KR20230141906A - Vacuum wastewater device, method and electronic control unit for controlling a vacuum wastewater device - Google Patents

Abstract

The present invention includes a water tank (6) with a wastewater outlet; a wastewater valve (4) having a wastewater inlet, a wastewater outlet and a control inlet for pneumatically controlling the wastewater valve; comprising a first valve (1) and ventilation means (2), each having a first connection and a second connection, wherein the waste water outlet of the water tank (6) is connected to the waste water inlet of the waste water valve (4); A vacuum wastewater device, wherein the wastewater outlet of the wastewater valve (4) is connected to a vacuum wastewater line (7), wherein the control inlet of the wastewater valve (4) is connected to the first connection of the first valve (1) and the connected to the first connection of the ventilation means (2), the second connection of the first valve (1) being connected to the vacuum or the vacuum waste water line (7), the second connection of the ventilation means (2) being connected to the air adjacent to , wherein the first valve (1) and the ventilation means (2) can be controlled by electronic control signals. The invention also relates to a method and an electronic control unit (5) for controlling a vacuum wastewater device.

Description

Vacuum wastewater device, method and electronic control unit for controlling the vacuum wastewater device {VACUUM WASTEWATER DEVICE, METHOD AND ELECTRONIC CONTROL UNIT FOR CONTROLLING A VACUUM WASTEWATER DEVICE}

The present invention relates to a vacuum wastewater device, a method and a unit for controlling the vacuum wastewater device.

US patent application 2007/0226887 A1 discloses a vacuum wastewater device including a wastewater valve and a water tank positioned between a negative pressure wastewater pipe and a water tank. The wastewater valve is pneumatically controlled. The waste water valve is opened by negative pressure at the control inlet. The control mechanism generates the required negative pressure through connection with the waste water pipe and reduces the negative pressure through connection with air. The control mechanism may be pneumatically or electrically controlled.

The task of the present invention is, in particular, to further simplify and accelerate the control of wastewater valves, save water and reduce flushing noise.

The above problem is solved by the subject matter of the independent claims. Preferred embodiments are the subject of the dependent claims.

The invention is based on the idea of controlling wastewater valves with electronically controlled valves, such as standard valves and other suitable technical means. The first valve (hereinafter also referred to as “vacuum valve”) connects the control inlet of the waste water valve to negative pressure (hereinafter also referred to as “vacuum”) provided, for example, by a waste water line or separately. Ventilation means, for example in the form of valves or nozzles, connect the control inlet to air, for example ambient air under ambient pressure, or supplied compressed air. When the vacuum valve opens, the waste water valve also opens. When the vacuum valve is closed and the ventilation means are opened, the waste water valve closes very quickly.

By means of electronic control, the sequence of these processes can be adapted to all requirements and carried out very quickly.

Additionally, electronic control is performed by an electronic control unit. The electronic control unit may include communication interfaces that provide a variety of additional uses. Accordingly, the control unit can transmit a message triggering maintenance of the wastewater device when a set number of uses of the device is exceeded. The electronic control unit may have diagnostic functions and may transmit diagnostic messages via a communication interface, for example to a central server. Additionally, the electronic control unit can also be configured via a communication interface.

As a result, the effort and cost required to operate and maintain the vacuum toilet system can be reduced.

The invention comprises a water tank with a wastewater outlet, a wastewater valve with a wastewater inlet and a wastewater outlet and a control inlet for pneumatically controlling the wastewater valve, a first valve with a first connection and a second connection respectively, and ventilation means, A vacuum wastewater device, wherein the wastewater outlet of the water tank is connected to the wastewater inlet of the wastewater valve, and the wastewater outlet of the wastewater valve is connected to a vacuum wastewater line, wherein the control inlet of the wastewater valve is connected to the first valve. connected to the first connection of the ventilation means, the second connection of the first valve being connected to the vacuum or the vacuum waste water line, the second connection of the ventilation means being adjacent to the air, A vacuum wastewater device is characterized in that the first valve and the ventilation means can be controlled by electronic control signals.

The vacuum wastewater device may preferably further comprise an electronic control unit designed to supply a control signal to the first valve and the ventilation means in such a way that when the first valve is closed, the ventilation means is opened and vice versa.

The invention preferably relates to a vacuum wastewater device wherein the electronic control unit can have a communication interface.

The invention preferably relates to a vacuum wastewater treatment device in which an electronic control unit can be designed such that malfunctions of the vacuum wastewater treatment device or its components can be detected and corresponding messages can be transmitted via a communication interface.

The invention preferably relates to a vacuum wastewater device in which an electronic control unit can be designed such that configuration messages can be received via a communication interface.

The invention preferably relates to a vacuum wastewater device, wherein the configuration message may contain information about the configuration of the timing of the control signal and/or the configuration of other parameters.

The invention preferably relates to a vacuum wastewater treatment device in which an electronic control unit can be designed such that the number of uses of the vacuum wastewater treatment device or its components can be counted.

The invention preferably relates to a vacuum waste water device, the electronic control unit of which can be designed such that a service message is sent via a communication interface when the number of uses of the vacuum waste water device or its components exceeds a predefined value.

The invention preferably relates to a vacuum wastewater device, wherein the basin may be a toilet, urinal, shower tray, bathtub or other type of wastewater collection vessel. The tank can be designed to dimensions suitable for humans or animals.

The invention preferably relates to a vacuum wastewater device, wherein the ventilation means is a second valve (hereinafter also referred to as “air valve”).

The invention preferably relates to a vacuum wastewater device, wherein the ventilation means is a nozzle.

The present invention preferably provides that the water tank can have a flushing water inlet, and the vacuum wastewater device has a first connection and a second connection and a third valve (hereinafter also referred to as "flushing valve") that can be controlled by an electronic control signal. It may include a vacuum wastewater device, wherein the first connection is connected to a water supply and the second connection is connected to a flushing water inlet of the water tank.

Furthermore, the present invention provides that the electronic control unit opens the waste water valve by connecting the control inlet of the waste water valve to a vacuum by opening the first valve for a predefined time and opening the ventilation means when the first valve is closed. A method of controlling a vacuum wastewater device comprising receiving, at an electronic control unit, a trigger signal that causes the control inlet of the vacuum wastewater device to be connected to air to generate a control signal to close the wastewater valve.

The invention preferably provides a control of a vacuum wastewater device, wherein the electronic control unit is capable of generating, after receiving a trigger signal, an additional control signal that causes the flushing water to be flushed into the water tank by opening a third valve for another predefined period of time. It's about method.

The present invention relates to a method for controlling a vacuum wastewater device, preferably further comprising the step of receiving a configuration message via a communication interface of an electronic control unit, wherein the configuration message includes configuration of the timing of control signals and/or other parameters. Contains information about its composition.

The present invention preferably relates to a method for controlling a vacuum wastewater device, further comprising detecting a malfunction of the vacuum wastewater device or its components and transmitting a corresponding message through a communication interface of an electronic control unit.

The present invention relates to a method for controlling a vacuum wastewater device, preferably further comprising counting the number of uses of the vacuum wastewater device or its components.

The present invention preferably provides a method for controlling a vacuum wastewater device, further comprising transmitting a service message through a communication interface of the electronic control unit when the number of uses of the vacuum wastewater device or its components exceeds a predefined value. It's about.

In addition, the present invention connects the control inlet of the waste water valve to a vacuum to open the waste water valve by opening the first valve for a predefined time after receiving the trigger signal, and by opening the ventilation means when the first valve is closed. An electronic control unit for controlling a vacuum wastewater device, designed to control the vacuum wastewater device, such that a control inlet of the wastewater valve is connected to air to generate a control signal to close the wastewater valve.

The electronic control unit may preferably be designed to generate, after receipt of the trigger signal, an additional control signal that causes the flushing water to be flushed into the water tank by opening the third valve for another predefined period of time.

The electronic control unit may preferably be designed such that configuration messages can be received via a communication interface of the electronic control unit, said configuration messages comprising information about the configuration of the timing of control signals and/or configuration of other parameters. .

The electronic control unit can preferably be designed so that malfunctions of the vacuum wastewater device can be detected and corresponding messages can be transmitted via a communication interface.

The electronic control unit can preferably be designed so that the number of uses of the vacuum wastewater device or its components can be counted.

The electronic control unit can preferably be designed so that a service message is sent via the communication interface when the number of uses of the vacuum wastewater device or its components exceeds a predefined value.

The present invention is explained in greater detail below by way of example with reference to the accompanying drawings.

1 is a schematic diagram showing a vacuum wastewater device according to an embodiment of the present invention.
Figure 2 is a schematic diagram showing a vacuum wastewater device according to another embodiment of the present invention.
Figure 3 is a schematic diagram showing a vacuum wastewater system including a plurality of vacuum wastewater devices.

In the following description, parts that are the same and have the same effect are indicated by the same reference numerals.

1 shows a vacuum wastewater treatment device according to one embodiment of the present invention. The vacuum wastewater device comprises a water tank (6), a wastewater valve (4), ventilation means in the form of a first valve (1), a second valve (2), and a vacuum wastewater line (7). The first valve 1 and the second valve 2 each have two connections. The waste water valve 4 includes a waste water inlet and a waste water outlet as well as a control inlet for pneumatically controlling the waste water valve 4.

The tank 6 includes a waste water outlet. The wastewater outlet of the water tank (6) is connected to the wastewater inlet of the wastewater valve (4). The waste water outlet of the waste water valve (4) is connected to the vacuum waste water line (7). The control inlet of the wastewater valve (4) is connected to the first connection of the first valve (1) and to the first connection of the second valve (2). The second connection of the first valve (1) is connected to the vacuum or vacuum waste water line (7). The second connection of the second valve 2 is adjacent to the air. For this purpose, the second connection of the second valve 2 can be connected, for example, to an air filter. The first valve 1 and the second valve 2 can be controlled by electronic control signals. Figure 1 also shows an electronic control unit 5 providing the corresponding electronic control signals. The electronic control unit 5 can be electrically connected to a power supply, for example a low-voltage power supply or a galvanically isolated low-voltage power supply. The supply voltage, such as the DC supply voltage, may for example be 24V.

The electronic control unit 5 may include communication interfaces, such as wired and/or wireless communication interfaces, which provide a variety of additional uses. Accordingly, the electronic control unit 5 can detect the number of uses of the wastewater device and, if a set number of times is exceeded, send a message triggering cleaning and/or maintenance of the device.

Additionally, the electronic control unit 5 can be provided with diagnostic functions, for example by means of suitable sensors that can be attached at different points in the waste water plant. For example, water leaks (“leaks”) or abnormal heat generation may be detected. The controlled valves 1, 2 may be equipped to report malfunctions to the electronic control unit 5. Accordingly, the electronic control unit 5 can transmit diagnostic messages via a communication interface, for example to the central server 8 (see Figure 3).

Additionally, the electronic control unit 5 can receive messages via a communication interface. These messages may be, for example, configuration messages containing information about the configuration of the controller. This information can determine, for example, the timing of control signals or thresholds for error messages and/or service messages.

As a result, the effort and cost required to operate and maintain the vacuum toilet system can be reduced.

Figure 2 shows a vacuum wastewater device in an embodiment of toilet flushing. In this case, the water tank 6 is a flush toilet. The third valve (3) regulates the supply of flushing water into the water tank (6). Accordingly, the third valve 3 is installed between the flushing water inlet of the water tank 6 and the corresponding water supply. In this case, the control is such that first the third valve 3, then the first valve 1 and then the second valve 2 are opened by means of a control signal from the electronic control unit 5. Other components correspond to those already described above and shown in Figure 1.

3 shows a method of integrating a vacuum wastewater device into a vacuum wastewater system. The electronic control unit 5 communicates with a central server 8 which receives error messages and service messages and transmits configuration information. Accordingly, the vacuum waste water lines 7 are merged. Figure 3 also shows a central negative pressure generating unit 9 that generates negative pressure in the vacuum waste water line 7.

1: First valve/vacuum valve
2: Second valve/air valve
3: Third valve/flushing valve
4: Wastewater valve
5: Electronic control unit
6: Water tank
7: Vacuum wastewater line
8: Server
9: Negative pressure generation unit

Claims (19)

As a vacuum wastewater device,
Water tank (6) with waste water outlet;
a wastewater valve (4) having a wastewater inlet, a wastewater outlet and a control inlet for pneumatically controlling the wastewater valve;
a first valve (1) and ventilation means (2), each having a first connection and a second connection; and
Electronics designed to supply a control signal to the first valve (1) and the ventilation means (2) in such a way that when the first valve (1) is closed, the ventilation means (2) is opened and vice versa. Comprising a control unit (5),
The wastewater outlet of the water tank (6) is connected to the wastewater inlet of the wastewater valve (4),
The waste water outlet of the waste water valve (4) is connected to a vacuum waste water line (7),
The control inlet of the waste water valve (4) is connected to the first connection of the first valve (1) and to the first connection of the ventilation means (2),
The second connection of the first valve (1) is connected to a vacuum or to the vacuum waste water line (7),
the second connection of the ventilation means (2) is adjacent to the air;
The first valve (1) and the ventilation means (2) can be controlled by electronic control signals;
The electronic control unit 5 includes a communication interface for receiving messages and is designed so that malfunctions of the vacuum wastewater device and/or its components can be detected and corresponding messages can be transmitted via the communication interface. , vacuum wastewater device. 2. Vacuum waste water system according to claim 1, wherein the electronic control unit (5) is designed such that configuration messages can be received via the communication interface. According to claim 2,
The configuration message includes information about configuration of timing of the control signal or configuration of other parameters. 3. Vacuum waste water device according to claim 1 or 2, wherein the electronic control unit (5) is designed so that the number of uses of the vacuum waste water device and/or its components can be counted. 5. Vacuum according to claim 4, wherein the electronic control unit (5) is designed such that a service message is sent via the communication interface when the number of uses of the vacuum wastewater device and/or its components exceeds a predefined value. Wastewater device. 3. Vacuum wastewater device according to claim 1 or 2, wherein the basin (6) can be a toilet, urinal, shower tray, bathtub or other type of wastewater collection vessel. 3. Vacuum waste water system according to claim 1 or 2, wherein the ventilation means (2) is a valve. 3. Vacuum waste water system according to claim 1 or 2, wherein the ventilation means (2) are nozzles. 3. The water tank (6) according to claim 1 or 2, wherein the water tank (6) comprises a flushing water inlet;
The vacuum wastewater device,
It further comprises a third valve (3) having a first connection and a second connection and capable of being controlled by the electronic control signal, wherein the first connection is connected to a water supply and the second connection is connected to the water tank (6). A vacuum wastewater device, connected to the flushing water inlet of. A control method for a vacuum wastewater device, comprising:
An electronic control unit (5) comprising a communication interface for receiving messages, designed so that a malfunction of the vacuum wastewater device and/or its components can be detected and a corresponding message can be transmitted via the communication interface, The electronic control unit 5,
opening the waste water valve (4) by connecting the control inlet of the waste water valve (4) to a vacuum by opening the first valve (1) for a predefined period of time;
closing the waste water valve (4) by connecting the control inlet of the waste water valve (4) to air by opening the ventilation means (2) when the first valve (1) is closed.
Receiving at said electronic control unit (5) a trigger signal, causing generation of a control signal,
Control method, wherein when the first valve (1) is closed the ventilation means (2) is open and vice versa. 11. An additional control signal according to claim 10, wherein the electronic control unit (5), after receiving the trigger signal, opens the third valve (3) for another predefined time, thereby causing the flushing water to be flushed into the tank (6). A control method that generates a . 12. The method according to claim 10 or 11, further comprising the step of receiving a configuration message via a communication interface of the electronic control unit (5), wherein the configuration message relates to configuration of timing of the control signal or configuration of other parameters. Contains information about,
detecting malfunction of the vacuum wastewater device and/or its components; and
The control method further comprising transmitting the corresponding message through a communication interface of the electronic control unit (5). 12. The method according to claim 10 or 11, further comprising counting the number of uses of the vacuum wastewater device and/or its components. 14. The method of claim 13, further comprising transmitting a service message via the communication interface of the electronic control unit (5) when the number of uses of the vacuum wastewater device and/or its components exceeds a predefined value. How to control. An electronic control unit (5) for controlling a vacuum wastewater device, comprising a communication interface for receiving messages, wherein a malfunction of the vacuum wastewater device and/or its components can be detected and a corresponding message is sent through the communication interface. In the electronic control unit 5, which is designed to be transmitted through,
After receiving the trigger signal,
opening the waste water valve (4) by connecting the control inlet of the waste water valve (4) to a vacuum by opening the first valve (1) for a predefined period of time;
closing the waste water valve (4) by connecting the control inlet of the waste water valve (4) to air by opening the ventilation means (2) when the first valve (1) is closed.
So that a control signal is generated,
Designed to control the vacuum wastewater device,
Electronic control unit (5), so that when the first valve (1) is closed, the ventilation means (2) is opened and vice versa. According to claim 15,
After receiving the trigger signal, generate an additional control signal to cause flushing water to be flushed into the water tank (6) by opening the third valve (3) for another predefined time; and/or
to receive configuration messages via the communication interface of the electronic control unit 5
additionally designed,
The configuration message contains information about configuration of the timing of the control signal or configuration of other parameters. The method of claim 15 or 16,
detect malfunction of the vacuum wastewater device and/or its components;
An electronic control unit (5) designed to transmit corresponding messages via a communication interface of the electronic control unit (5). 17. Electronic control unit (5) according to claim 15 or 16, designed to count the number of uses of the vacuum wastewater device and/or its components. 19. Electronic control according to claim 18, designed to transmit a service message via a communication interface of the electronic control unit (5) when the number of uses of the vacuum wastewater device and/or its components exceeds a predefined value. Unit (5).