DE102012012019A1 - Conveying device for bulk material and / or fiber material - Google Patents

Abstract

The invention relates to a conveyor device (1) for bulk material and / or fiber material (2), in particular a blow-in conveying device, comprising a loosening device (3) for loosening the bulk material and / or fiber material (2), wherein the loosening device (3) comprises: a housing (4) having a longitudinal axis (L) corresponding to the conveying direction (F) of the bulk material and / or fibrous material (2) to be conveyed, and at least one loosening element (5) comprising a shaft (6) provided in the housing (4) rotatably disposed about an axis (a) and driven by a motor (7), the axis (a) being arranged perpendicular to the longitudinal axis (L), a number of impact elements (8) being non-rotatable on the shaft (6) are attached. Hereby, the bulk material or fiber material, in particular wood fibers, can be improved and improved.

Description

The invention relates to a conveying device for bulk material and / or fiber material, in particular a blowing insulation conveying device.

A device of this type is used in particular to spend a fibrous insulating material - promoted in a stream of air - to its destination, for example, in hollow chambers, which are formed in a roof truss to fill said hollow chambers tightly with the insulating material.

Such a device is for example from the EP 1 520 948 A2 known. Here, the material delivered pressed in a container is loosened up by the conveyor device by means of a chopper and the material thus prepared is conveyed in a transport line in the airstream to its destination.

The device that accomplishes the loosening of the material is also referred to as a rotary valve. For related art, the DE 20 2009 005 452 U1 , on the DE 34 08 179 C2 , on the DE 101 26 840 A1 , on the WO 2011/029904 A1 , on the DE 10 2006 050 036 A1 , on the DE 295 01 353 U1 , on the DE 10 2006 049 201 A1 and on the DE 41 01 352 C1 pointed.

The fiber material may be cellulose. If, what has recently been preferred, the fiber material is made of wood, special difficulties arise. The wood fibers are pressed in turn, d. H. Delivered in highly compressed form, then as fanned wood fibers to Dämmstelle, for example, in hollow chambers of a roof, to be promoted. Due to the different structures of the fibrous wood particles, these do not disintegrate into individual fibers as easily as in the case of cellulose.

The disadvantage is that this hollow chambers can not be completely filled, so that the desired Dämmeffekt is not optimal. It thus creates gaps in the Dämmbereich because the fiber material is not distributed as best as possible.

The invention has for its object to provide a conveyor of the type mentioned in such a way that it is possible, even difficult aufzufasernde materials, in particular wood, sufficiently aufzufasern and optimally promote, so that the volume to be filled with the fiber material well and Hohlstellen- can be filled freely. The initially highly compressed Dammstoff should therefore be frayed in an improved manner and distribute as evenly as possible in a compartment to be filled with him. The device should be simple in construction, so that a cost-effective production is possible.

• – ein Gehäuse mit einer Längsachse, die der Förderrichtung des zu fördernden Schüttguts und/oder Fasermaterials entspricht, und
• – mindestens ein Auflockerungselement, das eine Welle umfasst, die im Gehäuse um eine Achse drehbar angeordnet und von einem Motor angetrieben ist, wobei die Achse senkrecht zur Längsachse angeordnet ist, wobei an der Welle eine Anzahl Schlagelemente drehfest angebracht sind.

The solution of this object by the invention is characterized in that the conveying device comprises a loosening device for loosening the bulk material and / or fiber material, wherein the loosening device comprises:

• A housing having a longitudinal axis which corresponds to the conveying direction of the bulk material and / or fiber material to be conveyed, and
• - At least one loosening element comprising a shaft which is rotatably mounted in the housing about an axis and driven by a motor, wherein the axis is arranged perpendicular to the longitudinal axis, wherein on the shaft a number of impact elements are rotatably mounted.

Said loosening device is provided as a separate element, which is effectively arranged between the device for loosening the pressed material (rotary valve) and the end of the fiber material blown-in hose.

The housing of the loosening device is preferably designed as a tube with a circular cross-section.

In the housing, concretely, at least two loosening elements can be arranged consecutively in the conveying direction. In this case, a particularly preferred solution provides that three loosening elements are arranged.

If more than two loosening elements are provided in the conveying direction, a preferred solution provides that two loosening elements following one another in the conveying direction rotate in opposite directions. Accordingly, in the case of three loosening elements, the first and the third loosening element rotate in the same direction, while the loosening element arranged therebetween rotates in opposite directions.

The striking elements may extend radially away from the shaft. It is also possible for the impact elements to extend away from the shaft at least in sections at an angle, preferably between 10 ° and 50 °, to the radial direction.

A particularly good loosening effect is achieved if a first loosening element is arranged in a region of the housing lying in the conveying direction, the impact elements extending radially away from the shaft of the first loosening element, and a second loosening element being arranged in a region following in the conveying direction , wherein the striking elements of the shaft of the second Loosening element of the shaft at least partially extend at an angle to the radial direction away.

In this case, the impact elements can be connected to each other at a location spaced from the shaft, for example by a ring having a slightly smaller diameter than the inner diameter of the tubular housing.

The impact elements can be rotatably connected via a positive connection, in particular via a polygonal profile, with the shaft.

A striking element can also be connected to a hub part, in particular welded, and the hub part can then be non-rotatably connected via the positive connection with the shaft.

A further improvement of the loosening effect and an improved further promotion of the fiberized material can be achieved if a device for blowing in air is arranged in front of and / or behind the last impact element in the conveying direction. This device can be designed as a ring element, in which a number of air injection nozzles are arranged over the circumference. Angular adjustment of the air injection nozzles, the fiberized material can be imparted a twist in the delivery hose, which supports the promotion of the material.

Furthermore, it has proved to be advantageous if, in the region of the first loosening element - if several of these are provided - means for blowing air into the housing (pipe) are provided (as mentioned above), d. H. an auxiliary fan. At high material throughput, this improves the fraying of the material. Furthermore, this is very advantageous for high insulation thicknesses (up to 40 cm thickness of the insulating layer).

A particularly good defibration and promotion of the material is achieved when both said end of the loosening device and at the end of the tube each said means are provided for blowing air, preferably at the beginning of the loosening device.

The impact elements of a loosening element, which are arranged on the shaft, thus forming a kind of rotation grid, which is arranged rotationally driven in the housing.

In the drawing, an embodiment of the invention is shown. Show it:

1 1 schematically shows a blow-in insulation material conveying device for wood fiber material,

2 schematically a section through a loosening device, which is part of the conveyor device according to 1 is

3 schematically the section A-B according to 2 .

4 a section from 3 with a first alternative embodiment of the impact elements of the loosening device,

5 a second alternative embodiment in the illustration according to 4 and

6 Details of the connection of a striking element with a shaft of the loosening device.

In 1 is a conveyor 1 for conveying wood fibers 2 outlined. The wood fibers have a substantially linear extension and a length between about 2 and about 8 mm. The wood fibers 2 are delivered in a pressed state and are initially in a container 15 , It is important to loosen up and promote the present in pressed state wood fibers, for example, to bring them tightly packed in cavities of a roof truss can. For this purpose, the conveying device 1 a device 12 for loosening the pressed wood fibers, which is sometimes referred to as a rotary valve. The device 12 performs a chopping process that loosens up the fibers.

From the device 12 gets the already partially frayed material 2 over a hose 13 in a conveying direction F to a loosening device 3 , This device loosens the fiber material 2 continue on and bring it into a virtually completely frayed state. About another hose 14 becomes the frayed material 2 continue to be blown in the conveying direction F to its destination.

In 1 It can also be seen that in three places, namely before the loosening device 3 , behind the loosening device 3 and at the end of the hose 14 , each facilities 11 are provided for blowing in air. The facilities 11 include nozzles that facilitate the loosening and swirling of the wood fibers 2 favor. Optionally, even more such facilities 11 in the flow or conveying path of the wood fibers 2 to be ordered.

In 2 and 3 is the loosening device 3 outlined with different details. The loosening device 3 next to the device 12 a separate element, has a tubular housing 4 on, which has a longitudinal axis L Has. The longitudinal axis L coincides with the conveying direction F.

In the case 4 are two loosening elements 5 arranged, namely a first loosening element 5 ' and a second loosening element 5 '' , At the loosening elements 5 are rotating components that rotate about an axis a, which is perpendicular to the longitudinal axis L. This is a wave 6 provided by means of suitable bearings 16 rotatable in the housing 4 is stored. At the wave 6 is a number of striking elements 8th arranged rotationally fixed. The rotary drive of the shaft 6 done by a motor 7 which drives the shaft preferably at a speed of between 2,500 and 4,000 rpm. The two loosening elements rotate 5 preferably in opposite directions.

The striking elements 8th can, like it 3 shows, so on the shaft 6 be arranged so that they extend radially. Alternatively, it is also possible - and show that 4 and 5 for two alternative designs - that the striking elements 8th at an angle α to the radial direction of the shaft 6 extend away.

The striking elements 8th In the present case, they are designed as impact irons, for example as structural members of rectangular construction which are rectangular in cross-section and are otherwise rod-shaped.

How out 2 it can be seen, are consecutive two loosening elements in the conveying direction F. 5 ' . 5 '' provided, wherein the front in the conveying direction F (in 2 left) loosening element 5 ' according to 3 is designed. The subsequent in the conveying direction F loosening element 5 '' (in 2 the right) has at an angle α arranged impact elements 8th as exemplified in the 4 and 5 is shown.

In the end of the case 4 the loosening device 3 is still a facility 11 arranged to blow in air (see 2 ). Hereby, the now optimally loosened or frayed wood fibers 2 efficient in the hose 14 be further promoted.

An injection of air is also possible elsewhere, for. B. in the hoses 13 and or 14 ,

In 6 is shown as the striking elements 8th with the wave 6 rotatably and structurally easy to connect. Here you can see that the striking elements 8th - Here are two in opposite directions from the shaft 6 extending impact elements 8th - on a hub part 10 are welded.

The hub part 10 has a square-shaped recess, which is the cross-sectional shape of the shaft 6 fits, which is designed accordingly as a square profile. A number of hub parts 10 be axial on the shaft 6 deferred and fixed in a suitable manner, for. B. by material bond (welding).

It is preferably between 6 and 18 impact elements 8th on a wave 6 arranged.

LIST OF REFERENCE NUMBERS

1

conveyor

2

Bulk material / fiber material (wood fibers)

3

loosening device

4

casing

5

loosening element

5 '

first loosening element

5 ''

second loosening element

6

wave

7

engine

8th

percussion element

9

positive connection (square profile)

10

hub part

11

Device for blowing in air

12

Device for loosening the bulk material or fiber material (rotary valve)

13

tube

14

tube

15

Container

16

camp

L

longitudinal axis

F

conveying direction

a

axis

α

angle

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

• EP 1520948 A2 [0003]
• DE 202009005452 U1 [0004]
• DE 3408179 C2 [0004]
• DE 10126840 A1 [0004]
• WO 2011/029904 A1 [0004]
• DE 102006050036 [0004]
• DE 29501353 U1 [0004]
• DE 102006049201 A1 [0004]
• DE 4101352 C1 [0004]

Claims (10)

Conveying device ( 1 ) for bulk material and / or fiber material ( 2 ), in particular blowing insulation conveying device, comprising a loosening device ( 3 ) for loosening the bulk material and / or fiber material ( 2 ), wherein the loosening device ( 3 ): - a housing ( 4 ) with a longitudinal axis (L), the conveying direction (F) of the bulk material to be conveyed and / or fiber material ( 2 ), and - at least one loosening element ( 5 ), which is a wave ( 6 ) in the housing ( 4 ) rotatable about an axis (a) and by a motor ( 7 ), wherein the axis (a) is arranged perpendicular to the longitudinal axis (L), wherein on the shaft ( 6 ) a number of impact elements ( 8th ) are mounted rotationally fixed. Conveying device according to claim 1, characterized in that the housing ( 4 ) is designed as a pipe with a circular cross-section. Conveying device according to claim 1 or 2, characterized in that in the housing ( 4 ) in the conveying direction (F) successively at least two loosening elements ( 5 ), preferably three loosening elements ( 5 ) are arranged. Conveying device according to one of claims 1 to 3, characterized in that the striking elements ( 8th ) from the wave ( 6 ) extend radially away. Conveying device according to one of claims 1 to 3, characterized in that the striking elements ( 8th ) from the wave ( 6 ) extend at least in sections at an angle (α), preferably between 10 ° and 50 °, away from the radial direction. Conveying device according to claim 4 and 5, characterized in that in a forward direction in the conveying direction (F) area a first loosening element ( 5 ' ) is arranged, wherein the impact elements ( 8th ) from the wave ( 6 ) of the first loosening element ( 5 ' ) extend radially away, and that in a downstream in the conveying direction (F) area a second loosening element ( 5 '' ) is arranged, wherein the impact elements ( 8th ) from the wave ( 6 ) of the second loosening element ( 5 '' ) from the wave ( 6 ) extend at least in sections at the angle (α) to the radial direction away. Conveying device according to one of claims 1 to 6, characterized in that at least two impact elements ( 8th ) on one of the shaft ( 6 ) remote location are interconnected. Conveying device according to one of claims 1 to 7, characterized in that the impact elements ( 8th ) via a positive connection ( 9 ), in particular via a polygonal profile, with the shaft ( 6 ) are rotatably connected. Conveying device according to claim 8, characterized in that at least one impact element ( 8th ) with a hub part ( 10 ), in particular welded, is and the hub part ( 10 ) via the positive connection ( 9 ) with the wave ( 6 ) is rotatably connected. Conveying device according to one of claims 1 to 8, characterized in that in the conveying direction (F) before and / or behind the striking element ( 8th ) or the last striking element ( 8th ) An institution ( 11 ) is arranged for blowing in air.

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