EP0799382A1 - Liquid ring gas pump with a silencer in the pressure chamber - Google Patents

Abstract

PCT No. PCT/EP95/05093 Sec. 371 Date Jun. 17, 1997 Sec. 102(e) Date Jun. 17, 1997 PCT Filed Dec. 22, 1995 PCT Pub. No. WO96/20346 PCT Pub. Date Apr. 4, 1996A liquid ring gas pump has a pressure space and a pressure pipe connected to the top of the pressure space. A tubular silencer is suspended from the pressure pipe and extends into the pressure space. The silencers are detachable and may be inserted through the pressure pipe. The detachable silencers are retained by an elastic ring retained in a ring-shaped groove of the pressure pipe.

Description

 Liquid ring gas pump with; a silencer body in the pressure chamber

When liquid ring gas pumps are operated, strong noises occur because the vanes of the impeller periodically sweep past the opening through which the conveyed liquid gas mixture passes from the work space in which the impeller rotates into the pressure space. These noises can be particularly annoying when the pressure port connected to the top of the pressure chamber is connected to the atmosphere. Various means have therefore been proposed (DE-C 2036295, EP-A 367845) which ensure that the sound waves within the pressure chamber do not reach the pressure unrestrictedly. These include, for example, noise damping bodies, which extend the pressure connection downwards into the pressure space in a tubular manner (DE-C 2036295, Fig. 14 and 18; EP patent application No. 94114730, Fig. III). However, such means have the disadvantage that they represent an obstacle not only for the sound waves but also for the flow and therefore cause efficiency losses. In pumps whose If no special sound attenuation precautions are required, they are therefore reluctantly used. However, it is expensive to provide separate pump rows for those applications in which noise damping is required.

According to the invention, this disadvantage is avoided by the features mentioned in claim 1. Thereafter, the tubular noise-absorbing body is provided so that it can be decided on a case-by-case basis whether it is used or not.

According to a special feature of the invention, it can be inserted from the outside into the assembled pump through the pressure port, so that normal pumps can be retrofitted with the noise-absorbing body without this having to be taken into account during assembly or storage.

The noise damping body is preferably a pipe section guided in the pressure nozzle, wherein a special device can expediently be provided in the pressure nozzle to hold the noise damping body. According to a special feature of the invention, this is an elastic sealing ring that can be inserted in a circumferential groove of the pressure connector, by means of the frictional force of which the tube inserted as a noise damping body is held in the pressure connector. A shoulder or the like can be provided on this pipe, which, in cooperation with the holding means or the sealing ring, prevents an unintentional sinking into the pressure chamber. According to another feature of the invention, a support stop is provided in the pressure chamber, on which the lower end of the tube used as a noise-damping body is supported.

The invention is explained in more detail below with reference to the drawing, which illustrates an advantageous embodiment. In it show: Fig.l shows a cross section along line II-II of Fig.2 and Fig.2 shows a longitudinal section along line II of Fig.l.

2 shows the working space 1 of the pump, in which the impeller 2 rotates and which is separated from the pressure space 4 by the control disk 3. The control disk 3 contains one or more pressure openings 5, through which the compressed medium with part of the operating fluid passes from the working space 1 into the pressure space 4. At the pressure chamber 4 adjoins the pressure nozzle 6 through which the gas and the operating fluid excess is removed. In the example shown, the pressure port is arranged vertically. This is advantageous but not absolutely necessary.

As far as the pump has been described up to now, it is known and is used for normal use, in which special noise damping means in the pressure chamber are not required.

According to the invention, a tubular noise damping body 7 can be used in the pressure connection 6, the diameter of which is a little smaller than that of the pressure connection. If it is desired that its inside diameter corresponds approximately to the nominal diameter of the connecting line, the pressure connection can be made with a correspondingly larger diameter. Usually this is not considered necessary.

To hold the pipe section 7, an annular groove 8 is provided as standard in the pressure connection 6, into which an elastic ring 9 can be inserted, which holds the pipe section 7 in a manner that is tolerant and rattle-free in relation to the pipe connection 6. So that the pipe section 6 cannot be inserted too far during assembly, a step 10 serving as a stop support is arranged in the pressure chamber on the housing, on which the lower end of the pipe section 7 rests at a circumferential point touches down without significantly reducing the free flow cross section of the pipe section.

The invention makes it possible to retrofit a series pump in the case of high demands on noise damping with the noise damping body, without having to make any changes to the assembled pump as such.

In the simplest case, the tubular noise damping body has a circular cross section. However, it can have a different cross section. This applies in particular to its lower end, which plunges into the pressure chamber. It also need not be tubular in its entire length. The tube shape also need not be closed over the entire circumference. However, this is expedient in the section in which the noise damping body lies within the pressure connection so that it can be kept uniform on all sides.

In the example shown, the noise damping body ends at the bottom in an end face extending at right angles to its longitudinal direction. Since the wall formation in relation to the remaining area of the pressure chamber and, in particular, the position of the lower wall edges of the noise damping body are important with regard to the noise damping function, the lower end edge of the noise damping body can also have a different shape. For example, it can be provided that it extends further down on its side facing the pressure openings 5 than on its opposite side.

Furthermore, it can be provided that openings are provided in its length range immersed in the pressure chamber, which openings are distributed uniformly or irregularly over its circumferential surface, through which openings the medium can enter in addition to its front end opening. In a special embodiment, which corresponds to the exemplary embodiment according to FIG. IV of European patent application 94114730, the noise damping body is double-walled, the two walls being tightly connected to one another at the top, with a buffer space that is open towards the bottom towards the pressure chamber to build.

Claims

claims

1. Liquid ring gas pump with a pressure chamber (4), to which a pressure port (6) is connected geodetically at the top, from which a tubular noise damping body (7) extends into the pressure chamber (4), characterized in that the noise damping body is detachable.

2. Liquid ring gas pump according to claim 1, characterized gekenn¬ characterized in that the noise damping body (7) can be used from the outside through the pressure port.

3. Liquid ring gas pump according to claim 1 or 2, characterized in that the noise damping body (7) is guided in the pressure port (6).

4. Liquid ring gas pump according to one of claims 1 to 3, characterized in that a device (8, 9) for holding the noise-damping body (7) is provided in the pressure port (6).

5. Liquid ring gas pump according to one of claims 1 to 4, characterized in that the noise damping body (7) is sealed off from the pressure port (6).

6. Liquid ring gas pump according to claim 4 or 5, characterized in that the noise damping body (7) is held within half of the pressure port (6) by an elastic ring (sealing ring 9).

7. Liquid ring gas pump according to one of claims 3 to 6, characterized in that in the pressure chamber (4) a support stop (10) is seen vor¬ for the end of the noise damping body. Liquid ring gas pump according to one of claims 1 to 7, characterized in that the noise damping body (7) is double-walled to form a buffer space which is open at the bottom and closed at the top.