DE102014102142B4 - Device for taking a material sample and its use - Google Patents

Abstract

Device for taking a material sample (2) from a material container (4) for bulk or thermal utilization of pourable sample material (3) for the purpose of quality testing, with a conveying tube (5) which can be submerged in the material container (4) for continuous sampling essentially in the interior (6) of the conveying tube (5), along the longitudinal axis (7) of the conveying tube (5) extending, by a motor drive (8) drivable screw conveyor (9) for transporting sample material (3) in the conveying tube ( 5) to a removal point (11), wherein the penetration of the sample material (3) provided free end (20) of the screw conveyor (9) is designed in the manner of a screw drill and from the penetration into the sample material (3) provided end (30) of the conveying tube (5) protrudes, characterized in that the penetration of the sample material (3) provided in the end (30) of the Förderro in the manner of a serrated drill bit (29) with at least partially ground edges (33), such that it moves from the screw conveyor (9) into the conveyor tube (5) but outwardly beyond the diameter (34) of the Conveying tube (5) projecting sample material (3) is sheared off.

Description

The invention relates to a device for taking a material sample of pourable wood material from a material container with the features of the preamble of claim 1 and their use.

The free-flowing wood material is, in particular, wood chips for the production of wood-based materials, in particular for production of chipboard. The wood chips may in particular be recycled wood chips produced from waste wood; but it can also be wood chips from fresh wood. As a pourable wood material, however, come, for example, sawdust or other thermally or materially usable wood material in question.

The material container is in particular a delivery container, such as a container transportable by a truck, a dump body of a dump truck or the like.

Depending on the later use of wood material takes place when it is adopted in a particle board plant in a material recovery or in a biomass CHP thermal utilization of a quality test, which is examined, among other things, which waste wood class Al to AIV according to waste wood ordinance is assigned to the wood material.

In order to ensure proper operation of the biomass cogeneration plant, it is necessary to comply with quality standards with regard to permissible moisture content, foreign matter content, proportion of fines and the material's lumpiness. The same applies to material recycling in chipboard plants in order to avoid malfunctions and machine damage.

Usually, a dry content of at least 65 percent is given. In addition, the wood material must be free of foreign substances, such as plastics, metals, stones, textiles, glass, etc. The mineral content of fines, for example, should be less than one percent. In addition, the wood material should have a uniform lumpiness; In addition, there may be limits in terms of particle size.

Upon delivery of the wood material, these quality features have so far been controlled only insofar as they are externally recognizable. In addition, a sample for atro (dry matter) determination takes place. For this purpose, an employee manually removes a sample of the material using a shovel. For this purpose, the employee usually climbs onto a pedestal to take the sample on the surface of the material volume, which is currently in a delivery container on a truck, for example.

This conventional procedure has several disadvantages. On the one hand, the described manner of sampling is complicated and cumbersome. On the other hand, the visual inspection of the quality features on the one hand and the sampling on the other hand always takes place only on the surface of the material volume. A material quality of the wood material in the interior of the material volume deviating from the quality of this surface material can not be recognized. This relates in particular to qualitatively inferior and / or heavy material, such as, for example, stones and fine material, which is vibrated during the transport of material into the lower region of the material volume.

Generally known for pourable sample material such as coal, ore, building materials o. The like. Is a device with a submerged in a material container such as the dump body of a dump truck conveyor tube with a aligned inside the conveyor tube along a longitudinal axis screw conveyor. In this prior art ( DE 72 01 446 U ) designed to penetrate into the sample material free end of the screw conveyor is designed in the manner of a screw drill and protrudes from the intended for penetration into the sample material end of the conveyor tube out. At the end of the conveyor pipe is a smooth circumferential guard ring.

A device of the type described above is in principle applicable to any sample material. With such a device, the following technological advantages result:
The continuous sampling along a sampling path through at least a portion of the material container allows a location-accurate assessment of the quality characteristics. In other words, the quality of the sample material can be determined depending on its position in the material container. With the help of suitable evaluation means, it is therefore possible to create a quality profile along the sampling route. If the sampling path passes through the entire material container, the quality of the sample material can be determined throughout the material volume.

It is therefore not only possible to take material samples by random sampling. If a sample is taken from each material container, then the material quality can be extrapolated from a single sampling on the entire material container. In addition, it is easy possible to carry out several sampling on a material container. This is preferably carried out in such a way that the removal paths are spaced apart from one another or extend to one another in such a way that the best possible and accurate extrapolation to the total charge volume is possible from the determined quality information.

The known technique allows - based on the respective material container - an uncomplicated cross-sectional analysis of the sample material by determining the quality characteristics with simple means. In principle, it can be applied to all materials that are present as loose bulk material, provided that the bulk material is homogenous.

In the case of the known device, fibrous sample material, as is the case in particular with wood material, can lead to clogging of the conveying tube. Object of the present invention is therefore to design the known device and further, that clogging of the delivery pipe can be largely avoided.

The above-mentioned object is achieved in a device having the features of the preamble of claim 1 by the features of the characterizing part of claim 1.

In order to ensure a uniform flow of material in the conveyor tube during sampling and to prevent clogging of the feed pipe and to prevent wedging of wood material between the auger on the one hand and the conveyor pipe on the other hand, designed as a drill bit opening edge of the conveyor tube according to the invention jagged with partially ground edges carried out such that sample material which is moved from the screw conveyor into the conveying tube and projects outwardly beyond the diameter of the conveying tube, is sheared off.

Of particular importance is the invention when using the device according to the invention for pourable wood material, in particular wood material from wood chips.

A preferred embodiment of the invention will be described below with reference to further advantages of the invention with reference to the drawings. Hereby show:

1 a schematic representation of the device according to the invention,

2 a side view of the conveyor head,

3 a plan view of the lower end of the screw conveyor.

All figures show the invention not to scale, while only schematically and only with their essential components. The same reference numerals correspond to elements of the same or comparable function.

An inventive device 1 for taking a material sample 2 from one with chips 3 filled delivery container 4 for the purpose of a quality inspection includes one for a sampling in the delivery container 4 submersible conveyor pipe 5 and one essentially inside 6 of the conveyor pipe 5 arranged along the longitudinal axis 7 of the conveyor pipe 5 running, by a motor drive 8th drivable screw conveyor 9 for transporting sample material in the production tubing 5 up to a sampling point 11 , The sampling takes place continuously during the penetration of the delivery pipe 5 in the in the delivery container 4 contained sample material 3 ,

At the desired sampling point 11 has the conveyor pipe 5 a sampling opening, through which, if necessary or continuously material samples 2 can be removed. The material samples 2 can be sucked out there, for example, by means of a suction device not shown and a rating or rating unit 12 be fed to the manual and / or automatic evaluation of the quality features. This removed material can then be used not only for the determination of atro, but also for the visual inspection of the quality characteristics.

Is the valuation unit 12 with a control unit 13 of the drive 8th the screw conveyor 9 or with a (not shown) control unit of the drive for moving the device 1 in removal direction 14 connected or become the valuation unit 12 otherwise provided information about the place or time of sampling, so that the valuation unit 12 can make an assignment of the quality characteristics to a specific sampling location and / or a specific sampling time, then a quality profile on the respective container dimension and thus an improved extrapolation of the sample values on the total volume of the delivered material is possible. The means for data processing required for such an evaluation are familiar to the person skilled in the art, so that a further explanation at this point is not necessary.

During operation of the device 1 a sample is taken along a defined sampling line 15 from the container volume of the delivery container 4 , When completely or almost completely with wood material 3 filled container 4 makes the extraction route 15 thereby at least a substantial part of a dimension of the delivery container 4 at least a substantial part of the width, height or depth of the container in the case of material containers having a substantially rectangular cross section or a substantial part of the diameter or the length of the container in the case of material containers having a substantially round cross section.

In the present case, the delivery pipe 5 substantially perpendicular to the opening 16 of the delivery container 4 and thus vertically into the sample material 3 submerged arranged. The sampling route 15 thus runs from the surface 17 the volume of material delivered to the floor 18 of the container 4 , Depending on the type of material container 4 and / or the requirements of the quality inspection, the delivery pipe 5 but also horizontally or diagonally in the material container 4 plunge. The combination of delivery pipe according to the invention 5 and internal screw conveyor 9 ensures in any case an unhindered sampling.

The for dipping the device 1 in the delivery container 4 necessary means of movement are not shown and initially of secondary importance. For example, the device 1 hanging down from the ceiling of a delivery hall into the delivery container 4 be lowered or the device 1 is made with the help of a suitable frame over the delivery container 4 placed and from there down into the delivery container 4 in or up from the delivery container 4 moved out.

For transporting the sample material 2 in the conveyor pipe 5 up to the sampling point 11 during the removal process, the screw conveyor is used 9 which are essentially inside 6 of the conveyor pipe 5 along the tube longitudinal axis 7 runs. The screw conveyor 9 is powered by an electric motor 8th driven and is drive side about its longitudinal axis 19 rotatable in a warehouse 21 stored.

At the screw conveyor 9 it is preferably a wave 22 around which are wound one or more spiral-shaped corridors. These snail wings 23 are made of segments that coincide with the shaft 22 firmly connected, for example, to the shaft 22 are welded on. The snail wings 23 extend inside 6 of the conveyor pipe 5 at least up to the sampling point 11 , On the way of storage of the shaft 22 and the type of drive of the screw conveyor 9 need not be discussed further at this point, since this can be realized by the expert in each individual application in a known per se manner.

During the sampling, the shaft rotates 22 and thus the screw conveyor 9 around the wavelength axis 19 in the in 2 specified direction of rotation 24 , which causes a conveying direction 25 in the interior 6 of the conveyor pipe 5 into it.

That to penetrate into the wood chips 3 provided free end 20 the screw conveyor 9 is designed in the manner of a worm drill. The sharp end 26 the wave 22 drills into the sample material during sampling 3 and at the same time serves to stabilize the position of the screw conveyor 9 in the conveyor pipe 5 , At the same time this is for penetration into the sample material 3 provided, not rotating end 30 of the conveyor pipe 5 , more precisely the edge 27 the pipe opening 28 , as a drill bit 29 executed. Both measures serve to facilitate trouble-free recording in the sample material 3 to ensure.

drill bit 29 and auger 20 together form the drilling and conveying head 31 the device 1 , The one with spikes 32 provided edge 27 the lower opening 28 of the conveyor pipe 5 is with sanded edges 33 provided such that wood chips 3 coming from the screw conveyor 9 in the conveying direction 25 in the conveyor pipe 5 be moved in and out over the inner diameter 34 of the conveyor pipe 5 survive, at those edges 33 sheared off.

The free end 20 the screw conveyor 9 protrudes from the drill bit 29 and thus over the opening edge 27 out. Thus, the wood material becomes 3 first of the screw conveyor 9 recorded and then, already in the conveying direction 25 in the interior 6 of the conveyor pipe 5 moving in, at the serrated drill bit 29 moved along. Supernatant sample material 3 is exactly on those sections of the drill bit 29 too moved, as cutting edges 33 are executed so that a clean shearing process can take place.

In a particularly advantageous embodiment is on the part of the screw conveyor 9 coming out of the production pipe 5 protrudes, on the outer edge of at least one auger wing 23 one over the inside diameter 34 of the conveyor pipe 5 protruding tool 35 arranged with at least one cutting edge such that by the rotation of the screw conveyor 9 during sampling in the sample material 3 a channel-like clearance is created. In other words, by a suitable widening of the screw conveyor diameter outside the conveying tube 5 in the sample material 3 created an area in which the drill bit 29 of the conveyor pipe 5 can penetrate easier.

LIST OF REFERENCE NUMBERS

1

contraption

2

material sample

3

Wood chips, material

4

container

5

delivery pipe

6

tube interior

7

tube longitudinal axis

8th

engine

9

Auger

10

(free)

11

removal direction

12

assessment unit

13

control unit

14

removal direction

15

sampling line

16

container opening

17

Surface of the material volume

18

container bottom

19

screw longitudinal axis

20

(free)

21

camp

22

wave

23

screw flights

24

direction of rotation

25

conveying direction

26

drill

27

edge

28

tube opening

29

drill bit

30

(free)

31

Drilling and conveying head

32

jag

33

edge

34

Inside pipe diameter

35

cutting tool

Claims (2)

Device for taking a material sample ( 2 ) of bulk material for thermal or material recovery ( 3 ) from a material container ( 4 ) for the purpose of a quality test, with one for a continuous sampling in the material container ( 4 ) Submersible delivery pipe ( 5 ) and one essentially inside ( 6 ) of the delivery pipe ( 5 ), along the longitudinal axis ( 7 ) of the delivery pipe ( 5 ), by a motor drive ( 8th ) drivable screw conveyor ( 9 ) for transporting sample material ( 3 ) in the delivery pipe ( 5 ) to a sampling point ( 11 ), whereby the penetration into the sample material ( 3 ) provided free end ( 20 ) of the screw conveyor ( 9 ) is designed in the manner of a screwdriver and from the penetration into the sample material ( 3 ) end ( 30 ) of the delivery pipe ( 5 protruding, characterized in that the penetration into the sample material ( 3 ) end ( 30 ) of the delivery pipe ( 5 ) like a serrated drill bit ( 29 ) with at least partially ground edges ( 33 ) is carried out in such a way that by the screw conveyor ( 9 ) in the delivery pipe ( 5 ) moved in, but outwards over the diameter ( 34 ) of the delivery pipe ( 5 ) outstanding sample material ( 3 ) is sheared off. Use of a device according to claim 1 for taking a sample of material ( 2 ) intended for material or thermal utilization pourable wood material ( 3 ), in particular of wood chips.

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