NL7812468A - PUMP OF THE PITOT TYPE. - Google Patents

Description

X Sch / AS / 1 _ * · ~, ________ t * r '

Max Theodore Kardoes in Bergen op Zoom.

Pitot-type pump. i [

The invention relates to a pump of; the pitot type, comprising a rotary drivable pump housing with a concentric cylindrical disc-shaped pump | space, in which an inlet conduit for inlet of medium 5; and near the circumferential wall of which the with a '; discharge pipe connecting discharge opening of ten; At least one fixed pitot member is located. A pump of this type is known from the Netherlands patent application 7400950 laid open to public inspection. This known pump is used for pumping.

10 i medium by the rotation of the pump housing by centrifugal *; forces are forced to the circumferential wall of the pump chamber.

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Near that wall, the medium moves through viscous friction! caught with the rotation of the wall. The outlet opening of the pitot means is directed against the flow of the medium, ie against the rotation of the pump housing, so that, as is known, the linear velocity of the medium has a pressure increase at the location of the inlet opening, the " pressure point ". ! i i

The known pump has the drawback that, due to the large amount of moving medium in the pump space, the radial pitot tube is a relatively large obstacle, and therefore constitutes a serious obstacle to the desired laminar medium flow. As a result, the medium in the pump chamber exhibits strong turbulence at the desired rapid rotation of the pump housing, which limits the attainable pressure increase, entails energy loss, and may cause annoying noise. ; 78 1 24 68 4 ^. 2 _

The object of the invention is to eliminate the drawbacks mentioned and to this end provides a pump of the type stated in the preamble, which pump has the feature that the pitot member is a round disc 5 present in the pump space with a shape such that it together with the walls of the pump space, it defines at least one semi-sickle-shaped pump chamber, which ends, in the direction of rotation of the pump housing, in an at least substantially radial wall, in which there is at least one discharge opening.

Further features of the pump according to the invention will now be described with reference to a drawing. In the drawing: Fig. 1 shows a partly broken away top view of a pump according to the invention;

Fig. 2 shows a cross-section along the line II-II

in fig. 1; and

fig. 3 shows a cross section along the line III-III

in fig. 1.

Where necessary, the direction of the medium flow is indicated in the drawing with an arrow.

The casing 1 of the pump 2 rests on a foot 3. Inside the casing 1 there is a pump housing 5, which can be driven via a drive shaft 4 and is rotated by a motor (not shown) with a concentric cylindrical disc-shaped pump space 6, into which an inlet pipe 7 opens. The rotation axis 23 of the drive shaft 4 and the pump housing 5 is drawn with a dashed-dotted line. Near the circumferential wall 8 of the pump space 6 is the discharge opening 16 communicating with a discharge pipe 9 of a fixed, non-rotatable pitot member 11, which is a non-circular disc present in the pump space 6, of such a shape, that together with the walls of the pump space 6 it defines a semi-sickle-shaped pump chamber 12, which ends, in the direction of rotation of the pump housing 5, in a radial wall 14, 35 in which there is a discharge opening 16.

As a result of this build-up, the medium in the pumping chamber 12 exhibits little tendency to turbulence and cavitations up to high speeds, causing the pressure to rise. '<• ... 3 ...,. --- - _____ construction can be optimal due to the pitot effect at the discharge opening 16.

One of the end walls, in the illustrated embodiment the left end wall 18, has a number of radial slots 25. The distance between that end wall 18 and the pitot member 11 is at most half the depth of the slot 25 This achieves that the end wall 18 and the pitot member 11 can move mutually practically without friction, while nevertheless the centrifugal action of the slots 25 is not disturbed by turbulences of the space in the free space between the end wall 18 and medium present in the pitot member 11.

The advantage can, as shown, the distance between the other end wall 19 of the pump space 6 and the pitot member 11 be at least twice the distance between the end wall 18 and the pitot member 11. As a result, the viscous losses continue in the space between the end wall 19 and the pitot member 11 is limited to extremely small values.

The drawn embodiment is very advantageous, in which the pitot member 11 comprises two plates 21, 22 placed transversely of the rotation axis 23 separated by an essentially cylindrical disc-shaped cavity 20.

The inlet conduit 7 leading to the pump space 6 is a tube extending coaxially through the pitot member 11.

The wall 18 of the pump space 6 opposite the outlet pipe 7 has a coaxially placed, deepened part 24, the depth of which is at least equal to the depth of the slot 25 and the diameter of which is greater than the outer diameter of the inlet pipe 7, on which · deepens part 24 da slots. 25 are connected. A very quiet medium flow is hereby obtained. Furthermore, the distance between the bottom of the recessed portion 24 and the outlet end of the inlet conduit 7 is a quarter of the inner diameter of the inlet conduit 78 1 24 6 8 4 "

Jt ding "thing 7. This measure also ensures a smooth flow of the flow, without turbulence and cavitations.

In order to avoid abrupt speed variations with turbulence and cavitation, the total cross-sectional area of the trenches 25 at their connection to the recessed portion 24 is at least as large as the product of the inner circumference of the inlet pipe 7 and the distance between the bottom of the 'deepened part 24 and the outlet end of the inlet pipe 7.

The discharge pipe 9 is a tube placed around the inlet pipe 7 and coaxial to it.

The sickle-shaped pump chamber 12 is completely open on its side facing the end wall 18 of the pump space 6. the plate 22 is substantially purely circular, while the plate 21 has a shape adapted to the shape of the peripheral surface of the pitot member 11.

This further ensures that the medium is in the space between the pitot member 11 and the end wall 19 of the pump. Space 6 has a calm flow. .

The pump according to the invention is suitable, half to increase the pressure of a medium, too; for separating a number of mixed media with diff. different specific masses. For this purpose, the pump may comprise a number of pitot members corresponding to the number of media to be separated, the inlet opening of which is at mutually different radial distances corresponding to the specific masses.

In the illustrated exemplary embodiment, the pitot member 11 comprises two separate pitot elements 27, 28.

Each pitot element 27, 28 includes a circumferential part wall 8 of the pump space 6 bounded, semi-sickle-shaped | pump chamber 12, 13, a radial wall 14, 15 with a discharge opening 16, 17, which communicates via the cavity * 20 consisting of two compartments 27, 28 separated by a partition 34, which are delimited by the plates 78 1 24 68 5

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with the discharge pipe 9 consisting of two hollow parts 30, 31 also separated by the partition 34. Drain stubs 32, 33 are connected to the hollow parts 30/31, each for discharging one of the media. The divider 34 5 can also be placed in an angle position other than the drawn.

It will be clear that with a pump which is not equipped for the separation of different media, one pitot member will suffice. In that case, only one pumping chamber, for example the pumping chamber indicated by 12, is present; the divider 34 can be omitted; also the discharge pipe 9 need not be separated into two parts, while further only one of the discharge stubs 32, 33 is required.

Due to the described and drawn construction, the pitot member 11 lends itself for implementation as a whole.

In that case it can be produced, for example, by injection molding. The pitot member 11 may consist of metal, fiber glass, plastic or a combination thereof. When pumping aggressive liquids, certain plastics or fiber glass are preferred; the other parts that come into contact with the liquid must of course also be resistant to chemical attack.

: The bearings 35 of the drive shaft 4 are of an f! 25 which can withstand the generated axial and radial load forces at high speeds. The casing 1 supports the pump housing 5 on its side facing away from the drive shaft 4 via sealing rotation bearings 36 and a freely rotatable sleeve 37 around the discharge pipe 9. An annular stop member 38 serves to fix the pump housing 5 in the desired axial position. With this construction no medium flows along the seal. There is a medium film against the seal. This limits pollution and wear to very low values. If desired, a neutral lubricating liquid, a "barrier liquid", can be introduced via a lubricating opening 39.

Tubes can be used instead of the radial slots 25 in the wall 18. However, this increases the manufacturing cost of the pump.

In the pump according to the invention care has been taken that the medium flow is laminar as much as possible at all critical points, as described above. Also the relatively large dimensions and the shape of the cavity 20, respectively. the compartments 27, 28 contribute to a calm flow pattern. Not shown is that embodiment, wherein the connection between the discharge openings 16, 17 and the hollow parts 30, 31 each consist of a channel.

The pump is suitable for supplying large 15. quantities of medium, in particular high-pressure liquids, such as can be achieved with plunger pumps and multi-stage pumps, or a number of cascaded pumps.

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Claims (12)

1. Pitot-type pump comprising a rotatably drivable pump housing having a concentric cylindrical disc-shaped pump space, into which an inlet conduit for medium inlet opens and near the circumferential wall, the inlet opening of which communicates with a discharge conduit. at least one fixed pitot member, characterized in that the pitot member is a non-circular disc present in the pump space, such that it delimits together with the walls of the pump space at least one semi-sickle-shaped pump chamber, which, in the direction of rotation of the pump housing, ends in a substantially radial wall, in which there is at least one discharge opening. Pump according to claim 1, with a pump space,. one of the end walls of which has at least one substantially radial slot, characterized in that the distance between said end wall and the pitot member is at most half the depth of said slot. 3. A pump according to claim 2, characterized in that the distance between the other end wall of the pump space and the pitot member is at least twice as great as the distance between said first end wall of the pump space and the pitot member . Pump according to any one of the preceding claims, characterized in that the pitot means comprises two plates separated by an essentially cylindrical disc-shaped cavity, placed transversely of the axis of rotation. Pump according to any one of the preceding claims, characterized in that the inlet pipe leading to the pump space is a tube extending coaxially through the pitot member. 6. Pump according to claim 5, characterized in that the wall of the porap space opposite the outlet end of the inlet conduit has a coaxially placed recessed portion / of which the depth is at least equal to the trench depth and the diameter of which is greater than the outside diameter of the inlet pipe and that the or each trench is connected to that part. Pump according to claim 6, characterized in that the distance between the bottom of the recessed portion and the outlet end of the inlet pipe is at least about a quarter of the inner diameter of the inlet pipe. 8. Pump according to claim 6 or 7, characterized in that the total cross-sectional area of the slots at the location of their connection to the recessed part is at least substantially the same. as the product of the inner circumference of the inlet pipe and the distance between the bottom of the recessed section and the outlet end of the inlet pipe. Pump according to any one of claims 5-8 / characterized in that the discharge pipe is a tube placed around the inlet pipe and coaxial to it. Pump according to any one of the preceding claims, characterized in that the or each sickle-shaped pump chamber is completely open on its side facing the end wall on the inlet side of the pump space. Pump according to claim 9 or 10, characterized in that the inlet pipe and the discharge pipe with the pitot member form one unit. Pump according to any one of the preceding claims, characterized by at least two pitot members, the inlet opening of at least one of which is at a different radial distance from the shaft than the others. ♦ 78 1 24 6 8