CA2907899A1 - Vane-type rotary vacuum pump - Google Patents

Abstract

The present disclosure relates to a rotary vane vacuum pump comprising a drive motor (1, 17) cooperating with a vane vacuum pumping chamber (2) in which all the pump surfaces visible from above are arranged so that they are free from elements capable of retaining liquids or solids. The drive motor (1) can in particular be an air-cooled asynchronous motor or a water-cooled asynchronous motor having a casing forming with the cylinder (18) a space in which a cooling fluid can circulate.

Description

WO 2014/16996

2 PCT / EP2013 / 058182 Rotary vane vacuum pump Technical field of the invention The invention relates to a rotary vane vacuum pump suitable for particularly for uses in the industry in which it is necessarily to respect certain rules of hygiene both during the operation of the pump only with regard to cleaning services.
Background of the invention Rotary vane vacuum pumps have been around for a long time.
In such pumps, the rotor is provided with several blades (called Letters) which slide radially and which ensure the transfer of air pump.
In the European patent application published under the number EP 0 166 807 is described an example of such a pump. As can be seen from particularly in Figure 1 of this document, a conventional vane pump is provided at many locations on its outer surface with fins, which may form liquid or solid retention zones or prevent the natural flow. This makes this type of pump unsuitable or even complete unsuitable for a number of applications.
Indeed, liquids or solids can settle and stagnate in said retention zones on the surface of the pump and thus give rise to developments of pathogenic organisms (fungi, bacteria, etc.) which induces risks of contamination.
Summary of the invention The major object of the invention is therefore to propose a vacuum pump rotary vane which does not have the aforementioned drawbacks and which is particularly suitable for use in environments subject to my strict hygiene.
This goal is achieved by means of a rotary vane vacuum pump which has the particularity that all the surfaces of the pump visible since the top are arranged in such a way that they are devoid of elements likely to retain liquids or solids. In particular, this pump may, at least in one part, be provided with protective means without surfaces or troughs that may retain liquids or solids.
Such a pump has the further advantage of being easy to clean. She It is thus quite suitable for uses in industries in which he is necessary to respect certain rules of hygiene.
Brief description of the drawings Other features and advantages of the invention will now be not be described in detail in the following description which is given by reference to the annexed figures, which schematically represent:
- Figure 1: a rotary vane vacuum pump according to the prior art to the invention;
- Figure 2: the pump according to Figure 1, made consistent with a first embodiment of the invention;
FIGS. 3, 4 and 5 show front, back and front perspective views.
after clockwise pivoting, a pump se-a second embodiment of the invention;
FIGS. 6, 7 and 8: views, respectively corresponding to those FIGS. 3, 4 and 5, of the pump according to the second embodiment, equipped with of an oil mist separator.

3 Detailed exposition of the invention As already mentioned, the rotary vane vacuum pump according to the invention is characterized in that all its surfaces visible from the are arranged in such a way that they have no elements likely to retain liquids or solids. Such surfaces, which are necessarily external, may be formed by cooling fins and they are located on the upper half of the vacuum pump, being given that the surfaces on the lower half of the vacuum pump do not can, because of gravity, retain a liquid or a solid. In this place he seems important to clarify that the adjectives upper and lower used in this text (both in the description and in the re-vendications) refer to the normal position of the pump when it is functioning or ready to operate.
To achieve the upper surfaces devoid of sus-to retain liquids or solids, it is particularly possible to shape the top of the surfaces in a smooth manner. This can be during the production of the constituent parts of the pump, ie when machining the outer walls of the pumping chamber.
Alternatively, the pump can also, at least in part, be provided with means for protecting the upper surface. These means of pro-must also be free of depressions, for example grooves, located on the upper half of the vacuum pump and within which of the liquids or solids could stagnate.
First embodiment To learn about a first embodiment of the invention, we can start by referring to FIG.
a rotary vane vacuum pump according to the prior art.

4 This pump comprises in particular a drive motor, in the occurrence of an asynchronous motor that is cooled in the air. Of course, he would be possible to use another type of engine, including a motor cooled to the water, following the model. This engine is coupled to a pumping chamber 2, in view to rotate the rotor of the latter, so that the pump can fulfill its pumping function. An intermediate cylinder V2 connects the drive to the pumping chamber 2 and normally contains the connection elements between the drive motor and the pump chamber.
page 2.
This pumping chamber 2 is known per se, it comprises typically a rotor which is housed in a cylindrical bore and which carries pallets.
The pumping chamber 2 can be supplied with oil, that is to say that an oil circulation system is then provided to lubricate, ensure sealing and allow heat exchange.
This oil is separated from the pumped gases in a separator of oil mist (not shown in the figure), so that the air Sorbonne both through exit 3 can be cleared of the oil it contains before to be repressed into the atmosphere.
The pumping chamber 2 is also connected to a sample heat exchanger V1 with an integrated fan (not shown) which serves to re-cool the pumping chamber 2 which is warming up during operation pump.
The drive motor 1 and the pumping chamber 2 are of preferably connected in a removable manner, which makes it possible to replace one or the other in case of breakdown.
As can be seen clearly in FIG. 1, the pumping chamber 2 and the drive motor 1 have on their periphery fins of 5. These are mainly the fins that make this pump according to the prior art can not be suitable for use in a field required.

compliance with certain hygiene rules and ease of cleaning on because, as explained above, the fins can retain liquids or solids.

This is why, according to the invention, which we can see the first mode embodiment with reference to FIG. 2, it has been foreseen that all the surfaces pump, so all the visible surfaces from the top, are arranged in such a way that they are devoid of to retain liquids or solids. As one can see in analy-In FIG. 2, it is possible to obtain such smooth surfaces.
either in forming in such a way that they do not contain elements which are sus-able to retain liquids or solids, either by providing protection, which themselves do not have any surfaces or recesses hold liquids or solids.
In FIG. 2, it can be seen that the upper surface of part of the pump (in particular the part of the pumping chamber 2) comprises only smooth surfaces. These surfaces therefore do not include any elements likely to retain liquids or solids in such a way as to allow natural flow of any liquid or natural slip of any solid that could fall on the pump. Also, Figure 2 shows at the same time the other possibility to realize the distinctive characteristic of the presents vention, so the protection means 6 which are similar to a hood, that is to say, they have substantially the shape of a half-cylinder covered with in this case the upper part of the drive motor 1. Of course from, it would also be possible to realize a pump in the spirit of the pre-invention in which the protection means 6 would be positioned in another part of the pump, eg on the pumping chamber 2.
Upper part refers here, as before, to where the pump according to the present invention is arranged horizontally, that is to say when the axis of rotation of the drive motor 1 and the axis of rotation of the rotor of the pumping chamber 2, which are generally confused

6 due, are parallel to the ground, the supports 13 and 14 of the pump resting then normally on the ground (or a support parallel to the ground).
The above use of the adverb substantially means that the half cylinder 6 has a shape that is obviously adapted to the engine 1, for example by having a cutout allowing the housing electrical tier 7 to protrude.
As can be seen in FIG. 2, the half-cylinder 6 does not cover than the upper fins 5 of the drive motor, the fins lower 16 appearing then in the lower part of the drive motor 1.
Preferably, the half-cylinder 6 is removable, which has the advantage it is easily possible to access the drive motor 1 in the case thorough control and cleaning.
It is also preferable to provide that at least some all the upper surfaces of the drive motor 1 and / or the pumping chamber 2, that is to say those visible from above of the pump, are inclined downward, so as to allow the elimination, flow of liquids, or slipping of solids during the net.
when these liquids or solids are present on these surfaces.
Examples of upper surfaces include those desired shown in FIG. 2 by reference numerals 8, 9, 10 and 11 for the chamber pump 2 and reference numbers 12 and 15 for the engine Training 1.
The inclination of the surfaces concerned is preferably at least 5 degrees from the ground, when the supports 13 and 14 rest on the ground.
Preferably, it is also expected that the fog separator of oil includes a support block common to the filter and the heat exchanger for the oil which makes it compact, accessible and easily cleanable.

7 Second embodiment A second embodiment of the invention is shown in Figures 3 to 7.
As can be seen in these figures, the rotary vacuum pump with pallets has a pumping chamber 2 which can be like that of FIGS. 1 and 2 and which is connected to a drive motor 17. This has the particularity to understand a double envelope having an external part formed of a cylinder 18, visible in Figure 3, all or almost all all is smooth on the outside. The inner part of this double envelope, which is in fact the motor housing not visible in Figure 3, contains way conventional components of a rotary vacuum pump motor with lettes, which can be an asynchronous motor.
Preferably, the outer surface of the cylinder 18 is smooth, contrary to in the first embodiment where the outer surface (see Figure 2) is generally provided with cooling fins 16.
The cylinder 18 is spaced from the housing (smooth or not) so as to form sea a space in which a cooling fluid such as a liquid, in water, can circulate, entering and exiting through the orifices 19 and 20.
The advantage of cooling with water is that it allows the extraction of the heat generated by the drive motor 17, without resorting to the fins 16 (of FIG. 2), the surface of which makes it possible to exchange heat with the air.
Preferably, the cylinder 18 is blind, that is to say closed to its free end, which facilitates the cleaning of the pump.
In general, in this embodiment, the cylinder 18 is not removable because it is attached to the drive motor casing 17. However, it It would also be possible to provide for a particular embodiment of the the present invention wherein the cylinder 18 is also removable.

8 As in the first embodiment of the invention, it is advantageous to predict the inclination of some and all preferences upper surfaces such as surfaces 8, 9, 10, 11, 15, 21, 22 and 23.
Also, it is usual, when using a pumping chamber 2 with lubricated vane, to provide an oil mist separator as the one visible in FIGS. 6, 7 and 8. Advantageously, this separator comprises a support block common to the filter and the heat exchanger for the oil 25, this who makes it compact, accessible and easily cleanable.
The description that has just been given is that of several modes However, the embodiment of the device according to the invention does not limit not the scope of the invention which is in the first line defined by the claims.
The person skilled in the art will realize the possibilities of development, modifications and applications of the pump according to the present invention, and particularly in other areas where it is important to respect increased levels of hygiene.

Claims (13)

claims 1. Rotary vane vacuum pump, comprising an engine drive (1, 17) cooperating with a vacuum pumping chamber with letters (2), characterized in that all visible pump surfaces are then the top are arranged so that they are missing elements likely to retain liquids or solids. Rotary vane vacuum pump according to claim 1, in which which the pump is, at least on a part, provided with means of protection (6) without surfaces or troughs that may retain liquids or solid. Rotary vane vacuum pump according to claim 2, in which which the protection means have substantially the shape of a half cylinder (6) covering at least an upper portion of the pump. 4. Rotary vane vacuum pump according to any one of the 2 or 3, in which the protective means (6) are removable ble. 5. Rotary vane vacuum pump according to any one of the 2 to 4, in which the means of protection (6) are positioned only at the drive motor (1). Rotary vane vacuum pump according to one of the claims in which the drive motor (1) is an asynchronous motor chrone with air cooling. Rotary vane vacuum pump according to claim 1, in which which the drive motor (17) comprises a double envelope with an outer portion formed of a cylinder (18). Rotary vane vacuum pump according to claim 7, in which which said cylinder (18) is a blind cylinder. Rotary vane vacuum pump according to claim 7 or 8, wherein the drive motor (17) is an asynchronous motor with cooling water jet having a housing forming with the cylinder (18) a space in which a cooling fluid can circulate. Rotary vane vacuum pump according to one of the claims in which, when the axis of rotation of the drive motor (1, 17) and that of the rotor of the pumping chamber (2) are parallel to the ground, some (8, 9, 10, 11, 15, 21, 22 and 23) at least of the upper surfaces of drive motor (1, 17) and / or the pump chamber (2) are inclined.
born down. Rotary vane vacuum pump according to one of the claims in which the vanes are lubricated with oil. Rotary vane vacuum pump according to the preceding claim in which the pumping chamber (2) is connected to a separator of oil mist (24). 13. Rotary vane vacuum pump according to the preceding claim in which the oil mist separator (24) comprises a block support (25) common to the filter and the heat exchanger for the oil.