HELICAL SPINDLE PUMP WITH A SINGLE-ENTRY DESIGN

Abstract

The invention relates to a dual-spindle helical spindle pump with a single-entry design, comprising a pump housing (11) which has a pump portion (12), a bearing portion (13) and a gear portion (14) with a gear chamber, wherein the bearing portion (13) and the pump portion (12) are designed separately from one another, comprising a feed housing part (50) as a component of the pump portion (12) in which two feed screws (17, 18) are provided, said feed screws having flanks (46) and being arranged on shafts (15, 16) in a feed space (51), wherein the shafts (15, 16) are mounted in the bearing portion (13) (external bearing system) and extend into the gear portion (14), and wherein the feed housing part (50) has at least one feed portion (52) with an inner wall (58) which faces the outer face (59) of the feed screws (17, 18). The invention provides that at least one separating element (60), which is in contact with at least one portion of the outer face (59) of the feed screws (17, 18), is between the inner wall (58) of the feed portion (52) and the outer face (59) of the feed screws (17, 18), at least in the region (57) of the feed screws (17, 18), and in that the separating element (60) is floatingly mounted in the feed housing part (50) relative to the inner wall (58) of the feed portion (52).

Claims

1-9. (canceled)

10. Dual-spindle helical spindle pump with a single-entry design, including a pump housing with a pump portion, a bearing portion, and a gear portion with a gear chamber, wherein the bearing portion and the pump portion are separated from one another, the pump portion including a feed housing in which two feed screws are provided, the feed screws having flanks and arranged on shafts in a feed space, wherein the shafts are mounted in the bearing portion and extend into the gear portion, and wherein the feed housing part has at least one feed portion with an inner wall which faces outer face of the feed screws, the spindle pump comprising; at least one separating element disposed between the inner wall of the feed portion and at least one portion of the outer face of the feed screws, wherein the at least one separating element is in contact with the at least one portion of the outer face of the feed screws, and wherein the separating element is floatingly mounted in the feed housing part relative to the inner wall of the feed portion.

11. Helical spindle pump according to claim 10, comprising a space between the at least one separating element and the inner wall of the feed portion, wherein at least one part of the separating element is movable into and out of the space.

12. Helical spindle pump according to claim 10, wherein the separating element is at least one of radially elastically deformable or radially movable at least in some portions, relative to the central axis of the helical spindle pump parallel to the shafts.

13. Helical spindle pump according to claim 10, wherein the separating element at least partially consists of at least a plastics material, a ceramic material or a material which does not react in a corrosive manner with the material of the outer face of the feed screws.

14. Helical spindle pump according to claim 10, wherein the feed housing part comprises a cover with a first feed opening for the connection of a first line for supplying or removing a medium to be pumped, and the cover is connected to the feed portion. and wherein the feed housing part comprises an intermediate flange with a second feed opening for the connection of a second line for supplying or removing a medium to be pumped, and the intermediate flange is connected to the feed portion.

15. Helical spindle pump according to claim 14, comprising at least one seal between the separating element and at least one of the cover or the intermediate flange.

16. Helical spindle pump according to claim 15, wherein the separating element is floatingly mounted between the seals.

17. Helical spindle pump according to claim 10, wherein the feed portion has at least one seal at the ends thereof, and the separating element is floatingly mounted therebetween.

18. Helical spindle pump according to claim 10, wherein the separating element is floatingly mounted in the feed housing part relative to the inner wall of the feed portion wherein the separating element is rotatably mounted about a rotational axis, wherein the rotational axis is provided at right-angles to the central axis of the helical spindle pump parallel to the shafts.

Description

[0013] The invention is described hereinafter with reference to an exemplary embodiment in connection with a drawing. In the drawing:

[0014] FIG. 1 shows a sectional view through a pump according to the invention in plan view,

[0015] FIG. 2 shows a sectional view of a pump according to the invention in a sectional view through the gear portion,

[0016] FIG. 3 shows a sectional view through a pump according to the invention in side view,

[0017] FIG. 4 shows a three-dimensional view of a pump according to the invention with the drive.

[0018] FIG. 1 shows a sectional view in plan view of a spindle pump 10 according to the invention. The spindle pump 10 has a housing 11 which has a pump portion 12, a bearing portion 13 and a gear portion 14. These portions are spatially and hydraulically separated from one another. FIG. 3 shows a sectional view of the pump portion 12 of the spindle pump 10 according to the invention in side view.

[0019] The spindle pump 10 comprises a driven shaft 15 and a driven shaft 16. A feed screw 17 is arranged on the driven shaft 15 and a feed screw 18 is arranged on the driven shaft 16, said feed screws being in engagement with one another. A needle bearing 19 and a rolling bearing 20 are provided in the bearing portion 13 so that the shafts are mounted in the external bearing system outside the pump portion 12.

[0020] The shaft ends 22, 23 are located in the gear chamber 21. The shaft end 22 of the driven shaft 15 extends out of the housing 11 and has a connection 24 at that point for a drive unit 49.

[0021] A gearwheel 25 is located on the driven shaft 15. A gearwheel 26 is arranged on the driven shaft. The teeth of the gearwheels 25, 26 are in meshing engagement.

[0022] At the shaft end 23 a fastening element 27 is arranged on the driven shaft 16. The fastening element 27 has a bushing portion 28 and a flange portion 29. The outer face of the bushing portion 28 is at the same time a receiving surface 30 for the gearwheel 26.

[0023] A feather key 31 is inserted into a groove (not shown) in the shaft end 23 and in the fastening element 27, a rotational operative connection being produced thereby between the shaft 16 and the fastening element 27. A hexagon bolt 33 is screwed into a bore (not shown) in the front face 32 of the shaft end 23, a clamping washer 34 being tightly screwed thereby against a seat 35 on the fastening element 27. As a result, the fastening element 27 is connected in a locking manner to the shaft end 23.

[0024] The flange portion 29 has a bore 36. The gearwheel 26 has a corresponding bore 37 which may be designed as a through-bore or as a bore hole. A thread (not shown) is arranged in the bore 37. A hexagon bolt 38 is screwed into this thread, whereby the flange portion 29 of the fastening element 27 is locked to the gearwheel 26.

[0025] A spacer bushing 39 is located downstream of the bushing portion 28 of the fastening element 27, it being ensured thereby that the gearwheel 26 is not able to come into contact with the bearing portion 13 via the fastening screws 40 of the gear portion 14.

[0026] The fastening element 27 is shown with its flange portion 29 on the gearwheel 26. The clamping washer 34 is mounted via the hexagon bolt 33 in the seat 35 of the flange portion 29. The bore 36 in the flange portion 29 is designed in this case as a slot 41. Moreover, the gear portion 14 has on its upper face an opening 42 which is retentively connected by a cover 43 via hexagon bolts 44 to the gear portion 14 (see FIG. 2).

[0027] FIG. 3 shows a sectional view through a preferred embodiment of a helical spindle pump according to the invention in side view.

[0028] The pump portion 12 in this case has a feed housing part 50. A feed space 51, in which the feed screws 17, 18 are provided in corresponding bores, is arranged in the feed housing part 50. The feed housing part 50 in this case is composed of a feed portion 52, a cover 53 with a first feed opening 54 and an intermediate flange 55 with a second feed opening 56. These components are screwed together with a nut-screw connection 64, as is preferably shown here.

[0029] Feed chambers 63, in which the material to be pumped is moved, are provided between the individual feed screw projections 45.

[0030] In each case, a seal 62 is provided between the feed portion 52 and the cover 53 or between the feed portion 52 and the intermediate flange 55.

[0031] In the embodiment shown in FIG. 3, the seals 62 are shown such that these seals are arranged on the cover 53 and on the intermediate flange 55 toward the feed portion 52.

[0032] However, the seals 62 may also extend further toward the feed portion 52.

[0033] A separating element 60, which is separated from an inner wall 58 of the feed portion 52 by a space 61, is provided in the region of the seal 62.

[0034] The separating element 60 in this case is preferably provided over the entire region 57 of the feed screws 17, 18.

[0035] In this case the separating element 60 is arranged so as to be movable, in conjunction with the seals 62 and relative thereto, into the space 61 or out of said space. A floating bearing system is present between the separating element 60 in the feed space 51. In this case the movement may take place radially, for example relative to a central axis 66.

[0036] In FIG. 3 the feed direction is shown in the direction of the arrow B. During operation, the shafts 15, 16 are deflected in the direction of the arrow A toward the lower inner wall 58, so that a deflection 65 is produced relative to the central axis 66 of the shafts 15, 16.

[0037] The outer face 59 of the feed screws 17, 18 are in contact with the separating element 60.

[0038] By the deflection in the direction of the arrow A, the separating element 60 moves in the direction of the arrow C into the space 61 toward the inner wall 58 of the feed portion 52 on the lower face of the feed screws 17, 18. At the same time, the separating element 60 moves on the upper face of the feed screws 17, 18 out of the space 61 in the direction of the arrow D. The movement of the separating element 60 thus preferably takes place radially relative to the central axis 66. The contact between the outer faces 59 of the feed screws 17, 18 and the separating element 60 is maintained, so that a gap is not produced between the outer face 59 and the separating element 60, so that no losses occur due to return flows during the pumping operation.

[0039] In this case, the separating element 60 also moves at least relative to the seal 62 between the cover 53 and the feed portion 52 in the direction of the arrow C or in the direction of the arrow D.

[0040] Depending on the deformation of the shafts 15, 16 or feed screws 17, 18 the separating element 60 is also potentially elastically deformed therewith. If the deformation of the shafts 15, 16 or feed screws 17, 18 is linear, then an elastic deformation of the separating element 60 is not required.

[0041] Alternatively or additionally, a rotational movement may also take place about a rotational axis, not shown, whereby either a movement of the separating element 60 takes place relative to the seal 62 between the cover 53 and the feed portion 52 in the direction of the arrow C, D, or additionally a movement of the separating element 60 also takes place relative to the seal 62 between the feed portion 52 and the intermediate flange 55 counter to the direction of the arrow C, D.

[0042] FIG. 4 shows an arrangement of the spindle pump 10 on a base plate 48. The spindle pump 10 in this case is connected to a drive unit 49.

LIST OF REFERENCE NUMERALS

[0043] 10 Spindle pump [0044] 11 Housing [0045] 12 Pump portion [0046] 13 Bearing portion [0047] 14 Gear portion [0048] 15 Driven shaft [0049] 16 Driven shaft [0050] 17 Feed screw [0051] 18 Feed screw [0052] 19 Needle bearing [0053] 20 Rolling bearing [0054] 21 Gear chamber [0055] 22 Shaft end [0056] 23 Shaft end [0057] 24 Connection [0058] 25 Gearwheel [0059] 26 Gearwheel [0060] 27 Fastening element [0061] 28 Bushing portion [0062] 29 Flange portion [0063] 30 Receiving surface [0064] 31 Keyway [0065] 32 Front face [0066] 33 Hexagon bolt [0067] 34 Clamping washer [0068] 35 Seat [0069] 36 Bore [0070] 37 Bore [0071] 38 Hexagon bolt [0072] 39 Spacer bushing [0073] 40 Fastening screw [0074] 41 Slot [0075] 42 Opening [0076] 43 Cover [0077] 44 Hexagon bolt [0078] 45 Screw projection [0079] 46 46 Flank [0080] 47 Flank clearance [0081] 48 Base plate [0082] 49 Drive unit [0083] 50 Feed housing part [0084] 51 Feed space [0085] 52 Feed portion [0086] 53 Cover [0087] 54 First feed opening [0088] 55 Intermediate flange [0089] 56 Second feed opening [0090] 57 Region of feed screws [0091] 58 Inner wall [0092] 59 Outer face [0093] 60 Separating element [0094] 61 Space [0095] 62 Seal [0096] 63 Feed chamber [0097] 64 Nut-screw connection [0098] 65 Deflection [0099] 66 Central axis [0100] A Direction of deflection [0101] B Feed direction [0102] C Floating movement [0103] D Floating movement