2, until the detection result of the liquid level detection component 2 no longer shows that the liquid level of the waste water is equal to or higher than the height where the liquid level detection component 2 is located, the first valve 41 is closed, so as to stop transmitting the cleaning liquid to the accommodating chamber 11. In the above-mentioned processing procedure, only need open first valve 41 can make the washing liquid get into holding chamber 11 automatically and wash liquid level detection part 2, and need not the staff and climb to jar body 1's top, open jar body 1's top cap after, hold the water pipe again and wash liquid level detection part 2, this waste water collection device has simplified the process of wasing liquid level detection part 2, and the staff need not to contact the air in jar body 1 simultaneously, reduces the potential safety hazard of staff during operation.

For example, the cleaning solution may be acid solution or clear water, and in order to improve the cleaning effect of the cleaning solution on the liquid level detection part, the cleaning solution may be clear water with a temperature higher than 70 ℃. In this regard, in some embodiments, the reservoir 3 is provided with a heating element capable of heating the cleaning fluid in the reservoir 3.

In some embodiments, the wastewater collection device further comprises a first emptying pipe 5, a second emptying pipe 6 and a transmission pump 7, wherein the transmission pump 7 is connected with the tank body 1 through the first emptying pipe 5, and the transmission pump 7 is connected with the wastewater treatment device through the second emptying pipe 6. The transfer pump 7 is used for pumping the wastewater in the tank body 1 into the wastewater treatment device. Wherein, the wastewater treatment device can be an acidolysis kettle tank, a filter and the like. When the liquid level of the wastewater in the accommodating cavity 11 reaches the highest liquid level, the transmission pump 7 can be automatically or manually started, the wastewater in the accommodating cavity 11 is pumped into the wastewater treatment device through the transmission pump 7, and when the liquid level of the wastewater in the accommodating cavity 11 is reduced to the lowest liquid level, the transmission pump 7 can be automatically or manually closed, and the pumping of the wastewater into the wastewater treatment device is stopped.

Specifically, when the first valve 41 is opened and the cleaning liquid enters the accommodating chamber 11 to clean the liquid level detection part 2, the transfer pump 7 may be in a closed state, and after the cleaning is completed, the transfer pump 7 is opened to discharge the cleaning liquid in the accommodating chamber 11.

Further, the wastewater collection device further comprises a second valve 51, and the second valve 51 is arranged on the first emptying pipe 5. The second valve 51 is used for controlling the communication or the closing of the accommodating cavity 11 and the transmission pump 7, and when the second valve 51 is closed, the waste water in the accommodating cavity 11 can be stopped being transmitted to the transmission pump 7, so that the transmission pump 7 can be detached, and the transmission pump 7 can be cleaned or overhauled. Meanwhile, the second valve 51 can be controlled to be opened or closed to replace the control of the transmission pump 7, that is, the transmission pump 7 can be constantly in an open state, when the liquid level of the wastewater in the accommodating chamber 11 reaches the highest liquid level, the second valve 51 is opened, so that the wastewater in the accommodating chamber 11 can be transmitted to the transmission pump 7 and pumped into the wastewater treatment device by the transmission pump 7, and when the liquid level of the wastewater in the accommodating chamber 11 is reduced to the lowest liquid level, the second valve 51 can be closed, so that the wastewater in the accommodating chamber 11 cannot be transmitted to the transmission pump 7, and the pumping of the wastewater into the wastewater treatment device is stopped.

In some embodiments, the liquid level detection component 2 includes a first liquid level detection component 21 and a second liquid level detection component 22, the first liquid level detection component 21 and the second liquid level detection component 22 are disposed in the accommodating chamber 11, the first liquid level detection component 21 is located above the second liquid level detection component 22, the first liquid level detection component 21 is configured to detect a highest liquid level of the wastewater, and the second liquid level detection component 22 is configured to detect a lowest liquid level of the wastewater. This is mainly because before the waste water in the holding chamber 11 reaches the highest liquid level, holding chamber 11 can continue to receive waste water and does not discharge waste water, until first liquid level detection part 21 detects the waste water in holding chamber 11 and reaches the highest liquid level, holding chamber 11 just can stop receiving waste water to begin to discharge waste water to waste water treatment facilities, so set up first liquid level detection part 21, with the highest liquid level that detects waste water, can prevent that holding chamber 11 from receiving too much waste water and leading to the waste water overflow. When the second liquid level detecting part 22 detects that the waste water in the accommodating chamber 11 has been discharged until the liquid level thereof is lower than the lowest liquid level, the accommodating chamber 11 stops discharging the waste water and starts receiving the waste water again. At this time, the transfer pump 7 can be controlled to be turned off, so as to avoid the continuous idle running of the transfer pump 7, which increases energy consumption or causes damage to the transfer pump.

Specifically, when the wastewater level in the accommodating chamber 11 is higher than or equal to the position of the first liquid level detection component 21, the first liquid level detection component 21 can continuously generate a ring or continuously flash its warning light. Correspondingly, when the wastewater level in the accommodating cavity 11 is lower than or equal to the position of the second liquid level detection part 22, the second liquid level detection part 22 can also continuously give out a ring or continuously flash the warning light thereof.

In some embodiments, the wastewater collection apparatus further includes a controller 8, the controller 8 is electrically connected to the first valve 41, the controller 8 is configured to control the first valve 41 to open when the liquid level detection component 2 is in a false alarm state, so that the cleaning liquid enters the accommodating chamber 11, and the controller 8 is further configured to control the first valve 41 to close, so that the cleaning liquid stops entering the accommodating chamber 11. The controller 8 may be a controller of a computer or a controller of a console. Controller 8 can judge by oneself whether liquid level detection part 2 need go on being in the wrong report state and rinse it, perhaps, the staff can press the button of computer or control cabinet to control signal transmission to controller 8, after controller 8 received control signal, control first valve 41 opened for the washing liquid gets into holding chamber 11 and rinses liquid level detection part 2. In other embodiments, the first valve 41 may be opened manually by a worker.

Further, the controller 8 may be electrically connected to the first liquid level detection part 21 and the second liquid level detection part 22, so that the controller 8 can acquire the detection results of the first liquid level detection part 21 and the second liquid level detection part 22. Illustratively, when the wastewater level in the accommodating cavity 11 is higher than or equal to the position of the first liquid level detection part 21, the red light of the controller 8 is normally on, and when the wastewater level in the accommodating cavity 11 is lower than or equal to the position of the second liquid level detection part 21, the yellow light of the controller 8 is normally on.

Specifically, the controller 8 may determine whether the liquid level detection part 2 is in a false alarm state by:

in one example, when the wastewater level in the accommodating chamber 11 reaches the highest level, the level of the wastewater in the accommodating chamber is lowered to the lowest level after the transfer pump 7 is controlled to be turned on for a preset time. If the red light of the controller 8 is normally on, that is, the detection result of the first liquid level detection part 21 indicates that the wastewater in the accommodating chamber 11 is not discharged below the highest liquid level, it can be determined that the first liquid level detection part 21 is in a false alarm state. Alternatively, if the yellow light of the controller 8 is turned off, that is, the detection result of the second liquid level detecting component 22 indicates that the wastewater in the accommodating chamber 11 is not discharged below the lowest liquid level, it can be determined that the second liquid level detecting component 22 is in the false alarm state. When at least one of the first liquid level detection part 21 and the second liquid level detection part 22 is determined to be in a false alarm state, the controller 8 may control the first valve 41 to be opened to flush the first liquid level detection part 21 and/or the second liquid level detection part 22.

In another example, the wastewater collection device further comprises a pressure gauge 61, the pressure gauge 61 is disposed in the second evacuation pipe 6, the pressure gauge 61 is electrically connected to the controller 8, and the pressure gauge 61 is used for detecting the pressure of the wastewater in the second evacuation pipe 6 and sending the detected pressure value to the controller 8. The controller 8 is used for controlling the first valve 41 to be opened when the pressure value of the pressure gauge 61 is lower than the preset pressure value and the transmission pump 7 is operated. It can be understood that after the transfer pump 7 is started, the transfer pump 7 is in an operating state to pump the wastewater in the accommodating chamber 11 into the wastewater treatment device, and the transfer pump 7 stops operating until the wastewater in the accommodating chamber 11 is discharged to the lowest liquid level or below the lowest liquid level. During the operation of the transmission pump 7, the pressure gauge 61 detects the pressure of the wastewater in the second emptying pipe 6, and if the wastewater in the accommodating cavity 11 is completely discharged, the transfer pump 7 cannot pump wastewater into the wastewater treatment apparatus, so that the pressure value detected by the pressure gauge 61 at this time is zero and is smaller than the preset normal pressure value, but the transfer pump 7 does not stop running at this time, it can be determined that the liquid level detection part 2 has false alarm, for example, the red light of the controller 8 is still normally on, that is, the detection result of the first liquid level detection part 21 indicates that the wastewater in the accommodating chamber 11 is not discharged below the highest liquid level, the first liquid level detection part 21 is in a false alarm state, or, the yellow light of the controller 8 is turned off, that is, the detection result of the second liquid level detection component 22 indicates that the wastewater in the accommodating cavity 11 is not discharged below the lowest liquid level, and it can be determined that the second liquid level detection component 22 is in the false alarm state. When at least one of the first liquid level detection part 21 and the second liquid level detection part 22 is determined to be in a false alarm state, the controller 8 may control the first valve 41 to be opened to flush the first liquid level detection part 21 and/or the second liquid level detection part 22.

If the transmission pump 7 is in the running state all the time, it can be determined whether the first liquid level detection component 21 or the second liquid level detection component 22 is in the false alarm state by combining the opening state of the second valve 51, for example, when the second valve 51 is opened, the wastewater flows through the first evacuation pipe 5 under the normal condition, the pressure gauge can detect the normal pressure value, and once the pressure gauge detects that the pressure value is smaller than the preset normal pressure value, that is, the insufficient wastewater in the accommodating cavity 11 passes through the first evacuation pipe 5, the wastewater in the accommodating cavity 11 is actually lower than the lowest liquid level, but the second valve 51 is not automatically closed, it can be determined that the false alarm occurs in the liquid level detection component 2.

Specifically, the connection position of the transmission pipe 4 and the tank body 1 can be adjusted according to actual conditions, as long as the cleaning liquid entering the tank body 1 can wash the liquid level detection component 2. Illustratively, the discharge port of the delivery pipe 4 connected to one end of the tank body 1 may be located above or beside the liquid level detection component 2, and the cleaning liquid enters the accommodating cavity 11 from the discharge port. In some embodiments, the discharge port of the conveying pipe 4 is located above the liquid level detection part 2 and is higher than the highest liquid level of the wastewater in the accommodating chamber 11, so as to prevent the wastewater in the accommodating chamber 11 from entering the conveying pipe 4 through the discharge port.

In some embodiments, the wastewater collection device further comprises a spraying component 9, the spraying component 9 is connected to the transmission pipe 4 and is located in the accommodating cavity 11, and the spraying component 9 is used for spraying the cleaning liquid to the liquid level detection component 2. The spraying part 9 can be provided with a plurality of spraying holes, the spraying part 9 is connected with the transmission pipe 4, and after the transmission pipe 4 transmits the cleaning liquid to the spraying part 9, the cleaning liquid can be sprayed out from the plurality of spraying holes, so that the cleaning liquid can be ensured to be washed to the liquid level detection part 2. Specifically, the spraying component 9 can be a vertical nozzle or a spraying ball, and the spraying component 9 can be located above the liquid level detection component 2 and is higher than the highest liquid level of the wastewater in the accommodating cavity 11.

Further, spray component 9 rotates and connects in transmission pipe 4, specifically, spray component 9 can rotate around the tip that transmission pipe 4 is connected with spray component 9, or spray component 9 rotates around self axis to adjustable spray component 9's the direction of spraying avoids having the dead angle that the washing liquid can't wash on the liquid level detection part 2, and at spray component 9 rotation in-process, the washing liquid that sprays out not only can wash liquid level detection part 2, can also wash everywhere in the holding chamber 11.

Specifically, the spraying component 9 is located at the top of the accommodating cavity 11 and in the middle of the accommodating cavity 11, so that the distance from the cleaning liquid sprayed by the spraying component 9 to the position on the same horizontal plane of the inner wall surface of the accommodating cavity 11 is close, and the cleaning liquid can be washed to the position on the inner wall surface of the accommodating cavity 11 as much as possible, so as to clean the inner wall surface of the accommodating cavity 11.

In some embodiments, the wastewater collection apparatus further comprises a booster pump 10, the booster pump 10 being connected to the transport pipe 4, the booster pump 10 being configured to increase the pressure of the cleaning fluid in the transport pipe 4. The conveying pipe 4 is provided with the booster pump 10 for boosting, the cleaning liquid in the liquid storage tank 3 is pumped into the accommodating cavity 11, the flow of the cleaning liquid sprayed into the accommodating cavity 11 is increased, and the cleaning liquid can clean waste residues on the liquid level detection part 2.

The above detailed description is made on the wastewater collection device disclosed in the embodiment of the present invention, and the principle and the implementation of the present invention are explained by applying a specific example, and the above description of the embodiment is only used to help understanding the wastewater collection device and the core idea thereof; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, and in summary, the content of the present specification should not be understood as the limitation of the present invention.

Claims (10)

1. A wastewater collection device, comprising:

the tank body is provided with an accommodating cavity, and the accommodating cavity is used for storing wastewater;

the liquid level detection component is arranged in the accommodating cavity and is used for detecting the liquid level of the wastewater;

the liquid storage tank is used for storing cleaning liquid; and

the conveying pipe is connected with the tank body and the liquid storage tank and provided with a first valve, and the first valve is used for controlling the cleaning liquid to enter the accommodating cavity so as to clean the liquid level detection component, or the first valve is used for controlling the cleaning liquid to stop entering the accommodating cavity.

2. The wastewater collection device according to claim 1, further comprising a controller electrically connected to the first valve, wherein the controller is configured to control the first valve to open when the liquid level detection component is in a false alarm state, so that the cleaning liquid enters the accommodating chamber.

3. The wastewater collection apparatus of claim 1, further comprising a first evacuation pipe, a second evacuation pipe, and a transfer pump, wherein the transfer pump is connected to the tank body through the first evacuation pipe, wherein the transfer pump is connected to a wastewater treatment apparatus through the second evacuation pipe, and wherein the transfer pump is configured to pump the wastewater in the tank body into the wastewater treatment apparatus.

4. The wastewater collection device according to claim 3, further comprising a controller and a pressure gauge, wherein the pressure gauge is disposed in the second evacuation pipe, the pressure gauge is electrically connected to the controller, the pressure gauge is configured to detect the pressure of the wastewater in the second evacuation pipe and send the detected pressure value to the controller, and the controller is configured to control the first valve to open when the received pressure value is lower than a preset pressure value and the transfer pump operates.

5. The waste water collection device of claim 3, further comprising a second valve disposed in the first drain pipe.

6. The wastewater collection device of claim 1, further comprising a spray component connected to the transmission pipe and located in the receiving chamber, wherein the spray component is configured to spray the cleaning solution to the liquid level detection component.

7. The waste water collecting device as claimed in claim 6, wherein said shower member is rotatably connected to said transfer pipe.

8. The waste water collecting device as claimed in claim 6, wherein the spray member is located at the top of the housing chamber and at the middle of the housing chamber.

9. The wastewater collection apparatus according to any one of claims 1 to 8, further comprising a booster pump connected to the transport pipe, the booster pump being for increasing a pressure of the cleaning liquid in the transport pipe.

10. The wastewater collection apparatus according to any of claims 1 to 8, wherein the liquid level detection unit comprises a first liquid level detection unit and a second liquid level detection unit, the first liquid level detection unit and the second liquid level detection unit are disposed in the housing chamber, the first liquid level detection unit is configured to detect a highest liquid level of the wastewater, and the second liquid level detection unit is configured to detect a lowest liquid level of the wastewater.

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