WO2009080881A1 - Method and apparatus in pneumatic material conveying system - Google Patents

Method and apparatus in pneumatic material conveying system Download PDF

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Publication number
WO2009080881A1
WO2009080881A1 PCT/FI2008/050757 FI2008050757W WO2009080881A1 WO 2009080881 A1 WO2009080881 A1 WO 2009080881A1 FI 2008050757 W FI2008050757 W FI 2008050757W WO 2009080881 A1 WO2009080881 A1 WO 2009080881A1
Authority
WO
WIPO (PCT)
Prior art keywords
conveying
air
circuit
conveying pipe
cte
Prior art date
Application number
PCT/FI2008/050757
Other languages
French (fr)
Inventor
Göran Sundholm
Original Assignee
Maricap Oy
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from FI20075950A external-priority patent/FI20075950L/en
Priority claimed from FI20075951A external-priority patent/FI123383B/en
Priority to AU2008339857A priority Critical patent/AU2008339857A1/en
Priority to US12/809,192 priority patent/US20100310327A1/en
Priority to ES08864697.1T priority patent/ES2628509T3/en
Priority to CN2008801220533A priority patent/CN101903265A/en
Application filed by Maricap Oy filed Critical Maricap Oy
Priority to EP08864697.1A priority patent/EP2227426B1/en
Priority to BRPI0821319-4A priority patent/BRPI0821319A2/en
Priority to RU2010130482/11A priority patent/RU2549424C2/en
Priority to CA2708123A priority patent/CA2708123A1/en
Priority to JP2010538812A priority patent/JP2011506229A/en
Priority to DK08864697.1T priority patent/DK2227426T3/en
Publication of WO2009080881A1 publication Critical patent/WO2009080881A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G53/00Conveying materials in bulk through troughs, pipes or tubes by floating the materials or by flow of gas, liquid or foam
    • B65G53/34Details
    • B65G53/52Adaptations of pipes or tubes
    • B65G53/521Adaptations of pipes or tubes means for preventing the accumulation or for removal of deposits
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G53/00Conveying materials in bulk through troughs, pipes or tubes by floating the materials or by flow of gas, liquid or foam
    • B65G53/34Details
    • B65G53/52Adaptations of pipes or tubes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G53/00Conveying materials in bulk through troughs, pipes or tubes by floating the materials or by flow of gas, liquid or foam
    • B65G53/04Conveying materials in bulk pneumatically through pipes or tubes; Air slides
    • B65G53/24Gas suction systems
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65FGATHERING OR REMOVAL OF DOMESTIC OR LIKE REFUSE
    • B65F5/00Gathering or removal of refuse otherwise than by receptacles or vehicles
    • B65F5/005Gathering or removal of refuse otherwise than by receptacles or vehicles by pneumatic means, e.g. by suction
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G53/00Conveying materials in bulk through troughs, pipes or tubes by floating the materials or by flow of gas, liquid or foam
    • B65G53/34Details

Definitions

  • the invention relates to a method according to the preamble of claim 1.
  • the invention also relates to an apparatus according to claim 17.
  • the invention relates generally to pneumatic conveying systems, such as vacuum conveying systems, particularly to collecting and conveying waste, such as conveying household waste.
  • prior-art apparatuses can have moisture problems. In rainy weather, the prior-art apparatuses can suck even e.g. 1 ,000 litres of water per suction from outdoor air. This causes problems with corrosion and blockages. For example, waste paper etc. sticks to the piping when moist. Furthermore, large systems have required arranging several separate make-up air valves, which increases the complexity and costs of the systems.
  • An object of this invention is to achieve a totally novel arrangement into connection with material conveying systems by means of which the disadvantages of known arrangements are avoided.
  • a second object of the invention is to provide an arrangement applicable for vacuum conveying systems by means of which the noise problems of material feed can be decreased.
  • a third object of the invention is to decrease the production of moisture in the piping.
  • An additional object of the invention is to provide an arrangement by means of which the number of make-up air valves required in the system can be minimised.
  • a further object is to provide an arrangement by means of which the volume of outlet air of the system and, at the same time, emissions of dust and fine particles and possible odour nuisances can be decreased.
  • the invention is based on an idea in which at least a part of the material conveying pipe belongs to a circuit in which conveying air can be circulated.
  • the method according to the invention is mainly characterised in that at least a part of the conveying piping is connectable as a section of the circuit in which conveying air is circulated at least during the conveyance of the material with a pump device the suction side of which is connected to at least one separator device and further to the conveying pipe on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe.
  • the apparatus according to the invention is mainly characterised in that the apparatus comprises a circuit which comprises at least a part of the conveying piping, in which circuit conveying air is circulatable, and means which are arranged to circulate conveying air at least during the conveyance of the material with a pump device the suction side of which is connected to at least one separator device and further to the conveying pipe on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe.
  • the arrangement according to the invention has numerous significant advantages.
  • the piping of the system By arranging the piping of the system to comprise a circuit where at least part of conveying air circulates, the volume of outlet air can be decreased. At the same time, the energy consumption of the system is minimised.
  • By maintaining underpressure and simultaneously blowing it is possible to provide an effective circulation of conveying air in the circuit and conveyance of material in the conveying pipe.
  • the arrangement according to the invention it is possible to decrease the volume of outlet air substantially and simultaneously to decrease possible problems with dust and fine particles in the outlet pipe.
  • the arrangement according to the invention also substantially decreases the noise problem caused by prior art. Moisture accumulated in the piping is minimised and the piping can be dried by circulating air in the piping.
  • the material is provided with an effective transfer into and conveyance in the conveying pipe when, at the same time, the noise effect caused by the operation of the system can be minimised.
  • the conveying pipe of the material conveying system to consist of operating areas i.e. partial circuits, it is possible to effectively arrange the conveyance of the material in the conveying piping and emptying the feed points into the conveying pipe.
  • the conveying air circulation in the reverse direction, an effective removal of blockings is provided.
  • a circular piping it is easily possible to arrange the reversal of the conveying air circulation in the opposite direction.
  • Fig. 1 schematically shows a system according to an embodiment of the invention
  • Fig. 1 a shows a part of a system according to the invention as simplified
  • FIG. 2 schematically shows a system according to an embodiment of the invention in a second operating mode
  • FIG. 3 schematically shows a system according to an embodiment of the invention in a third operating mode
  • Fig. 4 schematically shows a system according to an embodiment of the invention in a fourth operating mode
  • Fig. 5 schematically shows another system according to the invention.
  • Fig. 1 schematically shows a pneumatic material conveying system according to an embodiment of the invention, particularly a waste conveying system, as simplified.
  • the figure shows a material conveying pipe 100 along which is arranged at least one, typically several feed points 61.
  • the feed point 61 is a feed station of material, particularly of waste material, intended to be conveyed, from which point the material, particularly waste material, such as household waste, intended to be conveyed is fed to the conveying system.
  • the system can comprise several feed stations 61 from which the material intended to be conveyed is fed to a conveying piping 100, 100A, 100B, 100C, 100D, 100E.
  • the feed station 61 is designated in the figure with a point, whereby by opening and closing a gate element in connection with the feed station, such as a valve element 60, can be conveyed from the feed point to the conveying pipe.
  • Fig. 1a shows a feed point 61 used in the system according to the invention and its outlet valve 60 in more detail.
  • the feed point is connected on the side of the valve to the conveying pipe 100.
  • the conveying piping comprises a main conveying pipe 100 into which several branch conveying pipes can have been connected and into which again several feed stations 61 can have been connected.
  • the fed material is conveyed along the conveying piping 100, 100A, 100B, 10OC, 10OD to a separator device 20 in which the material being conveyed is separated, e.g.
  • the separated material is removed, e.g. when required, from the separator device 20 to a material container, such as a waste container 51 , or to further treatment.
  • the material container can comprise, as in the embodiment of the figures, a waste compactor 50 with which the material is compacted by compressing into smaller size and from which the material is further conveyed to the waste container 51.
  • the separator device 20 is provided with material outlet elements 21 , 24. From the separating device 20, a conveying air channel 105 leads to means 3 for generating underpressure in the conveying pipe.
  • the means for generating underpressure comprise a vacuum pump unit 3.
  • the vacuum pump unit 3 comprises a vacuum pump 30 which is operated by an actuator 31.
  • the system comprises means for circulating conveying air in the circuit, at least a part of which is formed by the conveying piping 100, 100A, 100B, 100C, 100D, 100D, 100E.
  • the conveying piping is dividable into operating areas or partial circuits 100A, 100B, 100C, 100D, 100E by valve elements V A> V B> V c> V 0 i.e. area valves.
  • Fig. 1 shows a situation in which the valve element V A is closed, whereby conveying air is not able to circulate in the circuit.
  • the suction side of the vacuum generator 3 being connected directly or by means of the conveying air channel 105 to at least one separator device 20, 20' in which again the delivery end of the conveying pipe 100 is connected, underpressure is provided in the conveying pipe to at least the section of the circuit which is in the material conveying direction between the valve V A and the separator device 20.
  • the conveying direction of material and the travel direction of air are designated with arrows in Fig. 1. Underpressure prevails also in the section of the circuit between the separator device 20 and the vacuum generator 3, i.e.
  • the blowing side of the vacuum unit 3 is arranged in the operating mode in question to blow to an outlet channel 112, in which at least one filter device 129 for filtering outlet air is typically arranged, such as in the embodiment of the figure.
  • a valve element 120 In the outlet channel 112 is arranged a valve element 120.
  • a connection such as via an air channel 110, to the conveying pipe 100 on its supply side.
  • a valve element 122 In the air channel 110 of the blowing side is arranged a valve element 122 which, when closed, prevents a connection of at least the blowing side of the blowing unit and/or the vacuum generator to the usual supply side of the conveying pipe.
  • Fig. 2 shows an operating mode of a system according to the invention in which conveying air is able to circulate in the circuit, a section of which is formed by at least a part of the conveying pipe 100 and in which in the embodiment of the figure belong the separator device 20, the conveying air channel 105, the possible second separator device 20' and from the blowing side of the vacuum generator the air channel 110 on the supply side of the conveying pipe 100.
  • the vacuum generator 3 is arranged to circulate air in the circuit and to provide a suction effect in the conveying pipe 100, at least its delivery end, i.e. in the conveying direction at the end on the side of the separator element 20.
  • the vacuum generator 3 is also arranged to provide a blowing effect in the conveying pipe, in the figure via the air channel 110.
  • the area valve V A of the conveying pipe 100 is in the open position, whereby conveying air is able to circulate in the circuit, a section of which is formed by at least a part of the feed pipe 100, whereby material portions fed in the conveying pipe from one or more feed stations 61 move towards the separator device 20.
  • at least one make-up air valve or equivalent is arranged in the circuit.
  • the feed of make-up air is advantageously arranged into connection with the actuating unit of the system or in its vicinity, such as in the case of the figure, into connection with a waste unit i.e. waste station when a waste conveying system is at issue.
  • a waste unit i.e. waste station when a waste conveying system is at issue.
  • from the blowing side of the vacuum unit is also openable the valve 120 to the outlet channel 112, whereby air volume can be adjusted and/or pressure compensated in the circuit.
  • a fitting 107 in which there is a valve 128 by opening of which extra air can be brought on the suction side of the vacuum unit 3 from outside the circuit.
  • a valve 128 By opening the valve 128, it is possible to raise the pressure of air in the conveying pipe if required and to provide an increased conveying rate for conveying the material.
  • Fig. 3 shows an operating mode of a system in which a connection to the outlet channel 112 is closed by means of the valve 120. Then, there is a connection from the blowing side of the vacuum unit 3 via the air channel 110 on the supply side of the conveying pipe.
  • the vacuum unit circulates air in the circuit a section of which is formed by the conveying piping.
  • the valve 128 of the fitting 107 is open, whereby extra air is brought on the suction side of the vacuum unit 3 from outside the circuit.
  • the embodiment of Fig. 3 is particularly well applicable in the air flushing of the piping. With the embodiment of the figure, it is also possible to dry the piping. With the embodiment of the figure, it is also possible to dry the piping. With the vacuum generator is provided a greater flow rate to the pressure side than the suction side. Air heats up when compressing, whereby the drying
  • Fig. 4 shows a further embodiment of a system according to the invention which has an operating mode by which the circulation direction of conveying air can be reversed at least in a section of the circuit. This can be utilised e.g. in a possible malfunction situation in which a blockage has been formed in the conveying piping.
  • An additional operating mode of the actuating unit is shown in which it is possible to reverse the circulation direction of conveying air at least in a section of the conveying pipe 100.
  • the valve element 126 In the conveying pipe is arranged on the supply side at a distance from the separator device 20 the valve element 126, at the reverse side of which in relation to the separator element is arranged an air channel 113 in which the blowing side of the vacuum unit is connectable.
  • the valve element 122 which, when closed, prevents a connection of at least the blowing side of the blowing unit and/or the vacuum generator to the usual supply side of the conveying pipe.
  • a medium passage 113 to the conveying piping 100 on its reversed supply side.
  • a channel section 114 which is connected to the conveying pipe in a section between the valve element 126 and the separator device or directly to the separator device, whereby the circulation direction of conveying air is reversed only in a section of the circuit, mainly in the section of the conveying pipe. Then, possible blockages are sucked "backwards" in relation to the normal circulation direction.
  • Fig. 5 shows a pneumatic material conveying system according to an advantageous embodiment of the invention, particularly a waste conveying system.
  • the figure shows a material conveying pipe 100 along which is arranged at least one, typically several feed points 61.
  • the feed point 61 is a feed station of material, particularly of waste material, intended to be conveyed, from which point the material, particularly waste material, such as household waste, intended to be conveyed is fed to the conveying system.
  • the system can comprise several feed stations 61 from which the material intended to be conveyed is fed to a conveying piping 100A, 100B, 100C, 100D, 100E.
  • the feed station 61 is designated in the figure with a point, whereby by opening and closing a gate element in connection with the feed station, such as a valve element 60, material can be conveyed from the feed point 61 to the conveying pipe 100.
  • Fig. 1 a shows a feed point 61 used in the system according to the invention and its outlet valve 60 in more detail.
  • the feed point is connected on the side of the valve to the conveying pipe 100 or a pipe being in connection with it.
  • the conveying piping comprises a main conveying pipe 100 into which several branch conveying pipes can have been connected and into which again several feed stations 61 can have been connected.
  • the fed material is conveyed along the conveying piping 100, 100A, 100B, 100C, 100D to a separator device 20 in which the material being conveyed is separated, e.g. due to dropping rate and centrifugal force, from conveying air.
  • the separated material is removed, e.g. when required, from the separator device 20 to a material container, such as a waste container 51 , or to further treatment.
  • the material container can comprise, as in the embodiment of the figures, a waste compactor 50, with which the material is compacted by compressing into smaller size, and from which the material is further conveyed to the waste container 51.
  • the separator device 20 is provided with material outlet elements 21 , 24.
  • a conveying air channel 105 leads to means 3 for generating underpressure in the conveying pipe.
  • the means for generating underpressure comprise a pump device 3, such as a vacuum pump unit. With the means for generating underpressure, underpressure required for conveying the material is provided in the conveying piping 100 and/or its section.
  • the vacuum pump unit 3 comprises a vacuum pump 30 which is operated by an actuator 31.
  • the system comprises means for circulating conveying air in the circuit, a section of which is formed by at least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100D, 100E.
  • the conveying piping 100 is dividable into operating areas or partial circuits 100A, 100B, 100C, 100D, 100E by valve elements V B , V c> V 0 i.e. area valves.
  • Fig. 5 shows a situation in which the valve element V 0 is closed, whereby conveying air is not able to circulate in the circuit.
  • the suction side of the vacuum generator 3 being connected directly or by means of the conveying air channel 105 to at least one separator device 20, 20' in which again the delivery end of the conveying pipe 100 is connected, underpressure is provided in the conveying pipe to at least the section of the circuit which is in the material conveying direction between at least one valve, in Fig. 5 the valve V 0 , and the separator device 20.
  • the conveying direction of material and the travel direction of air are designated with arrows in Fig. 1. Underpressure prevails also in the section of the circuit between the separator device 20 and the vacuum generator 3, i.e.
  • the second separator device 20' i.e. a dust separator and the section of the conveying air channel 105 extending from it to the vacuum generator 3.
  • a material portion intended to be conveyed is conveyed to the conveying pipe 100, in the figure to the section 100D of the conveying pipe, to be conveyed further to the separator device 20.
  • Possible make-up air in the conveying pipe comes e.g. via the feed point 61 when opening the valve 60 in the conveying pipe.
  • the blowing side of the vacuum pump 30 of the pump device 3 in the embodiment of Fig. 5 is arranged to blow in an ejector device 9 in the operating mode in question.
  • the ejector device 9 is arranged between the pump device 3 and the conveying piping 100 so that an ejector nozzle 91 of the ejector device 9 is connected to a channel 110 coming from the blowing side of the pump device. Then, as the actuating medium of the ejector 9 operates conveying medium, typically air, of the blowing side of the pump device 3, such as a vacuum generator.
  • the ejector device 9 comprises an ejector pipe 92 in which the ejector nozzle 91 is arranged to direct a medium spray.
  • the ejector device comprises a chamber space 94 in which the ejector nozzle 91 and the first end of the ejector pipe 92 and a fitting 93, via which is openable and closable a connection outside the chamber space 94, are arranged.
  • a chamber space 94 in which the ejector nozzle 91 and the first end of the ejector pipe 92 and a fitting 93, via which is openable and closable a connection outside the chamber space 94, are arranged.
  • suction is provided which draws extra air along with it via the fitting 93.
  • a blowing side 95 of the ejector device 9 is connected to the conveying pipe 100 or the channel 110 leading to the conveying pipe.
  • the operating principles of the ejector device are considered known as such to those skilled in the art and they will not be examined in more detail.
  • a considerable increase is provided in the main flow blown by the pump device 3 due to an extra air flow via the fitting 93, typically in the range of 20-60%.
  • an increase is thus provided in the conveying air flow by means of which it is possible to effectively provide overpressure on the blowing side of the pump and/or underpressure and/or a suction effect on the suction side of the pump device.
  • the fitting 93 is arranged a valve element 96 and a filter element 97, such as a dust filter.
  • the fitting 93 can also operate as an outlet channel.
  • a connection e.g. via the air channel 110, to the conveying pipe 100 on its supply side.
  • the valve element 122 which, when closed, prevents a connection of the blowing side to the usual supply side of the conveying pipe 100.
  • the operation of the system is controlled so that, for emptying the feed points of a desired operating area, at least one valve is open in the material conveying direction in relation to the operating area of the conveying pipe 100 and on the supply side of the conveying air i.e. on the side of suction, whereby the suction is able to affect the conveying pipe of the operating area.
  • the feed points 61 of the conveying pipe area 100D are to be emptied.
  • all area valves between the separator element 20 and the operating area in the conveying pipe 100 (the section 100D of the conveying pipe in the figure) in the conveying direction are open (the valve 126 in the figure).
  • suction provided by at least one vacuum generator 3 prevails in the conveying piping 100D in the operating area.
  • At least one valve V 0 on the blowing side of the conveying pipe 100 is closed, whereby only suction prevails in the operating area.
  • the feed points 61 of the operating area or at least part of them are emptied so that the connection of the feed point 61 (I) closest to the delivery end in the conveying direction of the conveying pipe, i.e.
  • the conveying pipe 100D is opened first, whereby the material is able to convey from the first feed point to the conveying pipe, and before the connection of the first feed point (I) to the conveying pipe closes, the connection of the next feed point 61 (II) to the conveying pipe is opened.
  • this is, when travelling against the material conveying direction, the next feed point 61 (II) intended to be emptied. After this, the connection of the first feed point 61 (I) is closed to the conveying pipe.
  • connection of the third feed point 61 (III) intended to be emptied to the conveying pipe is opened before the connection of the second feed point 61 (II) to the conveying pipe is closed.
  • This operation is repeated until all desired feed points have been emptied.
  • it has been considered emptying all the feed points 61 of the conveying pipe area 100D, whereby their emptying sequence to the conveying pipe 100, 100D is designated in the figure by numerals within parentheses: (I), (II), (III), (IV), (V), (Vl), (VII), (VIII), (IX), (X), (Xl), and (XII).
  • the conveying air circulates on a route designated with arrows in the figure, whereby material portions conveyed from the feed points to the conveying pipe convey in the conveying piping further to the separator device 20 in which the material being conveyed is separated from conveying air.
  • the area valve V E of the conveying pipe 100E of the operating area is closed, whereby conveying air is not able to access the conveying pipe 100E of the operating area but circulates on the route of the conveying pipe of the area via 100A, 100B, 100C, 100D.
  • the material conveying route from the operating area to a delivery station, such as to the separator element 20, can be optimised by keeping the area valves open along the desired conveying route.
  • the invention thus relates to a method in a pneumatic material conveying system, such as a waste conveying system, which conveying system comprises at least one feed point 61 of material, particularly of waste material, a material conveying pipe 100 which is connectable to the feed point 61 , a separator device 20 in which the material being conveyed is separated from conveying air, and means 3 for providing a pressure difference in the conveying pipe 100 at least during the conveyance of the material.
  • at least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100E is connectable as a section of a circuit in which conveying air is circulated at least during the conveyance of the material.
  • At least a part of the conveying piping 100, 100A, 100B, 100C, 100E is connectable as a section of the circuit in which conveying air is circulated at least during the conveyance of the material with a pump device 3 the suction side of which is connected to at least one separator device 20 and further to the conveying pipe 100 on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe 100.
  • underpressure is provided from the feed point to the conveying pipe to at least a part of the conveying piping 100 with a pump device, whereby the outlet air channel 122 of the blowing side of the pump device 3 is opened.
  • the main part of air on the blowing side of the pump 3 is circulated in the circuit on the supply side of the conveying pipe.
  • in the circuit is brought make-up air via at least one air inlet 107, 112 which advantageously comprises a valve element 128, 120. Particularly in a situation in which blowing is used in the circuit, make-up air is brought on the blowing side.
  • the circulation of air in the circuit which comprises at least a part of the conveying piping 100, is regulated and/or controlled and/or opened or closed by gate/regulating elements, such as valve elements 120, 122, 124, 125, 126, 127, V A> V B> V c> V 0 , which are arranged in the circuit.
  • gate/regulating elements such as valve elements 120, 122, 124, 125, 126, 127, V A> V B> V c> V 0 , which are arranged in the circuit.
  • in the circuit is brought make-up air via at least one air inlet 107, 112 which advantageously comprises the valve element 128, 120.
  • air is removed from the circuit via at least one air outlet 112 which advantageously comprises a gate/regulating element, such as the valve element 120.
  • the inlet can also be an outlet and the outlet can also be an inlet.
  • underpressure is provided in the circuit with at least one pump device, such as the vacuum generator 3 and/or the blower, the suction side of which is connected to the separator element 20 or to the conveying pipe 100 via the air channel 105 leading to it.
  • at least one pump device such as the vacuum generator 3 and/or the blower, the suction side of which is connected to the separator element 20 or to the conveying pipe 100 via the air channel 105 leading to it.
  • pressure is provided in the circuit with at least one pump device, such as the vacuum generator 3 and/or the blower, the blowing side of which is connected to blow in the circuit.
  • the method it is possible to connect the conveying air circulation in the reverse direction at least in a section of the circuit, which section is formed by at least a part of the conveying pipe 100, advantageously for removing a blockage.
  • At least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100E is flushed and/or dried with air by circulating conveying air in the circuit, particularly by blowing in the circuit with a pump device, such as the vacuum generator 3 and/or the blower.
  • material is fed from the material feed points 61 which are waste feed points, such as waste bins or waste chutes.
  • valve element 60 by opening and closing of which the feed of material and/or make-up air to the conveying pipe is regulated.
  • valve element 60 between the material feed point 61 and the conveying pipe 100 is closed advantageously after a certain time from opening so that the valve 60 of the previous feed point is still open when the valve of the next feed point 61 is opened. Then, it is possible to considerably decrease noise problems, among others.
  • At least part of conveying air on the pressure side of the pump device 3 is led in the circuit on the supply side of the conveying pipe 100 via the ejector device 9.
  • At least part of conveying air is circulated via the ejector device 9 in which extra air is brought to the circuit.
  • At least part of blowing air of the pump device 3 is employed as the actuating medium of the ejector device 9.
  • the invention also relates to an apparatus in a pneumatic material conveying system, such as a waste conveying system, which comprises at least one feed point 61 of material, particularly of waste material, a material conveying pipe 100 which is connectable to the feed point 61 , a separator device 20 in which the material being conveyed is separated from conveying air, and means 3 for providing a pressure difference in the conveying pipe 100 at least during the conveyance of the material.
  • a pneumatic material conveying system such as a waste conveying system, which comprises at least one feed point 61 of material, particularly of waste material, a material conveying pipe 100 which is connectable to the feed point 61 , a separator device 20 in which the material being conveyed is separated from conveying air, and means 3 for providing a pressure difference in the conveying pipe 100 at least during the conveyance of the material.
  • the apparatus comprises a circuit which comprises at least a part of the conveying piping 100, in which circuit conveying air is circulatable, and means which are arranged to circulate conveying air at least during the conveyance of the material with a pump device 3 the suction side of which is connected to at least one separator device 20 and further to the conveying pipe 100 on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe 100.
  • the apparatus in the material feed stage from the feed point 61 to the conveying pipe 100, is arranged to provide underpressure to at least a part of the conveying piping 100 with the pump device 3, whereby a connection of an outlet 112 arranged on the blowing side of the pump device 3 to outside the circuit is opened.
  • gate/regulating elements such as valve elements 120, 122, 124, 125, 126, 127, , V A> V B> V 0 , V 0 , by means of which the circulation of conveying air can be regulated and/or controlled and/or opened or closed.
  • the apparatus comprises at least one air inlet 107, 120 which advantageously comprises a valve element 128, 120 for bringing air in the circuit from outside it.
  • the apparatus comprises at least one outlet 112 which advantageously comprises a gate/regulating element, such as the valve element 120, for removing at least part of air from the circuit.
  • a gate/regulating element such as the valve element 120
  • the means for providing a pressure difference comprise at least one pump device, such as a vacuum generator 3 and/or a blower, the suction side of which is connected to the separator element 20 or an air channel 105 leading to it.
  • a pump device such as a vacuum generator 3 and/or a blower, the suction side of which is connected to the separator element 20 or an air channel 105 leading to it.
  • the means for providing a pressure difference comprise at least one pump device, such as the vacuum generator 3 and/or the blower, and means 110, 122; 113, 124 for connecting the blowing side of at least one pump device, such as the vacuum generator and/or the blower, to blow in the circuit.
  • the apparatus comprises means 113, 114, 122, 124, 125, 126 for connecting the conveying air circulation in the reverse direction in at least a section of the circuit, which section is formed by at least a part of the conveying pipe 100.
  • the apparatus comprises means for flushing at least a part of the conveying piping 100 with air and/or for drying by circulating the conveying air in the circuit, particularly by blowing.
  • the material feed points 61 are waste feed points, such as waste bins or waste chutes.
  • valve element 60 by opening and closing of which the feed of material and/or make-up air to the conveying pipe is regulated.
  • the apparatus comprises an ejector device 9 which is arranged in the circuit on the blowing side of the pump device 3 between the pump device 3 and the conveying pipe 100.
  • the actuating medium of the ejector device is blowing air of the pump device 3.
  • the ejector device comprises a fitting 93 for leading another medium flow in the actuating medium flow.
  • the suction provided by the vacuum unit 3 to the conveying pipe 100, in the figure from the side of the separator element 20, is advantageously greater than the blow, whereby conveyance takes place in underpressure.
  • the suction being greater than blowing, underpressure is provided in the piping, whereby waste can be sucked inside the piping from a funnel of the feed station 61.
  • the outlet valve 60 of the feed point 61 is opened and closed so that material portions of suitable size are conveyed from the feed point 61 to the conveying pipe 100. Material is fed from the feed point 61 , such as a waste container, when after the container is full, the outlet valve 60 is opened either automatically or manually.
  • the system typically operates as follows: An outlet hatch 21 , 21 ' of at least one separator device 20, 20' is closed and a valve 126 between the main conveying pipe 100 and the separator device 20 is open.
  • the vacuum pump unit 3 and/or the blower unit maintains underpressure in the main conveying pipe 100.
  • the outlet valve 60 is momentarily opened, e.g. for 2-10 seconds, whereby the material being conveyed, such as waste material, conveys from the effect of underpressure to the conveying pipe 100A.
  • the outlet valve 60 is typically closed after a few seconds after the start situation.
  • the vacuum pump unit 3 maintains desired underpressure.
  • the valve V A is opened, whereby in the circuit of the piping is provided air circulation and possibly also a blowing effect i.e. pressure effect and suction effect which conveys the material portion being conveyed along the piping to the separator device 20.
  • One or more feed points are emptied.
  • the one of the feed points of the desired operating area which is in the conveying direction closest to the separator device 20 is emptied first, and then the next closest feed point and so on until the desired feed points have been emptied.
  • the valve 126 of the conveying pipe 100 closes and a control valve 23 opens, whereby the actuator 24 of the outlet hatch 21 of the separator device opens the outlet hatch 21 and the material accumulated in the separator device is emptied in the compactor device 50 and further in the waste container 51.
  • the outlet hatch 21 of the separator device 20 is closed and the valve 126 opened.
  • the waste container 51 such as a waste freight container, is replaced or emptied when it is full.
  • the system can also comprise several separator devices 20 in which material conveyance is controlled e.g. based on the sort of the material or the capacity of the system.

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  • Refuse Collection And Transfer (AREA)
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Abstract

A method in a pneumatic material conveying system, such as a waste conveying system, which conveying system comprises at least one feed point (61) of material, particularly of waste material, a material conveying pipe (100) which is connectable to the feed point (61), a separator device (20) in which the material being conveyed is separated from conveying air, and means (3) for providing a pressure difference in the conveying pipe (100) at least during the conveyance of the material. At least a part of the conveying piping (100) is connectable as a section of a circuit in which conveying air is circulated at least during the conveyance of the material with a pump device (3) the suction side of which is connected to at least one separator device (20) and further to the conveying pipe (100) on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe (100).

Description

METHOD AND APPARATUS IN PNEUMATIC MATERIAL CONVEYING SYSTEM
Background of invention
The invention relates to a method according to the preamble of claim 1.
The invention also relates to an apparatus according to claim 17.
The invention relates generally to pneumatic conveying systems, such as vacuum conveying systems, particularly to collecting and conveying waste, such as conveying household waste.
Systems are known in which waste is conveyed in a piping by means of suction. In these, waste is conveyed for long distances in the piping by suction. Apparatuses are utilised, inter alia, for conveying waste in different institutions. Typical for them is that a vacuum apparatus is used for achieving a pressure difference, in which apparatus underpressure in the conveying pipe is provided with vacuum generators, such as vacuum pumps or an ejector apparatus. In the conveying pipe, there is typically at least one valve element by opening and closing of which make-up air coming in the conveying pipe is regulated. The vacuum conveying systems typically contain, inter alia, the following problems: high energy consumption, high air flow in the piping, problems with noise, dust and fine particles in the outlet pipe. Furthermore, prior-art apparatuses can have moisture problems. In rainy weather, the prior-art apparatuses can suck even e.g. 1 ,000 litres of water per suction from outdoor air. This causes problems with corrosion and blockages. For example, waste paper etc. sticks to the piping when moist. Furthermore, large systems have required arranging several separate make-up air valves, which increases the complexity and costs of the systems.
An object of this invention is to achieve a totally novel arrangement into connection with material conveying systems by means of which the disadvantages of known arrangements are avoided. A second object of the invention is to provide an arrangement applicable for vacuum conveying systems by means of which the noise problems of material feed can be decreased. A third object of the invention is to decrease the production of moisture in the piping. An additional object of the invention is to provide an arrangement by means of which the number of make-up air valves required in the system can be minimised. A further object is to provide an arrangement by means of which the volume of outlet air of the system and, at the same time, emissions of dust and fine particles and possible odour nuisances can be decreased.
Brief description of invention
The invention is based on an idea in which at least a part of the material conveying pipe belongs to a circuit in which conveying air can be circulated.
The method according to the invention is mainly characterised in that at least a part of the conveying piping is connectable as a section of the circuit in which conveying air is circulated at least during the conveyance of the material with a pump device the suction side of which is connected to at least one separator device and further to the conveying pipe on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe.
In addition, the method according to the invention is characterised by what is stated in claims 2-16.
The apparatus according to the invention is mainly characterised in that the apparatus comprises a circuit which comprises at least a part of the conveying piping, in which circuit conveying air is circulatable, and means which are arranged to circulate conveying air at least during the conveyance of the material with a pump device the suction side of which is connected to at least one separator device and further to the conveying pipe on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe.
The apparatus according to the invention is further characterised by what is stated in claims 18-30.
The arrangement according to the invention has numerous significant advantages. By arranging the piping of the system to comprise a circuit where at least part of conveying air circulates, the volume of outlet air can be decreased. At the same time, the energy consumption of the system is minimised. By maintaining underpressure and simultaneously blowing, it is possible to provide an effective circulation of conveying air in the circuit and conveyance of material in the conveying pipe. With the arrangement according to the invention, it is possible to decrease the volume of outlet air substantially and simultaneously to decrease possible problems with dust and fine particles in the outlet pipe. The arrangement according to the invention also substantially decreases the noise problem caused by prior art. Moisture accumulated in the piping is minimised and the piping can be dried by circulating air in the piping. As the volume of air being sucked inside decreases, also energy consumption decreases. By opening and closing the feed points of the system according to the invention, the material is provided with an effective transfer into and conveyance in the conveying pipe when, at the same time, the noise effect caused by the operation of the system can be minimised. By arranging the conveying pipe of the material conveying system to consist of operating areas i.e. partial circuits, it is possible to effectively arrange the conveyance of the material in the conveying piping and emptying the feed points into the conveying pipe. By arranging the conveying air circulation in the reverse direction, an effective removal of blockings is provided. In a circular piping, it is easily possible to arrange the reversal of the conveying air circulation in the opposite direction. By arranging an ejector device on the blowing side of the pump device of conveying air the actuating medium of which is outlet air of the pump device, an extremely effective blowing effect is provided in the circuit.
Brief description of figures
In the following, the invention will be described in detail by means of an example with reference to the accompanying drawings in which
Fig. 1 schematically shows a system according to an embodiment of the invention,
Fig. 1 a shows a part of a system according to the invention as simplified,
Fig. 2 schematically shows a system according to an embodiment of the invention in a second operating mode,
Fig. 3 schematically shows a system according to an embodiment of the invention in a third operating mode, Fig. 4 schematically shows a system according to an embodiment of the invention in a fourth operating mode, and
Fig. 5 schematically shows another system according to the invention.
Detailed description of invention
Fig. 1 schematically shows a pneumatic material conveying system according to an embodiment of the invention, particularly a waste conveying system, as simplified. The figure shows a material conveying pipe 100 along which is arranged at least one, typically several feed points 61. The feed point 61 is a feed station of material, particularly of waste material, intended to be conveyed, from which point the material, particularly waste material, such as household waste, intended to be conveyed is fed to the conveying system. The system can comprise several feed stations 61 from which the material intended to be conveyed is fed to a conveying piping 100, 100A, 100B, 100C, 100D, 100E. The feed station 61 is designated in the figure with a point, whereby by opening and closing a gate element in connection with the feed station, such as a valve element 60, can be conveyed from the feed point to the conveying pipe. Fig. 1a shows a feed point 61 used in the system according to the invention and its outlet valve 60 in more detail. The feed point is connected on the side of the valve to the conveying pipe 100. Typically, the conveying piping comprises a main conveying pipe 100 into which several branch conveying pipes can have been connected and into which again several feed stations 61 can have been connected. The fed material is conveyed along the conveying piping 100, 100A, 100B, 10OC, 10OD to a separator device 20 in which the material being conveyed is separated, e.g. due to dropping rate and centrifugal force, from conveying air. The separated material is removed, e.g. when required, from the separator device 20 to a material container, such as a waste container 51 , or to further treatment. The material container can comprise, as in the embodiment of the figures, a waste compactor 50 with which the material is compacted by compressing into smaller size and from which the material is further conveyed to the waste container 51. In the embodiment of Fig. 1 , the separator device 20 is provided with material outlet elements 21 , 24. From the separating device 20, a conveying air channel 105 leads to means 3 for generating underpressure in the conveying pipe. In the embodiment of Fig. 1 , the means for generating underpressure comprise a vacuum pump unit 3. With the means for generating underpressure, underpressure required for conveying the material is provided in the conveying piping 100 and/or its section. The vacuum pump unit 3 comprises a vacuum pump 30 which is operated by an actuator 31. The system comprises means for circulating conveying air in the circuit, at least a part of which is formed by the conveying piping 100, 100A, 100B, 100C, 100D, 100D, 100E. In the embodiment of Fig. 1 , the conveying piping is dividable into operating areas or partial circuits 100A, 100B, 100C, 100D, 100E by valve elements VA> VB> Vc> V0 i.e. area valves.
Fig. 1 shows a situation in which the valve element VA is closed, whereby conveying air is not able to circulate in the circuit. The suction side of the vacuum generator 3 being connected directly or by means of the conveying air channel 105 to at least one separator device 20, 20' in which again the delivery end of the conveying pipe 100 is connected, underpressure is provided in the conveying pipe to at least the section of the circuit which is in the material conveying direction between the valve VA and the separator device 20. The conveying direction of material and the travel direction of air are designated with arrows in Fig. 1. Underpressure prevails also in the section of the circuit between the separator device 20 and the vacuum generator 3, i.e. in the conveying air channel 105, in the embodiment of the figure also in the second separator device 20' and the section of the conveying air channel 105 extending from it to the vacuum generator 3. In a case according to the figure, when opening in the feed point 61 its valve element 60, a material portion intended to be conveyed is conveyed to the conveying pipe 100A to be conveyed further along the route 100A-100B-1 OOC-100D-100 to the separator device 20. Possible make-up air in the conveying pipe comes e.g. via the feed point 61 when opening the valve 60 in the conveying pipe. In the embodiment of Fig. 1 , the blowing side of the vacuum unit 3 is arranged in the operating mode in question to blow to an outlet channel 112, in which at least one filter device 129 for filtering outlet air is typically arranged, such as in the embodiment of the figure. In the outlet channel 112 is arranged a valve element 120. From the blowing side of the vacuum generator 3 is arranged a connection, such as via an air channel 110, to the conveying pipe 100 on its supply side. In the air channel 110 of the blowing side is arranged a valve element 122 which, when closed, prevents a connection of at least the blowing side of the blowing unit and/or the vacuum generator to the usual supply side of the conveying pipe.
Fig. 2 shows an operating mode of a system according to the invention in which conveying air is able to circulate in the circuit, a section of which is formed by at least a part of the conveying pipe 100 and in which in the embodiment of the figure belong the separator device 20, the conveying air channel 105, the possible second separator device 20' and from the blowing side of the vacuum generator the air channel 110 on the supply side of the conveying pipe 100. The vacuum generator 3 is arranged to circulate air in the circuit and to provide a suction effect in the conveying pipe 100, at least its delivery end, i.e. in the conveying direction at the end on the side of the separator element 20. According to the embodiment of the figure, the vacuum generator 3 is also arranged to provide a blowing effect in the conveying pipe, in the figure via the air channel 110. The area valve VA of the conveying pipe 100 is in the open position, whereby conveying air is able to circulate in the circuit, a section of which is formed by at least a part of the feed pipe 100, whereby material portions fed in the conveying pipe from one or more feed stations 61 move towards the separator device 20. For feeding make-up air possibly required in conveying, at least one make-up air valve or equivalent is arranged in the circuit. The feed of make-up air is advantageously arranged into connection with the actuating unit of the system or in its vicinity, such as in the case of the figure, into connection with a waste unit i.e. waste station when a waste conveying system is at issue. In the embodiment of the figure, from the blowing side of the vacuum unit is also openable the valve 120 to the outlet channel 112, whereby air volume can be adjusted and/or pressure compensated in the circuit.
In the embodiment of the figure, there is also formed a fitting 107 in which there is a valve 128 by opening of which extra air can be brought on the suction side of the vacuum unit 3 from outside the circuit. By opening the valve 128, it is possible to raise the pressure of air in the conveying pipe if required and to provide an increased conveying rate for conveying the material.
Fig. 3 shows an operating mode of a system in which a connection to the outlet channel 112 is closed by means of the valve 120. Then, there is a connection from the blowing side of the vacuum unit 3 via the air channel 110 on the supply side of the conveying pipe. The vacuum unit circulates air in the circuit a section of which is formed by the conveying piping. In the embodiment of the figure, the valve 128 of the fitting 107 is open, whereby extra air is brought on the suction side of the vacuum unit 3 from outside the circuit. By opening the valve 128, it is then possible to raise the pressure of air in the conveying pipe if required and to provide an increased conveying rate for conveying the material. The embodiment of Fig. 3 is particularly well applicable in the air flushing of the piping. With the embodiment of the figure, it is also possible to dry the piping. With the vacuum generator is provided a greater flow rate to the pressure side than the suction side. Air heats up when compressing, whereby the drying process is also intensified.
Fig. 4 shows a further embodiment of a system according to the invention which has an operating mode by which the circulation direction of conveying air can be reversed at least in a section of the circuit. This can be utilised e.g. in a possible malfunction situation in which a blockage has been formed in the conveying piping. An additional operating mode of the actuating unit is shown in which it is possible to reverse the circulation direction of conveying air at least in a section of the conveying pipe 100. In the conveying pipe is arranged on the supply side at a distance from the separator device 20 the valve element 126, at the reverse side of which in relation to the separator element is arranged an air channel 113 in which the blowing side of the vacuum unit is connectable. Equivalently, in the air channel 110 of the blowing side is arranged the valve element 122 which, when closed, prevents a connection of at least the blowing side of the blowing unit and/or the vacuum generator to the usual supply side of the conveying pipe. From the blowing side of the vacuum unit is arranged a medium passage 113 to the conveying piping 100 on its reversed supply side. In the conveying pipe is formed a channel section 114 which is connected to the conveying pipe in a section between the valve element 126 and the separator device or directly to the separator device, whereby the circulation direction of conveying air is reversed only in a section of the circuit, mainly in the section of the conveying pipe. Then, possible blockages are sucked "backwards" in relation to the normal circulation direction.
Fig. 5 shows a pneumatic material conveying system according to an advantageous embodiment of the invention, particularly a waste conveying system. The figure shows a material conveying pipe 100 along which is arranged at least one, typically several feed points 61. The feed point 61 is a feed station of material, particularly of waste material, intended to be conveyed, from which point the material, particularly waste material, such as household waste, intended to be conveyed is fed to the conveying system. The system can comprise several feed stations 61 from which the material intended to be conveyed is fed to a conveying piping 100A, 100B, 100C, 100D, 100E. The feed station 61 is designated in the figure with a point, whereby by opening and closing a gate element in connection with the feed station, such as a valve element 60, material can be conveyed from the feed point 61 to the conveying pipe 100. Fig. 1 a shows a feed point 61 used in the system according to the invention and its outlet valve 60 in more detail. The feed point is connected on the side of the valve to the conveying pipe 100 or a pipe being in connection with it. Typically, the conveying piping comprises a main conveying pipe 100 into which several branch conveying pipes can have been connected and into which again several feed stations 61 can have been connected. The fed material is conveyed along the conveying piping 100, 100A, 100B, 100C, 100D to a separator device 20 in which the material being conveyed is separated, e.g. due to dropping rate and centrifugal force, from conveying air. The separated material is removed, e.g. when required, from the separator device 20 to a material container, such as a waste container 51 , or to further treatment. The material container can comprise, as in the embodiment of the figures, a waste compactor 50, with which the material is compacted by compressing into smaller size, and from which the material is further conveyed to the waste container 51. In the embodiment of Fig. 5, the separator device 20 is provided with material outlet elements 21 , 24. From the separating device 20, a conveying air channel 105 leads to means 3 for generating underpressure in the conveying pipe. In the embodiment of Fig. 5, the means for generating underpressure comprise a pump device 3, such as a vacuum pump unit. With the means for generating underpressure, underpressure required for conveying the material is provided in the conveying piping 100 and/or its section. The vacuum pump unit 3 comprises a vacuum pump 30 which is operated by an actuator 31. The system comprises means for circulating conveying air in the circuit, a section of which is formed by at least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100D, 100E. In the embodiment of Fig. 1 , the conveying piping 100 is dividable into operating areas or partial circuits 100A, 100B, 100C, 100D, 100E by valve elements VB, Vc> V0 i.e. area valves.
Fig. 5 shows a situation in which the valve element V0 is closed, whereby conveying air is not able to circulate in the circuit. The suction side of the vacuum generator 3 being connected directly or by means of the conveying air channel 105 to at least one separator device 20, 20' in which again the delivery end of the conveying pipe 100 is connected, underpressure is provided in the conveying pipe to at least the section of the circuit which is in the material conveying direction between at least one valve, in Fig. 5 the valve V0, and the separator device 20. The conveying direction of material and the travel direction of air are designated with arrows in Fig. 1. Underpressure prevails also in the section of the circuit between the separator device 20 and the vacuum generator 3, i.e. in the conveying air channel 105, in the embodiment of the figure also in the second separator device 20' i.e. a dust separator and the section of the conveying air channel 105 extending from it to the vacuum generator 3. In a case according to the figure, when opening in the feed point 61 its valve element 60, a material portion intended to be conveyed is conveyed to the conveying pipe 100, in the figure to the section 100D of the conveying pipe, to be conveyed further to the separator device 20. Possible make-up air in the conveying pipe comes e.g. via the feed point 61 when opening the valve 60 in the conveying pipe.
The blowing side of the vacuum pump 30 of the pump device 3 in the embodiment of Fig. 5 is arranged to blow in an ejector device 9 in the operating mode in question. The ejector device 9 is arranged between the pump device 3 and the conveying piping 100 so that an ejector nozzle 91 of the ejector device 9 is connected to a channel 110 coming from the blowing side of the pump device. Then, as the actuating medium of the ejector 9 operates conveying medium, typically air, of the blowing side of the pump device 3, such as a vacuum generator. The ejector device 9 comprises an ejector pipe 92 in which the ejector nozzle 91 is arranged to direct a medium spray. The ejector device comprises a chamber space 94 in which the ejector nozzle 91 and the first end of the ejector pipe 92 and a fitting 93, via which is openable and closable a connection outside the chamber space 94, are arranged. When the ejector nozzle 91 sprays the medium in the ejector pipe 92, suction is provided which draws extra air along with it via the fitting 93. A blowing side 95 of the ejector device 9 is connected to the conveying pipe 100 or the channel 110 leading to the conveying pipe. The operating principles of the ejector device are considered known as such to those skilled in the art and they will not be examined in more detail. From the influence of the ejector 9, a considerable increase is provided in the main flow blown by the pump device 3 due to an extra air flow via the fitting 93, typically in the range of 20-60%. With the combination of the pump device 3 and the ejector 9, an increase is thus provided in the conveying air flow by means of which it is possible to effectively provide overpressure on the blowing side of the pump and/or underpressure and/or a suction effect on the suction side of the pump device. In the fitting 93 is arranged a valve element 96 and a filter element 97, such as a dust filter. In certain cases, the fitting 93 can also operate as an outlet channel. From the blowing side of the ejector 9 is arranged a connection, e.g. via the air channel 110, to the conveying pipe 100 on its supply side. In the air channel 110 of the blowing side is arranged the valve element 122 which, when closed, prevents a connection of the blowing side to the usual supply side of the conveying pipe 100.
The operation of the system is controlled so that, for emptying the feed points of a desired operating area, at least one valve is open in the material conveying direction in relation to the operating area of the conveying pipe 100 and on the supply side of the conveying air i.e. on the side of suction, whereby the suction is able to affect the conveying pipe of the operating area. Let us assume that, in the arrangement according to the figure, the feed points 61 of the conveying pipe area 100D are to be emptied. Then, all area valves between the separator element 20 and the operating area in the conveying pipe 100 (the section 100D of the conveying pipe in the figure) in the conveying direction are open (the valve 126 in the figure). Then, suction provided by at least one vacuum generator 3 prevails in the conveying piping 100D in the operating area. At least one valve V0 on the blowing side of the conveying pipe 100 is closed, whereby only suction prevails in the operating area. The feed points 61 of the operating area or at least part of them are emptied so that the connection of the feed point 61 (I) closest to the delivery end in the conveying direction of the conveying pipe, i.e. in the embodiment according to the figure closest to the separator device 20, to the conveying pipe 100D is opened first, whereby the material is able to convey from the first feed point to the conveying pipe, and before the connection of the first feed point (I) to the conveying pipe closes, the connection of the next feed point 61 (II) to the conveying pipe is opened. In the embodiment of the figure, this is, when travelling against the material conveying direction, the next feed point 61 (II) intended to be emptied. After this, the connection of the first feed point 61 (I) is closed to the conveying pipe. Equivalently, the connection of the third feed point 61 (III) intended to be emptied to the conveying pipe is opened before the connection of the second feed point 61 (II) to the conveying pipe is closed. This operation is repeated until all desired feed points have been emptied. In the figure, it has been considered emptying all the feed points 61 of the conveying pipe area 100D, whereby their emptying sequence to the conveying pipe 100, 100D is designated in the figure by numerals within parentheses: (I), (II), (III), (IV), (V), (Vl), (VII), (VIII), (IX), (X), (Xl), and (XII). When the passage of the last feed point 61 (XII) intended to be emptied in the operating area to the conveying pipe 100 has been opened, the material has conveyed to the conveying pipe 100, 100D, and the passage of the feed point to the conveying pipe is closed, a connection is opened in the conveying pipe 100D of the operating area from the blowing side by opening at least one valve element V0 which is between the operating area and the pump device 3 blowing to the conveying pipe 100. Then, an intensified conveying effect (suction and blowing together) is provided for the material being conveyed transferred in the conveying pipe 100, 100A, 100B, 100C, 100D. The conveying air circulates on a route designated with arrows in the figure, whereby material portions conveyed from the feed points to the conveying pipe convey in the conveying piping further to the separator device 20 in which the material being conveyed is separated from conveying air. In the figure, the area valve VE of the conveying pipe 100E of the operating area is closed, whereby conveying air is not able to access the conveying pipe 100E of the operating area but circulates on the route of the conveying pipe of the area via 100A, 100B, 100C, 100D. In connection with the emptying of different operating areas, the material conveying route from the operating area to a delivery station, such as to the separator element 20, can be optimised by keeping the area valves open along the desired conveying route.
The invention thus relates to a method in a pneumatic material conveying system, such as a waste conveying system, which conveying system comprises at least one feed point 61 of material, particularly of waste material, a material conveying pipe 100 which is connectable to the feed point 61 , a separator device 20 in which the material being conveyed is separated from conveying air, and means 3 for providing a pressure difference in the conveying pipe 100 at least during the conveyance of the material. According to the invention, at least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100E is connectable as a section of a circuit in which conveying air is circulated at least during the conveyance of the material. At least a part of the conveying piping 100, 100A, 100B, 100C, 100E is connectable as a section of the circuit in which conveying air is circulated at least during the conveyance of the material with a pump device 3 the suction side of which is connected to at least one separator device 20 and further to the conveying pipe 100 on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe 100. In the material feed stage, underpressure is provided from the feed point to the conveying pipe to at least a part of the conveying piping 100 with a pump device, whereby the outlet air channel 122 of the blowing side of the pump device 3 is opened. According to an advantageous embodiment, the main part of air on the blowing side of the pump 3 is circulated in the circuit on the supply side of the conveying pipe.
According to an advantageous embodiment, in the method, in the circuit is brought make-up air via at least one air inlet 107, 112 which advantageously comprises a valve element 128, 120. Particularly in a situation in which blowing is used in the circuit, make-up air is brought on the blowing side.
According to an advantageous embodiment, the circulation of air in the circuit, which comprises at least a part of the conveying piping 100, is regulated and/or controlled and/or opened or closed by gate/regulating elements, such as valve elements 120, 122, 124, 125, 126, 127, VA> VB> Vc> V0, which are arranged in the circuit.
In accordance with an embodiment of the method according to the invention, in the circuit is brought make-up air via at least one air inlet 107, 112 which advantageously comprises the valve element 128, 120.
In the method, air is removed from the circuit via at least one air outlet 112 which advantageously comprises a gate/regulating element, such as the valve element 120. According to an advantageous embodiment, the inlet can also be an outlet and the outlet can also be an inlet.
In the method, underpressure is provided in the circuit with at least one pump device, such as the vacuum generator 3 and/or the blower, the suction side of which is connected to the separator element 20 or to the conveying pipe 100 via the air channel 105 leading to it.
According to another advantageous embodiment, in the method, pressure is provided in the circuit with at least one pump device, such as the vacuum generator 3 and/or the blower, the blowing side of which is connected to blow in the circuit.
According to an embodiment of the method, in the method, it is possible to connect the conveying air circulation in the reverse direction at least in a section of the circuit, which section is formed by at least a part of the conveying pipe 100, advantageously for removing a blockage.
According to an embodiment of the method, in the method, at least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100E is flushed and/or dried with air by circulating conveying air in the circuit, particularly by blowing in the circuit with a pump device, such as the vacuum generator 3 and/or the blower.
According to an advantageous embodiment of the method, material is fed from the material feed points 61 which are waste feed points, such as waste bins or waste chutes.
Between the material feed point 61 and the conveying pipe 100, there is at least one valve element 60 by opening and closing of which the feed of material and/or make-up air to the conveying pipe is regulated.
The valve element 60 between the material feed point 61 and the conveying pipe 100 is closed advantageously after a certain time from opening so that the valve 60 of the previous feed point is still open when the valve of the next feed point 61 is opened. Then, it is possible to considerably decrease noise problems, among others.
According to an advantageous embodiment, at least part of conveying air on the pressure side of the pump device 3 is led in the circuit on the supply side of the conveying pipe 100 via the ejector device 9.
According to an advantageous embodiment, at least part of conveying air is circulated via the ejector device 9 in which extra air is brought to the circuit.
According to an advantageous embodiment, at least part of blowing air of the pump device 3 is employed as the actuating medium of the ejector device 9.
The invention also relates to an apparatus in a pneumatic material conveying system, such as a waste conveying system, which comprises at least one feed point 61 of material, particularly of waste material, a material conveying pipe 100 which is connectable to the feed point 61 , a separator device 20 in which the material being conveyed is separated from conveying air, and means 3 for providing a pressure difference in the conveying pipe 100 at least during the conveyance of the material. The apparatus comprises a circuit which comprises at least a part of the conveying piping 100, in which circuit conveying air is circulatable, and means which are arranged to circulate conveying air at least during the conveyance of the material with a pump device 3 the suction side of which is connected to at least one separator device 20 and further to the conveying pipe 100 on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe 100.
According to an advantageous embodiment, in the material feed stage from the feed point 61 to the conveying pipe 100, the apparatus is arranged to provide underpressure to at least a part of the conveying piping 100 with the pump device 3, whereby a connection of an outlet 112 arranged on the blowing side of the pump device 3 to outside the circuit is opened.
In the circuit, which comprises at least a part of the conveying piping 100, 100A, 100B, 100C, 100D, 100E, are arranged gate/regulating elements, such as valve elements 120, 122, 124, 125, 126, 127, , VA> VB> V0, V0, by means of which the circulation of conveying air can be regulated and/or controlled and/or opened or closed.
The apparatus comprises at least one air inlet 107, 120 which advantageously comprises a valve element 128, 120 for bringing air in the circuit from outside it.
The apparatus comprises at least one outlet 112 which advantageously comprises a gate/regulating element, such as the valve element 120, for removing at least part of air from the circuit.
The means for providing a pressure difference comprise at least one pump device, such as a vacuum generator 3 and/or a blower, the suction side of which is connected to the separator element 20 or an air channel 105 leading to it.
The means for providing a pressure difference comprise at least one pump device, such as the vacuum generator 3 and/or the blower, and means 110, 122; 113, 124 for connecting the blowing side of at least one pump device, such as the vacuum generator and/or the blower, to blow in the circuit. According to an advantageous embodiment, the apparatus comprises means 113, 114, 122, 124, 125, 126 for connecting the conveying air circulation in the reverse direction in at least a section of the circuit, which section is formed by at least a part of the conveying pipe 100.
According to an advantageous embodiment, the apparatus comprises means for flushing at least a part of the conveying piping 100 with air and/or for drying by circulating the conveying air in the circuit, particularly by blowing.
According to an advantageous embodiment, the material feed points 61 are waste feed points, such as waste bins or waste chutes.
Between the feed point 61 and the conveying pipe 100, there is at least one valve element 60 by opening and closing of which the feed of material and/or make-up air to the conveying pipe is regulated.
According to an advantageous embodiment, the apparatus comprises an ejector device 9 which is arranged in the circuit on the blowing side of the pump device 3 between the pump device 3 and the conveying pipe 100.
According to an advantageous embodiment, the actuating medium of the ejector device is blowing air of the pump device 3.
According to an advantageous embodiment, the ejector device comprises a fitting 93 for leading another medium flow in the actuating medium flow.
The suction provided by the vacuum unit 3 to the conveying pipe 100, in the figure from the side of the separator element 20, is advantageously greater than the blow, whereby conveyance takes place in underpressure. The suction being greater than blowing, underpressure is provided in the piping, whereby waste can be sucked inside the piping from a funnel of the feed station 61.
The suction being greater than the blowing, which is the target in the system according to the invention, material fed to the conveying pipe, particularly waste material, will not be compressed and compacted, but will be able to travel "freely" in the pipe conveyed by conveying air. Then, the potential of the material being conveyed to form blockages is considerably lower than in a situation in which the blowing is greater than the suction, whereby there is a risk that the material being conveyed will accumulate and block the conveying pipe. Furthermore, underpressure decreases the power required to convey the material, because even partial underpressure in relation to the material portion being conveyed on the side of the conveying direction considerably decreases air drag, among others. In the figure, arrows designate the direction of motion of air in the piping in the operating mode.
The outlet valve 60 of the feed point 61 is opened and closed so that material portions of suitable size are conveyed from the feed point 61 to the conveying pipe 100. Material is fed from the feed point 61 , such as a waste container, when after the container is full, the outlet valve 60 is opened either automatically or manually.
The system typically operates as follows: An outlet hatch 21 , 21 ' of at least one separator device 20, 20' is closed and a valve 126 between the main conveying pipe 100 and the separator device 20 is open. The vacuum pump unit 3 and/or the blower unit maintains underpressure in the main conveying pipe 100.
All outlet valves 60 in the vicinity of the feed points 61 i.e. waste containers are closed. In the start situation 100, the valve VA is closed.
Let us assume that a waste container of the feed point 61 belonging to the circuit of the operating area 100A of the conveying pipe 100 is to be emptied. Based on an emptying signal, the outlet valve 60 is momentarily opened, e.g. for 2-10 seconds, whereby the material being conveyed, such as waste material, conveys from the effect of underpressure to the conveying pipe 100A. The outlet valve 60 is typically closed after a few seconds after the start situation. The vacuum pump unit 3 maintains desired underpressure. The valve VA is opened, whereby in the circuit of the piping is provided air circulation and possibly also a blowing effect i.e. pressure effect and suction effect which conveys the material portion being conveyed along the piping to the separator device 20. One or more feed points are emptied. According to an advantageous embodiment, the one of the feed points of the desired operating area which is in the conveying direction closest to the separator device 20 is emptied first, and then the next closest feed point and so on until the desired feed points have been emptied. When the separator device 20 is full, the valve 126 of the conveying pipe 100 closes and a control valve 23 opens, whereby the actuator 24 of the outlet hatch 21 of the separator device opens the outlet hatch 21 and the material accumulated in the separator device is emptied in the compactor device 50 and further in the waste container 51. The outlet hatch 21 of the separator device 20 is closed and the valve 126 opened.
After this, the start situation is reverted and the emptying process can be repeated or the emptying of some other feed point/feed points can be implemented.
The waste container 51 , such as a waste freight container, is replaced or emptied when it is full.
The system can also comprise several separator devices 20 in which material conveyance is controlled e.g. based on the sort of the material or the capacity of the system.
It is obvious to those skilled in the art that the invention is not limited to the embodiments described above, but it may be varied within the scope of the enclosed claims. When necessary, the features possibly described in this specification together with other features may also be used separately from each other.

Claims

Claims
1. A method in a pneumatic material conveying system, such as a waste conveying system, which conveying system comprises at least one feed point (61) of material, particularly of waste material, a material conveying pipe (100) which is connectable to the feed point (61), a separator element (20) in which the material being conveyed is separated from conveying air, and means (3) for providing a pressure difference in the conveying pipe (100) at least during the conveyance of the material, ch a racteri sed in that at least a part of the conveying piping (100) is connectable as a section of a circuit in which conveying air is circulated at least during the conveyance of the material with a pump device (3) the suction side of which is connected to at least one separator device (20) and further to the conveying pipe (100) on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe (100).
2. A method according to claim ^ ch a racteri sed in that, in the material feed stage, underpressure is provided from the feed point to the conveying pipe to at least a part of the conveying piping (100) with a pump device, whereby an outlet air channel (122) of the blowing side of the pump device (3) is opened.
3. A method according to claim 1 or 2, c h a r a c t e r i s e d in, in the conveying stage, the main part of the air on the blowing side of the pump (3) is circulated in the circuit on the supply side of the conveying pipe.
4. A method according to any one of claims 1-3, c h a ra cte ri s ed in that, in the method, in the circuit is brought make-up air via at least one air inlet (107, 112) which advantageously comprises a valve element (128, 120).
5. A method according to any one of claims 1-4, c h a ra cte ri s ed in that, in the method, air is removed from the circuit via at least one air outlet (112) which advantageously comprises a gate/regulating element, such as the valve element (120).
6. A method according to any one of claims 1-5, c h a ra cte ri s ed in that the circulation of air in the circuit, which comprises at least a part of the conveying piping (100), is regulated and/or controlled and/or opened or closed by gate/regulating elements, such as valve elements (120, 122, 124, 125, 126, 127, VA, VB, V0, V0), which are arranged in the circuit.
7. A method according to any one of claims 1-6, c h a ra cte ri s ed in that, in the method, underpressure is provided in the circuit with at least one pump device (3), such as a vacuum generator and/or a blower, the suction side of which is connected to the separator element (20) or to the conveying pipe (100) via an air channel (105) leading to it.
8. A method according to any one of claims 1-7, c h a ra cte ri s ed in that, in the method, pressure is provided in the circuit with at least one pump device (3), such as the vacuum generator and/or the blower, the suction side of which is connected to blow in the circuit.
9. A method according to any one of claims 1-8, c h a ra cte ri s ed in that, in the method, conveying air circulation is connected in the reverse direction at least in a section of the circuit, which section is formed by at least a part of the conveying pipe (100), advantageously for removing a blockage.
10. A method according to anyone of claims 1-10, c h a ra cte ri s ed in that, in the method, at least a part of the conveying piping (100) is flushed and/or dried with air by circulating conveying air in the circuit, particularly by blowing in the circuit with the pump device, such as the vacuum generator and/or the blower.
11. A method according to any one of claims 1-10, c h a ra cte ri s ed in that, in the method, material is fed from the material feed points (61) which are waste feed points, such as waste bins or waste chutes.
12. A method according to any one of claims 1-11, c h a ra cte ri s ed in that, between the material feed point (61) and the conveying pipe (100), there is at least one valve element (60) by opening and closing of which the feed of material and/or make-up air in the conveying pipe is regulated.
13. A method according to any one of claims 1-12, c h a ra cte ri sed in that the valve element (60) between the material feed point (61) and the conveying pipe (100) is closed, advantageously after a certain time after opening, so that the valve (60) of the previous feed point is still open when the valve of the next feed point (61) is opened.
14. A method according to any one of claims 1-13, c h a ra cte ri sed in that at least part of conveying air on the pressure side of the pump device (3) is led in the circuit on the supply side of the conveying pipe (100) via an ejector device (9).
15. A method according to any one of claims 1-14, c h a ra cte ri sed in that at least part of conveying air is circulated via the ejector device (9) in which extra air is brought to the circuit.
16. A method according to any one of claims 1-15, c h a ra cte ri sed in that at least part of blowing air of the pump device (3) is used as the actuating medium of the ejector device (9).
17. An apparatus in a pneumatic material conveying system, such as a waste conveying system, which comprises at least one feed point (61) of material, particularly of waste material, a material conveying pipe (100) which is connectable to the feed point (61), a separator element (20) in which the material being conveyed is separated from conveying air, and means (3) for providing a pressure difference in the conveying pipe (100) at least during the conveyance of the material, cha racterised in that the apparatus comprises a circuit which comprises at least a part of the conveying piping (100), in which circuit, conveying air is circulatable, and means which are arranged to circulate the conveying air at least during the conveyance of the material with a pump device (3) the suction side of which is connected to at least one separator device (20) and further to the conveying pipe (100) on its return side so that at least part of conveying air on the pressure side of the pump is led in the circuit on the supply side of the conveying pipe (100).
18. An apparatus according to claim 17, c h a ra cte ri s ed in that, in the material feed stage from the feed point (61) to the conveying pipe (100), the apparatus is arranged to provide underpressure in at least a part of the conveying piping (100) with the pump device (3), whereby a connection of an outlet (112) arranged on the blowing side of the pump device (3) to outside the circuit is opened.
19. An apparatus according to claim 17 or 18, c h a ra cte ri s ed in that, in the circuit, which comprises at least a part of the conveying piping (100), are arranged gate/regulating elements, such as valve elements (120, 122, 124, 125, 126, 127, VA, VB, VC, V0), by means of which the circulation of conveying air can be regulated and/or controlled and/or opened and closed.
20. An apparatus according to any one of claims 17-19, c h a ra cte ri sed in that the apparatus comprises at least one air inlet (107, 112) which advantageously comprises a valve element (128, 120) for bringing air in the circuit from outside of it.
21. An apparatus according to any one of claims 17-20, c h a ra cte ri sed in that the apparatus comprises at least one outlet (112) which advantageously comprises a gate/regulating element, such as the valve element (120), for removing at least part of air from the circuit.
22. An apparatus according to any one of claims 17-21 , c h a ra cte ri sed in that the means for generating a pressure difference comprise at least one pump device, such as a vacuum generator (3) and/or a blower, the suction side of which is connected to the separator element (20) or an air channel (105) leading to it.
23. An apparatus according to any one of claims 17-22, c h a ra cte ri sed in that the means for providing a pressure difference comprise at least one pump device, such as the vacuum generator (3) and/or the blower, and means for connecting the blowing side of at least one pump device, such as the vacuum generator and/or the blower, to blow in the circuit.
24. An apparatus according to any one of claims 17-23, c h a ra cte ri sed in that the apparatus comprises means for connecting the conveying air circulation in the reverse direction at least in a section of the circuit, which section is formed by at least a part of the conveying pipe (100).
25. An apparatus according to any one of claims 17-24, c h a ra cte ri sed in that the apparatus comprises means for flushing at least a part of the conveying piping (100) with air and/or drying by circulating conveying air in the circuit, particularly by blowing.
26. An apparatus according to any one of claims 17-25, c h a ra cte ri sed in that the material feed points (61) are waste feed points, such as waste bins or waste chutes.
27. An apparatus according to any one of claims 17-26, c h a ra cte ri sed in that, between the feed point (61) and the conveying pipe (100), there is at least one valve element (60) by opening and closing of which the feed of material and/or make-up air in the conveying pipe is regulated.
28. An apparatus according to any one of claims 17-27, c h a ra cte ri sed in that the apparatus comprises an ejector device (9) which is arranged in the circuit on the blowing side of the pump device (3) between the pump device (3) and the conveying pipe (100).
29. An apparatus according to claim 28, c h a ra cte ri s ed in that the actuating medium of the ejector device is blowing air of the pump device (3).
30. An apparatus according to claim 28 or 29, c h a ra cte ri sed in that the ejector device comprises a fitting (93) for leading another medium flow to the actuating medium flow.
PCT/FI2008/050757 2007-12-21 2008-12-18 Method and apparatus in pneumatic material conveying system WO2009080881A1 (en)

Priority Applications (10)

Application Number Priority Date Filing Date Title
DK08864697.1T DK2227426T3 (en) 2007-12-21 2008-12-18 METHOD AND APPARATUS IN PNEUMATIC MATERIALS SUPPLY SYSTEM
JP2010538812A JP2011506229A (en) 2007-12-21 2008-12-18 Method and apparatus for pneumatic material transfer system
US12/809,192 US20100310327A1 (en) 2007-12-21 2008-12-18 Method and apparatus in pneumatic material conveying system
ES08864697.1T ES2628509T3 (en) 2007-12-21 2008-12-18 Method and apparatus in pneumatic material transport system
CN2008801220533A CN101903265A (en) 2007-12-21 2008-12-18 Method and apparatus in pneumatic material conveying system
AU2008339857A AU2008339857A1 (en) 2007-12-21 2008-12-18 Method and apparatus in pneumatic material conveying system
EP08864697.1A EP2227426B1 (en) 2007-12-21 2008-12-18 Method and apparatus in pneumatic material conveying system
BRPI0821319-4A BRPI0821319A2 (en) 2007-12-21 2008-12-18 Method in a pneumatic material conveyor system, and apparatus in a pneumatic material conveyor system
RU2010130482/11A RU2549424C2 (en) 2007-12-21 2008-12-18 Method and device of material pneumatic conveyance system
CA2708123A CA2708123A1 (en) 2007-12-21 2008-12-18 Method and apparatus in pneumatic material conveying system

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FI20075950A FI20075950L (en) 2007-12-21 2007-12-21 Pneumatic material transport system
FI20075950 2007-12-21
FI20075951 2007-12-21
FI20075951A FI123383B (en) 2007-12-21 2007-12-21 Pneumatic material transport system
FI20085141 2008-02-18
FI20085141A FI123782B (en) 2007-12-21 2008-02-18 Procedure and equipment in a pneumatic material transport system

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AR (1) AR069948A1 (en)
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EP2227426A1 (en) 2010-09-15
FI20085141A0 (en) 2008-02-18
KR101593709B1 (en) 2016-02-12
FI123782B (en) 2013-10-31
JP2011506229A (en) 2011-03-03
AU2008339857A1 (en) 2009-07-02
CA2708123A1 (en) 2009-07-02
KR20100103841A (en) 2010-09-28
CN101903265A (en) 2010-12-01
FI20085141A (en) 2009-06-22
US20100310327A1 (en) 2010-12-09
EP2227426B1 (en) 2017-04-26
DK2227426T3 (en) 2017-07-10
AR069948A1 (en) 2010-03-03
BRPI0821319A2 (en) 2015-06-16
EP2227426A4 (en) 2015-07-01
TW200940433A (en) 2009-10-01
ES2628509T3 (en) 2017-08-03
PL2227426T3 (en) 2017-09-29

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