AT526312A2 - Device for conveying lumpy fuel - Google Patents

Abstract

The invention relates to a device for conveying lumpy fuel with a conveyor screw (3) arranged in a screw housing (2) and with a fuel lock (10) connected to a discharge opening (9) in the area of the discharge-side end (8) of the screw housing (2). , which consists of a lock housing (11) and a cellular wheel (13) arranged in the lock housing (11).

Description

Description

The invention relates to a device for conveying lumpy fuel with a screw conveyor mounted in a screw housing and with a fuel lock connected to a discharge opening in the area of the discharge-side end of the screw housing, which consists of a cylindrical lock housing forming a fuel outlet on the circumference and a cellular wheel mounted in the lock housing consists of cells with inlet and outlet openings for connecting the cells on the one hand to the discharge opening of the screw housing and on the other hand to the fuel outlet of the lock housing

are provided.

Such a device is known from AT411388B, in which in this device the lock housing coaxially encloses the discharge-side end of the screw housing, the cellular wheel arranged in the annular space between the screw housing and the lock housing being drive-connected to a shaft stub of the screw conveyor passing through the screw housing and the cells of the Each cellular wheel has an inner inlet opening that is open to the screw housing and an outer outlet opening that is open to the lock housing. The coaxial arrangement of the screw conveyor and the cellular wheel allows the cellular wheel to be driven in a simple manner via a shaft stub of the screw conveyor passing through the screw housing. The structural design of the cellular wheel of AT411388B includes that the cellular wheel consists of two end walls and partition walls arranged between these end walls and delimiting the individual cells from one another, one end wall being on the shaft stub that projects axially from the worm housing

is supported.

The object of the present invention is an improved one

To provide device.

This task is achieved with a device according to claim 1.

page 1

Based on the prior art of AT411388B, an improvement is achieved in that a stripping element, in particular in the form of a rotor, is arranged at least on the free end face of the cellular wheel. The advantage is that dust from the fuel is wiped off the cellular wheel, so that deposits are avoided, which would require manual cleaning

Cleaning of the cellular wheel may be necessary.

One embodiment variant thus provides a device for conveying lumpy fuel, with a screw conveyor arranged in a screw housing and with a fuel lock connected to a discharge opening in the area of the discharge-side end of the screw housing, which consists of a lock housing and a cellular wheel arranged in the lock housing, whereby the cellular wheel has a first disk-shaped region, from which a plurality of radially distributed elements extend to a second disk-shaped region, the second disk-shaped region being axially open to form a passage for the worm housing, on the free end face of the second disk-shaped region a

Stripping element is present.

It is preferred that the stripping element extends over the entire width of the annular free end of the second

disc-shaped area of the cellular wheel extends.

It is preferred that the lock housing has a fuel outlet which extends behind the second disk-shaped region of the cellular wheel, i.e. up to

that area in which the stripping element is present.

Based on the prior art of AT411388B, a further improvement is achieved in that the cellular wheel is a one-piece special component. The advantage is that the manufacturing accuracy and stability compared to one

several parts welded together cellular wheel is increased.

One embodiment variant therefore provides a device for

Conveying lumpy fuel with one in one

Page 2

Screw conveyor arranged in the screw housing and with a fuel lock connected to a discharge opening in the area of the discharge-side end of the screw housing, which consists of a lock housing and a cellular wheel arranged in the lock housing, the cellular wheel being a monolithic component which has a first disc-shaped area, from which a plurality of radially distributed elements extend in the axial direction to a second disk-shaped region, the second disk-shaped region being axially open to form a passage for the screw housing, the screw housing extending to between the radially

distributed elements extends.

It is preferred that the several radially distributed elements are machined from a cylindrical or

hollow cylindrical blank were cut.

It is preferred that the first disk-shaped area

is axially closed.

It is preferred that the screw housing has a tubular open end face which faces the first disk-shaped region. There is preferably a recess in the first disc-shaped area into which the

tubular open end of the snail housing protrudes.

Based on the prior art of AT411388B, a further improvement is achieved in that the shaft of the screw conveyor is connected to the cellular wheel and a shaft stub of the cellular wheel extends through its housing. The advantage is that this eliminates the need for the worm shaft to pass through the cellular wheel and the cellular wheel housing, meaning that this is a potential path for dirt and deposits

is closed.

One embodiment variant therefore provides a device for conveying lumpy fuel, with a screw conveyor arranged in a screw housing and with a

a discharge opening in the area of the discharge end of the

page 3

Fuel lock connected to the screw housing, which consists of a lock housing and a cellular wheel arranged in the lock housing, the cellular wheel having a shaft extension which protrudes through the lock housing and is mounted in it, the screw conveyor being non-rotatable on the

Cell wheel is attached.

Based on the prior art of AT411388B, a further improvement is achieved in that the screw housing has a recess at its free end, which is in addition to the discharge opening of the screw housing. The recess is preferably offset in the circumferential direction from the discharge opening, in particular further up than the discharge opening. The recess is offset in the longitudinal direction from the discharge opening and closer to the free end of the end face of the screw housing, the recess preferably being open towards the free end face of the screw housing. The discharge opening is at a distance from the free end of the screw housing. Thus, the discharge opening and the preferably open free end of the screw housing are separated by a portion of the tubular screw housing

separated.

One embodiment variant thus provides a device for conveying lumpy fuel, with a screw conveyor arranged in a screw housing and with a fuel lock connected to a discharge opening in the area of the discharge-side end of the screw housing, which consists of a lock housing and a cellular wheel arranged in the lock housing, whereby the screw housing has a recess at its free end, which lies within the cellular wheel, which is in addition to the discharge opening of the screw housing, the recess being offset in the longitudinal direction from the discharge opening and closer

at the free end of the snail shell.

page 4

It is preferred that the device has any combination of two or three of the improvements mentioned. It is particularly preferred that the device all

has four of the improvements mentioned.

The subject improvements are made by comparing the prior art in Fig. 1 and the subject invention

illustrated in Figures 2-5.

The subject matter of the invention is shown as an example in drawings 2-5

shown. It shows: Fig. 1: a device of the prior art from AT411388B.

Fig. 2: shows a section through a preferred

Version of the device in question.

Fig. 3: shows parts of the preferred embodiment variant

object device in 3D view.

Fig. 4: shows an exploded view of the preferred

Version of the device in question.

Fig. 5: shows parts of the preferred embodiment variant

object device in 3D view.

Fig. 1 shows a device known from the prior art for conveying lumpy fuel in a schematic longitudinal section. This device for conveying lumpy fuel has a screw conveyor 1 with a screw conveyor 3 mounted in a screw housing 2, which is fed with fuel via a feed opening 4 in the screw housing 2. The coreless screw conveyor 3 is driven via a geared motor 5, which is drive-connected to a shaft stub 7 of the screw conveyor 3 by a clutch 6. A discharge opening 9 is provided at the discharge end 8 of the screw housing 2. In addition, the discharge end 8 of the screw conveyor 1 is connected to a fuel lock 10, which essentially consists of a cylindrical

Lock housing 11 with a fuel outlet 12 (in Fig. 1

page 5

not visible) and composed of a cellular wheel 13. The arrangement is such that the lock housing 11 coaxially surrounds the discharge-side end 8 of the screw housing 2 in order to accommodate the cellular wheel 13 in the annular space between the screw housing 2 and the lock housing 11. The cellular wheel 13 itself consists of two end walls 14 and 15, between which partition walls 16 are arranged, which extend between the screw housing 2 and the lock housing 11 and divide the cellular wheel 13 into individual cells, each forming a lock chamber. While one end wall 15 of the cellular wheel 13 forms an annular disk axially delimiting the annular space between the worm housing 2 and the lock housing 11, the other end wall 14 of the cellular wheel 13 protruding beyond the discharge end of the worm housing 2 is supported on the shaft stub 7, which axially supports the worm housing 2 enforced. The screw housing 2 is supported in a passage 18 of the lock housing 11, which has a bearing 19 for the shaft stub on the opposite end face

7 and thus the screw conveyor 3.

The fuel conveyed to the discharge opening 9 via the screw conveyor 3 in the screw housing 2 falls through the discharge opening 9 into the cells of the cellular wheel 13 which are rotated past the discharge opening 9 and which are also rotated with the screw conveyor 3. The cells of the cellular wheel 13, which are delimited on the one hand by the partitions 16 and on the other hand by the screw housing 2 and the lock housing 11, convey the amount of fuel taken up to the fuel outlet of the lock housing 11. The fuel is discharged there and, for example, through a

further screw conveyor fed to a furnace.

2-5 all show the same preferred variant of the present invention. The reference numbers are used as far as possible as in FIG. 1. The preferred embodiment variant, like the prior art, includes one

Screw conveyor 1 and a fuel lock 10. The structure

page 6

However, these components differ from the prior art. The screw conveyor 1 has a screw housing 2, which has a feed opening 4 on the input side and a discharge opening 9 at the discharge end 8. Unlike the prior art, the tubular screw housing 2 is open in the direction of the rotary valve. The open end of the worm housing 2 is received with play in a recess 28 of the cellular wheel 13 and is directed with its free end face against the bottom of this recess 28. As can best be seen in FIG. 4, the screw housing 2 is preferably firmly connected to a first disk 24 of the lock housing 11,

especially glued or welded.

The snail housing 2 preferably has a recess 27 at the top at its free end, in particular a V-shaped recess, which is open towards the free end face of the snail housing 2. This allows dust, which can accumulate in the front area of the screw blade after the discharge opening 9, to escape through the recess 27. The dust is pushed upwards through the front area of the conveyor spiral and enters it

through the recess 27 into the chambers of the cell wheel.

The discharge opening 9 is located on the underside of the screw housing 2, preferably at a distance from the free end

of the snail housing 2.

The screw conveyor 3 of the preferred variant has a short shaft stub 7, which projects into an opening 22 of the cellular wheel 13, which opening 22 lies in a shaft extension 21 of the cellular wheel 13. The opening 22 and the shaft stub 7 inserted into the opening 22 lie axially to the shaft extension 21

Before.

The shaft stub 7 is attached to the cellular wheel 13 in such a way that the rotational movement of the cellular wheel 13 is transmitted to the shaft stub 7 and thus to the screw conveyor 3. The screw conveyor 3 is preferred, except for the shaft stub 7,

executed soullessly. The helix is preferably made of steel and

page 7

is sufficiently stiff that it is not in contact with the screw housing 2 (the free end of the spiral is not on the

snail housing 2).

The shaft stub 7 can be pressed or screwed into the cellular wheel 13. Alternatively or additionally, the shaft stub 7 can be glued or welded to the cellular wheel 13

be.

In any case, the shaft stub 7 is non-rotatable during operation

Cell wheel 13 attached.

Unlike the prior art, the screw conveyor 3 is not mounted in the screw housing 2, but lies contactless

this one.

The lock housing 11 preferably has a first disk 24 and a second disk 26, between which a hollow cylinder 25 is located. The disks 24 and 26 preferably each have an inner press-on area for the hollow cylinder 25. The hollow cylinder 25 rests with its inner surface on the press-on areas. The outer lateral surfaces of the disks 24 and 26 and the hollow cylinder 25 can be flush. To fasten the three parts of the lock housing 11 to one another, screws preferably run through openings in the two disks 24, 26 into the jacket of the hollow cylinder 25. The hollow cylinder 25 has the fuel outlet 12, as can be seen in FIG. The fuel outlet 12 is offset

to the discharge opening 9.

Unlike the prior art, the cellular wheel 13 is preferably a monolithic part, i.e. made from a single piece of material, in particular by machining. Unlike the prior art, the cellular wheel 13 is axially closed and has a shaft extension 21. The shaft extension 21 projects through the lock housing 11, in particular through the second disk 26 of the lock housing 11. This through the lock housing 11

protruding end of the shaft extension 21 can be used in a known manner

page 8

a drive, for example a geared motor 5, coupled

become.

The monolithic cellular wheel 13 preferably comprises the shaft extension 21, which is adjoined by a first wider disk-shaped region 29, from which several radially distributed elements 31 extend to a second disk-shaped region 30, the first disk-shaped region 29 being axially closed and the second disk-shaped region 30 is axially open to form a passage for the screw housing 2. The several radially distributed elements 31 are preferably present as wings of the cellular wheel 13. The wings are preferably made from a cylindrical or

hollow cylindrical area of a blank is milled out.

The shaft extension 21 is preferably supported in the lock housing 11 by a double-row bearing 20, preferably a double-row angular contact ball bearing, preferably with a split one

Inner ring.

The bearing and the cellular wheel 13 are sufficiently stable

the cellular wheel 13 does not rest on the lock housing 11.

In order to prevent dust from depositing between one of the disk-shaped areas 29, 30 of the cellular wheel 13 and one of the disks 24, 26 of the lock housing 11, a scraper element 23 is provided on at least one of the disk-shaped areas 29, 30 of the cellular wheel 13. Preferably, a stripping element 23 is provided on the outside of the second disk-shaped region 30, which is axially open, and extends over the entire width of the annular free end of the second disk-shaped region 30. The stripping element 23 is preferably a monolithic component of the cellular wheel 13 and can be formed from the blank of the cellular wheel 13 by machining. The stripping element 23 can also be an additional element which is pressed, screwed, glued or welded to the cellular wheel 13, or in

a groove of the cellular wheel 13 is inserted.

page 9

Additionally or alternatively, a stripping element 23 just described can also be located on the first disk-shaped region 29

of the cell wheel 13.

The fuel outlet 12 preferably extends to behind the second disk-shaped region 30 of the cellular wheel 13, i.e. to the region in which the stripping element 23 is preferably present, as can be seen in FIG. 5. In other words, the fuel outlet 12 preferably extends to the area which is present between the second disk-shaped area 30 of the cellular wheel 13 and the first disk 24 of the lock housing 11. The distance of the fuel outlet 12 to one end of the hollow cylinder 25 is preferably the same length as the width of the press-on area

first disc 24.

The distance of the fuel outlet 12 to the other end of the hollow cylinder 25 is preferably the same length as the width of the press-on area of the second disk 26. The fuel outlet 12 can therefore additionally or alternatively preferably extend to behind the first disk-shaped area 29 of the cellular wheel 13, whereby also in A stripping element 23 can be present in this area. In other words, the fuel outlet 12 preferably extends to the area between the first disk-shaped area 29 of the cellular wheel

13 and the second disk 26 of the lock housing 11 is present.

Page 10

Claims (9)

Patent claims 1. Device for conveying lumpy fuel with a screw conveyor (3) arranged in a screw housing (2) and with a fuel lock (10) connected to a discharge opening (9) in the area of the discharge-side end (8) of the screw housing (2), which consists of a lock housing (11) and a cellular wheel (13) arranged in the lock housing (11), the cellular wheel (13) having a first disk-shaped region (29), from which several radially distributed elements (31) form a second disk-shaped one Region (30), the second disc-shaped region (30) being axially open to form a passage for the screw housing (2), characterized in that on the free end face of the second disc-shaped region (30) there is a stripping element (23) is present. 2. Device according to claim 1, characterized in that the stripping element (23) extends over the entire width of the annular free end of the second disc-shaped Area (30) of the cellular wheel (13). 3. Device according to claim 1 or 2, characterized in that the lock housing (11) has a fuel outlet (12) which extends to behind the second disc-shaped region (30) of the cellular wheel (13), i.e. to that region which the stripping element (23) exists. 4. Device according to one of claims 1 to 3, characterized in that the screw housing (2) has a recess (27) at its free end, which lies within the cellular wheel (13), which in addition to the discharge opening (9) of the screw housing ( 2), the recess (27) being offset in the longitudinal direction from the discharge opening (9) and closer to the free end of the snail housing (2). page 11 5. Device according to one of claims 1 to 4, characterized in that the cellular wheel (13) has a shaft extension (21) which projects through the lock housing (11) and is mounted in this, the screw conveyor (3) is non-rotatably attached to the cell wheel (13). 6. Device according to one of claims 1 to 5, characterized in that the cellular wheel (13) is a monolithic component which has a first disk-shaped region (29), from which a plurality of radially distributed elements (31) form one in the axial direction second disk-shaped region (30), the second disk-shaped region (30) being axially open to form a passage for the screw housing (2), the screw housing (2) extending radially between the two Elements (31) extends. 7. Device according to claim 6, characterized in that the plurality of radially distributed elements (31) are machined from a cylindrical or hollow cylindrical blank were cut. 8. Device according to claim 6 or 7, characterized in that the first disk-shaped region (29) is axial closed is. 9. The device according to claim 8, characterized in that the screw housing (2) has a tubular open end face which faces the first disk-shaped region (29), with a depression (28) preferably being present in the first disk-shaped region (29). which that tubular open end of the snail housing (2) protrudes. page 12