DE102008013335A1 - Vane cell machine for use as e.g. vane cell pump to convey liquid into common pipe line, has hollow rotor with rotor slots for vane, and outer chambers and inner chambers provided with inlets and outlets - Google Patents

Abstract

The machine has a hollow rotor (2) with rotor slots (17) for a vane, where the rotor is rotatably supported eccentrically in a housing (1). The rotor has a cylinder (4), which is coaxial to the housing, to form outer chambers (7) and inner chambers (8). The outer chambers and the inner chambers are provided with inlets and outlets. A cover has an the inlet groove (10), which connects a part of the inner chambers with the inlet, and has a outlet groove (12), which connects another part of the inner chambers with the outlet.

Description

The The invention relates to vane machines, in general Mechanical engineering and other industries are widespread and as vane pumps, vane motors or vane compressor can be used and having a rotor with wings, the eccentric is mounted in the cylindrical housing.

The design of such vane machine (eg. GB 1330293 ) has a hollow rotor in the form of a cylinder with the rotor slots for the blades, which is eccentrically mounted rotatably in the housing, and an inner cylinder which is coaxial with the housing. In this construction, outer chambers form between the housing and the rotor, which have an inlet and an outlet, and inner chambers between the rotor and the inner cylinder.

Of the Disadvantage of this construction is that the inner chambers not used. As a result, the pump performance and the head (pump), the engine power (engine) or the pressure (compressor) is not that high.

The The object of the invention is therefore the vane machine the o. g. Style so that with the intention of effectiveness the vane machine to increase the inner chambers also be used.

These The object is achieved according to the invention that the inner chambers also have an inlet and an outlet.

The Embodiments of the invention are in the drawings shown.

1 shows a vertical, axial sectional view through the vane machine.

2 shows a side view of the vane machine without the lid (the cross section AA in accordance with 1 ).

3 shows an axial sectional view through the vane machine with the cylinder having the pin.

4 is a view of the lid from the inside (the cross section BB according to 1 ).

5 illustrates a vertical, axial sectional view through the vane machine, the lid and cylinder are made as a part, wherein the cylinder is hollow.

6 is a side view of the vane machine without the lid (the cross section DD according to 5 ).

7 shows a cross section CC according to 6 ,

8th is an overall view of the rotor according to 1 . 2 . 3 ,

9 is an overall view of the rotor according to 5 . 6 . 7 ,

In the figures, arrows indicate the direction of rotation of the rotor and the direction of movement of the pressure oil. In addition, the dash-dotted lines at the 2 the positions of the inlet and outlet grooves of the lid.

The vane machine ( 1 - 4 ) consists of the housing 1 in which a hollow rotor 2 in the form of a cylinder with the ground 24 or without him and with the rotor slots 17 eccentrically rotatable and the cylinder 4 equiaxed to the housing 1 are stored. The housing 1 has a lid 6 on. In the rotor slots 17 are the wings 3 arranged the outer chambers 7 (between the case 1 and the rotor 2 ) and the inner chambers 8th (between the rotor 2 and the cylinder 4 ) form. The floor 24 of the rotor 2 can sink flush in the niche 22 the bottom of the case 1 are located ( 1 . 3 ). In this case, the rotor slots stretch 17 to the ground 24 of the rotor 2 out ( 8th ). The floor 24 of the rotor 2 can be on the bottom of the case 1 lie ( 5 . 7 ). In this case, the rotor slots stretch 17 until the end of the rotor 2 out, that is, they are also in the ground 24 power ( 9 ). Where is the ring-like upper part of the rotor 2 in the ring groove 23 in the lid 6 grooved ( 5 . 7 ). The floor 24 of the rotor 2 can also on the lid 6 instead of the bottom of the case 1 lie (if the lid 6 downstairs and the floor 24 are arranged above). In this case, there is the ring-like upper part of the rotor 2 in the ring groove 23 in the bottom of the case 1 is grooved. The application of the rotors 2 with different diameters leaves the ratio of the volumes of the outer chambers 7 and the inner chambers 8th to change.

The cylinder 4 can be completely metallic ( 1 - 4 ) be. He can have a free rotation ( 1 - 4 ). In this case, the one end face of the cylinder can 4 on the ground 24 of the rotor 2 support and the opposite end face of the cylinder 4 can be in the niche 27 of the lid 6 put up ( 1 . 4 ) or a pin 19 have the cylinder 4 holds ( 3 ).

The outer chambers 7 in that half of the vane machine where its volume is increasing (left half 2 ), connect to the Zulaufnut 9 in the lid 6 ( 2 . 4 ) or in the bottom of the housing 1 is arranged. And the outer chambers 7 in that half of the vane machine, where its volumes shrink (right half 2 ), connect to the trigger groove 11 in the lid 6 or in the bottom of the case 1 also arranged.

The inner chambers 8th in that half of the vane machine, where its volume increases (right half 2 ), connect to the Zulaufnut 10 in the lid 6 ( 2 . 4 ) or in the bottom of the housing 1 is arranged. And the inner chambers 8th in that half, where their volumes shrink (left half 2 ), connect to the trigger groove 12 in the lid 6 or in the bottom of the case 1 also arranged.

5 . 6 . 7 represent another example of the vane machine. Here is the cylinder 4 hollow. He can rotate on the lid 6 be attached and through its bottom to the ground 24 of the rotor 2 support or vice versa, the cylinder 4 rotation-free at the bottom of the housing 1 be attached and through its bottom to the lid 6 support each other. Its cavity is with the partition wall 18 separated into two parts. Part is with the inlet 14 connected and another is with the outlet 16 connected. In addition, the walls of the cylinder point 4 the continuous inlet slots 20 and withdrawal slots 21 on, every part of the cylinder 4 with corresponding inner chambers 8th connect. The housing 1 has the inflow channels 25 and the gutters 26 on, which correspond with the inlet 13 and with the outlet 15 connect.

During the rotation of the rotor 2 glide the outer ends of the wings 3 over the inner wall of the housing 1 and the inside ends of the wings 3 glide over the outer surface of the cylinder 4 , The wings have 3 the forward and backward movement through the rotor slots 17 due to the eccentricity of the rotor 2 , As a result, the volumes of the outer chambers change 7 and the inner chambers 8th ,

If you use the vane machine as a vane pump, the liquid comes through the inlet 13 and the inlet groove 9 as a result of dilution in the outer chambers 7 whose volumes are increasing. Then the wings 3 push the liquid in the direction of rotation of the rotor 2 and push them into the flue 11 and outlet 15 out. At the same time the liquid comes through the inlet 14 and the inlet groove 10 in the inner chambers 8th whose volumes expand, and then bumps their wings 3 in the vent groove 12 and outlet 16 out ( 1 - 4 ).

What the vane machine according to 5 - 7 As far as the liquid comes through the inlet 13 and the inlet channel 25 of the housing 1 in the outer chambers 7 and moves when exposed to the wings 3 through the gutter 26 of the housing 1 to the outlet 15 , At the same time the liquid comes through the inlet 14 in the right half of the cylinder 4 ( 7 ) and then through the inlet slots 20 in the inner chambers 8th , From there it will be under the action of the wings 3 through the draw slots 21 , through the left half of the cylinder 4 ( 7 ) and through the outlet 16 dissipated.

These vane pumps can deliver the fluid into the common pipeline or separate pipelines. In principle, these vane pumps can simultaneously pump two different liquids. The outer chambers can be increased with the intention to increase the delivery amount 7 and the inner chambers 8th connect consecutively, ie you can the outlet 15 the outer chambers 7 with the inlet 14 the inner chambers 8th or the outlet 16 the inner chambers 8th with the inlet 13 the outer chambers 7 connect.

The vane machine described above can also be used as a vane motor. In this case, the pressurization of the pressurized oil or the compressed air through the inlet 13 in the outer chambers 7 and through the inlet 14 in the inner chambers 8th executed. As a result, the rotor becomes 2 operated in the rotational movement. This turns the drive shaft 5 in the output shaft.

If you use the vane machine as a vane compressor, you can with the intention of increasing the pressure of the compressed air, the outer chambers 7 and the inner chambers 8th connect in succession. In this case, the vane compressor becomes the two-stage compressor.

1

casing

2

rotor

3

wing

4

cylinder

5

drive shaft

6

cover

7

outer chamber

8th

inner chamber

9

Zulaufnut the outer chambers

10

Zulaufnut the inner chambers

11

Abzugsnut the outer chambers

12

Abzugsnut the inner chambers

13

Inlet of the outer chambers

14

Inlet of the inner chambers

15

Outlet of outer chambers

16

Outlet of inner chambers

17

rotor slot

18

partition wall

19

spigot

20

inlet slot

21

withdrawal slot

22

niche for the rotor

23

ring groove

24

ground of the rotor

25

feed channel of the housing

26

discharge chute of the housing

27

niche for the cylinder

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• GB 1330293 [0002]

Claims (15)

A vane machine which can be used as a vane pump, vane motor or vane compressor and which has the hollow rotor with the rotor slots for the wings, which is eccentrically rotatably mounted in the housing, and which has the cylinder which is coaxial with the housing, thereby forming the outer chambers and the inner chambers, the outer chambers having the inlet and the outlet, characterized in that the inner chambers ( 8th ) also the inlet ( 14 ) and the outlet ( 16 ) exhibit. Vane machine according to claim 1, characterized in that the lid ( 6 ) the inlet groove ( 10 ), which has a part of the inner chambers ( 8th ) with the inlet ( 14 ), and the trigger groove ( 12 ), which has another part of the inner chambers ( 8th ) with the outlet ( 16 ) connects. Vane machine according to claims 1, 2, characterized in that the bottom of the housing ( 1 ) the inlet groove ( 10 ), which has a part of the inner chambers ( 8th ) with the inlet ( 14 ), and the trigger groove ( 12 ), which has another part of the inner chambers ( 8th ) with the outlet ( 16 ) connects. Vane machine according to claim 1, characterized in that the outlet ( 15 ) with the inlet ( 14 ) connected is. Vane machine according to claims 1, 4, characterized in that the outlet ( 16 ) with the inlet ( 13 ) connected is. Vane machine according to claim 1, characterized in that the bottom of the housing ( 1 ) the niche ( 22 ) for the rotor ( 2 ) having. Vane machine according to claims 1, 6, characterized in that the bottom of the housing ( 1 ) the niche ( 27 ) for the cylinder ( 4 ) having. Vane machine according to claim 1, characterized in that the lid ( 6 ) the niche ( 27 ) for the cylinder ( 4 ) having. Vane machine according to claims 1, 8, characterized in that the lid ( 6 ) the niche ( 22 ) for the rotor ( 2 ) having. Vane machine according to claims 1, 9, characterized in that the lid ( 6 ) the annular groove ( 23 ) Has. Vane machine according to claims 1, 6, 10, characterized in that the bottom of the housing ( 1 ) the annular groove ( 23 ) Has. Vane machine according to claims 1, 7, 8, characterized in that the cylinder ( 4 ) the pin ( 19 ) having. Vane machine according to claims 1, 7, 8, characterized in that the cylinder ( 4 ) to the lid ( 6 ) is attached. Vane machine according to claims 1, 13, characterized in that the cylinder ( 4 ) to the bottom of the housing ( 1 ) is attached. Vane machine according to claims 1, 13, 14, characterized in that the cylinder ( 4 ) is hollow and its cavity with the partition ( 18 ) is divided into two parts, with a part of the inlet ( 14 ) and through the feed slots ( 20 ) with the corresponding inner chambers ( 8th ) and another part is the outlet ( 16 ) and through the withdrawal slots ( 21 ) with the opposite inner chambers ( 8th ) connected is.