JP3191783U - Separation guide device for transported goods - Google Patents

Abstract

Disclosed is a separation guide device for a conveyed product that can separate a solid component from a conveyed product that is conveyed in a duct and guide it to a downstream duct without passing through a blower, and that can be conveyed at a low output. provide.
Between A conveying duct upstream of the blower 20 10 _U and the blower 20, the separation unit 101 is provided for separating the solid component W _S contained in the conveyed W, than the separation unit 101 and the blower 20 between the transport ducts 10 _D downstream, the bypass section 112 in the transport duct 10 _D downstream by suction by an ejector 114 that operates the solid component W _S separated by the separation unit 101 by the exhaust from the blower 20 To guide and transport. Air components W _A separated by the separation unit 101 is sucked into the blower 20.
[Selection] Figure 1

Description

  The present invention is a separation guide device that can separate a solid component contained in a conveyed product from a conveyed product that is conveyed in a duct using wind power generated by a blower and guide the solid component to a downstream duct without passing through a blower. It is about.

  2. Description of the Related Art Conventionally, a conveying device that pneumatically conveys the inside of a duct using wind power generated by a blower in the processing of wood waste and paper waste is generally known (see, for example, Patent Document 1). Here, the blower has (1) wind force by suction (2) wind force by exhaust, but usually only one wind of suction or exhaust is used.

JP 2009-119836 A

  However, in the conveyance of solid objects, if a suction force is used, it can be conveyed with a blower with a small output, but there is a problem that the solid objects pass through the blower and damage the blade fan and the casing. On the other hand, when the ejector is used in combination with the exhaust force without passing through the blower, high-pressure air is required.

  The present invention has been made in view of the above problems, and can guide the solid component contained in the conveyed product conveyed in the duct to the downstream side without going through the blower to prevent damage to the device. It is another object of the present invention to provide a separation guide device for a conveyed product that enables conveyance with a small output by simultaneously utilizing the suction force and exhaust force of a blower.

In order to solve the above problems, a separation guide device for a conveyed product according to the present invention includes:
Between the transport duct upstream of the blower and the blower, a separation unit is provided for separating the solid component contained in the transported material from the transported material transported toward the blower side in the upstream transport duct, A bypass section that sucks the separated solid component from the blower toward the downstream transport duct and guides it to the downstream transport duct between the separation section and the downstream transport duct. Is the main feature.

  The separation guide device for a conveyed product according to the present invention is provided with a suction unit between the separation unit and the blower, which sucks the air component after the solid component is separated from the conveyed product by the separation unit and sends the air component to the blower. This is the second feature.

  The apparatus for separating and guiding a conveyed product according to the present invention sucks the solid component separated from the conveyed product by the separating unit into the downstream conveying duct through the bypass unit, inside the conveying duct downstream of the blower. A third feature is that an ejector is provided for the purpose.

  The apparatus for separating and guiding a conveyed product according to the present invention is configured such that the conveyed product in the upstream transport duct is moved from the suction port to the inside of the separation unit by suction from the blower between the upstream transport duct and the suction port of the separation unit. The fourth feature is that a suction part to be sucked in is provided, and the inner diameter and the volume of the separation part are set larger than the inner diameter and the volume of the suction part.

  A separation guide device for a conveyed product according to the present invention includes a separation chamber for separating a solid component from a conveyed product sucked from a suction port inside a casing of a separation unit, and a gas component separated in the separation chamber from an exhaust port. A fifth feature is that an exhaust chamber for exhausting air toward the blower is provided.

  As described above, according to the conveyed product separation guide device according to the present invention, the solid component is separated from the conveyed product conveyed inside the conveying duct using the blower on the upstream side of the blower, and separated. Is sucked and guided into the transport duct on the downstream side without going through the blower, so that the blower can be prevented from being damaged and the maintenance cost of the blower can be reduced. .

  Further, according to the separation guide device for transported goods according to the present invention, the solid component separated from the transported object is sucked into the downstream transport duct by utilizing the suction force and exhaust force of the blower. It is possible to convey a conveyed product containing a solid component at a low output and a small output, and it is possible to reduce the size of the blower, and further reduce the size of the conveying device and reduce the conveying cost.

Overall configuration diagram showing an installation example of the separation guide device according to the present invention, 1 is a cross-sectional view taken along the line AA shown in FIG. It is a figure which shows the combustion furnace to which the conveyed product conveyed by the conveyance duct in which the separation guide apparatus shown in FIG. 1 was installed is supplied.

  The best mode for carrying out the present invention will be described with reference to FIGS. This embodiment demonstrates the example which conveys the wood chip | tip for fuel using a blower. In the figure, reference numeral 10 denotes a conveyance duct, reference numeral 20 denotes a blower, reference numeral 100 denotes a separation guide device, and reference numeral W denotes a conveyed product (work).

Conveying duct 10 utilizes wind blower 20, which carry a conveyed W, the carried object W of the conveying duct 10 within _U upstream aspirated by the intake of the blower 20, the transport of the downstream side by the exhaust It is adapted to send to the duct 10 _D.

  The conveyed product W contains a wood chip as a solid component and an air component by the blower 20. Wood chips include waste, thinned wood, and crushed wood chips. As the solid component contained in the conveyed product, bamboo, waste paper, straw, pulp, waste plastics, and the like, as well as those obtained by drying livestock manure such as chickens, pigs, and cows are possible.

  The blower 20 includes a blade fan 22 inside the casing 21, and rotates the blade fan 22 by a driving source (not shown), thereby sucking air from the air inlet 23 into the casing 21 and exhausting it from the air outlet 24 to the outside of the casing 21. It is like that.

Separating guide device 100, the carried object W conveyed on the conveying ducts 10 _U upstream of the blower 20, the solid component W _S is separated and transported duct 10 on the downstream side of the separated solid component W _S Blower 20 _The separator 101 is provided between the upstream transport duct 10 _U and the blower 20.

The separator 101 is provided with a suction port 103 on the side surface of a cylindrical casing 102, and the suction port 103 and the outlet of the upstream transport duct 10 _U are connected by a tubular suction part 104. In addition, an exhaust port 105 is provided on the upper surface of the casing 102 (the side of the casing 102 may be opposite to the suction port 103), and the exhaust port 105 and the intake port 23 of the blower 20 are connected by a tubular suction part 106. ing. Further, the exhaust port 24 of the blower 20 and the inlet of the downstream transport duct 10 </ b> _D are connected by an exhaust unit 107.

More specifically, the separator 101 is provided with a separation chamber 109 on the suction port 103 side and an exhaust chamber 110 on the exhaust port 105 side by a partition plate 108 inside the casing 102. Separation chamber 109 is a space where the solid components from the conveyed W sucked from the suction port 103 (wood chips) to drop the W _S to separate the air components W _A, the top plate of the upper portion of the inlet 103 is a partition plate 108 The vertical plate 108B extends from the end surface of the top plate 108A downward to the vicinity of the bottom surface.

On the bottom surface of the casing 102, the outlet 111 is provided with the solid component W _S having dropped the separation chamber 109 is discharged. A bypass part 112 is connected to the discharge port 111, and an outlet of the bypass part 112 is connected to a suction port 113 on the upper surface of the transport duct 10 </ b> _D downstream of the blower 20.

An ejector 114 is arranged directly below the suction port 113 inside the transport duct 10 </ b> _D on the downstream side of the blower 20. Ejector 114, negative pressure is generated in the gap between the ejector 114 and the suction port 113 by the exhaust from the blower 20, thereby, a solid component W _S to fall within the separation chamber 108, via the bypass section 112 downstream It is adapted to suction into the transport duct 10 in _D.

On the other hand, communication between the lower end of the bottom and the partition plate 108 of the casing 102, for guiding the air components W _A separated from the conveyed W in the separation chamber 109 by suction from blower 20, the exhaust chamber 110 of the adjacent A mouth 115 is provided. Air components _{W A} guided into the exhaust chamber 108 through the suction portion 106 from the exhaust port 105, and is sucked into the blower 20.

Note that the conveyed W may separation include hard solid components of minute size, the solid component of the separated not micro size is sometimes sucked together with air components W _A to the blower 20 side, The blower 20 is not damaged due to the small size.

  Next, the operation of the separation guide device 100 configured as described above will be described.

Activating the blower 20, suction to conveyance duct 10 within _U upstream (negative pressure) is generated when the discharge power by the exhaust on the downstream side of the transport duct 10 in _D simultaneously (positive pressure) is generated. Thereby, the conveyed product W in the upstream transport duct 10 _U passes through the suction portion 104 and is sucked into the separation chamber 109 from the suction port 103 of the separator 101.

At this time, the inner diameter of the casing 102 of the separator 101 (diameter D ₂ = 100 mm in the illustrated example) is larger than the inner diameter of the suction section 104 (in the illustrated example, the diameter D ₁ = 50 mm), and the suction portion 104 to volume, since the volume of the casing 102 and the separation chamber 109 of the separator 101 is large, the solid component contained in the conveyed W sucked from the suction port 103 (wood chips) W _S is decelerated dispersed Is promoted and falls in the separation chamber 109.

Then, the solid component W _S to fall separation chamber 109 by negative pressure generated in the gap between the suction port 113 just above the ejector 114 in the transport duct 10 _D of the downstream side by the exhaust from the blower 20, the outlet through the bypass portion 112 from 111, is drawn from the suction port 113 on the downstream side of the transport duct 10 in _D, it is conveyed further to the downstream side.

On the other hand, air components _{W A} separated from the conveyed W in the separation chamber 109 by suction from blower 20, the communication port 115 through the exhaust chamber 110, via the suction part 106 from the exhaust port 105, the blower 20 Sucked into. Then, through the exhaust unit 107 through the exhaust port 24 of the blower 20, is exhausted to the transport duct 10 _D downstream merges again with the solid component W _S, is conveyed further to the downstream side.

Solid component W _S conveyed on the conveying ducts 10 in _D to the downstream side, for example, once stored in the stockyard, then, is introduced into the combustion furnace 30 shown in FIG. In the illustrated combustion furnace 30, the outlet of the transfer duct 10 ′ is connected to the input port 31, and the conveyed product W input from the input port 31 into the combustion chamber 32 is combusted in the combustion chamber 32, and is a high-temperature gas. G is discharged through the exhaust duct 33 and used, for example, for heating facilities or houses and for generating hot water. Reference numeral 34 denotes a grate. The combustion furnace 30 is also used for other purposes such as incineration (volume reduction) of waste.

  In the separator 101 of this embodiment, an inner cylinder is arranged inside the casing 102 instead of the partition plate 108, and the space between the outer peripheral surface of the inner cylinder and the inner peripheral surface of the casing 102 is closed with a top plate over the entire circumference. The separation chamber may be provided between the inner peripheral surface of the casing 102 and the outer peripheral surface of the inner cylinder, and the exhaust chamber connecting the separation chamber and the upper exhaust port 105 may be provided inside the inner cylinder. Also in such a structure, the separated gaseous component is simultaneously separated from the conveyed product sucked into the separation chamber from the suction port 103 of the casing 102 and is dropped and sucked from the discharge port 111 and conveyed downstream. Acts so as to be sucked from the exhaust port 105 toward the blower 20 through the exhaust chamber.

According to the separation guide device 100 of the present embodiment, the solid component W _S contained in the conveyed W flowing through transport ducts 10 _U of the upstream separated by the upstream side of the separator 101 of the blower 20, the separated solid component W _S It was sucked into the transport duct 10 _D of the downstream side without passing through the blower 20, so is fed to the downstream, the casing 21 of the blower 20, the damage to the fan (blade) 22 can be prevented. Thereby, the durability of the blower 20 can be improved, and the maintenance management cost can be reduced.

Further, according to the separation guide device 100 of the present embodiment, the conveyance and exhaust force of the blower 20 (using the negative pressure of the ejector 114 operated by the exhaust of the blower 20 in terms of the exhaust force) is conveyed. the solid component W _S separated from the object W via the bypass section 112, because therebetween to guide the conveying duct 10 _D downstream, low output conveyed W containing solid component W _S, low output Can be sucked and transported. As a result, the blower 20 can be reduced in size, in turn, the transfer device, and the transfer cost can be reduced.

  In this embodiment, although the example which contains air and a wood chip as the conveyance target W of separation object was demonstrated, separation object is not restricted to this, It can apply to all the air conveyances which use a blower. For example, processing and transporting firewood and sawdust in woodworking work, dust processing and transporting at construction sites, transporting dehydrated sludge and transporting, transporting powder such as cereal feed, transporting food, and materials for slope construction It can be applied to transportation of objects by spraying or airflow drying. A suction duct for introducing high-temperature air may be connected to the transport duct.

  Thus, according to the separation guide device of the present invention, the solid component contained in the conveyed product that is conveyed using the blower can be separated on the upstream side of the blower and sent to the downstream conveying duct without passing through the blower. This prevents the blower from being damaged, and can convey the conveyed product at a low output.

  The separation guide device of the present invention can be used as a device for separating a solid component contained in a conveyed product from a conveyed product conveyed using a blower.

DESCRIPTION OF SYMBOLS 10 Conveyance duct 20 Blower 21,102 Casing 22 Blade fan 23 Intake port 24,105 Exhaust port 30 Combustion furnace 31 Input port 32 Combustion chamber 33 Exhaust duct 34 Grate 100 Separation guide device 101 Separator 103 Suction port 104 Suction part 106 Suction part 107 exhaust unit 108 partition plates 108A top plate 108B vertical plate 109 separating chamber 110 exhaust chamber 111 outlet 112 bypass section 113 suction port 114 ejector W conveyance object W _S solid components W _A air components

Claims (5)

  Between the transport duct upstream of the blower and the blower, a separation unit is provided for separating the solid component contained in the transported material from the transported material transported toward the blower side in the upstream transport duct, A bypass section that sucks the separated solid component from the blower toward the downstream transport duct and guides it to the downstream transport duct between the separation section and the downstream transport duct. An apparatus for separating and guiding a conveyed product, wherein:   2. The conveyed product according to claim 1, wherein a suction unit is provided between the separating unit and the blower to suck the air component after the solid component is separated from the conveyed product by the separating unit and send the air component to the blower. Separation guide device.   An ejector for sucking the solid component separated from the conveyed product in the separation unit into the downstream conveyance duct through the bypass unit is arranged inside the conveyance duct on the downstream side of the blower. The separation guide device for a conveyed product according to claim 1 or 2.   A suction part is provided between the upstream transport duct and the suction port of the separation part, so that the material in the upstream transport duct is sucked into the separation part from the suction port by suction from the blower. The separation guide apparatus for conveyed objects according to any one of claims 1 to 3, wherein an inner diameter and a volume of the separation unit are set to be larger than an inner diameter and a volume, respectively. Inside the casing of the separation part, a separation chamber for separating the solid component from the conveyed product sucked from the suction port, and an exhaust chamber for exhausting the gas component separated in the separation chamber from the exhaust port toward the blower are provided. The separation guide apparatus for transported articles according to any one of claims 1 to 4, wherein the separation guide apparatus for transported articles is provided.

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