Separation method, separation device and arrangement of a separation device with a woodworking machi

专利摘要:
Arrangement, separating device and separation method for wood dust particles, wherein the wood dust particles are or comprise fine wood dust particles with a size of less than 5 μm, in particular with a size of less than 1 μm, wherein the separation device comprises a flow channel (1), wherein the flow channel (1 ) is flowed through in operation by an air stream laden with the fine wood dust particles, wherein the flow channel (1) comprises an electrostatic charging section (2) for at least partially electrostatic charging of the wood fine dust particles, wherein the flow channel (1) in or after the electrostatic charging section (2) Agglomeration section (3) for the electrostatic agglomeration of wood dust particles to Holzstaubagglomeraten comprises, wherein the agglomeration section (3) a mechanical separator (4) for depositing the Holzstaubagglomeraten is arranged, and wherein in the charging section (2) at least one, insbesonde re several, triboelectrically acting charging elements (5) are provided to change the electrical charge of multiple wood dust particles.
公开号:AT519542A4
申请号:T50174/2017
申请日:2017-03-07
公开日:2018-08-15
发明作者:Myna Roman；Wimmer Rupert
申请人:Univ Wien Bodenkultur；
IPC主号:

专利说明:

Summary
Arrangement, separating device and separation method for wood dust particles, the wood dust particles being or comprising fine wood dust particles with a size of less than 5 pm, in particular with a size of less than 1 pm, the separating device comprising a flow channel (1), the flow channel (1 ) in operation, an air stream laden with the fine wood dust particles flows through, the flow channel (1) comprising an electrostatic charging section (2) for at least partial electrostatic charging of the fine wood dust particles, the flow channel (1) in or after the electrostatic charging section (2) Agglomeration section (3) for the electrostatic agglomeration of fine wood dust particles to form wood dust agglomerates, the agglomeration section (3) being followed by a mechanical separator (4) for separating the wood dust agglomerates, and wherein in the charging section (2) at least one, in particular several, triboelectically acting charging elements (5) are provided for changing the electrical charge of several fine wood dust particles.
Fig. 2a
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Separation process, separation device and arrangement of a
Separator with a woodworking machine
The invention relates to a separation method, a separation device and an arrangement according to the features of the independent claims.
It is known from the prior art to filter the wood dust produced in the machining or processing of wood from an air stream. Conventional filters, such as those used in carpentry workshops or wood processing companies, include mechanical filters, such as e.g. Bag filters or cyclones.
However, such mechanical filters are limited in their filter performance and filter fineness. In particular, it is not possible with conventional mechanical filters to filter wood dust particles with sufficient throughput. Fine wood dust particles, in particular fine dust particles from hardwoods or hardwoods, are considered to be harmful to health and have a carcinogenic effect, in particular because of their respiratory properties. For this reason there is a demand for in the market
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Separation devices that are set up and suitable to efficiently separate fine wood dust particles.
Fine dust filters are known in other technical fields, but because of their structure and mode of operation they are not suitable for conventional woodworking systems.
For example, fine dust filters for internal combustion engines are known which have to be regenerated by burning out at regular intervals. However, such a filter arrangement would not be economically operable for a throughput occurring in a woodworking plant.
In large combustion plants, electrostatic precipitators are known, in which spray electrodes are provided which cause soot particles to be charged in order to enable electrostatic deposition. However, such spray electrodes are not efficient in the case of wood fine dust particles, since wood fine dust particles have a coarse-porous, spongy structure in which only a small part of the surface of the wood fine dust particle is arranged on the outside. With such an arrangement, a large part of the charge would not remain on the usable outer surface of the particles, but would be absorbed in the depressions of the coarse-porous, spongy structure, as a result of which a sufficient attraction force for a deposition could not be generated.
The object of the invention is now to provide a separating device for wood dust particles, in particular for fine wood dust particles, which enables efficient separation, and which is suitable for conventional woodworking machines, in particular for cutting woodworking machines, such as are used, for example, in carpentry workshops or wood processing facilities. It is also an object of the invention to provide such a method.
This task is particularly characterized by the characteristics of the independent
Claims resolved.
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It was surprisingly found that fine wood dust particles and in particular hardwood fine dust particles and hardwood fine dust particles can be agglomerated to wood dust agglomerates via the triboelectric effect. These agglomerates have an increased size and an increased mass, which are suitable for being separated in a mechanical separator. The increase in size during agglomeration accordingly creates larger wood particle accumulations which can be separated even in conventional mechanical filters, such as in particular in a conventional cyclone or in an adapted cyclone.
The triboelectric charging of solids is a known physical effect, which is particularly pronounced in plastics. Triboelectric charging occurs when two different, initially electrically neutral, substances are brought into contact, if necessary rubbed against one another, and separated again. Some substances give off electrons or charges and are therefore positively charged. Others, on the other hand, take up electrons or charges and thus receive a negative excess charge. A triboelectric series was determined in experiments, which provides information on whether two different friction partners are charged positively or negatively.
For example, the following substances are known in the following order from positive to negative in the triboelectric series: animal fur, glass, nylon, wool, silk, aluminum, paper, cotton, iron, wood, hard rubber, copper, nickel, bronze, gold, platinum, rayon , Polystyrene, polyester, polyurethane, polyethylene, polypropylene, PVC, vinyl, silicone, Teflon.
If wood, which is located approximately in the middle of this row, is rubbed against a material in the row above, for example glass, the wood is negatively charged and the other material, for example glass, is charged positively. If wood is rubbed against a material in the row below, for example vinyl, the wood is charged positively and the other material, for example vinyl, is negatively charged.
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The invention optionally relates to a separating device for wood dust particles, the wood dust particles being or comprising fine wood dust particles with a size of less than pm, in particular with a size of less than 1 pm, the separating device comprising a flow channel, the flow channel being operated by one with air flow laden with the fine wood dust particles, the flow channel comprising an electrostatic charging section for at least partial electrostatic charging of the fine wood dust particles, the flow channel in or after the electrostatic charging section having an agglomeration section for electrostatic agglomeration of
Wood fine dust particles to form wood dust agglomerates, the agglomeration section being a mechanical separator
Separation of the wood dust agglomerates is subordinate,
If necessary, it is provided that at least one, in particular several, triboelectically acting charging elements for changing the electrical charge of a plurality of wood dust particles or wood fine dust particles are provided in the charging section.
It is optionally provided that the charging elements comprise positively charging elements which bring about a positive charge of the wood dust particles or fine wood dust particles contacting these elements, and / or that the charging elements comprise negatively charging elements which bring about a negative charging of the wood dust particles or fine wood dust particles contacting these elements.
If appropriate, it is provided that the negatively charging elements are formed from a material or comprise a material which is arranged in the triboelectric row above wood, for example animal fur, glass, nylon, wool, silk, aluminum, paper, cotton or iron or includes
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It is optionally provided that the charging section comprises at least one positively charging section in which the positively charging elements are provided, that the charging section comprises at least one negatively charging section in which the negatively charging elements are provided, and that the positively charging section and the negatively charging section spatially delimited from one another, in particular along the flow direction of the air stream loaded with fine wood dust particles are arranged one after the other and / or next to one another.
If necessary, it is provided that two, in particular fluidically parallel, partial channels are provided in the charging section for dividing the air flow loaded with wood dust particles or wood fine dust particles into two partial streams, charging elements for charging the wood dust particles or wood fine dust particles in one, in particular positive or negative, in the first partial channel. Polarity are provided, and no charging elements or charging elements for charging the wood dust particles or wood fine dust particles in the other polarity are provided in the second subchannel.
If necessary, it is provided that the two subchannels for bringing together the two differently charged partial streams and for agglomeration of the differently charged wood dust particles or wood fine dust particles are combined in the agglomeration section to form wood dust agglomerates.
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If appropriate, it is provided that the charging elements for charging the wood dust particles or wood fine dust particles protrude into the channel, in particular into at least one of the subchannels.
If necessary, it is provided that the charging elements of the charging section are surrounded by an air stream laden with fine wood dust particles during operation.
If necessary, it is provided that the charging elements are arranged offset or rotated relative to one another in the charging section along the flow direction.
If necessary, it is provided that the charging elements arranged in the charging section for charging the wood dust particles or fine wood dust particles in the charging section are preferably arranged to be movable in at least one direction in all three spatial directions.
If appropriate, it is provided that the charging elements are arranged so as to be rotatable about their longitudinal axis.
If appropriate, it is provided that the charging elements have a shape that is favorable in terms of flow technology, such as, for example, a cross-flow cylindrical shape.
It is optionally provided that the charging elements comprise a conductive core, such as a metal core, which is provided on its outside exposed to the particle-laden air stream with a layer of a triboelectrically active material.
If appropriate, it is provided that the charging elements each comprise a core, which is optionally made conductive, and a conductive sleeve surrounding the core, which is provided with a layer of a triboelectrically active material at least on its outside exposed to the particle-laden air flow. The sleeve is preferably connected to the core in an electrically conductive manner, so that the sleeve and the triboelectric layer can be grounded by grounding the core.
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If necessary, the sleeve is rotatably arranged on the core. The core is preferably rotationally symmetrical or cylindrical.
If necessary, it is provided that the charging elements are grounded or can be grounded, and / or that a device is provided for periodic or intermittent grounding and interruption of the grounding of the charging elements.
It is optionally provided that the mechanical separator for separating the wood dust agglomerates is designed as an inertial separator, centrifugal force separator, in particular as a cyclone, or as a filter.
In particular, the invention relates to an arrangement of a woodworking machine, preferably a metal-cutting woodworking machine, with a separating device, in particular a system comprising a
Woodworking machine and a separating device according to the invention.
If appropriate, it is provided that a prefilter for prefiltering wood particles with a size of greater than 5 μm is provided in front of the agglomeration section, in particular in the flow channel, along the flow direction of the wood fine dust particle-laden air stream.
If necessary, it is provided that a blower is provided to promote the air flow laden with fine wood dust particles.
In particular, the invention relates to a method for the deposition of
Wood dust particles, in particular wood fine dust particles with a size of less than 5 μm, in particular with a size of less than 1 μm, from an air flow loaded with the wood fine dust particles,
at least part of the particle-laden air flow is passed through an electrostatic charging section in which at least some of the wood dust particles or wood fine dust particles are electrostatically charged,
- The particle-laden air flow through the electrostatic
Charging section subsequent agglomeration section for electrostatic
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Agglomeration of the wood dust particles or wood fine dust particles too
Wood dust agglomerates is directed
- The particle-laden air flow is passed through a mechanical separator downstream of the agglomeration section for separating the wood dust agglomerates, and wherein the electrostatic charging takes place in the charging section by tribolectric charging.
The method is preferably carried out on a separating device and / or system according to the invention.
Due to the surface friction of the fine wood dust particles on the triboelectric elements, there is a superficial charge of the wood dust particles or fine wood dust particles. This has the advantage that this local charging of the fine dust particles is on the outside and is therefore more effective.
The triboelectric effect is used in the present invention to charge the wood dust particles or wood fine dust particles of an air stream with different or different intensities, so that the particles are agglomerated due to static attractive forces.
It is preferably provided that the charging elements protrude into the flow channel or pass through this flow channel. If necessary, it is provided that the flow channel is divided into two sub-channels in order to also divide the particle-laden air stream into two sub-streams. As a result of this division, a part of the fine wood dust particles can be processed and in particular charged independently of another part of the fine wood dust particles. It is preferably provided that the two partial flows are brought together again after the charging section in order to bring about an agglomeration of the fine wood dust particles to form fine wood particle agglomerates.
According to a preferred embodiment it can be provided that the charging elements consist of objects arranged regularly, in particular in parallel
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It is optionally provided that the charging elements comprise round rods which are coated with a coating or nano-coating of a selected, triboelectrically active material. In particular, a thin coating of the charging elements with a desired triboelectrically active material is sufficient to achieve the triboelectric charging of the fine wood dust particles.
In all embodiments, it can be provided that the charging elements comprise a conductive, in particular continuous, core, such as a metal core, which is provided on its outside exposed to the particle-laden air stream with a thin layer of a triboelectrically active material. By grounding the triboelectrically active material via the grounding of the conductive core, regeneration of the triboelectrically active layer on the outside of the charging element can thus be effected efficiently and quickly.
If necessary, it is provided that the charging elements rotate continuously and the entire surface can thus be used for the charging process. As a result, wear and regeneration intervals can be optimized.
To increase the strength of the charge, several can if necessary
Charging elements are arranged one after the other in the air duct. This increases the number of friction contacts. If several charging elements are arranged one after the other in the air flow, it is advantageous not to arrange them congruently, but offset and / or rotated relative to one another. It is therefore preferably provided that a plurality of positive or a plurality of negatively charging elements are provided along the direction of flow, so that the wood fine dust particles have a higher one
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Probability to be charged on several charging elements, whereby a stronger charge can be achieved.
According to one embodiment of the invention, the charging elements can be arranged displaceably with respect to one another along one or more axes within the air duct in order to be able to vary and adjust the number of contacts or the air resistance.
The separating device is preferably a device for triboelectric, electrostatic charging of fine wood dust particles by mechanical friction, which comprises charging elements positioned in a flow channel in a targeted manner. A mixture of air and wood dust, in particular an aerosol, is preferably passed through the flow channel. As a result, each time the particles come into contact with the individual charging elements, a charge of the particle on its surface is selectively increased in a positive or negative manner. The charging elements are preferably arranged regularly, in particular parallel to one another, and are at least partially formed from selectively selected materials from the triboelectric series which have a different dielectric constant compared to the wood particles. Due to their regular arrangement, the charging elements enable low air resistance on the one hand and a high number of contacts on the other. The charging elements can be designed, for example, as round bars.
The charging elements can preferably be formed from a conductive core with a nano coating or a thin coating of the selected triboelectric material. This enables rapid regeneration through electrical grounding.
The invention optionally relates to a method for separating fine wood dust particles. For this purpose, the air flow loaded with fine wood dust particles, which comes for example from a woodworking or woodworking machine, is first through a charging section, then through one
Agglomeration section and then passed through a mechanical separator. By charging and the subsequent agglomeration are made
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Fine wood particle agglomerates are formed which can be separated in a mechanical separator, such as a cyclone or a mechanical filter.
In particular, the method comprises the steps that the particle-laden air stream is guided at least partially through an electrostatic charging section. At least partially means that at least a partial stream of the particle-laden air stream is branched off and passed through an electrostatic charging section. If necessary, however, the entire particle-laden air stream is also passed through an electrostatic charging section.
The particle-laden air flow is in particular passed through the charging section in such a way that there is a different charging of fine dust particles. For example, some of the fine wood dust particles are charged positively and another part negatively. Optionally, however, only a part of the fine wood dust particles can be charged positively or negatively, the other part of the fine wood dust particles being charged only slightly or not at all.
In particular, the method is designed in such a way that the particles are charged so differently that there is an electrostatic attraction and thus an agglomeration of the fine wood dust particles
Wood dust agglomerates is coming.
This agglomeration takes place in particular in an agglomeration section where the differently charged wood fine dust particles are brought together.
In all embodiments, it is preferably provided that the fine wood dust particles are charged via triboelectric charging. For this purpose, according to a preferred embodiment, the particles are brought into contact with triboelectric elements. Any regeneration of the triboelectric elements can be grounded. Grounding can be done intermittently or regularly, for example.
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The method steps result in particular from the functioning of the separating device and the arrangement.
In all embodiments it can be provided that the separating device is also suitable and / or set up for separating wood dust particles with a size of more than 5 pm. Finally, the triboelectric effect and the charging of wood particles due to the triboelectric effect are not limited to the size of the wood dust particles.
The agglomeration of the wood particles in an agglomeration section downstream of the charging section leads to an enlargement or agglomeration of wood particles. According to one embodiment, this agglomeration can take place, for example, in front of a mechanical filter, such as, in particular, a bag filter or a cyclone, in order to improve the effectiveness of the filter or the cyclone and in particular its filtering performance.
If necessary, a first charging section with a first agglomeration section is provided in front of the prefilter. This enables this pre-filter to work more efficiently, since small wood dust particles are agglomerated even before the pre-filter.
Optionally or additionally, a charging section with an agglomeration section can be provided between the pre-filter and the mechanical separator in order to cause agglomeration of the wood dust particles after the pre-filter and before the mechanical separator.
The wood dust agglomerates can in all embodiments
pure wood fine dust agglomerates made from wood fine dust particles with a size of less than 5 pm, in particular with a size of less than 1 pm;
- or mixed wood dust agglomerates comprising fine wood dust and wood dust. In the case of mixed wood dust agglomerates, fine wood dust particles, for example, can attach themselves to a larger wood dust particle.
The invention is further described below using exemplary, non-limiting exemplary embodiments and using the figures, wherein
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1 shows a schematic illustration of a possible structure of an arrangement according to the invention, FIGS. 2a, 2b and 2c show different embodiments of the charging section of a separating device in a schematic illustration,
3 shows a possible configuration with an arrangement of the charging elements, and FIG. 4 shows details of possible charging elements in a schematic view.
Unless otherwise stated, the reference numerals correspond to the following components: flow channel 1, charging section 2, agglomeration section 3, mechanical separator 4, charging element 5, positive charging element 6, negative charging element 7, positive charging section 8, negative charging section 9, flow direction 10 , first subchannel 11, second subchannel 12, longitudinal axis (of the charging element) 13, device (for grounding) 14, woodworking machine 15, pre-filter 16, blower 17, first group 18, first frame 19, second group 20, second frame 21.
Fig. 1 shows an arrangement of a woodworking machine 15 with a
Separator. The woodworking machine 15 can in all
Embodiments may be a conventionally machining woodworking machine, such as in particular a planing machine, a grinding machine, a cutting machine, in particular a circular or band saw, or another woodworking machine in which fine wood dust particles are produced. Such woodworking machines usually have suction devices in which filters are provided. According to the invention, the separation device according to the invention is additionally or alternatively used. A pre-filter 16, a charging section 2, an agglomeration section 3, a mechanical separator 4 and a blower 17 are provided along a flow channel 1 for the removal of the particle-laden air flow. The prefilter 16 is provided in particular between the woodworking machine 15 and the charging section 2 or the agglomeration section 3 in order to remove larger, easily filterable particles from the air stream. In particular, the pre-filter 16 can filter particles with a size greater than 5 pm in all embodiments. The flow channel 1 extends through the charging section 2 and the agglomeration section 3 of the separating device. To
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Embodiments are provided so that those fine dust particles that could not be separated from the mechanical separator 4 without agglomeration can also be separated in the mechanical separator 4 by the agglomeration.
Furthermore, the arrangement comprises a blower 17. In the present embodiment, the blower 17 is designed as a suction blower, which conveys the particle-laden air flow through the components mentioned. According to an alternative embodiment, the blower 17 can also be arranged in front of the pre-filter 16, the charging section 2 and / or the agglomeration section 3 or can be designed as a blower of the woodworking machine 15.
Figures 2a, 2b and 2c show different embodiments of
Components of separation devices according to the invention in schematic views.
In FIG. 2a, the flow channel 1 extends through a charging section 2 and an agglomeration section 3. The flow channel 1 is in particular divided into a first sub-channel 11 and a second sub-channel 12. The two subchannels 11, 12 flow-parallel to each other in the charging section 2 and are brought together again in the agglomeration section 3. In the embodiment of FIG.
2a, several charging elements 5 are provided. In particular, a negatively charging section 9 is provided in the first subchannel 11. This negatively charging section 9 comprises a plurality of negatively charging elements 7, which are set up to negatively charge the wood fine dust particles of the air flow in the first subchannel 11. In the second subchannel 12, a positively charging section 8 is provided, which is positive
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2b shows a further embodiment of a part of a possible one
Separation device in which only one continuous flow channel 1 is provided. Several charging elements 5 are provided in this flow channel 1. The charging elements 5 are provided in a positively charging section 8 and a negatively charging section 9. In particular, several such sections 8 and 9 are provided. In the positively charging section 8, positively charging elements 6 are provided, and in the negatively charging section 9, negatively charging elements 7 are provided. The sections 8, 9 are arranged one behind the other along the flow direction 10, as a result of which there is first a negative, then a positive and possibly then a negative charge again.
According to an alternative embodiment, positive and then negative charging can also take place first. Since generally not all fine wood dust particles come into contact with the charging elements 5, some particles are charged positively and some particles are negatively charged, which in turn leads to an attraction and agglomeration of the fine wood dust particles. The charging section 2 thus has several different charging elements 5. In the present embodiment, the agglomeration section 3 overlaps with the charging section 2.
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2c shows a further embodiment of a part of a separating device. The embodiment of FIG. 2c essentially corresponds to the embodiment of FIG. 2a, only one of the two subchannels being provided with charging elements 5. As a result, a partial flow of the first partial channel 11 is charged either positively or negatively, depending on the configuration of the charging elements 5, the partial stream of the second partial channel 12 not being charged. If necessary, it is sufficient that the charge of a fine wood particle is sufficient to make a neutral one
Attract fine wood dust particles, which leads to an agglomeration in the
Agglomeration section 3 comes.
3 shows a further possible embodiment of part of a
Separation device in a schematic representation. The particle-laden air flow is conveyed along the flow direction 10 through a charging section 2. The configuration according to FIG. 3 can correspond, for example, to the configuration of a subchannel 11 or 12 from FIGS. 2a or 2c. If necessary, the configuration of FIG. 3 can also include charging elements 5 that charge differently, as described for example in FIG. 2b.
As shown in Fig. 3, the charging elements 5 are each arranged in groups. In particular, a first group 18 of charging elements 5 is provided. This first group 18 is held in particular by a first frame 19. In this embodiment, a plurality of charging elements 5 of the first group 18 are provided in the first frame 19, arranged parallel to one another. It is preferably provided that this first frame 19 is essentially transverse to
Flow direction 10 is arranged so that a rake-shaped arrangement of the charging elements 5 is formed. If necessary, provision is made for the first frame 19 to be arranged to be movable transversely to the direction of flow 10 and, if appropriate, to be lockable. As a result, the position of the charging elements 5 of the first group 18 can be varied or changed.
3, a second group 20 of charging elements 5 is also provided. The second group 20 of the charging elements 5 is also arranged in a second frame 21. This second frame 21 can be designed similarly or identically as
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In the present embodiment, the course of the charging elements 5 of the first group 18 is rotated essentially 90 ° to the course of the charging elements 5 of the second group 20, this angle being indicated in a normal plane of the flow direction 10. A lattice-shaped arrangement is thereby formed. The second frame 21 can also be designed, in particular, to be movable transversely to the flow direction 10 in order to enable the charging elements 5 of the second group 20 to be displaced.
3, several further groups of charging elements 5 are provided, which are also held in frames. As a result, a lattice-like structure can be formed through which the particle-laden air stream is passed.
FIG. 4 shows a schematic illustration of details of a charging element 5. The charging element 5 runs along a longitudinal axis 13 and is, in particular, cylindrical. As shown in FIG. 4, in all embodiments only the jacket or the surface of the charging element 5 can be made from the selected triboelectric material.
According to the present embodiment, the charging element 5 can be arranged rotatably about its longitudinal axis 13. If necessary, the charging element 5 can be locked so that rotation can be permitted or prevented.
In all embodiments, a device 14 for periodic earthing is preferably provided. This device 14 is used in particular for earthing and interrupting the earthing of the charging elements 5. The earthing means that the charging elements 5 can be regenerated in order to enable continuous or intermittent triboelectric charging of the fine wood dust particles.
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权利要求:
Claims (19)
[1]
claims
1. Separation device for wood dust particles, the wood dust particles being or comprising fine wood dust particles with a size of less than 5 pm, in particular with a size of less than 1 pm, the separating device comprising a flow channel (1), the flow channel (1) in the Operation of an air stream loaded with the fine wood dust particles flows through, the flow channel (1) comprising an electrostatic charging section (2) for at least partially electrostatic charging of the fine wood dust particles, the flow channel (1) in or after the electrostatic charging section (2) comprising an agglomeration section ( 3) for the electrostatic agglomeration of fine wood dust particles to form wood dust agglomerates, the agglomeration section (3) being followed by a mechanical separator (4) for separating the wood dust agglomerates, characterized in that in the charging section (2) at least one, in particular several, dr iboelectically acting charging elements (5) for changing the electrical charge of several fine wood dust particles are provided.
[2]
2. Separating device according to claim 1, characterized in that the charging elements (5) comprise positively charging elements (6) which effect a positive charging of the wood dust particles or fine wood dust particles touching these elements, and / or that the charging elements (5) have negatively charging elements ( 7), which cause a negative charge of the wood dust particles or wood fine dust particles touching these elements.
[3]
3. Separation device according to claim 2, characterized in that the negatively charging elements (6) are formed from a material or comprise a material that is in the triboelectric series above
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Wood is arranged, for example animal fur, glass, nylon, wool, silk, aluminum, paper, cotton or iron, and / or that the positively charging elements (7) are formed from a material or comprise a material that is in the triboelectric series is arranged below wood, that is, for example, hard rubber, copper, nickel, bronze, gold, platinum, rayon, polystyrene, polyester, polyurethane, polyethylene, polypropylene, PVC, vinyl, silicone or Teflon.
[4]
4. Separating device according to claim 2 or 3, characterized in that the charging section (2) comprises at least one positively charging section (8), in which the positively charging elements (6) are provided, that the charging section (2) has at least one negatively charging Section (9), in which the negatively charging elements (7) are provided, and that the positively charging section (8) and the negatively charging section (9) are spatially delimited from one another, in particular along the flow direction (10) of the one loaded with fine wood dust particles Air flow are arranged one after the other and / or side by side.
[5]
5. Separation device according to claim 1 to 4, characterized in that in the charging section (2) two, in particular fluidically parallel, partial channels are provided for dividing the air flow loaded with fine wood dust particles into two partial flows, wherein in the first partial channel (11) charging elements (5) for charging the wood dust particles or wood fine dust particles in one, in particular positive or negative, polarity are provided, and no charging elements (5) or charging elements (5) for charging the wood dust particles or wood fine dust particles in the other polarity are provided in the second subchannel (12).
[6]
6. Separation device according to claim 5, characterized in that the two sub-channels (11, 12) for merging the two differently charged
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Partial flows and for agglomeration of the differently charged wood dust particles or wood fine dust particles to wood dust agglomerates are brought together in the agglomeration section (3).
[7]
7. Separating device according to one of claims 1 to 6, characterized in that the charging elements (5) for charging the wood dust particles or wood fine dust particles protrude into the channel, in particular in at least one of the sub-channels (11, 12).
[8]
8. Separating device according to one of claims 1 to 7, characterized in that the charging elements (5) of the charging section (2) are flowed around by the air fine wood particle-laden air stream during operation.
[9]
9. Separating device according to one of claims 1 to 8, characterized in that the charging elements (5) in the charging section (2) along the flow direction (10) are arranged offset or rotated relative to each other.
[10]
10. Separating device according to one of claims 1 to 9, characterized in that the charging elements (5) arranged in the charging section (2) for charging the wood dust particles or fine wood dust particles in the charging section (2) are preferably arranged to be movable in at least one direction in all three spatial directions.
[11]
11. Separating device according to one of claims 1 to 10, characterized in that the charging elements (5) are arranged rotatably about their longitudinal axis (13).
[12]
12. Separating device according to one of claims 1 to 11, characterized in that the charging elements (5) have a fluidically favorable shape, such as a cross-flow cylindrical shape.
[13]
13. Separating device according to one of claims 1 to 12, characterized in that the charging elements (5) each have a conductive core, such as
21/25
56104, for example, comprise a metal core which is provided on its outside exposed to the particle-laden air stream with a layer of a triboelectrically active material, or that the charging elements (5) each comprise a core, which is optionally made conductive, and a conductive sleeve surrounding the core which is provided on its outside exposed to the particle-laden air flow with a layer of a triboelectrically active material
[14]
14. Separating device according to one of claims 1 to 13, characterized in that the charging elements (5) are grounded or groundable, and / or that a device (14) for periodic or intermittent grounding and interruption of the grounding of the charging elements (5) is provided ,
[15]
15. Separation device according to one of claims 1 to 14, characterized in that the mechanical separator (4) for separating the wood dust agglomerates is designed as an inertial separator, centrifugal separator, in particular as a cyclone, or as a filter.
[16]
16. Arrangement of a woodworking machine (15), preferably a cutting woodworking machine (15), with a separating device, in particular a system comprising a woodworking machine (15) and a separating device, characterized in that the separating device is designed according to one of the preceding claims.
[17]
17. The arrangement according to claim 16, characterized in that a prefilter (16) for prefiltering wood particles with a size greater than 5 along the flow direction (10) of the air stream laden with fine wood dust particles in front of the agglomeration section (3), in particular in the flow channel (1) pm is provided.
22/25
56104
[18]
18. Arrangement according to claim 16 or 17, characterized in that a blower (17) is provided for conveying the wood fine dust-laden air flow.
[19]
19.Procedure for the separation of wood dust particles and wood fine dust particles with a size of less than 5 pm, in particular with a size of less than 1 pm, from an air flow loaded with the wood fine dust particles, wherein at least a part of the particle-laden air flow through an electrostatic charging section (2 ) is conducted in which at least a portion of the wood dust particles or wood fine dust particles is electrostatically charged, the particle-laden air stream being conducted to wood dust agglomerates by an agglomeration section (3) following the electrostatic charging section (2) for the electrostatic agglomeration of the wood dust particles or wood fine dust particles, and wherein the particle Air flow is passed through a mechanical separator (4) downstream of the agglomeration section (3) for separating the wood dust agglomerates, characterized in that the electrostatic charge in the charging section (2) du Tribolectric charging takes place.
23/25 vι * -

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同族专利:

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公开号 | 公开日

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AT519542B1|2018-08-15|

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EP3592465A1|2020-01-15|

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WO2018162528A1|2018-09-13|

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EP0496092A2|1991-01-25|1992-07-29|Giannantonio Nardotto|Electrostatic gas cleaner|

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CN201415153Y|2009-05-20|2010-03-03|南京林业大学|Fine wooden powder electrostatic precipitator|

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CN205288710U|2016-01-10|2016-06-08|天津爱科环保科技发展有限公司|Fine wooden dust electrostatic precipitator|CN111037659A|2020-01-07|2020-04-21|李元飞|Automatic drilling machine is used in processing of density board|DE939990C|1949-05-05|1956-03-08|Eugen Dr-Ing Feifel|Frictional electrostatic precipitator|

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DE1084246B|1956-03-08|1960-06-30|Otto Schmid Dr Ing|Centrifugal separator in cyclone design|

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US3623295A|1969-05-02|1971-11-30|Walter Shriner|Air pollution reduction system|

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US3736727A|1971-10-06|1973-06-05|W Shriner|Air pollution reduction system|

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DE3731672C1|1987-09-21|1989-03-09|Pollmeier Paul|Process and device for removing wood dust from woodworking machines|

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WO1998011992A1|1996-09-20|1998-03-26|Philp Sanborn F|Removal of respirable particulate matter from flue gases|

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EP2033564A4|2006-06-22|2012-08-01|Sharp Kk|Dust condensing passage, charging draft member, frictional charging resin pipe, electric vacuum cleaner|AT523614A1|2020-03-13|2021-09-15|Holzprofi Pichlmann Gmbh|Tool for machining materials|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA50174/2017A|AT519542B1|2017-03-07|2017-03-07|Separation method, separation device and arrangement of a separation device with a woodworking machine|ATA50174/2017A| AT519542B1|2017-03-07|2017-03-07|Separation method, separation device and arrangement of a separation device with a woodworking machine|

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EP18710409.6A| EP3592465A1|2017-03-07|2018-03-07|Separating method, separating device and arrangement of a separating device with a wood processing machine|

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PCT/EP2018/055553| WO2018162528A1|2017-03-07|2018-03-07|Separating method, separating device and arrangement of a separating device with a wood processing machine|