DE3728157A1 - VACUUM CLEANING SYSTEM - Google Patents

Abstract

A vacuum lavatory arrangement for mobile units such as trains and buses and comprising at least one lavatory pan (22), means for producing a vacuum, a reception bowl, pipes with valves for carrying the material from the lavatory pan (22) to the reception bowl by means of said vacuum, a ventricle (19) coupled in the pipe of the reception bowl, and means feeding rinsing liquid to the lavatory pan (22), whereby the means producing a vacuum in the ventricle (19) and the pipes are formed by a pneumatic ejector (11) connected to a compressed-air receiver. A siphon-interrupting device (29) is provided in the pipes of a cistern, said device being capable of introducing air into the pipes. As a result water damages are avoided if the valves of the rinsing system leak.

Description

The invention relates to a vacuum toilet system for mobile units, such as for example trains and buses, and with at least one toilet bowl, Devices for creating a vacuum, a collecting container, lines with valves for directing the material in the toilet bowl to collect container by means of the mentioned vacuum, one in the line of the collecting container ters used intermediate container and devices for feeding Rinse water to the toilet bowl, the devices for generating a Vacuum in the intermediate container and in the lines by a pneumati ejector connected to a compressed air tank.

Such a vacuum toilet system is, for example, from the Swedish Auslegeschschrift No. 4 21 769 known. If one of the valves leaks, can pour water over the toilet bowl and out onto the floor fen.

The invention has for its object a system of ge named way with which this danger is eliminated.

This object is achieved in that a device for lifting the Lifting effect is used in the pipe section from the flushing water tank which air can be supplied to the pipe section.

This prevents water damage when the valves of the flushing system lick.

Further embodiments of the invention are the following description and the claims.

The invention is illustrated below in the attached figures illustrated embodiment explained.

Fig. 1 shows a vacuum toilet system with at least one toilet bowl and a collection container.

Fig. 2 shows an intermediate container, which is used between the toilet bowl and the collection container.

Fig. 3 shows a set in the pipe section from the flushing water tank device to cancel the lifting effect.

FIG. 4 shows a filling device in connection with the pipe section shown in FIG. 3.

Fig. 5 shows a control system for the toilet facility.

The vacuum toilet system shown in Fig. 1 for mobile units, such as trains or buses, has at least one toilet bowl 22 , devices for generating a vacuum, a collection container 23 , lines with lines for guiding the material in the toilet bowl 22 to the collection container 23 by means of mentioned vacuum, and an intermediate container 19 used in the line of the collecting container 23 . Furthermore, before devices for supplying rinse water to the toilet bowl 22 are provided. The devices for generating a vacuum in the intermediate container 19 and in the lines are formed by an ejector 11 connected to a compressed air container.

A hose valve 17 or 18 is provided in front of and behind the intermediate container 19 . Two sensors 25 control the level in the container 23 Sammbe, which is emptied by means of a mud vacuum or the like.

The toilet system is operated by pressing a flush button 26 . Immediately after actuation, the necessary vacuum is generated in the intermediate container 19 . Then the system rinses and passes the chair etc. to the container 23 . The entire rinsing process takes approximately 15 seconds.

If, for example, the level in the collecting container 23 exceeds 75%, this is indicated by a lamp and the collecting container 23 has to be emptied at the first opportunity. When the collecting container 23 is completely full, an electromagnetic door lock is actuated, at the same time a red warning lamp is switched on and the flush button 26 is blocked. These measures ensure that the reservoir 23 does not overflow.

When the flush button 26 is pressed, the intermediate container 19 of the system is evacuated by means of a pneumatic ejector 11 , cf. Fig. 2 and 3. Since after the ejector 11 is turned off, and the atmospheric pressure presses the faeces down through the pipe system into the intermediate container 19 , where it is temporarily stored. The intermediate container 19 is closed and pressurized. Then the intermediate container 19 is opened, and the content is passed through the pipe system to the collecting container 23 by means of the air pressure. The intermediate container 19 is closed and the rinsing process is ended by filling the odor trap in the toilet bowl with water. The toilet is now ready for use again.

After a person has used the toilet, they press the flush button 26 connected to a control cabinet 21 . Thereupon the ejector 11 is opened by cf. Fig. 5, the valve No. 1 actuated, whereby compressed air is blown through the ejector 11 and a vacuum is created. Then valves 2 and 3 are actuated and the vacuum generated propagates through lines C and D. Line D is connected to the intermediate container 19 , cf. Fig. 2. The intermediate container 19 is evacuated to about 70%, at the same time that a suction effect is generated in line C , cf. Fig. 3. Line C is connected to a filler 31 which is shown in detail in Fig. 4. The filling device 31 has a rubber ball 27 which is carried by the water and later blocks the filling device 31 . The negative pressure in the filling device 31 causes water to be sucked in through a check valve 28 and a horizontal pipe section. As a result, the rest of the pipe system is filled with water until the water level to the rubber ball 27 in the filling device 31 has risen. The vertical pipe section has a diameter of 1 inch, which ensures a volume of at least 1 liter. This volume is used for rinsing. When the water level to the rubber ball 27 has risen, the ball closes the suction line C and is simply sucked in, so that no more water is sucked into the system. The pipe system is now filled with water. In a U-shaped part of the pipe system, a device 29 for canceling the lifting action is also provided, which has a non-return valve, wherein blowing out can only take place at the supply line D of the intermediate container 19 . The amount of air blown out is regulated by means of a throttle mounted above the check valve.

The pipe system is now filled with water and the intermediate container 19 has been evacuated. Thereafter, the first hose valve 18 by means of line B , cf. Fig. 5, opened. The atmospheric pressure then presses the chair and water out to the intermediate container 19 . Thereafter, valve No. 1 and the compressed air supply to the ejector 11 are interrupted, and valve No. 2 and valve No. 3 are opened again, after which valve No. 4, which is connected to line C , is actuated. This will open valve # 4 and supply compressed air to line C. Line C is connected to the Einfülllein device 31 , which is opened at a pressure of approximately 3 bar at a flush valve 32 , the water in the pipe system in the toilet bowl 22 is released. At the same time, valve No. 5, which directs the hose valve 18 via line B , is opened, the hose valve 18 being opened and water, stool, etc. being pressed into the intermediate container 19 by atmospheric pressure. When this process is complete, valve No. 4 is closed, the compressed air supply to the rinsing device is closed and valve No. 2 is opened to relieve the air pressure in the pipe system. As a result, the flushing process is suddenly interrupted because compressed air is discharged outdoors. Then valve No. 7 is actuated, compressed air being blown into the intermediate container 19 via line D and an excess pressure being generated in the intermediate container 19 . Furthermore, compressed air is blown into the U-shaped pipe section by the device 29 , the lifting effect, which could otherwise arise, being interrupted. Valve No. 7 is closed again, and valve No. 6 is opened again, ie line A , which controls the second hose valve 17 , and thus the collecting container 23 is accessible. The pressure created in the intermediate container 19 then presses the entire contents through the pipe system to the container 23 Sam out.

The above system ensures a shorter cycle than previous systems.

The components of the vacuum toilet system are connected as shown in FIG. 1. Under the car floor near the same, the intermediate container 19 is mounted, which directs the faeces from the toilet bowl 22 to the collecting container 23 . The collection container 23 is mon tierbar in several places, such as in or under the car, where most of the space is available. The system is controlled by means of the control cabinet 21 , which is mounted on an easily accessible part in the car.

The individual parts are connected using flexible hoses and pipes which dampens vibration transmission between components will.  

If the towing vehicle is provided with several toilets, a plurality of vacuum toilets can be connected to the same collecting container 23 , thereby reducing the costs both with regard to installation and with regard to emptying.

In order to ensure safe operation in winter, the system is provided with self-regulating heating cables which keep the collecting tank 23 , the intermediate tank and the pipe systems frost-free. The energy for the operation of the system is provided by the compressed air system of the towing vehicle. The control current for the electromagnetic control system is taken from the accumulator of the car. When the vacuum toilet is ready for operation, the intermediate container 19 of the system is closed.

The pipe system above the intermediate container 19 is filled with water so that unpleasant smells are avoided.

Claims (2)

1. Vacuum lavatory system for mobile units, such as trains and buses, and with at least one toilet bowl, devices for generating a vacuum, a collecting container, lines with valves for guiding the material in the toilet bowl to the collecting container by means of the mentioned vacuum, one in the line of the Used intermediate container and devices for supplying rinse water to the toilet bowl, the devices for generating a vacuum in the intermediate container and in the lines are formed by a pneumatic ejector connected to a compressed air container, characterized in that a device ( 29 ) for Cancellation of the lifting effect in the pipe section from the flushing water tank is used, through which air can be supplied to the pipe section. 2. Vacuum lavatory system according to claim 1, characterized in that the device ( 29 ) is inserted in a U-shaped pipe section.