DE202012000893U1 - Two-spindle screw pump in single-entry design - Google Patents

Abstract

Double-spindle screw pump in single-flow design with a pump housing, which has a pump section, a bearing section and a gear section with a gear chamber, the bearing section and the pump section being designed separately from one another, - with a conveyor housing part as part of the pump section, in which two conveyor screws arranged on shafts are provided with flanks, the shafts being mounted in the bearing section (external bearing) and extending into the gear section, - with gears arranged on the shafts in the gear section, by means of which the shafts are rotationally coupled, - with one arranged on the shaft in operative connection with them Fastening element for establishing a retaining connection between the shaft and gearwheel, the fastening element and the gearwheel having corresponding bores, via which a retaining connection between the gearwheel and the fastening element via e Can be produced in the locking element, characterized in that the bores in the fastening element are designed such that the gear wheel and the fastening element (and thus the shaft) can be rotated relative to one another, ...

Description

The invention relates to a two-spindle screw pump in einflutiger construction with a pump housing having a pump portion, a bearing portion and a gear portion having a gear housing, wherein the bearing portion and the pump portion are designed separately from each other, with a conveyor housing part as part of the pump section in which two Shafts arranged conveying screws are provided with flanks, wherein the shafts are mounted in the bearing portion (outer bearing) and extend into the gear section, arranged on the shafts in the gear section gears, by means of which the shafts are rotationally coupled to one on the shaft in operative connection therewith arranged fastening element for producing a holding connection between the shaft and gear, wherein the fastening element and the gearwheel have corresponding bores, via the between the gear and the fastening element a holding Ve Binding can be produced via a locking element.

The arranged on the waves conveyor screws are fixed with a defined clearance between the flanks (backlash).

Such a pump structure is known from the DE 2009014604 U1 , These pumps are characterized in particular by a product-friendly operation and an associated low wear.

There is a need for improvement to the effect that the cost of maintenance of the pump should be reduced. This occurs in particular when the conveyor screws or the mechanical seals are replaced for reasons of wear and the backlash must be readjusted. For this it is currently necessary that the gear and bearing section of the pump must be released from the drive in order to then make an adequate adjustment of the backlash of the conveyor screws can.

The object of the invention is to improve the aforementioned pump to the effect that a simpler and less time-consuming maintenance or readjustment can be made.

The object is achieved in that an opening is provided on the gear portion of the pump housing, that the opening is provided with a detachable cover, that the opening is arranged so that the covers in the assembled state of the spindle pump is releasable, and that the gear chamber for adjustment the backlash of the conveyor screws with the necessary tools is reached.

By providing the opening in the housing, it is possible to significantly reduce the time required for the spindle readjustment, because it is no longer necessary to disassemble the gear housing to expose the gear housing and it is also not necessary to disassemble the drive module.

Another teaching of the invention provides that the holes in the fastener are designed so that the gear and the fastener (and thus the shaft) are rotated against each other, so that a distance between the flanks of the conveyor screws (the backlash of the conveyor screws) is adjustable, that the holes in the fastening element are provided as a radial slot, in which the locking element is radially displaceable in the inserted but not locked state, and that the radial length of the slot is provided so that its end points coincide at least with the points of contact of the flanks of the conveyor screws ,

The maintenance and adjustability of the spindle pump are thereby improved, that it is possible to adjust the entire backlash of the conveyor screws by providing the slot. So far, it was necessary here that the gear may be removed from the shaft and had to be re-placed in a twisted manner in order to adjust the backlash adequately. This adjustment effort is significantly reduced.

Another teaching of the invention provides that the fastening element is provided with the oblong holes only on a shaft. This takes into account the fact that it has been found that it is sufficient to adjust only one shaft while the other shaft is mounted constantly.

Another teaching of the invention provides that the radial length of the elongated holes is longer than the radial distance of the contact points of the flanks of the conveyor screws. This makes it possible to compensate for any unilateral wear of the flanks by a corresponding displacement beyond the original end points addition.

Another teaching of the invention provides that a hydraulic separation exists between the pump section and the bearing section, preferably via a mechanical seal and / or that there is a physical separation between the bearing section and the gear section. In terms of adjustability of the backlash and storage have become these spatial separations proved to be particularly advantageous.

Furthermore, it is advantageous that the fastening element has a bushing section for pushing onto the shaft, wherein the bushing section preferably has a receiving section for the gear wheel, and / or wherein the shaft and the bushing section have a groove for receiving a feather key for producing a rotationally effective connection between the shaft and fastener. This embodiment element represents a cost-effective and particularly maintenance-friendly embodiment of the invention.

A further advantageous embodiment of the invention is that the holes of the gear are designed as a hole with threaded portion, and / or that in the holes, a locking element in the form of a screw can be used, via which the holding connection can be produced. Furthermore, it is advantageous that a bore is provided in the shaft head, in which a locking element can be introduced, which locks the fastening element against the shaft, preferably with a clamping disc.

The invention will be explained in more detail with reference to an embodiment in conjunction with a drawing. Showing:

1a a sectional view through a pump top view according to the invention,

1b an enlarged section view to 1a .

2 a sectional view of a pump according to the invention in a sectional view through the transmission section,

3 a sectional view through the conveyor screws,

4 3 a perspective view of a first embodiment of a pump according to the invention with drive,

5 , a side view too 4 .

6 a plan view too 4 .

7 a plan view of the transmission section to 1 in execution too 4 .

8th a spatial view of a second embodiment,

9 a side view too 8th .

10 a plan view too 8th and

11 a plan view of the transmission section to 1 in execution too 8th ,

1a and 1b show a sectional view in plan view of a spindle pump according to the invention 10 , The spindle pump 10 has a housing 11 on, that a pump section 12 , a storage section 13 and a transmission section 14 having. These are spatially and hydraulically separated from each other. Furthermore, the spindle pump includes 10 a driven shaft 15 and a driven wave 16 , On the driven shaft 15 is a conveyor screw 17 and the driven wave 16 is a conveyor screw 18 arranged, which are in engagement. In the warehouse section 13 is a needle bearing 19 and a roller bearing 20 provided so that the shafts in external storage outside the pump section 12 are stored. In the gear compartment 21 are the shaft ends 22 . 23 , The wave end 22 the driven shaft 15 extends from the housing 11 out and has a connection there 24 for a drive unit 49 on. On the driven shaft 15 there is a gear 25 , On the driven shaft is a gear 26 arranged. The teeth of the gears 25 . 26 are meshing engaged.

On the driven wave 16 is on the shaft end 23 a fastener 27 arranged. The fastener 27 has a bushing section 28 and a flange portion 29 on. The outside of the socket section 28 is at the same time recording area 30 for the gear 26 , In a groove (not shown) in the shaft end 23 and in the fastener 27 is a feather key 31 used, via which a rotary joint between shaft 16 and fastener 27 will be produced. In a bore (not shown) in the end face 32 of the shaft end 23 is a hexagon screw 33 screwed in, with a clamping disc 34 against a seat 35 on the fastener 27 is screwed. This will cause the fastener 27 with the shaft end 23 arrestingly connected. The flange section 29 has a hole 36 on. The gear 26 has a corresponding hole 37 on, which can be designed as a through hole or as a hole. In the hole 37 a thread (not shown) is arranged. In this thread is a hexagon screw 38 screwed in, causing the flange section 29 of the fastener 27 with the gear 26 is locked. Behind the socket section 28 of the fastener 27 there is a spacer bush 39 , which ensures that the gear 26 not with the fixing screws 40 of the transmission section 14 with the storage section 13 can come into contact.

In 2 is a sectional view through the transmission section 14 shown. Recognizable are here the meshing gears 25 . 26 , On the gear 26 is the fastener 27 with its flange section 29 shown. About the hexagon screw 33 is the clamping disc 34 in the seat 35 of the flange portion 29 assembled. The hole 36 in the flange section 29 is here as a slot 41 executed. Furthermore, the transmission section 14 on its top an opening 42 on top, with a lid 43 over hexagon bolts 44 with the transmission section 14 keeping connected.

3 shows a sectional view through the engaged conveyor screws 17 . 18 , The conveying screws have screw projections 45 on, each flank 46 to have. The distance between the flanks 46 represents the backlash 47 By turning the driven shaft 16 and thus the conveyor screw 18 while the driven shaft 15 and thus the conveyor screw 17 resting, the backlash changes 47 such that it is larger on one side and on the other side of the screw projection 45 gets smaller. The optimal arrangement of the conveyor screws 17 . 18 is done in such a way that the flank play on both sides of the screw projections 45 are the same size.

The setting of the backlash 47 is therefore such that the fastener 27 on the shaft end 23 or the driven shaft 16 over the feather key 31 is arranged rotationally fixed. Subsequently, the clamping disk 34 in the seat 35 over the hexagon screw 33 screwed. The gear 26 is already at the time on the recording area 30 of the socket section 28 of the fastener 27 and is engaged with the gear 25 the driven shaft 15 , The flange section is now set to adjust the backlash 29 with the slots in it 41 over the holes 37 in the gear 26 arranged and the hexagon screws 38 are screwed in, with no locking connection between flange 29 and gear 26 arises. By turning the flange section 29 now there is the possibility of the backlash 47 between the conveyor screw 18 and the conveyor screw 17 adjust. Is the optimal adjustment of the backlash 47 achieved, a locking connection via the hexagon screws 38 generated.

4 to 7 show an arrangement of the spindle pump 10 on a base plate 48 , The spindle pump 10 is with a drive unit 49 connected. 8th to 11 show a further embodiment in which the pump is in block construction. In 7 and 11 are each plan views of the transmission section 14 without mounted lid 43 on the opening 42 shown. The transmission section 14 has a plan section 50 in which, around the opening 42 around holes 51 are arranged, which have a thread (not shown), in which the hexagon screws 44 be screwed.

Is it due to maintenance, for example, on the mechanical seal, wear or due to a change of the conveyor screws 17 . 18 necessary, the backlash 47 It is possible to readjust by removing the hexagon screws 44 and the removal of the lid 43 through the opening 42 in the gearbox 21 to intervene with a tool (not shown). It is possible, for example, the hexagon screws 38 to solve a twisting of the driven shaft 16 against over the gear 26 to achieve and thus the backlash 47 to reset. After adjusting the backlash then the hexagon screws 38 tightened again and the lid 43 with the hexagon screws 44 back to the plan section 50 by inserting the hexagon screws 44 into the hole 51 made ready.

It is therefore no longer necessary, the drive units 49 and / or the transmission section 14 of the housing 11 to solve. It is still through the slots 41 no longer necessary, the gear 26 from the wave 16 consuming to remove, then by appropriate rotation of the gear 26 around a circle section, until the next hole 36 Aligns, and then reattaching the gear 26 on the wave 16 the backlash 47 expensive to adjust.

LIST OF REFERENCE NUMBERS

10

screw pump

11

casing

12

pump section

13

bearing section

14

gear section

15

driven shaft

16

driven wave

17

feed screw

18

feed screw

19

needle roller bearings

20

roller bearing

21

gear compartment

22

shaft end

23

shaft end

24

connection

25

gear

26

gear

27

fastener

28

bushing section

29

flange

30

receiving surface

31

Adjusting spring

32

face

33

Hex bolt

34

tensioning pulley

35

Seat

36

drilling

37

drilling

38

Hex bolt

39

spacer bushing

40

fixing screw

41

Long hole

42

opening

43

cover

44

Hex bolt

45

bolt boss

46

flank

47

backlash

48

baseplate

49

drive unit

50

planner section

51

drilling

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 2009014604 U1 [0003]

Claims (8)

A two-spindle screw pump in einflutiger construction with a pump housing having a pump portion, a bearing portion and a gear portion with a gear housing, wherein the bearing portion and the pump portion are made separately from each other -. With a conveying housing part as part of the pump section, in which two shafts arranged on shafts provided with flanks, wherein the shafts are mounted in the bearing portion (outer bearing) and extend into the gear portion, - arranged on the shafts in the gear section gears, by means of which the shafts are rotationally coupled, - arranged with one on the shaft in operative connection therewith Fastening element for producing a holding connection between shaft and gear, wherein the fastening element and the gearwheel have corresponding bores, via which a holding connection between the gearwheel and the fastening element via e can be produced in locking element, characterized in that the holes in the fastener are designed so that the gear and the fastener (and thus the shaft) are rotated against each other, so that a distance between the flanks of the conveyor screws (the backlash of the conveyor screws) is adjustable in that an opening is provided on the gear section of the pump housing, that the opening is provided with a detachable cover, that the opening is arranged such that the cover is releasable in the installed state of the spindle pump, and in that the gear chamber for adjusting the backlash of the conveying screws with the necessary tool is available. Spindle pump according to claim 1, characterized in that the holes in the fastening element are provided as a radial slot, in which the locking element is radially displaceable in the inserted but not locked state, and that the radial length of the slot is provided so that its end points at least coincide with the points of contact of the flanks of the conveyor screws. Spindle pump according to claim 2, characterized in that the fastening element is provided with the oblong holes only on a shaft. Spindle pump according to claim 2 or 3, characterized in that the radial length of the elongated holes is longer than the radial distance of the contact points of the flanks of the conveying screws. Pump according to one of claims 1 to 4, characterized in that there is a hydraulic separation between the pump section and the bearing section, preferably via a mechanical seal, and / or that there is a spatial separation between the bearing section and the gear section. Pump according to one of claims 1 to 5, characterized in that the fastening element has a bushing portion for sliding onto the shaft, wherein the bushing portion preferably has a receiving portion for the gear, and / or wherein the shaft and the bushing portion has a groove for receiving a feather key for producing a rotational engagement between the shaft and fastener. Pump according to one of claims 1 to 6, characterized in that the bores of the gear are designed as holes with threaded portion, and / or that in the bore a locking element in the form of a screw can be used, via which the holding connection can be produced. Pump according to one of claims 1 to 7, characterized in that a bore is provided in the shaft head, in which a locking element can be introduced, that the fastening element is locked against the shaft.

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