WO2019186705A1 - Dust collection vehicle - Google Patents

Dust collection vehicle Download PDF

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Publication number
WO2019186705A1
WO2019186705A1 PCT/JP2018/012496 JP2018012496W WO2019186705A1 WO 2019186705 A1 WO2019186705 A1 WO 2019186705A1 JP 2018012496 W JP2018012496 W JP 2018012496W WO 2019186705 A1 WO2019186705 A1 WO 2019186705A1
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WO
WIPO (PCT)
Prior art keywords
air
filter
dust
rotating shaft
casing
Prior art date
Application number
PCT/JP2018/012496
Other languages
French (fr)
Japanese (ja)
Inventor
グエン タン レー
Original Assignee
グエン チー カンパニー リミテッド
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
Application filed by グエン チー カンパニー リミテッド filed Critical グエン チー カンパニー リミテッド
Priority to PCT/JP2018/012496 priority Critical patent/WO2019186705A1/en
Publication of WO2019186705A1 publication Critical patent/WO2019186705A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L9/00Disinfection, sterilisation or deodorisation of air
    • A61L9/16Disinfection, sterilisation or deodorisation of air using physical phenomena
    • A61L9/18Radiation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/18Particle separators, e.g. dust precipitators, using filtering belts
    • B01D46/22Particle separators, e.g. dust precipitators, using filtering belts the belts travelling during filtering
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/42Auxiliary equipment or operation thereof
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60PVEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
    • B60P3/00Vehicles adapted to transport, to carry or to comprise special loads or objects
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65FGATHERING OR REMOVAL OF DOMESTIC OR LIKE REFUSE
    • B65F3/00Vehicles particularly adapted for collecting refuse

Definitions

  • the present invention relates to a vehicle for collecting dust.
  • dust collector that collects dust contained in the air, for example, the one described in Patent Document 1 is known.
  • Such a dust collector is generally installed in a place where air is easily contaminated, such as around a road with heavy traffic, and is used to clean the air.
  • the present invention has been made in view of the above circumstances, and is intended to provide a dust collecting vehicle that is suitable for moving and purifying air and that can efficiently clean air.
  • a dust collection vehicle of the present invention includes a vehicle main body that travels by the power of a prime mover, and a dust collector provided in the vehicle main body.
  • the dust collector is provided between an air intake unit that takes in air, an air discharge unit that discharges air, and the air intake unit and the air discharge unit, and purifies the air taken from the air intake unit At least one filter device, and a dust collector air blower for flowing air from the air intake portion toward the air discharge portion.
  • the dust collecting vehicle includes a vehicle body that travels by the power of the prime mover, and therefore can travel. Therefore, the dust collecting vehicle can be easily moved to a place where the air is desired to be cleaned, and therefore, it is suitable for moving and purifying the air.
  • the dust collector air blower By operating the dust collector air blower, air flows from the air intake part to the air discharge part. Therefore, air is taken into the air intake part from the outside of the dust collector, and the taken-in air is purified by passing through the filter device and discharged from the air discharge part.
  • the direction of the dust collecting vehicle so that the air intake part faces the direction of the wind blowing, in addition to the air flow by the dust collecting blower, natural wind force can be used. Since the dust collecting vehicle can travel, the direction of the dust collecting vehicle can be easily changed. Therefore, air can be efficiently cleaned.
  • air can flow from the air intake part to the air discharge part by the dust collector air blower, so it is possible to clean the air even while the dust collection vehicle is running, and efficiently use a wide range of air. Can be cleaned.
  • the dust collector blower includes a casing, a rotating shaft that penetrates the casing, and a prime mover for rotating the rotating shaft,
  • the casing is provided with a stator
  • the rotating shaft that protrudes from the casing is provided with an impeller provided with blades for blowing air
  • the rotating shaft in the casing is provided with a rotor for generating electric power in cooperation with the stator. It is preferable.
  • the rotating shaft rotates, and the impeller provided on the rotating shaft rotates. Then, when the impeller rotates, air can flow from the air intake portion toward the air discharge portion. Further, the rotor is rotated by the rotation of the rotating shaft of the dust collector air blower, and power is generated by the cooperation with the stator. The generated electricity can be used for a filter device or the like. Therefore, the dust collector can be used even in a place where it is difficult to secure a power source, and therefore, it is suitable for moving and purifying the air.
  • the dust collector blower includes a casing, a rotating shaft that penetrates the casing, and a prime mover for rotating the rotating shaft,
  • the casing is provided with a suction port, a discharge port, a compression device that operates by rotation of the rotating shaft, compresses the gas taken in from the suction port, and discharges the gas from the discharge port,
  • the rotating shaft protruding from the casing is provided with an impeller having blades for blowing air.
  • the rotation of the rotating shaft of the dust collector blower activates the compressor, and the air sucked from the suction port of the dust collector blower is compressed and discharged from the discharge outlet.
  • Compressed air has a variety of uses. For example, it can be used to clean a filter, so the filter device can be cleaned anywhere, maintaining the dust collection performance of the filter device, and efficiently cleaning the air. can do.
  • the dust collector blower includes a casing, a rotating shaft that penetrates the casing, and a prime mover for rotating the rotating shaft,
  • the casing is provided with a suction port, a discharge port, a compression device that operates by rotation of the rotating shaft, compresses the gas taken in from the suction port, and discharges the gas from the discharge port, and a stator.
  • the rotating shaft that protrudes from the casing is provided with an impeller provided with blades for blowing air, and the rotating shaft in the casing is provided with a rotor for generating electric power in cooperation with the stator. It is preferable.
  • the rotating shaft rotates, and by rotating the rotating shaft, the power generation, the compression of air, and the air intake portion toward the air discharge portion. Flowing air can be performed simultaneously.
  • At least one of the filter devices is a first filter device
  • the first filter device includes a first filter body that collects dust and the like, a turbine that is rotated by a flow of air, and a power transmission unit. It is preferable that the first filter main body is provided in a state in which it can go around by power generated by rotation of the turbine transmitted through the power transmission unit.
  • the 1st filter main body (filter) of a 1st filter apparatus is provided in the state which can go around.
  • the turbine is rotated by the fluid flow.
  • the power generated by the rotation of the turbine is transmitted to the filter through the power transmission unit. Therefore, when the air flows from the air intake portion toward the air discharge portion, the turbine rotates, the power generated by this rotation is transmitted to the filter, and the filter circulates.
  • the main function as a filter is the surface facing the air intake side where air flows, but by circulating the filter, A functioning surface can be moved around and directed. For this reason, the effective area of the filter can be widened, and the filter device can be used without clogging the filter for a long time without replacing the filter. Therefore, since the force for collecting the dust on the filter is difficult to drop, the air can be efficiently cleaned.
  • At least one of the filter devices is a second filter device
  • the second filter device includes a plurality of tubular members in which a coil is wound around an outer peripheral portion and air passes through the inside.
  • the plurality of tubular members are preferably arranged with their directions aligned.
  • the air flowing from the air intake portion toward the air discharge portion passes through the inside of the tubular members arranged in the same direction. Since the coil is wound around the tubular member, the current flows through the coil using electricity generated by the cooperation of the rotor and the stator of the dust collector air blower. The air passing through can be ionized and cleaned.
  • At least one of the filter devices is a third filter device
  • the third filter device is a filter device that includes a plurality of the laser devices that emit laser light having sterilizing power, and sterilizes with the laser light
  • the plurality of laser devices are preferably arranged in a predetermined direction so that laser beams emitted from the laser devices are directed in the same direction.
  • the air flowing from the air intake portion toward the air discharge portion is applied to the laser beam having sterilizing power.
  • Laser light has a larger amount of heat than that of ultraviolet light, and high sterilizing power can be obtained. Therefore, even if the time applied to the laser light is short, bacteria can be killed and air can be efficiently cleaned.
  • the dust collector is provided with an introduction part for introducing air toward the air intake part so as to be freely opened and closed.
  • the introduction part preferably has a larger area of the opening on the opposite side than the area of the opening on the air intake part side.
  • the air coming toward the introduction part can be guided to the air intake part and collected, so that more air can be purified compared to the case where there is no introduction part, Air can be cleaned efficiently.
  • a blowing device for blowing wind toward the ground direction is provided on the front side in the traveling direction of the vehicle body from the air intake portion.
  • the wind from the blower is blown toward the ground, and the dust on the ground is raised. Then, the air containing the dust risen is taken into the dust collector from the introduction portion, and this dust is collected by the filter device. Dust contained in the air repeatedly falls on the ground or scatters again. However, the dust falling on the ground can be collected by raising it with the blower. Therefore, dust floating in the air and dust falling on the ground can be collected together. Further, since the blower device is provided on the front side in the running direction of the vehicle body from the introduction part, the dust collecting vehicle collects dust falling on the ground like a road cleaning car while running the dust collecting vehicle. be able to. Therefore, air can be efficiently cleaned.
  • the dust collection vehicle of the present invention is suitable for purifying air by moving it, and can efficiently clean the air.
  • FIG. 1 illustrates an embodiment of the present invention, and is a perspective view of a dust collection vehicle as viewed obliquely from the rear.
  • 2 is a side view of the dust collecting vehicle.
  • FIG. 2 is a front view of the dust collecting vehicle.
  • FIG. 2 is a rear view of the dust collecting vehicle.
  • FIG. It is a perspective view of the frame of a structure same as the above.
  • FIG. 2 shows a structural material joint, wherein (a) is a perspective view seen from the front side, and (b) is a perspective view seen from the back side. It is a front view of a front side wall material similarly. It is a perspective view of an introducing
  • FIG. 3 is a side view of the first filter device.
  • FIG. 3 is a perspective view of the first filter device. It is a perspective view which shows the principal part of a 1st filter apparatus equally.
  • FIG. 3 is a perspective view of the first filter body. It is a perspective view of a 2nd filter apparatus equally. It is a perspective view of the tubular member and coil of a 2nd filter apparatus equally. It is a perspective view of a 3rd filter apparatus equally.
  • FIG. 3 is a side view of the first filter device.
  • FIG. 3 is a perspective view of the first filter device. It is a perspective view which shows the principal part of a 1st filter apparatus equally.
  • FIG. 3 is a perspective view of the first filter body. It is a perspective view of a 2nd filter apparatus equally.
  • FIG. 6 is a cross-sectional view of a part of the fourth filter device as viewed from below. It is a perspective view of a fifth filter device. It is sectional drawing of the HEPA filter of a 5th filter apparatus equally. It is a perspective view of a rotating device.
  • FIG. 2 is a plan view of the rotating device.
  • FIG. 25 is a sectional view taken along the line A-A ′ of FIG. 24.
  • the dust collection vehicle 1 of this embodiment includes a vehicle body 2, a dust collection device 3, and a blower device 4.
  • front and rear basically means that the forward direction of the dust collecting vehicle 1 is “front”, and the backward direction means “rear”, and “up and down” means the dust collecting vehicle.
  • 1 is "upper"
  • the lower surface (ground) side is “down”
  • "left and right” means “left” on the left side in the forward direction of the dust collecting vehicle 1
  • "right” is "right””Means.
  • the vehicle body 2 is a truck on which a 20-foot container can be loaded, and travels with the power of the prime mover.
  • the vehicle main body 2 includes a driver's seat 2a and a loading portion 2b on which a 20-foot container can be loaded.
  • the driver's seat 2a is located in front of the stacking portion 2b.
  • the dust collector 3 includes a structure 10, a filter group 300 that cleans air, and a rotating device 310.
  • Air purification means removal of dust contained in air, ionization of air, increase of negative ions contained in air, sterilization of bacteria contained in air, deodorization of air, and the like. And air becomes high-quality air by being cleaned.
  • the structural body joint 11 includes structural member joints 11 arranged at eight corners (connection portions), and the structural member joints 11 form a plurality of structural members 17 in a rectangular parallelepiped shape. It is assembled by being connected to.
  • the structure 10 includes a plate-like wall member (the front wall member 20, the rear wall member 24, and the lower wall member 57 (see FIGS. 1, 3 and 4).
  • the upper and left and right wall members are not shown. .), And each surface is covered with a wall material. That is, the structure 10 is formed by providing a wall material covering each of the six surfaces in the framework composed of the structural material joint 11 and the structural material 17 assembled in a rectangular parallelepiped shape.
  • the structure 10 has the same size as a 20-foot container.
  • FIG. 6A and 6B show a joint for structural material, in which FIG. 6A is a perspective view of the front side viewed from diagonally above, and FIG. 6B is a perspective view of the back side viewed diagonally from below.
  • the structural material joint 11 includes three joint members 12 into which end portions of the structural material 17 can be inserted and fixed.
  • Each joint member 12 is formed in a regular rectangular tube shape, and their base end portions are fixed to each other by, for example, welding or adhesion.
  • the base end portion of the joint member 12 (12B) extending in the horizontal direction is fixed to the lower end portion of one orthogonal side surface of the joint member 12 (12A) extending vertically, and the lower end portion is fixed to the other side surface.
  • the base end portion of another joint member 12 (12C) extending in the horizontal direction is fixed. Further, these three joint members 12 are arranged at right angles to each other.
  • the joint members 12B and 12C are set to have the same length, and the joint member 12A has a height dimension from the upper surface of the joint members 12B and 12C set to the same length as the joint members 12B and 12C.
  • the lengths 12A to 12C may be set as appropriate.
  • a circular hole 13 and an oval hole 14 are formed in the base end portion of the joint member 12 so as to be spaced apart from each other in the axial direction of the joint member 12 on opposite side walls.
  • the hole 13 is formed to face the opposite side wall
  • the hole 14 is also formed to face the opposite side wall.
  • the holes 13 and 14 formed in the side walls on the upper surface and the lower surface side of the joint member 12B may be formed in the side walls on both side surfaces, or formed on the side walls on both side surfaces of the joint member 12C.
  • the holes 13 and 14 may be formed on the upper and lower side walls.
  • the holes 13 and 14 formed in one opposing side wall of the joint member 12A may be formed in the other opposing side wall.
  • an oval hole 15 larger than the hole 14 is formed in the lower wall and the side wall arranged at a right angle.
  • the front ends of the joint members 12 arranged at right angles to each other are connected by a reinforcing member 16. That is, the reinforcing member 16 is formed in a regular square tube shape having a smaller cross-sectional shape than the joint member 12, and both end portions thereof are inclined surfaces inclined at an angle of 45 ° with respect to one side surface.
  • the reinforcing member 16 is disposed between the distal end portions of the joint members 12 and 12 disposed at right angles to each other, and the end portions are joined and fixed to the side wall of the joint member 12 by welding, adhesion, or the like.
  • the reinforcing member 16 is inclined at an angle of 45 ° with respect to the joint member 12 which is bonded and fixed.
  • the frame of the structure 10 is assembled by such a structural material joint 11 and a plurality of rod-shaped structural materials 17 (see FIG. 5).
  • the structural material joints 11 are arranged at eight corner portions (connection portions), respectively, and a plurality of structural materials 17 are connected in a rectangular parallelepiped shape by the structural material joints 11. Is assembled by. That is, first, the structural material joint 11 is disposed at eight corner portions (connection portions).
  • the twelve structural members 17 are connected by the structural member joint 11 to assemble the structural body 10 into a rectangular parallelepiped having the same size as a 20-foot container.
  • the structural member 17 has a cross-sectional shape that can be inserted into the joint member 12 of the structural member joint 11, whereby both ends of the structural member 17 are joint members 12, 12 of the adjacent structural member joint 11. Is inserted without any gaps.
  • two circular holes 18 and 18 are formed on both side walls of the structural material 17 facing each other in the longitudinal direction, as shown in FIG. The holes 18 and 18 are opposed to the holes 13 and 14 of the joint member 12 in a state where the end of the structural member 17 is inserted into the joint member 12. Then, bolts (not shown) are respectively inserted into the holes 13 and 18 and the holes 14 and 18 and tightened with nuts, whereby the structural member 17 is prevented from coming off and fixed to the joint member 12.
  • the distal ends of the joint members 12, 12 arranged at right angles to each other of the joint 11 for structural material arranged at the connection portion between the structural materials 17 are arranged. Since they are connected by the rod-shaped reinforcing member 16, the connecting portion of the structural material 17 connected by the structural material joint 11 can be easily reinforced by the reinforcing member 16. Further, by changing the length dimension of the structural member 17, it is possible to easily assemble a rectangular parallelepiped box-like structure having a different size. Therefore, it is possible to easily assemble the structure 10 in accordance with a vehicle carrying a 40-foot container.
  • the structure 10 assembled to the same size as a 20-foot container is loaded on the loading portion 2b of the vehicle body 2, and the upper four corners of the loading portion 2b are placed in the holes 15 of the joint member 12.
  • a twist lock pin provided on the vehicle body 2 is inserted, and the structure 10 is fixed to the vehicle main body 2 by the twist lock pin.
  • the structure 10 can be handled in the same manner as a general container for freight transportation, and can be easily transferred to a different vehicle, removed from the vehicle, and the like.
  • each surface of the structure 10 is covered with a plate-like wall material.
  • the front wall member front wall member 20
  • the air intake unit 21 includes a horizontal lattice 22.
  • the front wall member 20 is provided with an opening (air intake portion 21) in which a plurality of long slits are arranged in the lateral direction.
  • the air intake portion 21 is located on the rear side of the front surface of the front side wall member 20.
  • the inclined part 23 inclined with respect to the front surface of the front side wall material 20 toward the air intake part 21 side from the front surface of the front side wall material 20 is provided so that the air intake part 21 may be enclosed.
  • the rear wall member (rear wall member 24) is provided with an air discharge part 25 whose outer periphery is a circular opening.
  • the air discharge unit 25 includes a horizontal lattice 26.
  • the rear side wall member 24 is provided with an opening (air discharge portion 25) in which a plurality of long slits are arranged in the lateral direction.
  • the air intake part 21 and the air discharge part 25 may be provided on any wall material in the front, rear, left, right, upper and lower sides of the structure 10.
  • the air intake portion 21 may be provided on the rear side wall member 24, and the air discharge portion 25 may be provided on the front side wall member 20.
  • the structure 10 is provided with an introduction portion 30 on the front side so as to protrude forward from the structure 10.
  • the introduction portion 30 includes four plate-like portions 31 (31a, 31b, 31c, and 31d) and four thin film portions 32 that connect the adjacent plate-like portions 31 and is provided so as to surround the front wall member 20. (See FIG. 8).
  • the plate-like portion 31 is a rectangular plate-like member made of a translucent synthetic resin or the like.
  • the thin film portion 32 is a triangular thin film member formed of a translucent synthetic resin or the like (for example, polyethylene).
  • the plate-like portion 31 is provided with one plate-like portion 31 in contact with or close to one side of each of the four sides of the front side wall member 20.
  • the length of the side of each plate-like portion 31 that is in contact with or close to the front side wall member 20 is substantially the same as the length of each side of the front side wall member 20 that is in contact with or close to this side.
  • the length of the other two sides (hereinafter referred to as short sides) adjacent to this side is shorter than the length of the side of each plate-like portion 31 that is in contact with or close to the front wall member 20.
  • the short sides of the four plate-like portions 31 are all equal in length.
  • the thin film portions 32 are respectively provided between the adjacent plate-like portions 31. That is, between the plate-like part 31a located on the upper side of the dust collector 3 and the plate-like part 31b located on the left side, between the plate-like part 31b located on the left side and the plate-like part 31d located on the lower side, It is provided between the plate-like portion 31d located on the lower side and the plate-like portion 31c located on the right side, and between the plate-like portion 31a located on the upper side and the plate-like portion 31c located on the right side.
  • the thin film portion 32 is an isosceles triangular thin film member whose equilateral length is equal to the short side length of the plate-like portion 31. Adjacent sides of the thin film part 32 are bonded to the short sides of the plate-like part 31 so that the adjacent plate-like parts 31 are connected via the thin film part 32.
  • the plate-like portions 31 located on the upper, lower, left and right sides of the dust collector 3 are provided with sensors 33.
  • the sensor 33 is for detecting an obstacle located in front of the dust collecting vehicle 1.
  • a total of six sensors 33 are provided, two for each plate-like portion 31.
  • the sensor 33 is provided at each of the two corners on the opposite side of the front wall member 20 of each plate-like portion 31 (31a, 31b, 31c).
  • the sensor 33 may be provided on the plate-like portion 31 (31d) located on the lower side of the dust collector 3. Further, the sensor 33 may detect not only the front side but also an obstacle on the upper side, the lower side, the left side, the right side, or the rear side.
  • the plate-like portion 31 a located on the upper side of the dust collector 3 is connected to the front upper edge portion of the front side wall member 20 by two hinges 34.
  • Two cylinders 36 are provided between the plate-like portion 31a and the structure 10 via connecting members 35a and 35b.
  • One connection member 35a is provided on each of the left and right end portions of the outer surface of the plate-like portion 31a and closer to the structure 10 than the center portion.
  • One connecting member 35b is attached to the front side of the upper surface of the two structural members 17 extending in the front-rear direction located on the upper side of the structure 10 with a wall material (not shown) covering the upper surface of the structural body 10 interposed therebetween. ing.
  • each of the two cylinders 36 is connected to the connecting member 35a, and the two cylinders 36 are pivotable in the front-rear direction with the movement in the left-right direction restricted with the connecting member 35a as an axis. .
  • the other end of the two cylinders 36 is connected to a connecting member 35b, and the connecting member 35b serves as an axis so that it can rotate in the front-rear direction with limited lateral movement. It has become. That is, the plate-like part 31 a is connected to the structure 10 by the two cylinders 36 and the hinge 34. Therefore, the plate-like portion 31a can swing in the vertical (front-rear) direction around the hinge 34 by expansion and contraction of the cylinder 36.
  • the plate-like portions 31 b and 31 c located on the left and right sides of the dust collector 3 are also connected to the structure 10 by two cylinders 36 and a hinge 34.
  • the left plate-like portion 31b will be described.
  • the plate-like part 31 b located on the left side of the dust collector 3 is connected to the front edge part of the wall material on the left side of the structure 10 by two hinges 34.
  • two cylinders 36 are provided between the plate-like portion 31b and the structure 10 via connecting members 35a and 35b.
  • one connection member 35a is provided on each of the upper and lower ends of the inner surface of the plate-like portion 31b and closer to the structure 10 than the center portion.
  • connection members 35b are attached to the left front surfaces of the two structural members 17 extending in the left and right positions on the front side of the structure 10 with the front side wall member 20 interposed therebetween.
  • One end of each of the two cylinders 36 is connected to the connection member 35a, and the two cylinders 36 can be rotated in the left-right direction with the movement in the up-down direction restricted with the connection member 35a as an axis.
  • the other ends of the two cylinders 36 are connected to a connecting member 35b, and the connecting member 35b serves as an axis and is capable of rotating in the left-right direction with limited vertical movement. It has become. That is, the plate-like portion 31 b is connected to the structure 10 by the two cylinders 36 and the hinge 34. Therefore, the plate-like portion 31b is in a state that can swing in the left and right (front and rear) directions around the hinge 34 by expansion and contraction of the cylinder 36.
  • the right plate-like portion 31c is also connected to the structure 10 in the same manner as the left-side plate-like portion 31b, except that the arrangement of the members is symmetrical. That is, the plate-like part 31 c located on the right side of the dust collector 3 is connected to the front edge part of the wall material on the right side of the structure 10 by the two hinges 34. Further, two cylinders 36 are provided between the plate-like portion 31c and the structure 10 via connecting members 35a and 35b. Further, one connection member 35a is provided on each of the upper and lower ends of the inner surface of the plate-like portion 31c and closer to the structure 10 than the center portion.
  • connection member 35b is attached to each of the right front sides of the two structural members 17 extending in the left and right positions on the front side of the structure 10 with the front side wall member 20 interposed therebetween.
  • Each cylinder 36 is connected to the connecting member 35a at one end, and is rotatable in the left-right direction with the movement in the up-down direction being restricted about the connecting member 35a.
  • the other end of each cylinder 36 is connected to a connection member 35b, and is pivotable in the left-right direction with the movement in the up-down direction restricted with the connection member 35b as an axis.
  • the plate-like portion 31 c is connected to the structure 10 by the two cylinders 36 and the hinge 34. Therefore, the plate-like portion 31 c is in a state that can swing in the left and right (front and rear) directions around the hinge 34 by expansion and contraction of the cylinder 36.
  • the plate-like portion 31d located on the lower side of the dust collector 3 is fixed to the structure 10 in a state of being inclined from the structure 10 toward the front lower direction.
  • the plate-like portion 31d is in a state where the front end portion (lower end portion) of the plate-like portion 31d is lifted by about 10 cm from this plane when the dust collecting vehicle 1 is grounded to the plane.
  • the lower plate-like portion 31d may be connected to the structure 10 by the cylinder 36 and the hinge 34 so as to be swingable.
  • the cylinder 36 expands and contracts according to information on the obstacle detected by the sensor 33 (for example, distance information between the obstacle and the plate-like portion 31).
  • Information on the obstacle detected by the sensor 33 is sent to a control circuit (not shown) provided in the dust collector 3, and the control circuit instructs the cylinder 36 to expand and contract according to the information on the obstacle detected by the sensor 33.
  • the cylinder 36 expands and contracts based on this command.
  • the control circuit may be provided integrally with the sensor 33. Also, the cylinder 36 does not automatically expand and contract in accordance with the obstacle information detected by the sensor 33, but the obstacle information detected by the sensor 33 is displayed on a display device provided in the driver's seat 2a or the like.
  • a person may issue a command as to whether the cylinder 36 is expanded or contracted. Expansion and contraction of each cylinder 36 is performed simultaneously. That is, when the two cylinders 36 connected to the upper plate-like portion 31a extend, the four cylinders 36 connected to the left and right plate-like portions 31b and 31c are contracted. Conversely, when the two cylinders 36 connected to the upper plate-like portion 31a contract, the four cylinders 36 connected to the left and right plate-like portions 31b and 31c extend. Two cylinders connected to the upper plate-like portion 31a, two cylinders connected to the left-side plate-like portion 31b, two cylinders connected to the right-side plate-like portion 31c, May be expanded and contracted separately.
  • the upper plate-like portion 31a protrudes forward from the structure 10 and is substantially the same as the upper surface of the structure 10.
  • the left and right plate-like portions 31b and 31c are arranged so as to protrude from the structure 10 to the left and right surfaces of the structure 10 when the two cylinders 36 connected thereto are contracted to the minimum. It becomes almost parallel. Therefore, when the introduction portion 30 is in the most closed state, the plate-like portion 31d on the side opposite to the structure 10 has a plate-like portion 31d on the lower side than the area of the front surface (front wall material 20) of the structure 10. It is designed to be as wide as it is open.
  • the thin film portion 32 is folded in a bellows shape (see FIG. 9).
  • the two cylinders 36 connected to the upper plate-like portion 31a are contracted or the two cylinders 36 connected to the left or right plate-like portions 31b and 31c are extended, so that the introduction portion 30 is expanded. Opens.
  • the thin film portion 32 gradually spreads from the folded bellows shape with the apex angle (corner on the structure 10 side) 32a of the isosceles triangle as a fulcrum from the state where the introduction portion 30 is opened (see FIG. 9). In the state where the introduction part 30 is opened to the maximum, the state is stretched in a flat shape. And the introduction part 30 becomes a trumpet shape that spreads forward from the structure 10 in this fully opened state.
  • the plate-like portions 31a, 31b, 31c can be opened with respect to the structure 10 (the angle formed by the structure 10 and the plate-like portions 31a, 31b, 31c when opened to the maximum).
  • the number of times may be set as appropriate as necessary.
  • transducing part 30 should just be a shape which can guide air toward the air intake part 21 from the exterior of the dust collector 3.
  • the introduction part 30 does not include the thin film part 32, the four plate-like parts 31 are trapezoidal plate-like, and formed by the adjacent plate-like parts 31, 31 coming into contact with each other on the rear side. It may be in the shape of a truncated quadrangular pyramid with a reduced cross-sectional area. Moreover, other truncated pyramid cylinder shape or truncated cone cylinder shape may be sufficient.
  • the introduction part 30 may not be a trumpet shape connected in the circumferential direction.
  • the plate-like portions 31 may not be connected by the thin film portion 32, and a gap may be provided between the plate-like portions 31. Even with such a shape, air can be guided to the air intake portion 21 by the introduction portion 30.
  • transducing part 30 may be provided anywhere if the air can be guide
  • the introduction portion 30 may be provided on the rear surface of the structure 10.
  • transducing part 30 may not be directly connected to the structure 10, but may be connected via another member.
  • the opening on the structure 10 side of the introduction part 30 is connected to one end of a straight or bent pipe, and the other end of the pipe is connected to the front wall member 20 of the structure 10 or It may be connected to the upper wall material or the like.
  • the blower 4 is provided below the driver seat 2 a of the vehicle main body 2 so as to be positioned in front of the introduction portion 30.
  • the blower device 4 includes a motor (not shown) and a blower blade that rotates by the rotation of the motor.
  • the blower 4 is provided at the lower part of the driver's seat 2a with the blower opening 4a from which the wind generated by the rotation of the blower blades blows facing downward and rearward (see FIGS. 2 and 8).
  • the motor of the blower 4 is operated by electricity generated by a rotating device 310 described later.
  • the air blower 4 may eject the air compressed with the rotating apparatus 310 mentioned later.
  • a first filter device 50, a second filter device 100, a third filter device 150, a fourth filter device 200, a fifth filter device 250, The filter group 300 comprised from these is provided inside the structure 10, as shown in FIG. 1, a first filter device 50, a second filter device 100, a third filter device 150, a fourth filter device 200, a fifth filter device 250, The filter group 300 comprised from these is provided. These five filter devices are arranged in the order of the first filter device 50, the second filter device 100, the third filter device 150, the fourth filter device 200, and the fifth filter device 250 from the front side of the dust collecting vehicle 1. Is provided. In addition, these five filter devices exist over almost the entire width in the vertical direction and the horizontal direction in the structure 10, respectively. Therefore, the air taken into the structure 10 from the air intake 21 passes through the five filter devices from the first filter device 50 to the fifth filter device 250 in order and is discharged from the air discharge unit 25. It has become. The order of arrangement of the filter devices may not be the above order.
  • the first filter device 50 includes a first filter main body (filter) 51, a turbine 52, three rollers 53, and one of the three rollers 53 for rotating the turbine 52. And a belt (power transmission unit) 54 for transmitting to the (roller 53c).
  • a portion surrounded by a circle M is a cross-sectional view showing the inside of the first filter device 50.
  • a dust storage unit is provided below the first filter device 50.
  • the dust storage portion has a substantially rectangular parallelepiped box shape in which the area of the upper surface and the lower surface is substantially equal to the lower wall material 57 of the structure 10, and is provided on the lower surface side of the lower wall material 57. And dust is stored inside the dust storage part.
  • the lower wall material 57 may also serve as the upper surface of the dust storage unit.
  • a rectangular hole penetrating them is provided in the upper surface of the dust storage portion and in front of the lower wall member 57.
  • the area of the rectangular hole is substantially the same as the area of the bottom surface of the first filter device 50.
  • a rectangular tube-shaped dust collecting portion 58 (see FIGS. 10 and 11) is provided on the upper surface of the lower wall member 57 so as to surround the rectangular hole. Accordingly, a penetrating rectangular hole is formed from the upper surface of the dust collection part 58 toward the dust storage part.
  • the three rollers 53 of the first filter device 50 are arranged side by side in parallel so that the rotation axis is directed in the left-right direction.
  • One of the three rollers 53 (roller 53a) is rotatably supported by roller mounting members 59 and 59 provided on the two structural material joints 11 on the upper front side of the structure body 10, respectively.
  • the remaining two (rollers 53b, 53c) of the three rollers 53 are rotatably supported by roller mounting members 59, 59 provided on the upper surfaces of the left and right ends of the dust collecting portion 58, respectively.
  • the three rollers 53 are arranged in a right triangle shape in which the roller 53b side is a right angle when viewed from the axial direction.
  • roller 53a is disposed directly above the roller 53b, and the roller 53c is disposed directly behind the roller 53b.
  • the roller mounting members 59 may all be provided on the structural material joint 11 or the structural material 17 of the structure 10. Further, a frame member or the like for disposing the roller mounting member 59 at a desired position may be separately provided inside the structure 10, and the roller mounting member 59 may be provided on the frame member or the like.
  • the number of rollers 53 may be two, or four or more. The arrangement of the three rollers 53 may not be a right triangle. Further, depending on the number of rollers 53, the rollers 53 may be arranged in other polygonal shapes.
  • Each of the three rollers 53 is provided with a total of three pulleys 60, one at each end and one at the center.
  • the pulley 60 is fixed to the roller 53, and the pulley 60 and the roller 53 rotate as a unit.
  • the first filter body 51 is an endless belt-shaped air filter, and is formed of a material made of a material capable of collecting dust in the air (for example, dust having a size of about 1.3 ⁇ m).
  • the lateral width (length in the left-right direction) of the first filter body 51 is substantially the same as the length of the roller 53 in the axial direction.
  • FIG. 13 is a partially enlarged view of the first filter body 51 between the rollers 53a-53c.
  • the first filter body 51 includes a ridge portion 51 a and a ridge portion 51 b.
  • the ridges 51a are U-shaped ridges extending in the left-right direction
  • the recesses 51b are U-shaped ridges (grooves) extending in the left-right direction.
  • the convex strips 51a and the concave strips 51b have the same length in the circumferential direction of the first filter body 51a, and are alternately arranged along the circumferential direction. That is, the outer surface of the first filter body 51a has a shape that is uneven at regular intervals along the circumferential direction of the first filter body 51a. And by having this unevenness
  • the first filter main body 51 is provided with protrusions 51c formed on the inner surface on both the left and right ends and the center in the left-right direction along the circumferential direction.
  • the left hanging portion 51 c is on the left pulley 60 of each roller 53
  • the central hanging portion 51 c is on the pulley 60 at the center of each roller 53
  • the right hanging portion 51 c is on each roller 53.
  • Each is suspended on the right pulley 60.
  • the first filter body 51 is stretched between the three rollers 53. For this reason, when the roller 53 rotates, the 1st filter main body 51 will circulate.
  • the part itself which functions as a filter which collects dust of the 1st filter main body 51 does not need to be an endless belt shape.
  • one or more endless belt members may be stretched between the three rollers 53, and a plurality of rectangular filters may be provided on the belt members.
  • the turbine 52 is disposed inside the first filter body 51.
  • the top plate 65 of the base 64 is disposed inside the first filter body 51.
  • the base 64 includes a rectangular top plate 65 and leg portions 66. Further, the leg portions 66 are provided at both the left and right end portions on the lower surface side of the top plate 65. Further, the leg portions 66 of the base 64 are fixed to both left and right end portions of the upper surface of the dust collecting portion 58.
  • a turbine stand 67 is provided at the center of the upper surface of the top plate 65.
  • a turbine 52 is provided on the turbine table 67.
  • the turbine 52 includes an impeller 68, an impeller rotating shaft 69 facing the front-rear direction of the dust collecting vehicle 1, a pulley 70, and a rotation direction conversion device 71.
  • the impeller 68 includes a columnar impeller core 72 having a hole in the center and a plurality of blades 73.
  • An impeller rotating shaft 69 is inserted into a hole provided in the center of the impeller core 72, and the impeller 68 is fixed to the impeller rotating shaft 69.
  • a total of four blades 73 are provided integrally with the impeller core 72 at equal intervals in the circumferential direction of the impeller core 72 while being inclined with respect to the impeller rotational shaft 69 and the impeller core 72.
  • the impeller 68 and the impeller rotating shaft 69 are rotated integrally by receiving air (wind) flowing from the air intake portion 21 of the dust collection vehicle 1 toward the air discharge portion 25.
  • the rotation direction conversion device 71 transmits the rotation of the impeller 68 to the pulley 70, and the rotation of the impeller 68 causes the pulley 70 to rotate about the rotation axis facing the left-right direction of the dust collecting vehicle 1. It has become.
  • another pulley is provided integrally with the roller 53c at the center in the axial direction of the roller 53c at the lower rear of the first filter device 50.
  • a belt (power transmission unit) 54 is stretched between the other pulley and the pulley 70 of the turbine 52, and the roller 53 c is rotated by the rotation of the pulley 70 of the turbine 52. It has become. Therefore, the rotation of the impeller 68 is transmitted through the rotation direction conversion device 71, the pulley 70, and the belt 54, so that the roller 53c rotates and the first filter body 51 rotates.
  • the impeller 68 rotates by receiving air (wind) flowing from the air intake portion 21 of the dust collection vehicle 1 toward the air discharge portion 25, and at this time, the first filter body 51 is in the direction of the arrow shown in FIG. To go around.
  • an ejection device 80 is disposed below the top plate 65 of the base 64 and inside the first filter body 51 (see FIG. 12).
  • the ejection device 80 includes a pipe 81 and an ejection part 82.
  • the pipe 81 is a straight circular pipe that faces the left-right direction of the dust collecting vehicle 1 and is arranged in parallel with the roller 53 of the first filter device 50.
  • the ejection part 82 is provided with the ejection port 82a for ejecting air, and two or more are provided in the axial direction of the pipe
  • the pipe 81 is connected to a rotating device 310 to be described later via another pipe, and air compressed by the rotating device 310 is ejected from the ejection port 82a of the ejection part 82.
  • the ejection device 80 may eject water or the like instead of ejecting air.
  • a second filter device 100 is disposed behind the first filter device 50.
  • the second filter device 100 includes a coil 101, a plurality of tubular members 102, a front plate 103, and a rear plate 104.
  • the tubular member 102 is a straight circular tubular member made of copper. The diameter of the tubular member 102 is about 10 mm.
  • the front plate 103 and the rear plate 104 are rectangular plate members (both lengths of about 2 m in length and width are about 2 m), and the structure 10 with the surface of the plate facing in the front-rear direction of the dust collecting vehicle 1. Is provided inside. Further, the rear plate 104 is provided with about 1000 holes 105 aligned in the vertical direction and the left-right direction, and the front plate 103 is also provided with holes at positions facing the holes 105 of the rear plate 104. .
  • tubular member 102 is inserted into each hole 105 and the hole of the front plate 103 at a position facing the hole 105. Specifically, one end of the tubular member 102 is fitted into the hole 105 of the rear plate 104, and the other end of the tubular member 102 is inserted into the hole of the front plate 103 at a position facing the hole 105. The part is inserted. Therefore, about 1000 tubular members 102 are aligned in the vertical direction and the horizontal direction with their axes directed in the front-rear direction.
  • a coil 101 is wound around the outer peripheral portion of each tubular member 102 between the front plate 103 and the rear plate 104.
  • the coil 101 includes nine counterclockwise portions 101a wound around the coil 101 as viewed from the front side in the axial direction and nine clockwise portions 101b wound clockwise. Further, the counterclockwise portion 101 a and the clockwise portion 101 b are alternately and repeatedly arranged along the axial direction of the tubular member 102.
  • a current is passed through the coil 101 from a rotating device 310 described later. That is, the rotating device 310 works as a power source for causing a current to flow through the coil 101.
  • a DC voltage of about 24 volts or more is applied from the rotating device 310, and at this time, a DC current of, for example, about 100 A or more flows through the coil 101.
  • the tubular member 102 is not a straight circular tube, and may be bent. According to such a shape, the tubular member 102 can guide air in a direction in which it is desired to flow.
  • a third filter device 150 is disposed behind the second filter device 100.
  • the third filter device 150 includes a plurality of laser devices 151 and a laser device installation member 152.
  • the laser device installation member 152 is a member having a U-shaped cross section that is long on the left and right. As shown in FIG. 17, the laser device installation member 152 is in contact with the upper portion of the rear surface of the rear plate 104 of the second filter device 100 with the U-shaped opening facing the rear side. .
  • the laser device installation member 152 may be joined to the rear plate 104 by welding or the like, or may be joined to the structure 10 by welding or the like.
  • a plurality of holes 154 are provided on the upper surface 153 of the laser device installation member 152 in a staggered manner in the left-right direction at a predetermined interval. That is, the plurality of holes 154 arranged on the front side are arranged at the same pitch P in the left-right direction, and the plurality of holes 154 arranged on the rear side are arranged at the same pitch P in the left-right direction.
  • the hole 154 arranged on the rear side is located at the center position between the holes 154 and 154 arranged on the front side and adjacent to the left and right. Further, the hole 154 arranged on the front side and the hole 154 arranged on the rear side partially overlap in the front-rear direction.
  • the plurality of holes 154 are all arranged so as to pass on the same straight line (shown as a one-dot chain line A in FIG. 16). That is, the rear end portion of the hole 154 at the position shifted to the front side is located behind the straight line (dashed line A), and the front end portion of the hole 154 at the position shifted to the rear side is the straight line (dashed line). It is located in front of A). Note that the hole 154 disposed on the front side and the hole 154 disposed on the rear side adjacent to the left and right may partially overlap in the left-right direction.
  • a hole 156 is provided on the lower surface 155 of the laser device installation member 152 at a position facing the hole 154 on the upper surface 153.
  • the laser device 151 is a substantially cylindrical device that emits a sterilizing laser beam L (for example, an output of 1000 watts or more).
  • the laser device L is emitted in a direction directly below the laser device installation member 152. Is provided.
  • the laser device 151 is fixed to the laser device installation member 152 with one end inserted into the hole 154 in the upper surface 153 of the laser device installation member 152 and the other end inserted into the hole 156 in the lower surface 155. ing.
  • the laser device 151 is operated by electricity generated by the rotating device 310.
  • the laser light L emitted from one of the plurality of laser devices 151 is on the axial rearward extension line of the tubular member 102 of the second filter device 100 aligned in the vertical direction at a predetermined interval. Pass through. Further, the same number of laser devices 151 as the tubular members 102 arranged at a predetermined interval in the left-right direction are provided. That is, one laser device 151 is provided for each vertical row of the tubular members 102 arranged, and the laser light L emitted from one laser device 151 is a single row of tubular tubes aligned in the vertical direction. All of the members 102 pass on the axial rearward extension line.
  • the width in the left-right direction of the laser light L emitted from one laser device 151 is larger than the inner diameter of the tubular member 102. That is, the laser beam L is applied to almost all the air coming out of each tubular member 102. That is, the air is guided by the tubular member 102 so that the laser light L strikes the air passing under the third filter device 150.
  • the third filter device 150 can also be used in place of agricultural chemicals in the field of agriculture to sterilize or to kill insects by applying laser light L to insect eggs or the like.
  • the laser device 151 may be appropriately selected to emit a desired laser beam L according to the application of the third filter device 150.
  • the third filter device 150 can be used for crime prevention and defense purposes by appropriately selecting a laser device 151 that emits an appropriate laser beam L. Can also be used.
  • the fourth filter device 200 is disposed behind the third filter device 150.
  • FIG. 19 shows the fourth filter device 200.
  • FIG. 20 is a cross-sectional view of a part of the fourth filter device 200 as viewed from below.
  • the fourth filter device 200 includes a substantially rectangular activated carbon filter 201 that is pleated (has a folded shape) and a rectangular frame 202.
  • the fourth filter device 200 is provided inside the structure 10.
  • the activated carbon filter 201 can adsorb carbon monoxide, carbon dioxide, exhaust gas, and the like. Moreover, the activated carbon filter 201 has a deodorizing effect.
  • a fifth filter device 250 is disposed behind the fourth filter device 200 as shown in FIG. As shown in FIGS. 21 and 22, the fifth filter device 250 includes a pleated substantially cylindrical HEPA filter 251 and a plate shape having a rectangular shape (both sides in the vertical and horizontal directions are approximately 2 m long).
  • the HEPA filter installation plate 252 is provided.
  • the HEPA filter installation plate 252 is provided inside the structure 10 with the plate surface facing the front-rear direction of the dust collection vehicle 1.
  • a plurality of HEPA filters 251 are provided on the HEPA filter installation plate 252 so as to protrude forward from the HEPA filter installation plate 252.
  • the HEPA filter installation plate 252 is provided with a circular hole 253 having substantially the same diameter as the inner diameter of the HEPA filter 251 at the portion where the HEPA filter 251 is provided. Further, a shielding plate 254 is provided at the front end of the cylindrical HEPA filter 251 so as to close the cylindrical hole. Therefore, the air that has passed through the fourth filter device 200 flows from the outer peripheral surface side of the HEPA filter 251 to the inner peripheral surface side, passes through the hole 253, and flows toward the rear side of the fifth filter device 250. ing.
  • a cooling bed 301 is provided on the rear side of the fifth filter device 250.
  • the cooling bed 301 is a plate-like member made of paper and having a thickness of about 15 cm.
  • the cooling bed 301 is provided inside the structure 10 with the surface of the plate facing in the front-rear direction of the dust collection vehicle 1.
  • the cooling bed 301 has a multilayer structure such as corrugated cardboard stacked in multiple layers from the bottom to the top so that air can flow between the layers from the front side to the rear side.
  • a water tank 302 for storing water is provided at the rear of the driver seat 2a.
  • two water tanks 302 are also provided on the inner rear upper part of the structure 10 so as to be separated from each other on the left and right.
  • a water pipe 303 is provided inside the structure 10 so as to cross the upper side of the cooling bed 301 to the left and right.
  • the water pipe 303 is connected to a water tank 302 provided in the upper rear portion inside the structure 10.
  • the water pipe 303 is provided with a plurality of holes below, so that water stored in the water tank 302 can be supplied to the cooling bed 301 through the water pipe 303.
  • the cooling bed 301 can be made into the state moistened with the water supplied from the water tank 302.
  • a rotating device 310 is provided behind the cooling bed 301 as shown in FIG.
  • the rotating device 310 is supported by a frame member 309 connected to the structure 10 by welding or the like (see FIG. 23).
  • the rotating device 310 includes a casing 311, a rotating shaft 312, and a prime mover 313.
  • the prime mover 313 may be driven by fuel such as gasoline or light oil, or may be a motor driven by electricity.
  • the prime mover 313 is provided separately from the prime mover for running the dust collection vehicle 1. However, the prime mover 313 drives the rotating device 310 and runs the dust collection vehicle 1 with one prime mover. Also good.
  • the rotary shaft 312 and the prime mover 313 are provided with a clutch 314 (see FIG. 25), and the rotary shaft 312 and the prime mover 313 are connected by the clutch 314. Therefore, when the clutch 314 is connected, the rotation of the prime mover 313 is transmitted to the rotary shaft 312, and when the clutch 314 is disconnected, the rotation of the prime mover 313 is not transmitted to the rotary shaft 312. .
  • the rotating shaft 312 is provided so as to penetrate the casing 311 with the shaft facing the front-rear direction of the dust collecting vehicle 1.
  • the rotating shaft 312 includes a permanent magnet (rotor) 315, an impeller 316 (compressor) in order from the prime mover 313 side (front side) toward the opposite side (rear side) end. ) And an impeller 317.
  • the permanent magnet 315 and the impeller 316 are in a state of being accommodated inside the casing 311.
  • the rotating shaft 312 is located at the approximate center of the structure 10 in the front-rear direction and the up-down direction.
  • a plurality of coils (stator) 318 are provided on the inner surface of the casing 311 with a predetermined gap from the permanent magnet 315.
  • the rotation shaft 312 is rotated by the rotation of the prime mover 313, whereby the permanent magnet 315 is rotated, and the permanent magnet 315 and the coil 318 cooperate to generate power.
  • the generated electricity is taken out from the coil 318 and stored in a battery or used directly.
  • the coil 101 of the second filter device 100, the laser device 151 of the third filter device 150, etc. electricity generated by the rotating device 310 is used, but electricity taken out from the coil 318 may be used as it is. Once stored in the battery, it may be used.
  • a current is supplied to the coil 318 from an external power source such as a battery or an outlet, a magnetic field is generated, and the rotating shaft 312 can be rotated using a force repelling or attracting the permanent magnet 315. ing.
  • the casing 311 is provided with a plurality of holes provided in the casing 311 and a suction port 320 and a discharge port 321.
  • the impeller 316 rotates with the rotation of the rotating shaft 312
  • air is sucked into the casing 311 from the suction port 320, and the sucked air is compressed by the impeller 316. It is discharged from the discharge port 321.
  • the discharge port 321 has a pipe shape, and compressed air is sent to other parts through a pipe connected to the discharge port 321.
  • the impeller 317 is provided at the rear end of the rotating shaft 312.
  • the impeller 317 includes a first support member 324 supported by the rotation shaft 312, a plurality of blades 325, and an adjustment device 326 for adjusting the angle of the blades 325.
  • the first support member 324 includes a disk-shaped disk portion 324a.
  • a hole 324b is provided at the center of the disc portion 324a, and an end portion on the rear side of the rotating shaft 312 is fitted into the hole 324b.
  • a cylindrical support portion 324c is provided integrally with the disc portion 324a so as to protrude forward from the outer peripheral portion of the disc portion 324a.
  • the support portion 324c is provided with a plurality of holes 324d through which the blades 325 are inserted at equal intervals in the circumferential direction.
  • the adjustment device 326 includes a second support member 327, a connection member 328, a wire 329, an adjustment device casing 330, and an adjustment knob 331.
  • the second support member 327 is a substantially disk-shaped member having a hole 327a provided at the center.
  • the rotation shaft 312 is inserted into the hole 327a and is fixed to the rotation shaft 312. .
  • the same number of connection members 328 as the blades 325 are provided on the outer peripheral portion of the second support member 327 so as to protrude rearward.
  • the rear end portion of the connection member 328 is connected to the end portion of the blade 325 on the rotating shaft 312 side. Accordingly, the blade 325 is supported by the first support member 324 by being inserted into the hole 324 d of the first support member 324, and the end portion is connected to the connection member 328.
  • the adjustment knob 331 has a male screw shape, and the adjustment device casing 330 is provided with a female screw portion 332 corresponding to the adjustment knob 331 as shown in FIG.
  • the adjustment knob 331 is screwed into the female screw portion 332.
  • a wire 329 is connected to the adjustment knob 331.
  • the wire 329 passes through the adjustment device casing 330 and is connected to the connection member 328 via an adjustment mechanism inside the second support member 327.
  • the adjusting mechanism inside the second support member 327 moves the connecting member 328 according to the tension of the wire 329 and changes the direction of the blade 325 (the direction of the blade 325 with respect to the rotation direction of the blade 325).
  • the adjustment knob 331 When the adjustment knob 331 is turned in the direction in which the adjustment knob 331 is screwed into the adjustment device casing 330, the wire 329 is loosened. Further, when the adjustment knob 331 is turned in a direction away from the adjustment device casing 330, the wire 329 is pulled. When the adjustment knob 331 is turned in the direction in which the wire 329 is loosened, the connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is parallel to the rotation direction of the impeller 317 ( It rotates so as to face the direction perpendicular to the rotation shaft 312.
  • connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is in a direction perpendicular to the rotation direction of the impeller 317 ( It rotates so as to face in a direction parallel to the rotation axis 312.
  • a cylindrical tubular body 335 is provided on the inner side of the structure 10 so as to cover the outer circumferential side of the impeller 317.
  • the rotating shaft 312 rotates by connecting the clutch 314 and operating the prime mover 313.
  • the impeller 317 provided on the rotary shaft 312 rotates so that air can flow from the air intake portion 21 toward the air discharge portion 25. That is, the rotating device 310 functions as a dust collector air blower that allows air to flow from the air intake unit 21 toward the air discharge unit 25.
  • the permanent magnet 315 provided on the rotating shaft 312 rotates, and power generation is performed by the cooperation of the permanent magnet 315 and the coil 318.
  • the impeller 316 provided on the rotating shaft 312 rotates to compress the air.
  • the blower 4, the coil 101 of the second filter device 100, and the laser device 151 of the third filter device 150 are operated by electricity generated by the rotating device 310. Further, the air compressed by the rotating device 310 is ejected from the ejection device 80. For this reason, the dust collection by the dust collection vehicle 1 can be performed only by moving the prime mover 313 of the rotating device 310. Therefore, the dust collector 3 can be used even in a place where it is difficult to secure a power source. Moreover, there is no need to load an extra battery. Moreover, you may use the air compressed with the rotation apparatus 310, and the produced
  • the rotating device 310 can be moved using a power source such as an outlet. That is, for example, when using a power source of an outlet, the AC power obtained from the outlet is converted into direct current through an inverter, and the current from the inverter is passed through the coil 318, thereby generating a magnetic field in the coil 318 and affecting the permanent magnet 315. As a result, the rotary shaft 312 rotates. Therefore, by disengaging the clutch 314 and moving the rotating device 310 with a power source such as an outlet, the air can be compressed and the air blown by the rotation of the impeller 317 without using the prime mover 313.
  • a power source such as an outlet
  • the air compression may not be performed by the rotation of the impeller 316.
  • a reciprocating compressor that reciprocates a piston using the rotation of the rotating shaft 312 or a single screw compressor or a twin screw compressor in which a screw is provided on the rotating shaft 312 may be used.
  • the dust collection vehicle 1 includes the vehicle body 2 that travels by the power of the prime mover, and therefore can travel. Therefore, the dust collecting vehicle 1 can be easily moved to a place where it is desired to clean the air.
  • the air flows from the air intake unit 21 toward the air discharge unit 25 by the rotation of the impeller 317 of the rotation device 310. Then, air is taken into the air intake unit 21 from the outside of the dust collector 3. Further, the dust collector 3 is provided with an introduction portion 30 so as to surround the front side wall member 20 of the structure 10 in which the air intake portion 21 is provided. Since the introduction part 30 has a wide opening on the opposite side to the air intake part 21, the air coming toward the introduction part 30 is guided to the air intake part 21. Therefore, a wider range of air can be taken into the dust collecting device 3 than in the case where the introduction unit 30 is not provided. In particular, when the dust collection vehicle 1 performs dust collection while the dust collection vehicle 1 is traveling, the effect of the introduction unit 30 is great. That is, during the traveling of the dust collection vehicle 1, the air flow from the air intake unit 21 to the air discharge unit 25 is also generated by the traveling of the dust collection vehicle 1. Therefore, more air and dust can be taken into the dust collecting device 3.
  • the air taken into the dust collector 3 from the air intake 21 first passes through the first filter body 51 of the first filter device 50, and a part of the dust contained in the air is captured by the first filter body 51. Be collected.
  • the air that has passed through the first filter body 51 then passes through the tubular member 102 of the second filter device 100. Since the coil 101 is wound around the tubular member 102 and an electric current is passed through the coil 101, the air that has passed through the tubular member 102 is ionized and cleaned.
  • the air that has passed through the tubular member 102 is then applied to the laser light L of the third filter device 150. Since the laser light L has a sterilizing power, bacteria contained in the air passing through the laser light L are killed.
  • the air applied to the laser light L passes through the activated carbon filter 201 of the fourth filter device 200.
  • carbon monoxide, carbon dioxide, exhaust gas and the like contained in the air are adsorbed by the activated carbon filter 201.
  • the activated carbon filter 201 also performs deodorization such as ammonia odor.
  • the air that has passed through the activated carbon filter 201 then passes through the HEPA filter 251 of the fifth filter device 250.
  • the bacteria killed by the laser beam L and other dust remaining in the air are collected by the HEPA filter 251.
  • the air that has passed through the HEPA filter 251 then passes through the cooling bed 301. Since the cooling bed 301 is moistened with water, the air passing through the cooling bed 301 is cooled. As described above, the cleaned and cooled air is discharged from the air discharge unit 25.
  • each filter apparatus and the rotation apparatus 310 is not restricted to the order of this embodiment. It is only necessary that the rotation device 310 allows air to flow from the air intake portion 21 toward the air discharge portion 25 so that the air passes through each filter device.
  • each filter apparatus and the cooling bed 301 may be provided only with what is required according to the dust to collect or the necessity of cooling of air.
  • the structure 10 provided with each filter device and the like is constructed of a framework by the structural material joint 11 and the structural material 17, so that it can be easily adapted to the number and size of the devices and the like to be provided inside.
  • the structure 10 can be enlarged or reduced.
  • the first filter body 51 and the HEPA filter 251 may use different types of air filters or the like depending on the type of dust to be collected.
  • Such a dust collecting vehicle 1 is, for example, a place where events such as festivals are held, a place where people such as schools gather, a place where the traffic of vehicles is heavy, a place where air is easily contaminated, a place where it is dirty, etc. Used to stop.
  • the dust collection vehicle 1 includes a vehicle main body 2 that is a truck on which a 20-foot container can be loaded and can be driven by the power of the prime mover. Therefore, the dust collection vehicle 1 is placed in such a place only when people gather. It is possible to move 1 to remove dust in the air or to cool the air. Since the dust collector 3 can be handled in the same manner as a normal container and can be easily removed, the dust collector 3 can be removed and installed to clean the air.
  • the dust collecting vehicle 1 can also be used while traveling.
  • the air in such an area can be purified by running in an area where air pollution is severe.
  • the air blower 4 is provided in the lower part of the driver's seat 2a in the lower part of the driver's seat 2a of the vehicle body 2 with the air outlet 4a directed downward and rearward, the air blower 4 is operated. Wind is blown from the blower 4 toward the ground, and dust on the ground is blown toward the plate-like portion 31d and the air intake portion 21. Therefore, by moving the dust collecting vehicle 1 while moving the blower 4, the blown-up dust can be sucked into the dust collecting device 3 and collected. Therefore, dust falling on the ground can be collected like a road surface cleaning car.
  • the air blower 4 can blow dust and the like on the ground toward the plate-like portion 31d and the air intake portion 21, so that dust can be collected. Dust etc. can be collected even if the vehicle 1 for dust collection is run quickly, and costs such as brush replacement do not occur. Further, by increasing the strength of the wind sent from the blower 4, relatively large dust can be collected.
  • the dust collection vehicle 1 can be used to collect pieces of a tire, pebbles and the like of an airplane tire that have fallen on the runway of the airplane, or to maintain a playground.
  • the first filter body 51 of the first filter device 50 and the like may be changed so as to be a filter suitable for collecting dust or the like according to the size of dust or the like to be collected.
  • the turbine 52 is rotated by air flowing from the front to the rear of the first filter device 50.
  • the rotation of the turbine 52 is transmitted to the roller 53c via the belt (power transmission unit) 54, and the roller 53c rotates.
  • the first filter body 51 stretched between the three rollers 53 rotates around the roller 53c.
  • the surface of the first filter main body 51 facing the air flowing side is sequentially changed. That is, in the first filter main body 51, the surface that mainly functions as a filter is the surface facing the fluid flowing side, but by circulating the first filter main body 51, the fluid flowing side The surface functioning as a filter can be turned around. For this reason, the effective area of the filter can be widened, and the filter is not easily clogged without replacing the filter. Therefore, the filter performance of the first filter body 51 can be maintained for a long time. Moreover, since the force of collecting the dust on the filter is difficult to drop, the air can be efficiently cleaned.
  • the 1st filter main body 51 can be circulated by natural forces, such as a wind and a water flow, it is not necessary to provide the motor etc. for rotating the 1st filter main body 51.
  • FIG. Moreover, the 1st filter main body 51 can also be circulated by this flowing air by using together with the apparatus which flows air like the rotation apparatus 310 of the vehicle 1 for dust collection which concerns on this Embodiment. Then, for example, the rotational speed of the first filter body 51 can be adjusted by adjusting the rotational speed of the rotary shaft 312 of the rotating device 310.
  • the ejection apparatus 80 is arrange
  • the air compressed by the rotating device 310 is ejected from the ejection port 82a.
  • a dust collecting unit 58 and a dust storage unit are provided below the first filter device 50. Therefore, dust adhering to the first filter body 51 is pushed out by the air ejected from the ejection port 82 a, and the dust is stored in the dust storage unit through the dust collection unit 58.
  • the plurality of ejection portions 82 are provided in the axial direction of the pipe 81 extending in the left-right direction, and the first filter body 51 circulates around the pipe 81 due to the rotation of the turbine 52. Dust from the entire filter can be removed and stored in the dust storage unit. Therefore, the first filter body 51 is not clogged, and the filter performance can be maintained for a long time. Further, since dust is pushed out by air, the filter is less likely to be damaged and the filter performance can be maintained for a long period of time compared to a method in which dust is removed by rubbing the filter with a brush or the like.
  • the rear plate 104 is provided with a plurality of holes 105 aligned in the vertical direction and the left-right direction, and the front plate 103 also has holes 105 in the rear plate 104.
  • a hole is provided at a position opposite to.
  • one end of the tubular member 102 is fitted into the hole 105 of the rear plate 104, and the other end is fitted into the hole of the front plate 103 at a position facing the hole 105. . Therefore, the tubular members 102 are aligned and aligned in the up-down direction and the left-right direction with the shaft directed in the front-rear direction.
  • a coil 101 is wound around the outer peripheral portion of each tubular member 102 between the front plate 103 and the rear plate 104, and a current flows from the rotating device 310 to the coil 101.
  • the air that has passed through the first filter device 50 passes through the inside of the tubular member 102 of the second filter device 100.
  • a magnetic field is generated inside the tubular member 102 by causing a current to flow through the coil 101, and each molecule in the air passing through the tubular member 102 is affected by the magnetic field. And the molecule
  • negative ions are generated when charged particles or the like in the air receive a force from a magnetic field or an electric field and become active and collide with molecules in the air or the inner wall of the tubular member. Therefore, negative ions increase and the air is cleaned. Moreover, harmful substances are decomposed and the air is cleaned by collision of charged particles whose movement is active. Moreover, since the tubular member 102 is made of copper and is heated when a current flows through the coil 101, the bacteria in contact with the tubular member 102 can be killed. Therefore, the air passing through the inside of the tubular member 102 is cleaned.
  • the tubular member 102 is not limited to copper but can be heated and kill bacteria even if it is made of other metals.
  • the coil 101 includes a counterclockwise portion 101a in which the coil 101 is wound counterclockwise when viewed from the front side in the axial direction, and a clockwise portion 101b wound in the clockwise direction. Further, the counterclockwise portion 101 a and the clockwise portion 101 b are alternately and repeatedly arranged along the axial direction of the tubular member 102. For this reason, charged particles or the like passing through the inside of the tubular member 102 receive a force from a magnetic field whose direction changes alternately. Therefore, as compared with the case where only the coil 101 is wound in one direction, the movement of charged particles or the like becomes more random and active, molecules are likely to react, and negative ions are likely to be generated. Therefore, the air passing through the inside of the tubular member 102 is further purified.
  • the laser device 151 is fitted into the hole 154 and the hole 156 arranged in the left-right direction so that the laser light L is emitted directly downward. It is provided in the state.
  • the plurality of holes 154 and holes 156 arranged on the front side are arranged at the same pitch P in the left-right direction
  • the plurality of holes 154 and holes 156 arranged on the rear side are arranged at the same pitch P in the left-right direction.
  • the hole 154 or the hole 156 arranged on the rear side is located at the center position between the holes 154 and 154 or the holes 156 and 156 which are arranged on the front side and adjacent to the left and right.
  • the hole 154 and the hole 156 are provided side by side in the left-right direction, and the adjacent hole 154 and the adjacent hole 156 are arranged at positions shifted in the front-rear direction. Therefore, it is possible to prevent the adjacent laser devices 151 from colliding with each other in the left-right direction, and to arrange the laser devices 151 with a small interval in the left-right direction. In particular, when the laser device 151 has a portion that protrudes in the left-right direction, the effect of shifting the adjacent holes 154 and the adjacent holes 156 in the front-rear direction is great. Further, the hole 154 (hole 156) disposed on the front side and the hole 154 (hole 156) disposed on the rear side adjacent to the left and right are partially overlapped in the left-right direction. It can also be arranged.
  • the laser device 151 can be arranged so that the laser light L passes through the rear extension of each tubular member 102. desirable.
  • the laser devices 151 are arranged with a small distance in the left-right direction, so that the rear extension lines of the tubular members 102 arranged in the left-right direction at predetermined intervals are arranged.
  • a laser device 151 is arranged so that the laser light L passes.
  • the laser light L emitted from one of the laser devices 151 passes on the rear extension line of the tubular member 102 aligned at a predetermined interval in the vertical direction.
  • one laser device 151 is provided for each vertical row of the tubular members 102 arranged, and the laser light L emitted from one laser device 151 is aligned in a vertical direction. All of the tubular members 102 pass over the axial rearward extension line. Therefore, the sterilizing laser light emitted from the laser device 151 is applied to the air flowing out from the tubular member 102. Therefore, the bacteria contained in the air that has passed through the second filter device 100 can be killed by being irradiated with laser light having a large amount of heat and high sterilization power, and the air can be purified. Further, the number of necessary laser devices 151 can be obtained by allowing the laser light L emitted from one laser device 151 to pass along the axial rearward extension lines of all the tubular members 102 aligned in the vertical direction. Has been reduced.
  • rotating shaft 312 is rotated by the rotation of prime mover 313. Then, by rotating the rotating shaft 312, power generation by the cooperation of the permanent magnet 315 and the coil 318, air blowing by the rotation of the impeller 317, and air compression by the rotation of the impeller 316 are performed. Therefore, ventilation, power generation, and gas compression can be performed by one power source.
  • the permanent magnet 315, the impeller 316 and the impeller 317 are provided on one rotating shaft 312. That is, the permanent magnet 315, the impeller 316, and the impeller 317 are coaxially arranged. Therefore, the size of the rotating device 310 in the radial direction of the rotating shaft 312 can be reduced, and the rotating device 310 can be reduced in size, so that the rotating device 310 can be installed in a space-saving manner.
  • connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is parallel to the rotation direction of the impeller 317 ( It rotates so as to face the direction perpendicular to the rotation shaft 312.
  • the connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is in a direction perpendicular to the rotation direction of the impeller 317 ( It rotates so as to face in a direction parallel to the rotation axis 312. Therefore, the angle of the impeller blades can be changed, and the pressure applied to the air by the impeller and the amount of air sent by the rotation of the impeller can be adjusted as necessary.
  • the introduction part 30 is in the most closed state, and the area of the opening opposite to the structure 10 is the same as that before the air intake part 21 is provided.
  • the plate-shaped portion 31d on the lower side of the side wall member 20 has an open area that is larger than that of the side wall member 20, and in the open state, from the most closed state to the opposite side of the structure body 10.
  • the opening is designed to open. Therefore, since the area of the opening on the opposite side is larger than the area of the opening on the air intake part 21 side in the open state, the introduction part 30 collects wind coming toward the introduction part 30 to collect the air intake part. 21.
  • the plate-like portion 31 which is a part of the introduction portion 30 is connected to the structure 10 via an extendable cylinder 36, and the plate-like portion 31 is moved vertically or horizontally by the expansion and contraction of the cylinder 36. Swing.
  • the introduction part 30 opens and closes when the plate-shaped part 31 swings. Therefore, the introduction part 30 is in an openable / closable state, and the introduction part 30 can be easily traveled even in a narrow place by closing the introduction part 30.
  • the introduction part 30 is provided in the front side of the structure 10 in which the air intake part 21 is provided, and in the closed state, the upper plate-like part 31a protrudes from the structure 10 to the front side.
  • the left and right plate-like portions 31 b and 31 c are substantially parallel to the left and right surfaces of the structure 10 in a state where the left and right plate-like portions 31 b and 31 c protrude from the structure 10 to the front side. Then, from this state, the front of the upper plate-like portion 31a opens upward, and the left and right plate-like portions 31b and 31c open in the left-right direction, whereby the introduction portion 30 is in the open state.
  • the opening part on the side opposite to the air intake part 21 is directed forward in the traveling direction of the dust collecting vehicle 1 in the open state. Therefore, when the dust collection vehicle 1 travels, air can flow from the introduction unit 30 to the air intake unit 21 and the air discharge unit 25. Therefore, by running the dust collection vehicle 1, dust in the air Can be collected, and a wide range of air in which the vehicle 1 for dust collection is run can be purified. Therefore, the air can be efficiently cleaned.
  • the blower 4 is provided at the lower part of the driver's seat 2a with the blower port 4a facing downward and rearward.
  • the dust contained in the air includes dust that repeatedly falls on the ground or resprays. However, since the dust that has fallen on the ground can be lifted and collected by the blower 4, it is efficient. It can collect dust and clean the air.
  • the plate-like portions 31 located on the upper, lower, left and right sides of the dust collector 3
  • the plate-like portions 31 (31a, 31b, 31c) located on the upper, left, and right are provided with sensors 33.
  • the obstacle information detected by the sensor 33 is sent to a control circuit provided in the dust collector 3, and the control circuit instructs the cylinder 36 to expand and contract according to the obstacle information detected by the sensor 33.
  • the cylinder 36 expands and contracts based on this command. Therefore, when there is an obstacle while the dust collecting vehicle 1 is traveling, the introduction part 30 automatically opens and closes, so that the vehicle can travel smoothly and can travel a longer distance in a short time. A wide range of air can be cleaned, and the air can be efficiently cleaned.
  • the sensor 33 may be provided in the driver's seat 2a or the structure 10, but the sensor 33 is mainly used to detect an obstacle so that the introduction unit 30 does not hit the obstacle. It is preferable to be provided in the introduction part 30 so that the distance between the part 30 and the obstacle can be measured accurately.

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Abstract

Provided is a dust collection vehicle that is suitable for cleaning air while moving and that can clean air efficiently. This dust collection vehicle 1 comprises a vehicle body 2 that travels with the power of a prime mover and a dust collection device 3 that is disposed on the vehicle body 2. The dust collection device 3 is equipped with: an air intake portion 21 for taking in air; an air discharge portion 25 for discharging air; at least one filter device which is disposed between the air intake portion 21 and the air discharge portion 25 and cleans the air taken in from the air intake portion 21; and an air blower 310 for the dust collection device, which sends air from the air intake unit 21 toward the air discharge unit 25. Therefore, this dust collection vehicle 1 is suitable for cleaning air while moving and can clean air efficiently.

Description

集塵用車両Dust collection vehicle
 本発明は、集塵用の車両に関する。 The present invention relates to a vehicle for collecting dust.
 近年、大気汚染の問題が深刻化しており、空気中に含まれる塵や埃、その他病原菌等(以下、塵埃という)、あるいは、地面に積もった塵埃を捕集する技術に注目が集まっている。空気中に含まれる塵埃を捕集する集塵装置として、例えば、特許文献1に記載のものが知られている。このような集塵装置は、一般に、交通量の多い道路周辺等、空気が汚れやすい場所に設置され、空気を清浄化するために用いられる。 In recent years, the problem of air pollution has become serious, and attention has been focused on technologies for collecting dust and dirt contained in the air, other pathogenic bacteria (hereinafter referred to as dust), or dust accumulated on the ground. As a dust collector that collects dust contained in the air, for example, the one described in Patent Document 1 is known. Such a dust collector is generally installed in a place where air is easily contaminated, such as around a road with heavy traffic, and is used to clean the air.
特開2003-299987号公報JP 2003-299987 A
 ところで、定点に設置する集塵装置の場合、集塵装置を設置した近辺の空気しか清浄化することができず、空気を清浄化したい場所ごとに集塵装置を設置する必要があり、多数の集塵装置が必要となるので、コストが高くなってしまうという問題がある。また、景観が崩れるといった問題や、設置スペースが無いという問題により、設置ができないこともある。また、特定の時間や季節にのみ人や車が集まる等して空気の清浄化が必要となる場合も考えられ、このような場合に、随時集塵装置を設置するのでは手間とコストがかかるという問題がある。また、このような屋外等広い空間の空気を清浄化する集塵装置は、家庭内で使われるような空気清浄機等に比べ大型となるので、集塵装置にキャスターを設ける等して移動可能としても移動させるのが困難という問題がある。 By the way, in the case of a dust collector installed at a fixed point, only the air in the vicinity where the dust collector is installed can be cleaned, and it is necessary to install a dust collector for each place where it is desired to clean the air. Since a dust collector is required, there is a problem that the cost becomes high. In addition, the installation may not be possible due to the problem that the landscape collapses or the problem that there is no installation space. In addition, it may be necessary to clean the air by gathering people and cars only at specific times and seasons. In such a case, installing a dust collector at any time takes time and cost. There is a problem. In addition, dust collectors that clean air in large spaces such as outdoors are larger than air cleaners that are used in the home, so they can be moved by installing casters on the dust collector. However, there is a problem that it is difficult to move.
 本発明は、前記事情に鑑みてなされたもので、移動させて空気を清浄化するのに適しており、空気を効率的に清浄化できる集塵用車両を提供することを目的とする。 The present invention has been made in view of the above circumstances, and is intended to provide a dust collecting vehicle that is suitable for moving and purifying air and that can efficiently clean air.
 前記目的を達成するために、本発明の集塵用車両は、原動機の動力によって走行する車両本体と、この車両本体に設けられた集塵装置と、を備えており、
 前記集塵装置は、空気を取り入れる空気取入部と、空気を排出する空気排出部と、前記空気取入部と前記空気排出部との間に設けられ、前記空気取入部から取り入れた空気を清浄化する少なくとも1つのフィルタ装置と、前記空気取入部から前記空気排出部に向けて空気を流す集塵装置用送風装置と、を備えていることを特徴とする。
In order to achieve the above object, a dust collection vehicle of the present invention includes a vehicle main body that travels by the power of a prime mover, and a dust collector provided in the vehicle main body.
The dust collector is provided between an air intake unit that takes in air, an air discharge unit that discharges air, and the air intake unit and the air discharge unit, and purifies the air taken from the air intake unit At least one filter device, and a dust collector air blower for flowing air from the air intake portion toward the air discharge portion.
 本発明においては、集塵用車両は、原動機の動力によって走行する車両本体を備えているので、走行することができる。よって、空気を清浄化させたい場所に集塵用車両を容易に移動できるので、移動させて空気を清浄化するのに適している。 In the present invention, the dust collecting vehicle includes a vehicle body that travels by the power of the prime mover, and therefore can travel. Therefore, the dust collecting vehicle can be easily moved to a place where the air is desired to be cleaned, and therefore, it is suitable for moving and purifying the air.
 また、集塵装置用送風装置を作動させることにより、空気取入部から空気排出部へ向けて空気が流れる。よって、空気取入部へ集塵装置の外から空気が取り入れられ、この取り入れられた空気は、フィルタ装置を通過することで清浄化され、空気排出部から排出される。また、空気取入部が、風の吹いてくる方向を向くように集塵用車両の向きを変えることで、集塵装置用送風装置による空気の流れに加えて、自然の風の力も利用できるが、集塵用車両は走行可能なので、集塵用車両の向きを容易に変えることができる。したがって、効率的に空気を清浄化することができる。 Also, by operating the dust collector air blower, air flows from the air intake part to the air discharge part. Therefore, air is taken into the air intake part from the outside of the dust collector, and the taken-in air is purified by passing through the filter device and discharged from the air discharge part. In addition, by changing the direction of the dust collecting vehicle so that the air intake part faces the direction of the wind blowing, in addition to the air flow by the dust collecting blower, natural wind force can be used. Since the dust collecting vehicle can travel, the direction of the dust collecting vehicle can be easily changed. Therefore, air can be efficiently cleaned.
 また、集塵装置用送風装置により空気取入部から空気排出部へ向けて空気を流せるので、集塵用車両を走行させながらでも空気の清浄化をすることができ、広範囲の空気を効率的に清浄化できる。 In addition, air can flow from the air intake part to the air discharge part by the dust collector air blower, so it is possible to clean the air even while the dust collection vehicle is running, and efficiently use a wide range of air. Can be cleaned.
 また、本発明の前記構成において、前記集塵装置用送風装置は、ケーシングと、このケーシングを貫通する回転軸と、この回転軸を回転させるための原動機と、を備え、
 前記ケーシングには、固定子が設けられており、
 前記ケーシングから突出する前記回転軸には、送風用の羽根を備える羽根車が設けられ、前記ケーシング内の前記回転軸には、前記固定子との協働によって発電するための回転子が設けられていることが好ましい。
Further, in the configuration of the present invention, the dust collector blower includes a casing, a rotating shaft that penetrates the casing, and a prime mover for rotating the rotating shaft,
The casing is provided with a stator,
The rotating shaft that protrudes from the casing is provided with an impeller provided with blades for blowing air, and the rotating shaft in the casing is provided with a rotor for generating electric power in cooperation with the stator. It is preferable.
 このような構成によれば、集塵装置用送風装置の原動機を作動させることにより、回転軸が回転し、この回転軸に設けられている羽根車が回転する。そして、羽根車が回転することにより、空気取入部から空気排出部へ向けて空気が流すことができる。
 また、集塵装置用送風装置の回転軸の回転により、回転子が回転し、固定子との協働により、発電がされる。そして、この発生した電気をフィルタ装置等に使用することができる。したがって、電源の確保が難しい場所においても、集塵装置を使用することができるので、移動させて空気を清浄化するのに適している。
According to such a structure, by operating the prime mover of the dust collector blower, the rotating shaft rotates, and the impeller provided on the rotating shaft rotates. Then, when the impeller rotates, air can flow from the air intake portion toward the air discharge portion.
Further, the rotor is rotated by the rotation of the rotating shaft of the dust collector air blower, and power is generated by the cooperation with the stator. The generated electricity can be used for a filter device or the like. Therefore, the dust collector can be used even in a place where it is difficult to secure a power source, and therefore, it is suitable for moving and purifying the air.
 また、本発明の前記構成において、前記集塵装置用送風装置は、ケーシングと、このケーシングを貫通する回転軸と、この回転軸を回転させるための原動機と、を備え、
 前記ケーシングには、吸込口と、吐出口と、前記回転軸の回転によって作動すると共に、前記吸込口から取り込んだ気体を圧縮して前記吐出口から吐き出す圧縮装置と、が設けられており、
 前記ケーシングから突出する前記回転軸には、送風用の羽根を備える羽根車が設けられていることが好ましい。
Further, in the configuration of the present invention, the dust collector blower includes a casing, a rotating shaft that penetrates the casing, and a prime mover for rotating the rotating shaft,
The casing is provided with a suction port, a discharge port, a compression device that operates by rotation of the rotating shaft, compresses the gas taken in from the suction port, and discharges the gas from the discharge port,
It is preferable that the rotating shaft protruding from the casing is provided with an impeller having blades for blowing air.
 このような構成によれば集塵装置用送風装置の回転軸の回転によって、圧縮装置が作動し、集塵装置用送風装置の吸込口から吸い込まれた空気が圧縮されて吐出口から吐き出される。圧縮された空気には、様々な用途があるが、例えばフィルタの清掃に用いることができるので、どこでもフィルタ装置の清掃が行なえ、フィルタ装置の集塵性能等を保ち、効率的に空気を清浄化することができる。 According to such a configuration, the rotation of the rotating shaft of the dust collector blower activates the compressor, and the air sucked from the suction port of the dust collector blower is compressed and discharged from the discharge outlet. Compressed air has a variety of uses. For example, it can be used to clean a filter, so the filter device can be cleaned anywhere, maintaining the dust collection performance of the filter device, and efficiently cleaning the air. can do.
 また、本発明の前記構成において、前記集塵装置用送風装置は、ケーシングと、このケーシングを貫通する回転軸と、この回転軸を回転させるための原動機と、を備え、
 前記ケーシングには、吸込口と、吐出口と、前記回転軸の回転によって作動すると共に、前記吸込口から取り込んだ気体を圧縮して前記吐出口から吐き出す圧縮装置と、固定子と、が設けられており、
 前記ケーシングから突出する前記回転軸には、送風用の羽根を備える羽根車が設けられ、前記ケーシング内の前記回転軸には、前記固定子との協働によって発電するための回転子が設けられていることが好ましい。
Further, in the configuration of the present invention, the dust collector blower includes a casing, a rotating shaft that penetrates the casing, and a prime mover for rotating the rotating shaft,
The casing is provided with a suction port, a discharge port, a compression device that operates by rotation of the rotating shaft, compresses the gas taken in from the suction port, and discharges the gas from the discharge port, and a stator. And
The rotating shaft that protrudes from the casing is provided with an impeller provided with blades for blowing air, and the rotating shaft in the casing is provided with a rotor for generating electric power in cooperation with the stator. It is preferable.
 このような構成によれば、集塵装置用送風装置の原動機を作動させることにより、回転軸が回転し、回転軸の回転により、発電と空気の圧縮と空気取入部から空気排出部に向けて空気を流すこととを同時に行うことができる。 According to such a configuration, by operating the prime mover of the dust collector air blower, the rotating shaft rotates, and by rotating the rotating shaft, the power generation, the compression of air, and the air intake portion toward the air discharge portion. Flowing air can be performed simultaneously.
 また、本発明の前記構成において、前記フィルタ装置のうちの少なくとも1つは、第一フィルタ装置であり、
 前記第一フィルタ装置は、塵埃等を捕集する第一フィルタ本体と、空気の流れにより回転するタービンと、動力伝達部と、を備え、
 前記第一フィルタ本体は、前記動力伝達部を介して伝わる前記タービンの回転により生じた動力により周回可能な状態で設けられていることが好ましい。
In the configuration of the present invention, at least one of the filter devices is a first filter device,
The first filter device includes a first filter body that collects dust and the like, a turbine that is rotated by a flow of air, and a power transmission unit.
It is preferable that the first filter main body is provided in a state in which it can go around by power generated by rotation of the turbine transmitted through the power transmission unit.
 このような構成によれば、第一フィルタ装置の第一フィルタ本体(フィルタ)は、周回可能な状態で設けられる。また、タービンは流体の流れにより回転する。また、タービンの回転により生じた動力は、動力伝達部を介してフィルタに伝わる。したがって、空気取入部から空気排出部へ向けて空気が流れることにより、タービンが回転し、この回転により生じた動力がフィルタに伝わり、フィルタが周回する。
 第一フィルタ本体のうち、フィルタとして主に機能するのは、空気の流れてくるほうである空気取入部側を向く面であるが、フィルタを周回させることにより、空気取入部側に、フィルタとして機能する面を周回移動させて向けることができる。このため、フィルタの有効面積を広くすることができ、フィルタを交換せずとも、長期に渡りフィルタが目詰まりを起こすことなくフィルタ装置を使用することができる。したがって、フィルタの塵埃を捕集する力が落ちにくいので、効率的に空気を清浄化することができる。
According to such a structure, the 1st filter main body (filter) of a 1st filter apparatus is provided in the state which can go around. The turbine is rotated by the fluid flow. The power generated by the rotation of the turbine is transmitted to the filter through the power transmission unit. Therefore, when the air flows from the air intake portion toward the air discharge portion, the turbine rotates, the power generated by this rotation is transmitted to the filter, and the filter circulates.
Of the first filter body, the main function as a filter is the surface facing the air intake side where air flows, but by circulating the filter, A functioning surface can be moved around and directed. For this reason, the effective area of the filter can be widened, and the filter device can be used without clogging the filter for a long time without replacing the filter. Therefore, since the force for collecting the dust on the filter is difficult to drop, the air can be efficiently cleaned.
 また、本発明の前記構成において、前記フィルタ装置のうちの少なくとも1つは、第二フィルタ装置であり、
 前記第二フィルタ装置は、外周部にコイルが巻き付けられ、空気が内部を通過する複数の管状部材を備えており、
 前記複数の管状部材は、向きを揃えて並べられていることが好ましい。
In the configuration of the present invention, at least one of the filter devices is a second filter device,
The second filter device includes a plurality of tubular members in which a coil is wound around an outer peripheral portion and air passes through the inside.
The plurality of tubular members are preferably arranged with their directions aligned.
 このような構成によれば、空気取入部から空気排出部に向けて流れる空気は、向きを揃えて並べられた管状部材の内部を通過する。管状部材には、コイルが巻き付けられているので、集塵装置用送風装置の回転子と固定子との協働により発生した電気等を利用してコイルに電流を流すことで、管状部材の内部を通過する空気を、イオン化し、清浄化することができる。 According to such a configuration, the air flowing from the air intake portion toward the air discharge portion passes through the inside of the tubular members arranged in the same direction. Since the coil is wound around the tubular member, the current flows through the coil using electricity generated by the cooperation of the rotor and the stator of the dust collector air blower. The air passing through can be ionized and cleaned.
 また、本発明の前記構成において、前記フィルタ装置のうちの少なくとも1つは、第三フィルタ装置であり、
 前記第三フィルタ装置は、殺菌力のあるレーザー光を放射する複数の前記レーザー装置を備え、前記レーザー光により殺菌を行うフィルタ装置であり、
 前記複数のレーザー装置は、各前記レーザー装置から放射されるレーザー光が同一の方向を向くようにして所定方向に並べて設けられていることが好ましい。
In the configuration of the present invention, at least one of the filter devices is a third filter device,
The third filter device is a filter device that includes a plurality of the laser devices that emit laser light having sterilizing power, and sterilizes with the laser light,
The plurality of laser devices are preferably arranged in a predetermined direction so that laser beams emitted from the laser devices are directed in the same direction.
 このような構成によれば、空気取入部から空気排出部に向けて流れる空気は、殺菌力のあるレーザー光に当てられる。レーザー光は、紫外線ライトに比べて熱量が大きく、高い殺菌力が得られるので、レーザー光に当てられる時間が短くても菌を殺すことができ、効率的に空気を清浄化することができる。 According to such a configuration, the air flowing from the air intake portion toward the air discharge portion is applied to the laser beam having sterilizing power. Laser light has a larger amount of heat than that of ultraviolet light, and high sterilizing power can be obtained. Therefore, even if the time applied to the laser light is short, bacteria can be killed and air can be efficiently cleaned.
 また、本発明の前記構成において、前記集塵装置には、前記空気取入部に向けて空気を導入するための導入部が、開閉自在に設けられており、
 前記導入部は、開状態において、前記空気取入部側の開口部の面積よりも、その逆側の開口部の面積が広くなることが好ましい。
Further, in the above configuration of the present invention, the dust collector is provided with an introduction part for introducing air toward the air intake part so as to be freely opened and closed.
In the open state, the introduction part preferably has a larger area of the opening on the opposite side than the area of the opening on the air intake part side.
 このような構成によれば、導入部に向かってくる空気を空気取入部に導き、空気を集めることができるので、導入部がない場合に比べ、より多くの空気を清浄化することができ、空気を効率的に清浄化できる。 According to such a configuration, the air coming toward the introduction part can be guided to the air intake part and collected, so that more air can be purified compared to the case where there is no introduction part, Air can be cleaned efficiently.
 また、本発明の前記構成において、前記空気取入部よりも、前記車両本体の走行方向において前側に、地面方向に向けて風を吹き付けるための送風装置が設けられていることが好ましい。 Further, in the configuration of the present invention, it is preferable that a blowing device for blowing wind toward the ground direction is provided on the front side in the traveling direction of the vehicle body from the air intake portion.
 このような構成によれば、送風装置からの風が地面に向けて吹き付けられ、地面にある塵埃が舞い上げられる。そして、舞い上げられた塵埃を含む空気は、導入部から集塵装置へと取り込まれ、この塵埃がフィルタ装置で捕集される。
 空気中に含まれる塵埃は、地面に落ちたり、再度飛散したりを繰り返すが、送風装置によって舞い上げることで、地面に落ちている塵埃も捕集することができる。よって、空気中に浮遊している塵埃と地面に落ちている塵埃とをまとめて捕集することができる。また、送風装置は、導入部よりも、車両本体の走行方向前側に設けられているので、集塵用車両を走行させながら、路面清掃車のように、地面に落ちている塵埃を集めていくことができる。したがって、効率的に空気を清浄化することができる。
According to such a configuration, the wind from the blower is blown toward the ground, and the dust on the ground is raised. Then, the air containing the dust soared is taken into the dust collector from the introduction portion, and this dust is collected by the filter device.
Dust contained in the air repeatedly falls on the ground or scatters again. However, the dust falling on the ground can be collected by raising it with the blower. Therefore, dust floating in the air and dust falling on the ground can be collected together. Further, since the blower device is provided on the front side in the running direction of the vehicle body from the introduction part, the dust collecting vehicle collects dust falling on the ground like a road cleaning car while running the dust collecting vehicle. be able to. Therefore, air can be efficiently cleaned.
 本発明の集塵用車両によれば、移動させて空気を清浄化するのに適しており、空気を効率的に清浄化できる。 The dust collection vehicle of the present invention is suitable for purifying air by moving it, and can efficiently clean the air.
本発明の実施の形態を示すもので、集塵用車両を斜め後方から見た斜視図である。BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates an embodiment of the present invention, and is a perspective view of a dust collection vehicle as viewed obliquely from the rear. 同、集塵用車両の側面図である。2 is a side view of the dust collecting vehicle. FIG. 同、集塵用車両の正面図である。2 is a front view of the dust collecting vehicle. FIG. 同、集塵用車両の背面図である。2 is a rear view of the dust collecting vehicle. FIG. 同、構造体の骨組の斜視図である。It is a perspective view of the frame of a structure same as the above. 同、構造材用継手を示すもので、(a)は正面側から見た斜視図、(b)は背面側から見た斜視図である。FIG. 2 shows a structural material joint, wherein (a) is a perspective view seen from the front side, and (b) is a perspective view seen from the back side. 同、前側壁材の正面図である。It is a front view of a front side wall material similarly. 同、導入部および送風装置の斜視図である。It is a perspective view of an introducing | transducing part and an air blower equally. 同、薄膜部の斜視図である。It is a perspective view of a thin film part. 同、第一フィルタ装置の側面図である。FIG. 3 is a side view of the first filter device. 同、第一フィルタ装置の斜視図である。FIG. 3 is a perspective view of the first filter device. 同、第一フィルタ装置の要部を示す斜視図である。It is a perspective view which shows the principal part of a 1st filter apparatus equally. 同、第一フィルタ本体の斜視図である。FIG. 3 is a perspective view of the first filter body. 同、第二フィルタ装置の斜視図である。It is a perspective view of a 2nd filter apparatus equally. 同、第二フィルタ装置の管状部材およびコイルの斜視図である。It is a perspective view of the tubular member and coil of a 2nd filter apparatus equally. 同、第三フィルタ装置の斜視図である。It is a perspective view of a 3rd filter apparatus equally. 同、第二フィルタ装置および第三フィルタ装置の側面図である。It is a side view of the second filter device and the third filter device. 同、第二フィルタ装置および第三フィルタ装置の底面図である。It is a bottom view of the second filter device and the third filter device. 同、第四フィルタ装置の正面図である。It is a front view of a 4th filter apparatus equally. 同、第四フィルタ装置の一部を下側から見た断面図である。FIG. 6 is a cross-sectional view of a part of the fourth filter device as viewed from below. 同、第五フィルタ装置の斜視図である。It is a perspective view of a fifth filter device. 同、第五フィルタ装置のHEPAフィルタの断面図である。It is sectional drawing of the HEPA filter of a 5th filter apparatus equally. 同、回転装置の斜視図である。It is a perspective view of a rotating device. 同、回転装置の平面図である。FIG. 2 is a plan view of the rotating device. 同、図24のA-A’線断面図である。FIG. 25 is a sectional view taken along the line A-A ′ of FIG. 24.
 以下、図面を参照しながら、本発明の実施の形態について説明する。
 図1~図4は、集塵用車両を示す図である。
 図2に示すように、本実施形態の集塵用車両1は、車両本体2と、集塵装置3と、送風装置4と、を備えている。
 なお、以下の説明においては、基本的に「前後」とは、集塵用車両1の前進方向が「前」で、後進方向が「後」を意味し、「上下」とは集塵用車両1の上面側が「上」で、下面(地面)側が「下」を意味し、「左右」とは集塵用車両1の前進方向に向かって左側が「左」を意味し、右側が「右」を意味する。
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 4 are views showing a dust collecting vehicle.
As shown in FIG. 2, the dust collection vehicle 1 of this embodiment includes a vehicle body 2, a dust collection device 3, and a blower device 4.
In the following description, “front and rear” basically means that the forward direction of the dust collecting vehicle 1 is “front”, and the backward direction means “rear”, and “up and down” means the dust collecting vehicle. 1 is "upper", the lower surface (ground) side is "down", "left and right" means "left" on the left side in the forward direction of the dust collecting vehicle 1, and "right" is "right""Means.
 車両本体2は、20フィートコンテナを積載することができるトラックであり、原動機の動力によって走行する。車両本体2は、運転席2aと、20フィートコンテナを積載することができる積載部2bと、を備えている。また、運転席2aは、積載部2bよりも前側に位置している。 The vehicle body 2 is a truck on which a 20-foot container can be loaded, and travels with the power of the prime mover. The vehicle main body 2 includes a driver's seat 2a and a loading portion 2b on which a 20-foot container can be loaded. The driver's seat 2a is located in front of the stacking portion 2b.
 集塵装置3は、構造体10と、空気を清浄化するフィルタ群300と、回転装置310と、を備えている。なお、空気の清浄化とは、空気に含まれる塵埃の除去、空気のイオン化、空気に含まれるマイナスイオンの増加、空気に含まれる菌の殺菌、空気の消臭等をいう。そして、空気は、清浄化されることにより、質の高い空気となる。
 構造体10の骨組は、図5に示すように、8つの角部(接続部)にそれぞれ構造材用継手11が配置されるとともに、これら構造材用継手11によって複数の構造材17が直方体状に接続されることによって組み立てられている。また、構造体10は、板状の壁材(前側壁材20、後側壁材24および下側壁材57(図1、図3および図4参照)。上および左右の壁材については図示せず。)を6つ備え、各面が、それぞれ壁材で覆われている。すなわち、直方体状に組まれた構造材用継手11と構造材17とからなる骨組に、6面それぞれを覆う壁材が設けられることで、構造体10が形成されている。また、構造体10は、20フィートコンテナと同様の大きさとなっている。
The dust collector 3 includes a structure 10, a filter group 300 that cleans air, and a rotating device 310. Air purification means removal of dust contained in air, ionization of air, increase of negative ions contained in air, sterilization of bacteria contained in air, deodorization of air, and the like. And air becomes high-quality air by being cleaned.
As shown in FIG. 5, the structural body joint 11 includes structural member joints 11 arranged at eight corners (connection portions), and the structural member joints 11 form a plurality of structural members 17 in a rectangular parallelepiped shape. It is assembled by being connected to. Further, the structure 10 includes a plate-like wall member (the front wall member 20, the rear wall member 24, and the lower wall member 57 (see FIGS. 1, 3 and 4). The upper and left and right wall members are not shown. .), And each surface is covered with a wall material. That is, the structure 10 is formed by providing a wall material covering each of the six surfaces in the framework composed of the structural material joint 11 and the structural material 17 assembled in a rectangular parallelepiped shape. The structure 10 has the same size as a 20-foot container.
 図6は構造材用継手を示すもので、(a)は正面側を斜め上から見た斜視図、(b)は背面側を斜め下から見た斜視図である。
 構造材用継手11は、構造材17の端部を挿入固定可能な3本の継手部材12を備えている。各継手部材12は正四角筒状に形成されており、それらの基端部は例えば溶接や接着等によって互いに固定されている。具体的には上下に延在する継手部材12(12A)の直交する一側面の下端部に水平方向に延在する継手部材12(12B)の基端部が固定され、他側面に下端部に水平方向に延在する他の継手部材12(12C)の基端部が固定されている。また、これら3本の継手部材12は互いに直角に配置されている。
6A and 6B show a joint for structural material, in which FIG. 6A is a perspective view of the front side viewed from diagonally above, and FIG. 6B is a perspective view of the back side viewed diagonally from below.
The structural material joint 11 includes three joint members 12 into which end portions of the structural material 17 can be inserted and fixed. Each joint member 12 is formed in a regular rectangular tube shape, and their base end portions are fixed to each other by, for example, welding or adhesion. Specifically, the base end portion of the joint member 12 (12B) extending in the horizontal direction is fixed to the lower end portion of one orthogonal side surface of the joint member 12 (12A) extending vertically, and the lower end portion is fixed to the other side surface. The base end portion of another joint member 12 (12C) extending in the horizontal direction is fixed. Further, these three joint members 12 are arranged at right angles to each other.
 なお、継手部材12B,12Cは等しい長さに設定され、継手部材12Aは継手部材12B,12Cの上面からの高さ寸法が継手部材12B,12Cと等しい長さに設定されているが、継手部材12A~12Cの長さは適宜設定すればよい。 The joint members 12B and 12C are set to have the same length, and the joint member 12A has a height dimension from the upper surface of the joint members 12B and 12C set to the same length as the joint members 12B and 12C. The lengths 12A to 12C may be set as appropriate.
 また、継手部材12の基端部には、互いに対向する側壁に円形状の孔13と長円形状の孔14とが継手部材12の軸方向に離間して形成されている。また、孔13は対向する側壁に対向して形成され、孔14も対向する側壁に対向して形成されている。
 なお、継手部材12Bの上面および下面側の側壁に形成されている孔13,14を、両側面側の側壁に形成してもよいし、継手部材12Cの両側面側の側壁に形成されている孔13,14を、上面および下面側の側壁に形成してもよい。継手部材12Aの一方の対向する側壁に形成されている孔13,14を他方の対向する側壁に形成してもよい。
 また、継手部材12Aの下端部には、その下壁および直角に配置された側壁にそれぞれ孔14より大きい長円形状の孔15が形成されている。
In addition, a circular hole 13 and an oval hole 14 are formed in the base end portion of the joint member 12 so as to be spaced apart from each other in the axial direction of the joint member 12 on opposite side walls. Further, the hole 13 is formed to face the opposite side wall, and the hole 14 is also formed to face the opposite side wall.
The holes 13 and 14 formed in the side walls on the upper surface and the lower surface side of the joint member 12B may be formed in the side walls on both side surfaces, or formed on the side walls on both side surfaces of the joint member 12C. The holes 13 and 14 may be formed on the upper and lower side walls. The holes 13 and 14 formed in one opposing side wall of the joint member 12A may be formed in the other opposing side wall.
Further, at the lower end portion of the joint member 12A, an oval hole 15 larger than the hole 14 is formed in the lower wall and the side wall arranged at a right angle.
 また、互いに直角に配置されている継手部材12の先端部どうしは補強部材16によって連結されている。
 すなわち、補強部材16は継手部材12より断面形状が小さい正四角筒状に形成されており、その両端部は一つの側面に対して45°の角度で傾斜した傾斜面となっている。そして、補強部材16は互いに直角に配置されている継手部材12,12の先端部間に配置され、その端部が継手部材12の側壁に溶接や接着等によって接合固定されている。補強部材16は接合固定されている継手部材12に対して45°の角度で傾斜している。
Further, the front ends of the joint members 12 arranged at right angles to each other are connected by a reinforcing member 16.
That is, the reinforcing member 16 is formed in a regular square tube shape having a smaller cross-sectional shape than the joint member 12, and both end portions thereof are inclined surfaces inclined at an angle of 45 ° with respect to one side surface. The reinforcing member 16 is disposed between the distal end portions of the joint members 12 and 12 disposed at right angles to each other, and the end portions are joined and fixed to the side wall of the joint member 12 by welding, adhesion, or the like. The reinforcing member 16 is inclined at an angle of 45 ° with respect to the joint member 12 which is bonded and fixed.
 このような構造材用継手11と棒状の複数の構造材17とによって構造体10の骨組が組み立てられている(図5参照)。
 この構造体10の骨組は、8つの角部(接続部)にそれぞれ前記構造材用継手11が配置されるとともに、これら構造材用継手11によって複数の構造材17が直方体状に接続されることによって組み立てられている。
 すなわちまず、構造材用継手11は、8つの角部(接続部)に配置されている。
 そして、12本の構造材17を構造材用継手11によって接続することによって、構造体10が、20フィートコンテナと同様の大きさの直方体状に組み立てられている。
The frame of the structure 10 is assembled by such a structural material joint 11 and a plurality of rod-shaped structural materials 17 (see FIG. 5).
In the framework of the structure 10, the structural material joints 11 are arranged at eight corner portions (connection portions), respectively, and a plurality of structural materials 17 are connected in a rectangular parallelepiped shape by the structural material joints 11. Is assembled by.
That is, first, the structural material joint 11 is disposed at eight corner portions (connection portions).
The twelve structural members 17 are connected by the structural member joint 11 to assemble the structural body 10 into a rectangular parallelepiped having the same size as a 20-foot container.
 また、構造材17は、構造材用継手11の継手部材12に挿入可能な断面形状とされており、これによって、構造材17の両端部は隣り合う構造材用継手11の継手部材12,12に隙間なく挿入されている。また、構造材17の両端部には、図6(a)に示すように、円形状の2つの孔18,18が構造材17の長手方向に離間して対向する側壁にそれぞれ形成されており、孔18,18は、継手部材12に構造材17の端部を挿入した状態において、継手部材12の孔13,14に対向している。
 そして、孔13,18および孔14,18にそれぞれ図示しないボルトを挿通し、ナットによって締め付けることによって、継手部材12に構造材17がその抜け出を防止されて固定されている。
Further, the structural member 17 has a cross-sectional shape that can be inserted into the joint member 12 of the structural member joint 11, whereby both ends of the structural member 17 are joint members 12, 12 of the adjacent structural member joint 11. Is inserted without any gaps. In addition, as shown in FIG. 6A, two circular holes 18 and 18 are formed on both side walls of the structural material 17 facing each other in the longitudinal direction, as shown in FIG. The holes 18 and 18 are opposed to the holes 13 and 14 of the joint member 12 in a state where the end of the structural member 17 is inserted into the joint member 12.
Then, bolts (not shown) are respectively inserted into the holes 13 and 18 and the holes 14 and 18 and tightened with nuts, whereby the structural member 17 is prevented from coming off and fixed to the joint member 12.
 このようにして、組み立てられた構造体10の骨組では、構造材17どうしの接続部に配置されている構造材用継手11の互いに直角に配置されている継手部材12,12の先端部どうしが棒状の補強部材16によって連結されているので、構造材用継手11によって接続される構造材17の接続部を補強部材16によって容易に補強できる。
 また、構造材17の長さ寸法を変更することによって、違う大きさの直方体箱状の構造体を容易に組み立てることもできる。したがって、40フィートコンテナを積載する車両に合わせて構造体10を組み立てること等も容易に行える。
In this manner, in the frame of the assembled structure 10, the distal ends of the joint members 12, 12 arranged at right angles to each other of the joint 11 for structural material arranged at the connection portion between the structural materials 17 are arranged. Since they are connected by the rod-shaped reinforcing member 16, the connecting portion of the structural material 17 connected by the structural material joint 11 can be easily reinforced by the reinforcing member 16.
Further, by changing the length dimension of the structural member 17, it is possible to easily assemble a rectangular parallelepiped box-like structure having a different size. Therefore, it is possible to easily assemble the structure 10 in accordance with a vehicle carrying a 40-foot container.
 本実施の形態においては、20フィートコンテナと同様の大きさに組み立てられた構造体10が、車両本体2の積載部2bに積載され、継手部材12の孔15に、積載部2bの上面四隅部に設けられたツイストロックピンが差し込まれ、このツイストロックピンによって、構造体10が車両本体2に固定されている。このように、構造体10は、一般的な貨物輸送用のコンテナと同様に扱うことができ、違う車両への乗せ換えや、車両からの取り外し等も容易に行うことができる。 In the present embodiment, the structure 10 assembled to the same size as a 20-foot container is loaded on the loading portion 2b of the vehicle body 2, and the upper four corners of the loading portion 2b are placed in the holes 15 of the joint member 12. A twist lock pin provided on the vehicle body 2 is inserted, and the structure 10 is fixed to the vehicle main body 2 by the twist lock pin. As described above, the structure 10 can be handled in the same manner as a general container for freight transportation, and can be easily transferred to a different vehicle, removed from the vehicle, and the like.
 前述のように、構造体10は、各面が、それぞれ板状の壁材で覆われている。前側の壁材(前側壁材20)には、図7に示すように、外周が八角形状の開口部である空気取入部21が設けられている。空気取入部21は、横格子22を備える。言い換えると、前側壁材20には、複数の横方向に長いスリットを並べたような、開口部(空気取入部21)が設けられている。
 また、空気取入部21は、前側壁材20の前面よりも後側に位置している。そして、前側壁材20の前面から空気取入部21側に向かって、前側壁材20の前面に対して傾斜した傾斜部23が、空気取入部21を囲うようにして設けられている。
As described above, each surface of the structure 10 is covered with a plate-like wall material. As shown in FIG. 7, the front wall member (front wall member 20) is provided with an air intake portion 21 having an octagonal outer periphery. The air intake unit 21 includes a horizontal lattice 22. In other words, the front wall member 20 is provided with an opening (air intake portion 21) in which a plurality of long slits are arranged in the lateral direction.
Further, the air intake portion 21 is located on the rear side of the front surface of the front side wall member 20. And the inclined part 23 inclined with respect to the front surface of the front side wall material 20 toward the air intake part 21 side from the front surface of the front side wall material 20 is provided so that the air intake part 21 may be enclosed.
 また、後側の壁材(後側壁材24)には、図4に示すように、外周が円状の開口部である空気排出部25が設けられている。空気排出部25は、横格子26を備える。言い換えると、後側壁材24には、複数の横方向に長いスリットを並べたような、開口部(空気排出部25)が設けられている。 Further, as shown in FIG. 4, the rear wall member (rear wall member 24) is provided with an air discharge part 25 whose outer periphery is a circular opening. The air discharge unit 25 includes a horizontal lattice 26. In other words, the rear side wall member 24 is provided with an opening (air discharge portion 25) in which a plurality of long slits are arranged in the lateral direction.
 なお、空気取入部21および空気排出部25は、それぞれ、構造体10の前後左右上下どの壁材に設けられていてもよい。例えば、後側壁材24に空気取入部21が設けられており、前側壁材20に空気排出部25が設けられていてもよい。なお、この場合には、空気取入部21から空気排出部25へ流れる空気が、各フィルタ装置等を通過するように適宜フィルタ装置等の配置を変更する必要がある。 The air intake part 21 and the air discharge part 25 may be provided on any wall material in the front, rear, left, right, upper and lower sides of the structure 10. For example, the air intake portion 21 may be provided on the rear side wall member 24, and the air discharge portion 25 may be provided on the front side wall member 20. In this case, it is necessary to appropriately change the arrangement of the filter device and the like so that the air flowing from the air intake unit 21 to the air discharge unit 25 passes through each filter device and the like.
 構造体10には、図1~図4に示すように、前面側に、構造体10から前方に突出するようにして導入部30が設けられている。導入部30は、4つの板状部31(31a,31b,31c,31d)と、隣り合う板状部31を繋ぐ4つの薄膜部32と、を備え、前側壁材20を囲うようにして設けられている(図8参照)。板状部31は、半透明の合成樹脂等で形成された長方形の板状の部材である。また、薄膜部32は、半透明の合成樹脂等(例えば、ポリエチレン)で形成された三角形の薄膜状の部材である。 As shown in FIGS. 1 to 4, the structure 10 is provided with an introduction portion 30 on the front side so as to protrude forward from the structure 10. The introduction portion 30 includes four plate-like portions 31 (31a, 31b, 31c, and 31d) and four thin film portions 32 that connect the adjacent plate-like portions 31 and is provided so as to surround the front wall member 20. (See FIG. 8). The plate-like portion 31 is a rectangular plate-like member made of a translucent synthetic resin or the like. The thin film portion 32 is a triangular thin film member formed of a translucent synthetic resin or the like (for example, polyethylene).
 板状部31は、前側壁材20の四辺のうちのそれぞれに対して、1つの板状部31が、板状部31の一辺を当接または近接させた状態で、設けられている。各板状部31の、前側壁材20に当接または近接する辺の長さは、この辺が当接または近接する前側壁材20の各辺とほぼ同じ長さとなっている。また、各板状部31の、前側壁材20に当接または近接する辺の長さよりも、この辺に隣接する他の2辺(以下、短辺という)の長さが短くなっている。また、4つの板状部31の短辺は、すべて等しい長さとなっている。 The plate-like portion 31 is provided with one plate-like portion 31 in contact with or close to one side of each of the four sides of the front side wall member 20. The length of the side of each plate-like portion 31 that is in contact with or close to the front side wall member 20 is substantially the same as the length of each side of the front side wall member 20 that is in contact with or close to this side. In addition, the length of the other two sides (hereinafter referred to as short sides) adjacent to this side is shorter than the length of the side of each plate-like portion 31 that is in contact with or close to the front wall member 20. Further, the short sides of the four plate-like portions 31 are all equal in length.
 薄膜部32は、隣り合う板状部31の間にそれぞれ設けられている。すなわち、集塵装置3の上側に位置する板状部31aと左側に位置する板状部31bとの間、左側に位置する板状部31bと下側に位置する板状部31dとの間、下側に位置する板状部31dと右側に位置する板状部31cとの間および上側に位置する板状部31aと右側に位置する板状部31cとの間に、それぞれ設けられている。
 薄膜部32は、等辺の長さが板状部31の短辺の長さと等しい二等辺三角形の薄膜状の部材である。薄膜部32の等辺が、板状部31の短辺に接着されることで、隣り合う板状部31同士が薄膜部32を介して繋がれている。
The thin film portions 32 are respectively provided between the adjacent plate-like portions 31. That is, between the plate-like part 31a located on the upper side of the dust collector 3 and the plate-like part 31b located on the left side, between the plate-like part 31b located on the left side and the plate-like part 31d located on the lower side, It is provided between the plate-like portion 31d located on the lower side and the plate-like portion 31c located on the right side, and between the plate-like portion 31a located on the upper side and the plate-like portion 31c located on the right side.
The thin film portion 32 is an isosceles triangular thin film member whose equilateral length is equal to the short side length of the plate-like portion 31. Adjacent sides of the thin film part 32 are bonded to the short sides of the plate-like part 31 so that the adjacent plate-like parts 31 are connected via the thin film part 32.
 集塵装置3の上下左右にそれぞれ位置する板状部31のうち、上、左および右に位置する板状部31(31a,31b,31c)には、センサ33が設けられている。このセンサ33は、集塵用車両1の前方に位置する障害物を検知するためのものである。センサ33は、それぞれの板状部31に2個ずつ、計6個設けられている。また、センサ33は、各板状部31(31a,31b,31c)の、前側壁材20とは逆側の2つの角部にそれぞれ設けられている。
 なお、センサ33は、集塵装置3の下側に位置する板状部31(31d)に設けられていてもよい。また、センサ33は、前方のみならず、上方、下方、左方、右方、または後方の障害物を検知するものであってもよい。
Of the plate-like portions 31 respectively located on the upper, lower, left and right sides of the dust collector 3, the plate-like portions 31 (31a, 31b, 31c) located on the upper, left and right are provided with sensors 33. The sensor 33 is for detecting an obstacle located in front of the dust collecting vehicle 1. A total of six sensors 33 are provided, two for each plate-like portion 31. The sensor 33 is provided at each of the two corners on the opposite side of the front wall member 20 of each plate-like portion 31 (31a, 31b, 31c).
The sensor 33 may be provided on the plate-like portion 31 (31d) located on the lower side of the dust collector 3. Further, the sensor 33 may detect not only the front side but also an obstacle on the upper side, the lower side, the left side, the right side, or the rear side.
 4枚の板状部31のうち、集塵装置3の上側に位置する板状部31aは、2つの蝶番34によって、前側壁材20の前面上縁部に接続されている。
 板状部31aと構造体10との間には接続部材35a,35bを介して2つのシリンダ36が設けられている。接続部材35aは、板状部31aの外面の左右両端部であって中心部よりも構造体10側に、それぞれ1つずつ設けられている。接続部材35bは、構造体10の上側に位置する前後に延びる2本の構造材17の上面前側にそれぞれ1つずつ、構造体10の上面を覆う図示しない壁材を介在させた状態で取り付けられている。
 当該2つのシリンダ36は、一方の端部が接続部材35aと接続されており、接続部材35aを軸として、左右方向の動きが制限された状態で前後方向に回動可能な状態となっている。また、当該2つのシリンダ36の他方の端部は、接続部材35bと接続されており、この接続部材35bを軸として、左右方向の動きが制限された状態で前後方向に回動可能な状態となっている。すなわち、板状部31aは、2つのシリンダ36と蝶番34とにより、構造体10と接続されている。したがって、板状部31aは、シリンダ36の伸縮により、蝶番34を中心として上下(前後)方向に揺動可能な状態となっている。
Of the four plate-like portions 31, the plate-like portion 31 a located on the upper side of the dust collector 3 is connected to the front upper edge portion of the front side wall member 20 by two hinges 34.
Two cylinders 36 are provided between the plate-like portion 31a and the structure 10 via connecting members 35a and 35b. One connection member 35a is provided on each of the left and right end portions of the outer surface of the plate-like portion 31a and closer to the structure 10 than the center portion. One connecting member 35b is attached to the front side of the upper surface of the two structural members 17 extending in the front-rear direction located on the upper side of the structure 10 with a wall material (not shown) covering the upper surface of the structural body 10 interposed therebetween. ing.
One end of each of the two cylinders 36 is connected to the connecting member 35a, and the two cylinders 36 are pivotable in the front-rear direction with the movement in the left-right direction restricted with the connecting member 35a as an axis. . The other end of the two cylinders 36 is connected to a connecting member 35b, and the connecting member 35b serves as an axis so that it can rotate in the front-rear direction with limited lateral movement. It has become. That is, the plate-like part 31 a is connected to the structure 10 by the two cylinders 36 and the hinge 34. Therefore, the plate-like portion 31a can swing in the vertical (front-rear) direction around the hinge 34 by expansion and contraction of the cylinder 36.
 集塵装置3の左右にそれぞれ位置する板状部31b,31cも同様に、2本のシリンダ36と蝶番34とにより構造体10と接続されている。
 まず、左側の板状部31bについて説明する。集塵装置3の左側に位置する板状部31bは、2つの蝶番34によって、構造体10の左側の壁材の前縁部に接続されている。また、板状部31bと構造体10との間には接続部材35a,35bを介して2つのシリンダ36が設けられている。また、接続部材35aは、板状部31bの内面の上下両端部であって中心部よりも構造体10側に、それぞれ1つずつ設けられている。また、接続部材35bは、構造体10の前側に位置する左右に延びる2本の構造材17の前面左側にそれぞれ1つずつ、前側壁材20を介在させた状態で取り付けられている。
 当該2つのシリンダ36は、一方の端部が接続部材35aと接続されており、接続部材35aを軸として、上下方向の動きが制限された状態で左右方向に回動可能な状態となっている。また、当該2つのシリンダ36の他方の端部は、接続部材35bと接続されており、この接続部材35bを軸として、上下方向の動きが制限された状態で左右方向に回動可能な状態となっている。すなわち、板状部31bは、2つのシリンダ36と蝶番34とにより、構造体10と接続されている。したがって、板状部31bは、シリンダ36の伸縮により、蝶番34を中心として左右(前後)方向に揺動可能な状態となっている。
Similarly, the plate- like portions 31 b and 31 c located on the left and right sides of the dust collector 3 are also connected to the structure 10 by two cylinders 36 and a hinge 34.
First, the left plate-like portion 31b will be described. The plate-like part 31 b located on the left side of the dust collector 3 is connected to the front edge part of the wall material on the left side of the structure 10 by two hinges 34. Further, two cylinders 36 are provided between the plate-like portion 31b and the structure 10 via connecting members 35a and 35b. Further, one connection member 35a is provided on each of the upper and lower ends of the inner surface of the plate-like portion 31b and closer to the structure 10 than the center portion. In addition, the connection members 35b are attached to the left front surfaces of the two structural members 17 extending in the left and right positions on the front side of the structure 10 with the front side wall member 20 interposed therebetween.
One end of each of the two cylinders 36 is connected to the connection member 35a, and the two cylinders 36 can be rotated in the left-right direction with the movement in the up-down direction restricted with the connection member 35a as an axis. . The other ends of the two cylinders 36 are connected to a connecting member 35b, and the connecting member 35b serves as an axis and is capable of rotating in the left-right direction with limited vertical movement. It has become. That is, the plate-like portion 31 b is connected to the structure 10 by the two cylinders 36 and the hinge 34. Therefore, the plate-like portion 31b is in a state that can swing in the left and right (front and rear) directions around the hinge 34 by expansion and contraction of the cylinder 36.
 右側の板状部31cについても、各部材の配置が左右対称となるだけで、左側の板状部31bと同様の形で構造体10と接続されている。つまり、集塵装置3の右側に位置する板状部31cは、2つの蝶番34によって、構造体10の右側の壁材の前縁部に接続されている。また、板状部31cと構造体10との間には接続部材35a,35bを介して2つのシリンダ36が設けられている。また、接続部材35aは、板状部31cの内面の上下両端部であって中心部よりも構造体10側に、それぞれ1つずつ設けられている。また、接続部材35bは、構造体10の前側に位置する左右に延びる2本の構造材17の前面右側にそれぞれ1つずつ、前側壁材20を介在させた状態で取り付けられている。
 各シリンダ36は、一方の端部が接続部材35aと接続されており、接続部材35aを軸として、上下方向の動きが制限された状態で左右方向に回動可能な状態となっている。また、各シリンダ36の他方の端部は、接続部材35bと接続されており、この接続部材35bを軸として、上下方向の動きが制限された状態で左右方向に回動可能な状態となっている。すなわち、板状部31cは、2つのシリンダ36と蝶番34とにより、構造体10と接続されている。したがって、板状部31cは、シリンダ36の伸縮により、蝶番34を中心として左右(前後)方向に揺動可能な状態となっている。
The right plate-like portion 31c is also connected to the structure 10 in the same manner as the left-side plate-like portion 31b, except that the arrangement of the members is symmetrical. That is, the plate-like part 31 c located on the right side of the dust collector 3 is connected to the front edge part of the wall material on the right side of the structure 10 by the two hinges 34. Further, two cylinders 36 are provided between the plate-like portion 31c and the structure 10 via connecting members 35a and 35b. Further, one connection member 35a is provided on each of the upper and lower ends of the inner surface of the plate-like portion 31c and closer to the structure 10 than the center portion. Further, one connection member 35b is attached to each of the right front sides of the two structural members 17 extending in the left and right positions on the front side of the structure 10 with the front side wall member 20 interposed therebetween.
Each cylinder 36 is connected to the connecting member 35a at one end, and is rotatable in the left-right direction with the movement in the up-down direction being restricted about the connecting member 35a. The other end of each cylinder 36 is connected to a connection member 35b, and is pivotable in the left-right direction with the movement in the up-down direction restricted with the connection member 35b as an axis. Yes. That is, the plate-like portion 31 c is connected to the structure 10 by the two cylinders 36 and the hinge 34. Therefore, the plate-like portion 31 c is in a state that can swing in the left and right (front and rear) directions around the hinge 34 by expansion and contraction of the cylinder 36.
 また、集塵装置3の下側に位置する板状部31dは、構造体10から前方下方向に向けて傾いた状態で構造体10に固定されている。この板状部31dは、集塵用車両1が平面に接地した状態において、この平面から板状部31dの前端部(下端部)が10cm程度浮いた状態となっている。
 なお、下側の板状部31dも、シリンダ36と蝶番34とにより構造体10と接続し、揺動可能なものとしてもよい。
Further, the plate-like portion 31d located on the lower side of the dust collector 3 is fixed to the structure 10 in a state of being inclined from the structure 10 toward the front lower direction. The plate-like portion 31d is in a state where the front end portion (lower end portion) of the plate-like portion 31d is lifted by about 10 cm from this plane when the dust collecting vehicle 1 is grounded to the plane.
The lower plate-like portion 31d may be connected to the structure 10 by the cylinder 36 and the hinge 34 so as to be swingable.
 シリンダ36は、センサ33が検知した障害物の情報(例えば、障害物と板状部31との距離情報)に応じて伸縮する。センサ33が検知した障害物の情報は、集塵装置3に備えられた図示しない制御回路に送られ、この制御回路が、センサ33が検知した障害物の情報に応じてシリンダ36を伸縮させる指令を出し、この指令に基づきシリンダ36が伸縮する。
 なお、当該制御回路は、センサ33と一体的に設けられていてもよい。また、シリンダ36は、センサ33の検知した障害物の情報に応じて自動で伸縮するのではなく、センサ33が検知した障害物の情報が、運転席2a等に設けられた表示装置に表示され、この情報に基づき、人が、シリンダ36を伸縮するかの指令を出すようにしてもよい。
 各シリンダ36の伸縮は同時に行われるようになっている。すなわち、上側の板状部31aに接続された2本のシリンダ36が伸びるときには、左右の板状部31b,31cに接続された4本のシリンダ36は縮むようになっている。逆に、上側の板状部31aに接続された2本のシリンダ36が縮むときには、左右の板状部31b,31cに接続された4本のシリンダ36は伸びるようになっている。
 なお、上側の板状部31aに接続された2本のシリンダと、左側の板状部31bに接続された2本のシリンダと、右側の板状部31cに接続された2本のシリンダと、はそれぞれ別々に伸縮することとしてもよい。
The cylinder 36 expands and contracts according to information on the obstacle detected by the sensor 33 (for example, distance information between the obstacle and the plate-like portion 31). Information on the obstacle detected by the sensor 33 is sent to a control circuit (not shown) provided in the dust collector 3, and the control circuit instructs the cylinder 36 to expand and contract according to the information on the obstacle detected by the sensor 33. The cylinder 36 expands and contracts based on this command.
The control circuit may be provided integrally with the sensor 33. Also, the cylinder 36 does not automatically expand and contract in accordance with the obstacle information detected by the sensor 33, but the obstacle information detected by the sensor 33 is displayed on a display device provided in the driver's seat 2a or the like. Based on this information, a person may issue a command as to whether the cylinder 36 is expanded or contracted.
Expansion and contraction of each cylinder 36 is performed simultaneously. That is, when the two cylinders 36 connected to the upper plate-like portion 31a extend, the four cylinders 36 connected to the left and right plate- like portions 31b and 31c are contracted. Conversely, when the two cylinders 36 connected to the upper plate-like portion 31a contract, the four cylinders 36 connected to the left and right plate- like portions 31b and 31c extend.
Two cylinders connected to the upper plate-like portion 31a, two cylinders connected to the left-side plate-like portion 31b, two cylinders connected to the right-side plate-like portion 31c, May be expanded and contracted separately.
 上側の板状部31aに接続された2本のシリンダ36が最大限に伸びたときに、上側の板状部31aは、構造体10から前側に突出した状態で、構造体10の上面と略平行となる。また、左右の板状部31b,31cは、それぞれに接続された2本のシリンダ36が最小限に縮んだときに、構造体10から前側に突出した状態で、構造体10の左右の面と略平行となる。よって、導入部30は、最も閉じた状態において、構造体10とは逆側の開口部の面積が、構造体10の前面(前側壁材20)の面積よりも下側の板状部31dが開いている分だけ広い面積となるようになっている。また、このとき、薄膜部32は、蛇腹状に折りたたまれた状態となっている(図9参照)。
 なお、導入部30と構造体10との接続方法を変える等して、導入部30が最も閉じた状態において、構造体10の前面を完全に覆うようにすることとする等としてもよい。
When the two cylinders 36 connected to the upper plate-like portion 31a extend to the maximum extent, the upper plate-like portion 31a protrudes forward from the structure 10 and is substantially the same as the upper surface of the structure 10. Parallel. Further, the left and right plate- like portions 31b and 31c are arranged so as to protrude from the structure 10 to the left and right surfaces of the structure 10 when the two cylinders 36 connected thereto are contracted to the minimum. It becomes almost parallel. Therefore, when the introduction portion 30 is in the most closed state, the plate-like portion 31d on the side opposite to the structure 10 has a plate-like portion 31d on the lower side than the area of the front surface (front wall material 20) of the structure 10. It is designed to be as wide as it is open. At this time, the thin film portion 32 is folded in a bellows shape (see FIG. 9).
In addition, it is good also as changing the connection method of the introducing | transducing part 30 and the structure 10 so that the front surface of the structure 10 may be covered completely in the state which the introducing | transducing part 30 closed most.
 また、上側の板状部31aに接続された2本のシリンダ36が縮むか、左側または右側の板状部31b、31cに接続された2本のシリンダ36が伸びるかすることで、導入部30が開く。また、薄膜部32は、導入部30が開くとともに、蛇腹状に折りたたまれた状態から二等辺三角形の頂角(構造体10側の角)32aを支点として徐々に広がっていき(図9参照)、導入部30が最大限開いた状態において、平面状に張り切った状態となる。そして、導入部30は、この最大限開いた状態において、構造体10から前方に向けて広がったラッパ状となる。
 なお、構造体10に対して板状部31a,31b,31cが、それぞれどの程度開くことができるか(最大限開いたときに構造体10と板状部31a,31b,31cとが成す角度が何度となるか)は、必要に応じて適宜設定すればよい。
Further, the two cylinders 36 connected to the upper plate-like portion 31a are contracted or the two cylinders 36 connected to the left or right plate- like portions 31b and 31c are extended, so that the introduction portion 30 is expanded. Opens. In addition, the thin film portion 32 gradually spreads from the folded bellows shape with the apex angle (corner on the structure 10 side) 32a of the isosceles triangle as a fulcrum from the state where the introduction portion 30 is opened (see FIG. 9). In the state where the introduction part 30 is opened to the maximum, the state is stretched in a flat shape. And the introduction part 30 becomes a trumpet shape that spreads forward from the structure 10 in this fully opened state.
It should be noted that to what extent the plate- like portions 31a, 31b, 31c can be opened with respect to the structure 10 (the angle formed by the structure 10 and the plate- like portions 31a, 31b, 31c when opened to the maximum). The number of times may be set as appropriate as necessary.
 なお、導入部30は、集塵装置3の外部から空気取入部21に向けて空気を導くことができる形状であればよい。例えば、導入部30は、薄膜部32を備えておらず、4つの板状部31が台形の板状であり、隣り合う板状部31,31同士が当接することによって形成された、後方に向けて断面積が小さくなった截頭四角錐筒状になっていてもよい。また、他の截頭角錐筒状や截頭円錐筒状であってもよい。
 また、導入部30は、周方向に繋がったラッパ状でなくてもよい。すなわち、各板状部31間が薄膜部32によって繋がれておらず、各板状部31間に隙間が設けられている等してもよい。このような形状によっても、導入部30により、空気取入部21に空気を導くことができる。
 また、導入部30は、集塵装置3の外部から空気取入部21に向けて空気を導くことができれば、どこに設けられていてもよい。例えば、空気取入部21が、構造体10の後側壁材24に設けられている場合は、構造体10の後側の面に導入部30が設けられていてもよい。また、導入部30は、構造体10に直接接続されているのではなく、他の部材を介して接続されていてもよい。例えば、導入部30の構造体10側の開口部が、真っ直ぐなまたは屈曲したパイプの一方の端部に接続されており、このパイプの他方の端部が、構造体10の前側壁材20や、上側の壁材等に接続されていてもよい。
In addition, the introducing | transducing part 30 should just be a shape which can guide air toward the air intake part 21 from the exterior of the dust collector 3. FIG. For example, the introduction part 30 does not include the thin film part 32, the four plate-like parts 31 are trapezoidal plate-like, and formed by the adjacent plate- like parts 31, 31 coming into contact with each other on the rear side. It may be in the shape of a truncated quadrangular pyramid with a reduced cross-sectional area. Moreover, other truncated pyramid cylinder shape or truncated cone cylinder shape may be sufficient.
Moreover, the introduction part 30 may not be a trumpet shape connected in the circumferential direction. That is, the plate-like portions 31 may not be connected by the thin film portion 32, and a gap may be provided between the plate-like portions 31. Even with such a shape, air can be guided to the air intake portion 21 by the introduction portion 30.
Moreover, the introducing | transducing part 30 may be provided anywhere if the air can be guide | induced toward the air intake part 21 from the exterior of the dust collector 3. As shown in FIG. For example, when the air intake portion 21 is provided on the rear side wall member 24 of the structure 10, the introduction portion 30 may be provided on the rear surface of the structure 10. Moreover, the introducing | transducing part 30 may not be directly connected to the structure 10, but may be connected via another member. For example, the opening on the structure 10 side of the introduction part 30 is connected to one end of a straight or bent pipe, and the other end of the pipe is connected to the front wall member 20 of the structure 10 or It may be connected to the upper wall material or the like.
 車両本体2の運転席2aの下部には、図2に示すように、送風装置4が導入部30よりも前方に位置するようにして設けられている。また、送風装置4は、図示しないモーターと、このモーターの回転により回転する送風用の羽根と、を備えている。また、送風装置4は、送風用の羽根の回転により発生した風が吹き出す送風口4aを、下方かつ後方に向けた状態で、運転席2aの下部に設けられている(図2および図8参照)。また、送風装置4のモーターは、後述する回転装置310により発生した電気によって作動する。
 なお、送風装置4は、後述する回転装置310で圧縮された空気を噴き出すものであってもよい。
As shown in FIG. 2, the blower 4 is provided below the driver seat 2 a of the vehicle main body 2 so as to be positioned in front of the introduction portion 30. The blower device 4 includes a motor (not shown) and a blower blade that rotates by the rotation of the motor. The blower 4 is provided at the lower part of the driver's seat 2a with the blower opening 4a from which the wind generated by the rotation of the blower blades blows facing downward and rearward (see FIGS. 2 and 8). ). Further, the motor of the blower 4 is operated by electricity generated by a rotating device 310 described later.
In addition, the air blower 4 may eject the air compressed with the rotating apparatus 310 mentioned later.
 構造体10の内側には、図1に示すように、第一フィルタ装置50と、第二フィルタ装置100と、第三フィルタ装置150と、第四フィルタ装置200と、第五フィルタ装置250と、から構成されるフィルタ群300が設けられている。また、これら五つのフィルタ装置は、集塵用車両1の前側から、第一フィルタ装置50、第二フィルタ装置100、第三フィルタ装置150、第四フィルタ装置200、第五フィルタ装置250の順番に設けられている。また、これら五つのフィルタ装置は、それぞれ構造体10内部の上下方向および左右方向ほぼ全幅にわたり存在している。したがって、空気取入部21から構造体10内部に取り入れられた空気は、第一フィルタ装置50から第五フィルタ装置250までの五つのフィルタ装置を順番に通過し、空気排出部25から排出されるようになっている。
 なお、各フィルタ装置の並び順は、上記の順でなくてもよい。
Inside the structure 10, as shown in FIG. 1, a first filter device 50, a second filter device 100, a third filter device 150, a fourth filter device 200, a fifth filter device 250, The filter group 300 comprised from these is provided. These five filter devices are arranged in the order of the first filter device 50, the second filter device 100, the third filter device 150, the fourth filter device 200, and the fifth filter device 250 from the front side of the dust collecting vehicle 1. Is provided. In addition, these five filter devices exist over almost the entire width in the vertical direction and the horizontal direction in the structure 10, respectively. Therefore, the air taken into the structure 10 from the air intake 21 passes through the five filter devices from the first filter device 50 to the fifth filter device 250 in order and is discharged from the air discharge unit 25. It has become.
The order of arrangement of the filter devices may not be the above order.
 第一フィルタ装置50は、図10に示すように、第一フィルタ本体(フィルタ)51と、タービン52と、3本のローラー53と、タービン52の回転を3本のローラー53のうちの1本(ローラー53c)に伝えるベルト(動力伝達部)54と、を備えている。なお、図10において、円Mで囲われた部分は、第一フィルタ装置50の内部を示す断面図となっている。 As shown in FIG. 10, the first filter device 50 includes a first filter main body (filter) 51, a turbine 52, three rollers 53, and one of the three rollers 53 for rotating the turbine 52. And a belt (power transmission unit) 54 for transmitting to the (roller 53c). In FIG. 10, a portion surrounded by a circle M is a cross-sectional view showing the inside of the first filter device 50.
 また、第一フィルタ装置50の下側には、塵埃貯蓄部が設けられている。塵埃貯蓄部は、上面および下面の面積が構造体10の下側壁材57とほぼ等しい略直方体箱状であり、下側壁材57の下面側に設けられている。そして、塵埃貯蓄部の内部に塵埃が溜められるようになっている。なお、下側壁材57が、塵埃貯蓄部の上面を兼ねることとしてもよい。また、塵埃貯蓄部の上面および下側壁材57の前方には、これらを貫通する長方形状の穴が設けられている。また、この長方形状の穴の面積は、第一フィルタ装置50の底面の面積とほぼ同一となっている。また、この長方形状の穴を囲うようにして、下側壁材57の上面に、角筒状の塵埃回収部58(図10および図11参照)が設けられている。したがって、塵埃回収部58の上面から塵埃貯蓄部に向けて、貫通する長方形状の穴が形成されていることとなる。 Also, a dust storage unit is provided below the first filter device 50. The dust storage portion has a substantially rectangular parallelepiped box shape in which the area of the upper surface and the lower surface is substantially equal to the lower wall material 57 of the structure 10, and is provided on the lower surface side of the lower wall material 57. And dust is stored inside the dust storage part. The lower wall material 57 may also serve as the upper surface of the dust storage unit. Further, a rectangular hole penetrating them is provided in the upper surface of the dust storage portion and in front of the lower wall member 57. The area of the rectangular hole is substantially the same as the area of the bottom surface of the first filter device 50. Further, a rectangular tube-shaped dust collecting portion 58 (see FIGS. 10 and 11) is provided on the upper surface of the lower wall member 57 so as to surround the rectangular hole. Accordingly, a penetrating rectangular hole is formed from the upper surface of the dust collection part 58 toward the dust storage part.
 第一フィルタ装置50の3本のローラー53は、回転軸が左右方向に向くようにして、平行に並べて配置されている。また、3本のローラー53のうちの1本(ローラー53a)は、構造体10の前方上側の2つの構造材用継手11にそれぞれ設けられたローラー取付部材59,59によって、回転可能に軸支されている。また、3本のローラー53のうちの残りの2本(ローラー53b,53c)は、それぞれ塵埃回収部58の左右両端部の上面に設けられたローラー取付部材59,59によって、回転可能に軸支されている。
 また、3本のローラー53は、軸方向から見たときに、ローラー53b側が直角となる直角三角形状に配置されている。すなわち、ローラー53bの真上にローラー53aが配置されており、ローラー53bの真後ろにローラー53cが配置されている。
 なお、ローラー取付部材59は、全て構造体10の構造材用継手11や構造材17等に設けられていてもよい。また、構造体10の内側に、ローラー取付部材59を所望の位置に配置するためのフレーム部材等を別に設け、このフレーム部材等にローラー取付部材59を設けることとしてもよい。また、ローラー53の数は2本でもよく、4本以上であってもよい。また、3本のローラー53の配置は、直角三角形状でなくてもよい。また、ローラー53の本数によって、他の多角形状にローラー53が配置されていてもよい。
The three rollers 53 of the first filter device 50 are arranged side by side in parallel so that the rotation axis is directed in the left-right direction. One of the three rollers 53 (roller 53a) is rotatably supported by roller mounting members 59 and 59 provided on the two structural material joints 11 on the upper front side of the structure body 10, respectively. Has been. The remaining two ( rollers 53b, 53c) of the three rollers 53 are rotatably supported by roller mounting members 59, 59 provided on the upper surfaces of the left and right ends of the dust collecting portion 58, respectively. Has been.
Further, the three rollers 53 are arranged in a right triangle shape in which the roller 53b side is a right angle when viewed from the axial direction. That is, the roller 53a is disposed directly above the roller 53b, and the roller 53c is disposed directly behind the roller 53b.
The roller mounting members 59 may all be provided on the structural material joint 11 or the structural material 17 of the structure 10. Further, a frame member or the like for disposing the roller mounting member 59 at a desired position may be separately provided inside the structure 10, and the roller mounting member 59 may be provided on the frame member or the like. Further, the number of rollers 53 may be two, or four or more. The arrangement of the three rollers 53 may not be a right triangle. Further, depending on the number of rollers 53, the rollers 53 may be arranged in other polygonal shapes.
 3本のローラー53のそれぞれには、プーリー60が、両端部および中心部にそれぞれ1個ずつ、計3個設けられている。プーリー60は、ローラー53に固定されており、プーリー60とローラー53とは、一体として回転するようになっている。 Each of the three rollers 53 is provided with a total of three pulleys 60, one at each end and one at the center. The pulley 60 is fixed to the roller 53, and the pulley 60 and the roller 53 rotate as a unit.
 第一フィルタ本体51は、無端状のベルト状のエアフィルタであり、空気中の塵埃(例えば、1.3um程度の大きさの埃)を捕集可能な材質の素材により形成されている。第一フィルタ本体51の横幅(左右方向の長さ)は、ローラー53の軸方向の長さとほぼ同じとなっている。 The first filter body 51 is an endless belt-shaped air filter, and is formed of a material made of a material capable of collecting dust in the air (for example, dust having a size of about 1.3 μm). The lateral width (length in the left-right direction) of the first filter body 51 is substantially the same as the length of the roller 53 in the axial direction.
 図13は、ローラー53a‐53c間における第一フィルタ本体51の一部拡大図である。第一フィルタ本体51は、図13に示すように、凸条部51aと凹条部51bとを備えている。凸条部51aは、左右方向に延びる断面コの字型の凸条であり、凹条部51bは、左右方向に延びる断面コの字型の凹条(溝)である。凸条部51aと凹条部51bとは、第一フィルタ本体51aの周方向における長さが同一であり、周方向に沿って交互に並べられている。すなわち、第一フィルタ本体51aの外側の面は、第一フィルタ本体51aの周方向に沿って、等間隔で凹凸した形状となっている。そして、この凹凸があることによって、第一フィルタ本体51aは、凹凸がない場合に比べ表面積が大きいものとなっている。 FIG. 13 is a partially enlarged view of the first filter body 51 between the rollers 53a-53c. As shown in FIG. 13, the first filter body 51 includes a ridge portion 51 a and a ridge portion 51 b. The ridges 51a are U-shaped ridges extending in the left-right direction, and the recesses 51b are U-shaped ridges (grooves) extending in the left-right direction. The convex strips 51a and the concave strips 51b have the same length in the circumferential direction of the first filter body 51a, and are alternately arranged along the circumferential direction. That is, the outer surface of the first filter body 51a has a shape that is uneven at regular intervals along the circumferential direction of the first filter body 51a. And by having this unevenness | corrugation, the 1st filter main body 51a has a large surface area compared with the case where there is no unevenness | corrugation.
 第一フィルタ本体51は、内側の面の左右両端部および左右方向中心部にそれぞれ、周方向にわたり形成された突条の掛架部51cを備えている。左側の掛架部51cは、各ローラー53の左側のプーリー60に、中心部の掛架部51cは、各ローラー53の中心部のプーリー60に、右側の掛架部51cは、各ローラー53の右側のプーリー60に、それぞれ掛架されている。言い換えると、第一フィルタ本体51が、3本のローラー53間に張架されている。このため、ローラー53が回転すると、第一フィルタ本体51が周回するようになっている。
 なお、第一フィルタ本体51の、塵埃を捕集するフィルタとして機能する部分自体が、無端状のベルト状となっていなくてもよい。例えば、3本のローラー53間に無端状のベルト部材を1つまたは複数張架し、このベルト部材上に、長方形状のフィルタを複数設ける等としてもよい。また、ローラー53の代わりに回転しない棒状部材を設け、この棒状部材に、この棒状部材に対して回転可能なプーリー60を設ける構成としてもよい。
The first filter main body 51 is provided with protrusions 51c formed on the inner surface on both the left and right ends and the center in the left-right direction along the circumferential direction. The left hanging portion 51 c is on the left pulley 60 of each roller 53, the central hanging portion 51 c is on the pulley 60 at the center of each roller 53, and the right hanging portion 51 c is on each roller 53. Each is suspended on the right pulley 60. In other words, the first filter body 51 is stretched between the three rollers 53. For this reason, when the roller 53 rotates, the 1st filter main body 51 will circulate.
In addition, the part itself which functions as a filter which collects dust of the 1st filter main body 51 does not need to be an endless belt shape. For example, one or more endless belt members may be stretched between the three rollers 53, and a plurality of rectangular filters may be provided on the belt members. Moreover, it is good also as a structure which provides the rod 60 which does not rotate instead of the roller 53, and provides the pulley 60 which can rotate with respect to this rod-shaped member in this rod-shaped member.
 また、タービン52は、第一フィルタ本体51の内側に配置されている。また、第一フィルタ本体51の内側には、図11に示すように、台64の天板65が配置されている。
 台64は、長方形状の天板65と、脚部66と、を備えている。また、脚部66は、天板65の下面側左右両端部それぞれに設けられている。また、台64の脚部66は、塵埃回収部58の上面の左右両端部に固定されている。
 また、天板65の上面中央部には、タービン台67が設けられている。そして、タービン台67の上にタービン52が設けられている。
Further, the turbine 52 is disposed inside the first filter body 51. Further, as shown in FIG. 11, the top plate 65 of the base 64 is disposed inside the first filter body 51.
The base 64 includes a rectangular top plate 65 and leg portions 66. Further, the leg portions 66 are provided at both the left and right end portions on the lower surface side of the top plate 65. Further, the leg portions 66 of the base 64 are fixed to both left and right end portions of the upper surface of the dust collecting portion 58.
A turbine stand 67 is provided at the center of the upper surface of the top plate 65. A turbine 52 is provided on the turbine table 67.
 タービン52は、図12に示すように、羽根車68と、集塵用車両1の前後方向に向いた羽根車回転軸69と、プーリー70と、回転方向変換装置71とを備えている。
 羽根車68は、中心部に穴が設けられた円柱状の羽根車芯72と、複数の羽根73とを備えている。また、羽根車芯72の中心部に設けられた穴には、羽根車回転軸69が挿入されており、羽根車回転軸69に羽根車68が固定されている。
 羽根73は、羽根車回転軸69および羽根車芯72に対して傾斜した状態で、羽根車芯72の周方向に等間隔で計4枚、羽根車芯72と一体的に設けられている。そして、集塵用車両1の空気取入部21から空気排出部25に向けて流れる空気(風)を受けて、羽根車68と羽根車回転軸69とが一体として回転するようになっている。
As shown in FIG. 12, the turbine 52 includes an impeller 68, an impeller rotating shaft 69 facing the front-rear direction of the dust collecting vehicle 1, a pulley 70, and a rotation direction conversion device 71.
The impeller 68 includes a columnar impeller core 72 having a hole in the center and a plurality of blades 73. An impeller rotating shaft 69 is inserted into a hole provided in the center of the impeller core 72, and the impeller 68 is fixed to the impeller rotating shaft 69.
A total of four blades 73 are provided integrally with the impeller core 72 at equal intervals in the circumferential direction of the impeller core 72 while being inclined with respect to the impeller rotational shaft 69 and the impeller core 72. The impeller 68 and the impeller rotating shaft 69 are rotated integrally by receiving air (wind) flowing from the air intake portion 21 of the dust collection vehicle 1 toward the air discharge portion 25.
 また、回転方向変換装置71は、羽根車68の回転をプーリー70に伝達し、羽根車68の回転によりプーリー70が、集塵用車両1の左右方向に向いた回転軸を中心として回転するようになっている。 Further, the rotation direction conversion device 71 transmits the rotation of the impeller 68 to the pulley 70, and the rotation of the impeller 68 causes the pulley 70 to rotate about the rotation axis facing the left-right direction of the dust collecting vehicle 1. It has become.
 第一フィルタ装置50の下部後方のローラー53cの軸方向中心部には、前述した3個のプーリー60の他に、もう1個のプーリーが、ローラー53cと一体的に設けられている。また、このもう1個のプーリーと、タービン52のプーリー70との間に、ベルト(動力伝達部)54が張架されており、タービン52のプーリー70の回転により、ローラー53cが回転するようになっている。したがって、羽根車68の回転が、回転方向変換装置71、プーリー70およびベルト54を伝わりローラー53cが回転し、第一フィルタ本体51が周回するようになっている。羽根車68は、集塵用車両1の空気取入部21から空気排出部25に向けて流れる空気(風)を受けて回転し、このとき第一フィルタ本体51は、図10に示す矢印の方向に周回するようになっている。 In addition to the three pulleys 60 described above, another pulley is provided integrally with the roller 53c at the center in the axial direction of the roller 53c at the lower rear of the first filter device 50. Further, a belt (power transmission unit) 54 is stretched between the other pulley and the pulley 70 of the turbine 52, and the roller 53 c is rotated by the rotation of the pulley 70 of the turbine 52. It has become. Therefore, the rotation of the impeller 68 is transmitted through the rotation direction conversion device 71, the pulley 70, and the belt 54, so that the roller 53c rotates and the first filter body 51 rotates. The impeller 68 rotates by receiving air (wind) flowing from the air intake portion 21 of the dust collection vehicle 1 toward the air discharge portion 25, and at this time, the first filter body 51 is in the direction of the arrow shown in FIG. To go around.
 また、台64の天板65の下方であって、第一フィルタ本体51の内側には、噴出装置80が配置されている(図12参照)。噴出装置80は、管81と噴出部82とを備えている。管81は、集塵用車両1の左右方向を向き、第一フィルタ装置50のローラー53と平行に配置された真っ直ぐな円管である。また、噴出部82は、空気を噴き出すための噴出口82aを備え、噴出口82aを下に向けた状態で、管81の軸方向に複数設けられている。
 管81は、別の管を介して後述する回転装置310と接続されており、回転装置310で圧縮された空気が噴出部82の噴出口82aから噴き出すようになっている。
 なお、噴出装置80は、空気を噴き出すものではなく、水等を噴き出すものであってもよい。
Further, an ejection device 80 is disposed below the top plate 65 of the base 64 and inside the first filter body 51 (see FIG. 12). The ejection device 80 includes a pipe 81 and an ejection part 82. The pipe 81 is a straight circular pipe that faces the left-right direction of the dust collecting vehicle 1 and is arranged in parallel with the roller 53 of the first filter device 50. Moreover, the ejection part 82 is provided with the ejection port 82a for ejecting air, and two or more are provided in the axial direction of the pipe | tube 81 in the state which faced the ejection port 82a downward.
The pipe 81 is connected to a rotating device 310 to be described later via another pipe, and air compressed by the rotating device 310 is ejected from the ejection port 82a of the ejection part 82.
In addition, the ejection device 80 may eject water or the like instead of ejecting air.
 第一フィルタ装置50の後方には、図1に示すように、第二フィルタ装置100が配置されている。第二フィルタ装置100は、図14に示すように、コイル101と、複数の管状部材102と、前面板103と、後面板104と、を備えている。
 管状部材102は、図15に示すように、銅製の真っ直ぐな円管状の部材である。また、管状部材102の直径は約10mmとなっている。
As shown in FIG. 1, a second filter device 100 is disposed behind the first filter device 50. As shown in FIG. 14, the second filter device 100 includes a coil 101, a plurality of tubular members 102, a front plate 103, and a rear plate 104.
As shown in FIG. 15, the tubular member 102 is a straight circular tubular member made of copper. The diameter of the tubular member 102 is about 10 mm.
 前面板103および後面板104は、長方形(縦横の辺の長さが共に約2m)の板状部材であり、板の面を集塵用車両1の前後方向に向けた状態で、構造体10の内側に設けられている。また、後面板104には、上下方向および左右方向に整列した約1000個の穴105が設けられており、前面板103にも後面板104の穴105と対向する位置に穴が設けられている。 The front plate 103 and the rear plate 104 are rectangular plate members (both lengths of about 2 m in length and width are about 2 m), and the structure 10 with the surface of the plate facing in the front-rear direction of the dust collecting vehicle 1. Is provided inside. Further, the rear plate 104 is provided with about 1000 holes 105 aligned in the vertical direction and the left-right direction, and the front plate 103 is also provided with holes at positions facing the holes 105 of the rear plate 104. .
 また、各穴105と、穴105と対向する位置にある前面板103の穴には、管状部材102が嵌入されている。具体的には、管状部材102の一方の端部が、後面板104の穴105に嵌入されており、この穴105と対向する位置にある前面板103の穴に、管状部材102の他方の端部が嵌入されている。したがって、約1000本の管状部材102が、軸を前後方向に向けた状態で、上下方向および左右方向に整列して並べられていることとなる。 Further, the tubular member 102 is inserted into each hole 105 and the hole of the front plate 103 at a position facing the hole 105. Specifically, one end of the tubular member 102 is fitted into the hole 105 of the rear plate 104, and the other end of the tubular member 102 is inserted into the hole of the front plate 103 at a position facing the hole 105. The part is inserted. Therefore, about 1000 tubular members 102 are aligned in the vertical direction and the horizontal direction with their axes directed in the front-rear direction.
 また、各管状部材102の外周部には、図14および図15に示すように、前面板103と後面板104との間において、コイル101が巻き付けられている。コイル101は、コイル101が軸方向前側から見て反時計回りに巻かれた反時計回り部101aと、時計回りに巻かれた時計回り部101bとを、それぞれ9個ずつ備えている。また、反時計回り部101aと時計回り部101bとは、管状部材102の軸方向に沿って交互に繰り返して配置されている。 Further, as shown in FIGS. 14 and 15, a coil 101 is wound around the outer peripheral portion of each tubular member 102 between the front plate 103 and the rear plate 104. The coil 101 includes nine counterclockwise portions 101a wound around the coil 101 as viewed from the front side in the axial direction and nine clockwise portions 101b wound clockwise. Further, the counterclockwise portion 101 a and the clockwise portion 101 b are alternately and repeatedly arranged along the axial direction of the tubular member 102.
 また、コイル101には、後述する回転装置310から電流が流されるようになっている。つまり、回転装置310が、コイル101に電流を流すための電源として働くようになっている。回転装置310からは、例えば、約24ボルト以上の直流電圧が印加され、このときコイル101には、例えば、約100A以上の直流電流が流される。 Further, a current is passed through the coil 101 from a rotating device 310 described later. That is, the rotating device 310 works as a power source for causing a current to flow through the coil 101. For example, a DC voltage of about 24 volts or more is applied from the rotating device 310, and at this time, a DC current of, for example, about 100 A or more flows through the coil 101.
 なお、管状部材102は、真っ直ぐな円管状でなく、屈曲していてもよい。このような形状によれば、管状部材102によって、空気を流したい方向に導くことができる。 The tubular member 102 is not a straight circular tube, and may be bent. According to such a shape, the tubular member 102 can guide air in a direction in which it is desired to flow.
 第二フィルタ装置100の後方には、図1に示すように、第三フィルタ装置150が配置されている。第三フィルタ装置150は、図16に示すように、複数のレーザー装置151とレーザー装置設置部材152とを備えている。
 レーザー装置設置部材152は、断面コの字型の左右に長尺な部材である。レーザー装置設置部材152は、図17に示すように、コの字の開口部を後側に向けた状態で、第二フィルタ装置100の後面板104の後側の面の上部と当接している。なお、レーザー装置設置部材152は、後面板104と溶接等により接合されていてもよいし、構造体10と溶接等により接合されていてもよい。
As shown in FIG. 1, a third filter device 150 is disposed behind the second filter device 100. As shown in FIG. 16, the third filter device 150 includes a plurality of laser devices 151 and a laser device installation member 152.
The laser device installation member 152 is a member having a U-shaped cross section that is long on the left and right. As shown in FIG. 17, the laser device installation member 152 is in contact with the upper portion of the rear surface of the rear plate 104 of the second filter device 100 with the U-shaped opening facing the rear side. . The laser device installation member 152 may be joined to the rear plate 104 by welding or the like, or may be joined to the structure 10 by welding or the like.
 レーザー装置設置部材152の上面153には、図16に示すように、複数の穴154が左右方向に所定間隔でかつ前後方向に千鳥状に設けられている。
 すなわち、前側に配置されている複数の穴154は、左右方向に同ピッチPで配置され、後側に配置されている複数の穴154は、左右方向に同ピッチPで配置されているが、前側に配置され、かつ左右に隣り合う穴154,154間の中央位置に、後側に配置された穴154が位置している。また、前側に配置されている穴154と後側に配置されている穴154とは、前後方向において一部が重なっている。言い換えると、複数の穴154は、全て同一の直線(図16に一点鎖線Aとして図示)上を通るように配置されている。すなわち、前側にずれた位置にある穴154の後端部は当該直線(一点鎖線A)よりも後側に位置し、後側にずれた位置にある穴154の前端部は当該直線(一点鎖線A)よりも前側に位置するようになっている。
 なお、前側に配置されている穴154と、この穴154と左右に隣り合う後側に配置された穴154とが、左右方向において一部重なるようになっていてもよい。
 また、レーザー装置設置部材152の下面155には、上面153の穴154と対向する位置に、穴156が設けられている。
As shown in FIG. 16, a plurality of holes 154 are provided on the upper surface 153 of the laser device installation member 152 in a staggered manner in the left-right direction at a predetermined interval.
That is, the plurality of holes 154 arranged on the front side are arranged at the same pitch P in the left-right direction, and the plurality of holes 154 arranged on the rear side are arranged at the same pitch P in the left-right direction. The hole 154 arranged on the rear side is located at the center position between the holes 154 and 154 arranged on the front side and adjacent to the left and right. Further, the hole 154 arranged on the front side and the hole 154 arranged on the rear side partially overlap in the front-rear direction. In other words, the plurality of holes 154 are all arranged so as to pass on the same straight line (shown as a one-dot chain line A in FIG. 16). That is, the rear end portion of the hole 154 at the position shifted to the front side is located behind the straight line (dashed line A), and the front end portion of the hole 154 at the position shifted to the rear side is the straight line (dashed line). It is located in front of A).
Note that the hole 154 disposed on the front side and the hole 154 disposed on the rear side adjacent to the left and right may partially overlap in the left-right direction.
In addition, a hole 156 is provided on the lower surface 155 of the laser device installation member 152 at a position facing the hole 154 on the upper surface 153.
 レーザー装置151は、殺菌力のあるレーザー光L(例えば、出力1000ワット以上)を放射する略円柱状の装置であり、レーザー光Lが真下方向に放射されるようにして、レーザー装置設置部材152に設けられている。また、レーザー装置151は、一方の端部がレーザー装置設置部材152の上面153の穴154に、他方の端部が下面155の穴156に嵌入された状態で、レーザー装置設置部材152に固定されている。また、レーザー装置151は、回転装置310により発生した電気により作動する。 The laser device 151 is a substantially cylindrical device that emits a sterilizing laser beam L (for example, an output of 1000 watts or more). The laser device L is emitted in a direction directly below the laser device installation member 152. Is provided. The laser device 151 is fixed to the laser device installation member 152 with one end inserted into the hole 154 in the upper surface 153 of the laser device installation member 152 and the other end inserted into the hole 156 in the lower surface 155. ing. The laser device 151 is operated by electricity generated by the rotating device 310.
 複数のレーザー装置151のうちの1つから放射されたレーザー光Lは、図18に示すように、上下方向に所定間隔で整列した第二フィルタ装置100の管状部材102の軸方向後側延長線上を通過する。また、レーザー装置151は、左右方向に所定間隔で並べられた管状部材102と同じ数だけ設けられている。すなわち、並べられた管状部材102の各上下方向の列に対して1つのレーザー装置151が設けられており、1つのレーザー装置151から放射されたレーザー光Lは、上下方向に整列した一列の管状部材102すべての軸方向後側延長線上を通過する。
 また、1つのレーザー装置151から放射されるレーザー光Lの左右方向の幅は、管状部材102の内径よりも大きい。すなわち、各管状部材102から出てくる空気ほぼすべてに対してレーザー光Lが照射されるようになっている。つまり、第3フィルタ装置150の下を通過する空気にレーザー光Lが当たるように、管状部材102によって空気が導かれている。
 なお、第3フィルタ装置150は、農業の分野において、殺菌を行ったり、昆虫の卵等にレーザー光Lを当てて殺虫を行ったりするために、農薬の代わりとして使用することもできる。この際、レーザー装置151は、第3フィルタ装置150の用途に応じて、所望のレーザー光Lを放射するものを適宜選択すればよい。また、レーザー装置151を上述のように並べることで、隙間なく並べることができるので、適当なレーザー光Lを放射するレーザー装置151を適宜選択することで、防犯や防衛目的に第3フィルタ装置150を使用することもできる。
As shown in FIG. 18, the laser light L emitted from one of the plurality of laser devices 151 is on the axial rearward extension line of the tubular member 102 of the second filter device 100 aligned in the vertical direction at a predetermined interval. Pass through. Further, the same number of laser devices 151 as the tubular members 102 arranged at a predetermined interval in the left-right direction are provided. That is, one laser device 151 is provided for each vertical row of the tubular members 102 arranged, and the laser light L emitted from one laser device 151 is a single row of tubular tubes aligned in the vertical direction. All of the members 102 pass on the axial rearward extension line.
The width in the left-right direction of the laser light L emitted from one laser device 151 is larger than the inner diameter of the tubular member 102. That is, the laser beam L is applied to almost all the air coming out of each tubular member 102. That is, the air is guided by the tubular member 102 so that the laser light L strikes the air passing under the third filter device 150.
Note that the third filter device 150 can also be used in place of agricultural chemicals in the field of agriculture to sterilize or to kill insects by applying laser light L to insect eggs or the like. At this time, the laser device 151 may be appropriately selected to emit a desired laser beam L according to the application of the third filter device 150. Further, since the laser devices 151 can be arranged without gaps as described above, the third filter device 150 can be used for crime prevention and defense purposes by appropriately selecting a laser device 151 that emits an appropriate laser beam L. Can also be used.
 第三フィルタ装置150の後方には、図1に示すように、第四フィルタ装置200が配置されている。図19は、第四フィルタ装置200を示すものである。また、図20は、第四フィルタ装置200の一部を下側から見た断面図である。第四フィルタ装置200は、プリーツ加工された(折りたたまれた形状となっている)略長方形状の活性炭フィルタ201と、長方形状の枠体202とを備えている。第四フィルタ装置200は、構造体10の内側に設けられている。
 活性炭フィルタ201は、一酸化炭素、二酸化炭素および排気ガス等を吸着することができる。また、活性炭フィルタ201は、消臭効果を有する。
As shown in FIG. 1, the fourth filter device 200 is disposed behind the third filter device 150. FIG. 19 shows the fourth filter device 200. FIG. 20 is a cross-sectional view of a part of the fourth filter device 200 as viewed from below. The fourth filter device 200 includes a substantially rectangular activated carbon filter 201 that is pleated (has a folded shape) and a rectangular frame 202. The fourth filter device 200 is provided inside the structure 10.
The activated carbon filter 201 can adsorb carbon monoxide, carbon dioxide, exhaust gas, and the like. Moreover, the activated carbon filter 201 has a deodorizing effect.
 第四フィルタ装置200の後方には、図1に示すように、第五フィルタ装置250が配置されている。第五フィルタ装置250は、図21および図22に示すように、プリーツ加工された略円筒状のHEPAフィルタ251と、長方形(上下方向および左右方向の辺の長さが共に約2m)の板状のHEPAフィルタ設置板252とを備えている。HEPAフィルタ設置板252は、板の面を集塵用車両1の前後方向に向けた状態で、構造体10の内側に設けられている。また、HEPAフィルタ251は、HEPAフィルタ設置板252から前方に突き出るようにして、HEPAフィルタ設置板252に複数設けられている。
 HEPAフィルタ設置板252には、HEPAフィルタ251が設けられている部分に、HEPAフィルタ251の内径とほぼ同径の円形の穴253が設けられている。また、円筒状のHEPAフィルタ251の前端部には、円筒の穴を塞ぐようにして、遮蔽板254が設けられている。したがって、第四フィルタ装置200を通過してきた空気は、HEPAフィルタ251の外周面側から内周面側に流れ、穴253を通過して、第五フィルタ装置250の後側に向かい流れるようになっている。
A fifth filter device 250 is disposed behind the fourth filter device 200 as shown in FIG. As shown in FIGS. 21 and 22, the fifth filter device 250 includes a pleated substantially cylindrical HEPA filter 251 and a plate shape having a rectangular shape (both sides in the vertical and horizontal directions are approximately 2 m long). The HEPA filter installation plate 252 is provided. The HEPA filter installation plate 252 is provided inside the structure 10 with the plate surface facing the front-rear direction of the dust collection vehicle 1. A plurality of HEPA filters 251 are provided on the HEPA filter installation plate 252 so as to protrude forward from the HEPA filter installation plate 252.
The HEPA filter installation plate 252 is provided with a circular hole 253 having substantially the same diameter as the inner diameter of the HEPA filter 251 at the portion where the HEPA filter 251 is provided. Further, a shielding plate 254 is provided at the front end of the cylindrical HEPA filter 251 so as to close the cylindrical hole. Therefore, the air that has passed through the fourth filter device 200 flows from the outer peripheral surface side of the HEPA filter 251 to the inner peripheral surface side, passes through the hole 253, and flows toward the rear side of the fifth filter device 250. ing.
 第五フィルタ装置250の後側には、図1に示すように、クーリングベッド301が設けられている。クーリングベッド301は、紙製で厚さ約15cmの板状部材であり、板の面を集塵用車両1の前後方向に向けた状態で、構造体10の内側に設けられている。クーリングベッド301は、下から上に向けて多層に重ね合わされた段ボールのような多層構造となっており、前側から後側に向けて空気が層間を流れることができるようになっている。 As shown in FIG. 1, a cooling bed 301 is provided on the rear side of the fifth filter device 250. The cooling bed 301 is a plate-like member made of paper and having a thickness of about 15 cm. The cooling bed 301 is provided inside the structure 10 with the surface of the plate facing in the front-rear direction of the dust collection vehicle 1. The cooling bed 301 has a multilayer structure such as corrugated cardboard stacked in multiple layers from the bottom to the top so that air can flow between the layers from the front side to the rear side.
 運転席2aの後部には、図2に示すように、水を溜めておくための水タンク302が設けられている。また、構造体10の内部後方上部にも、左右に離間して2つの水タンク302が設けられている。また、構造体10の内部には、クーリングベッド301の上方を左右に横断するようにして、水パイプ303が設けられている。また、水パイプ303は、構造体10の内部後方上部に設けられた水タンク302と繋がれている。また、水パイプ303には、下方に複数の穴が設けられており、水タンク302に溜められた水を、水パイプ303を通じてクーリングベッド301に供給できるようになっている。そして、クーリングベッド301は、水タンク302から供給された水によって湿らせた状態とすることができるようになっている。 As shown in FIG. 2, a water tank 302 for storing water is provided at the rear of the driver seat 2a. In addition, two water tanks 302 are also provided on the inner rear upper part of the structure 10 so as to be separated from each other on the left and right. Further, a water pipe 303 is provided inside the structure 10 so as to cross the upper side of the cooling bed 301 to the left and right. Further, the water pipe 303 is connected to a water tank 302 provided in the upper rear portion inside the structure 10. The water pipe 303 is provided with a plurality of holes below, so that water stored in the water tank 302 can be supplied to the cooling bed 301 through the water pipe 303. And the cooling bed 301 can be made into the state moistened with the water supplied from the water tank 302. FIG.
 クーリングベッド301の後方には、図1に示すように、回転装置310が設けられている。回転装置310は、構造体10に溶接等により接続されたフレーム部材309により支持されている(図23参照)。
 回転装置310は、図24に示すように、ケーシング311と、回転軸312と、原動機313と、を備えている。なお、原動機313は、ガソリンや軽油等の燃料により動くものであってもよいし、電気により動くモーター等であってもよい。また、原動機313は、集塵用車両1を走らせるための原動機とは別に設けられているが、1つの原動機で回転装置310の駆動と、集塵用車両1の走行とを行うようにしてもよい。
A rotating device 310 is provided behind the cooling bed 301 as shown in FIG. The rotating device 310 is supported by a frame member 309 connected to the structure 10 by welding or the like (see FIG. 23).
As shown in FIG. 24, the rotating device 310 includes a casing 311, a rotating shaft 312, and a prime mover 313. The prime mover 313 may be driven by fuel such as gasoline or light oil, or may be a motor driven by electricity. The prime mover 313 is provided separately from the prime mover for running the dust collection vehicle 1. However, the prime mover 313 drives the rotating device 310 and runs the dust collection vehicle 1 with one prime mover. Also good.
 回転軸312および原動機313には、クラッチ314が設けられており(図25参照)、クラッチ314によって回転軸312と原動機313とが繋がれている。したがって、このクラッチ314をつなぐことで、原動機313の回転が回転軸312に伝わる状態になり、クラッチ314を切ることで、原動機313の回転が回転軸312に伝わらない状態になるようになっている。 The rotary shaft 312 and the prime mover 313 are provided with a clutch 314 (see FIG. 25), and the rotary shaft 312 and the prime mover 313 are connected by the clutch 314. Therefore, when the clutch 314 is connected, the rotation of the prime mover 313 is transmitted to the rotary shaft 312, and when the clutch 314 is disconnected, the rotation of the prime mover 313 is not transmitted to the rotary shaft 312. .
 また、回転軸312は、軸が集塵用車両1の前後方向を向いた状態で、ケーシング311を貫通するようにして設けられている。また、回転軸312には、図25に示すように、原動機313側(前側)からその逆側(後側)の端部に向かって順に、永久磁石(回転子)315、インペラ316(圧縮装置)および羽根車317が設けられている。また、永久磁石315とインペラ316とは、ケーシング311の内側に収まった状態となっている。
 なお、回転軸312は、構造体10の前後方向および上下方向の略中心に位置している。
The rotating shaft 312 is provided so as to penetrate the casing 311 with the shaft facing the front-rear direction of the dust collecting vehicle 1. In addition, as shown in FIG. 25, the rotating shaft 312 includes a permanent magnet (rotor) 315, an impeller 316 (compressor) in order from the prime mover 313 side (front side) toward the opposite side (rear side) end. ) And an impeller 317. Further, the permanent magnet 315 and the impeller 316 are in a state of being accommodated inside the casing 311.
The rotating shaft 312 is located at the approximate center of the structure 10 in the front-rear direction and the up-down direction.
 ケーシング311の内面には、永久磁石315と所定の隙間をもって、複数のコイル(固定子)318が設けられている。そして、原動機313の回転により、回転軸312が回転することで、永久磁石315が回転し、この永久磁石315とコイル318との協働によって発電するようになっている。
 なお、発電された電気は、コイル318から取り出されてバッテリーに蓄電されたり、直接使用されるようになっている。第二フィルタ装置100のコイル101や第三フィルタ装置150のレーザー装置151等では、この回転装置310で発電された電気が使用されるが、コイル318から取り出された電気をそのまま使用してもよく、一度バッテリーに蓄電されたものを使用してもよい。
 また、コイル318に、バッテリーやコンセント等の外部電源から電流を流すことにより、磁界を発生させ、永久磁石315と反発または引き合う力を利用して、回転軸312を回転させることができるようになっている。
A plurality of coils (stator) 318 are provided on the inner surface of the casing 311 with a predetermined gap from the permanent magnet 315. The rotation shaft 312 is rotated by the rotation of the prime mover 313, whereby the permanent magnet 315 is rotated, and the permanent magnet 315 and the coil 318 cooperate to generate power.
The generated electricity is taken out from the coil 318 and stored in a battery or used directly. In the coil 101 of the second filter device 100, the laser device 151 of the third filter device 150, etc., electricity generated by the rotating device 310 is used, but electricity taken out from the coil 318 may be used as it is. Once stored in the battery, it may be used.
In addition, when a current is supplied to the coil 318 from an external power source such as a battery or an outlet, a magnetic field is generated, and the rotating shaft 312 can be rotated using a force repelling or attracting the permanent magnet 315. ing.
 また、ケーシング311には、ケーシング311に設けられた複数の穴である吸込口320と、吐出口321と、が設けられている。そして、回転軸312の回転に伴い、インペラ316が回転することで、吸込口320からケーシング311の内部に空気が吸い込まれ、この吸い込まれた空気がインペラ316によって圧縮され、この圧縮された空気が吐出口321から吐き出されるようになっている。また、吐出口321は、パイプ状であり、圧縮された空気が、吐出口321につながれた配管を通じて他の部分に送られるようになっている。 Further, the casing 311 is provided with a plurality of holes provided in the casing 311 and a suction port 320 and a discharge port 321. As the impeller 316 rotates with the rotation of the rotating shaft 312, air is sucked into the casing 311 from the suction port 320, and the sucked air is compressed by the impeller 316. It is discharged from the discharge port 321. Further, the discharge port 321 has a pipe shape, and compressed air is sent to other parts through a pipe connected to the discharge port 321.
 回転軸312の後側の端部には、羽根車317が設けられている。
 羽根車317は、回転軸312に支持される第一支持部材324と、複数の羽根325と、羽根325の角度を調整するための調整装置326と、を備えている。
 第一支持部材324は、円板状の円板部324aを備えている。また、円板部324aの中心には、穴324bが設けられており、この穴324bに、回転軸312の後側の端部が嵌入されている。また、円板部324aの外周部から前側に突き出るようにして、円筒状の支持部324cが、円板部324aと一体的に設けられている。また、支持部324cには、周方向に等間隔で、羽根325を挿通するための穴324dが複数設けられている。
An impeller 317 is provided at the rear end of the rotating shaft 312.
The impeller 317 includes a first support member 324 supported by the rotation shaft 312, a plurality of blades 325, and an adjustment device 326 for adjusting the angle of the blades 325.
The first support member 324 includes a disk-shaped disk portion 324a. Further, a hole 324b is provided at the center of the disc portion 324a, and an end portion on the rear side of the rotating shaft 312 is fitted into the hole 324b. Further, a cylindrical support portion 324c is provided integrally with the disc portion 324a so as to protrude forward from the outer peripheral portion of the disc portion 324a. The support portion 324c is provided with a plurality of holes 324d through which the blades 325 are inserted at equal intervals in the circumferential direction.
 調整装置326は、図24に示すように、第二支持部材327と、接続部材328と、ワイヤ329と、調整装置ケーシング330と、調整つまみ331と、を備えている。
 第二支持部材327は、図25に示すように、中心に穴327aが設けられた略円板状の部材であり、この穴327aに回転軸312が挿通され、回転軸312に固定されている。また、第二支持部材327の外周部には、羽根325と同数の接続部材328が、後方に向けて突出するようにして設けられている。また、接続部材328の後端部は、羽根325の回転軸312側の端部と接続されている。したがって、羽根325は、第一支持部材324の穴324dに挿通されることで第一支持部材324によって支持されるとともに、端部が接続部材328に接続された状態となっている。
As shown in FIG. 24, the adjustment device 326 includes a second support member 327, a connection member 328, a wire 329, an adjustment device casing 330, and an adjustment knob 331.
As shown in FIG. 25, the second support member 327 is a substantially disk-shaped member having a hole 327a provided at the center. The rotation shaft 312 is inserted into the hole 327a and is fixed to the rotation shaft 312. . Further, the same number of connection members 328 as the blades 325 are provided on the outer peripheral portion of the second support member 327 so as to protrude rearward. The rear end portion of the connection member 328 is connected to the end portion of the blade 325 on the rotating shaft 312 side. Accordingly, the blade 325 is supported by the first support member 324 by being inserted into the hole 324 d of the first support member 324, and the end portion is connected to the connection member 328.
 調整つまみ331は、雄ネジ状であり、調整装置ケーシング330には、図24に示すように、調整つまみ331に対応する雌ネジ部332が設けられている。そして、調整つまみ331は、雌ネジ部332に螺合されている。また、調整つまみ331には、ワイヤ329が繋がれている。また、ワイヤ329は、調整装置ケーシング330の内部を通り、第二支持部材327内部の調整機構を介して接続部材328と繋がれている。ここで、第二支持部材327内部の調整機構は、ワイヤ329の張り具合によって、接続部材328を動かし、羽根325の向き(羽根325の回転方向に対する羽根325の向き)を変えるものである。 The adjustment knob 331 has a male screw shape, and the adjustment device casing 330 is provided with a female screw portion 332 corresponding to the adjustment knob 331 as shown in FIG. The adjustment knob 331 is screwed into the female screw portion 332. A wire 329 is connected to the adjustment knob 331. The wire 329 passes through the adjustment device casing 330 and is connected to the connection member 328 via an adjustment mechanism inside the second support member 327. Here, the adjusting mechanism inside the second support member 327 moves the connecting member 328 according to the tension of the wire 329 and changes the direction of the blade 325 (the direction of the blade 325 with respect to the rotation direction of the blade 325).
 調整つまみ331が調整装置ケーシング330側にねじ込まれる方向に、調整つまみ331が回されると、ワイヤ329が緩められるようになっている。また、調整つまみ331が調整装置ケーシング330から離れる方向に調整つまみ331が回されると、ワイヤ329が引っ張られるようになっている。そして、ワイヤ329が緩められる方向に調整つまみ331が回されると、第二支持部材327内部の調整機構を介して接続部材328が動き、羽根325が羽根車317の回転方向に平行な方向(回転軸312に垂直な方向)を向くように回転するようになっている。また、ワイヤ329が引っ張られる方向に調整つまみ331が回されると、第二支持部材327内部の調整機構を介して接続部材328が動き、羽根325が羽根車317の回転方向に垂直な方向(回転軸312に平行な方向)を向くように回転するようになっている。 When the adjustment knob 331 is turned in the direction in which the adjustment knob 331 is screwed into the adjustment device casing 330, the wire 329 is loosened. Further, when the adjustment knob 331 is turned in a direction away from the adjustment device casing 330, the wire 329 is pulled. When the adjustment knob 331 is turned in the direction in which the wire 329 is loosened, the connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is parallel to the rotation direction of the impeller 317 ( It rotates so as to face the direction perpendicular to the rotation shaft 312. When the adjustment knob 331 is turned in the direction in which the wire 329 is pulled, the connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is in a direction perpendicular to the rotation direction of the impeller 317 ( It rotates so as to face in a direction parallel to the rotation axis 312.
 また、構造体10の内側には、図1に示すように、羽根車317の周方向外側を覆うように円筒状の筒状体335が設けられている。 Further, as shown in FIG. 1, a cylindrical tubular body 335 is provided on the inner side of the structure 10 so as to cover the outer circumferential side of the impeller 317.
 回転装置310においては、回転軸312は、クラッチ314をつなぎ、原動機313を作動させることにより回転する。そして、回転軸312の回転と共に、回転軸312に設けられた羽根車317が回転し、空気取入部21から空気排出部25に向けた空気の流れができるようになっている。つまり、回転装置310は、空気取入部21から空気排出部25に向けて空気を流す集塵装置用送風装置として働く。また、回転軸312の回転と共に、回転軸312に設けられた永久磁石315が回転し、永久磁石315とコイル318との協働により、発電が行なわれる。また、回転軸312の回転と共に、回転軸312に設けられたインペラ316が回転し、空気の圧縮が行なわれる。
 そして、送風装置4、第二フィルタ装置100のコイル101および第三フィルタ装置150のレーザー装置151は、回転装置310で発生した電気により作動する。また、噴出装置80からは、回転装置310で圧縮された空気が噴き出される。このため、回転装置310の原動機313を動かすだけで、集塵用車両1による集塵を行うことができるようになっている。
 したがって、電源の確保が難しい場所においても、集塵装置3を使用することができる。また、余分なバッテリー等を積む必要がない。
 また、回転装置310で圧縮された空気や、発電された電気は、他の用途に用いてもよい。つまり、集塵用車両1は、集塵と関係の無い他の装置に、圧縮された空気や電気を供給するために使用することもできる。
In the rotating device 310, the rotating shaft 312 rotates by connecting the clutch 314 and operating the prime mover 313. As the rotary shaft 312 rotates, the impeller 317 provided on the rotary shaft 312 rotates so that air can flow from the air intake portion 21 toward the air discharge portion 25. That is, the rotating device 310 functions as a dust collector air blower that allows air to flow from the air intake unit 21 toward the air discharge unit 25. Further, along with the rotation of the rotating shaft 312, the permanent magnet 315 provided on the rotating shaft 312 rotates, and power generation is performed by the cooperation of the permanent magnet 315 and the coil 318. Further, along with the rotation of the rotating shaft 312, the impeller 316 provided on the rotating shaft 312 rotates to compress the air.
The blower 4, the coil 101 of the second filter device 100, and the laser device 151 of the third filter device 150 are operated by electricity generated by the rotating device 310. Further, the air compressed by the rotating device 310 is ejected from the ejection device 80. For this reason, the dust collection by the dust collection vehicle 1 can be performed only by moving the prime mover 313 of the rotating device 310.
Therefore, the dust collector 3 can be used even in a place where it is difficult to secure a power source. Moreover, there is no need to load an extra battery.
Moreover, you may use the air compressed with the rotation apparatus 310, and the produced | generated electricity for another use. That is, the dust collection vehicle 1 can also be used to supply compressed air and electricity to other devices not related to dust collection.
 また、電源が確保できる場所(例えば、コンセントがある場所等)に停車して集塵用車両1による集塵を行う場合には、コンセント等の電源を用いて回転装置310を動かすこともできる。つまり、例えばコンセントの電源を使用する場合、コンセントから得た交流電力をインバーターを通して直流に変換し、このインバーターからの電流をコイル318に流すことにより、コイル318に磁界が生じ、永久磁石315と影響し合うことで、回転軸312が回転する。したがって、クラッチ314を切り、コンセント等の電源により回転装置310を動かすことで、原動機313を用いなくても、空気の圧縮と、羽根車317の回転による送風とを行うことができる。 In addition, when stopping at a place where a power source can be secured (for example, a place where an outlet is present) and collecting dust by the dust collecting vehicle 1, the rotating device 310 can be moved using a power source such as an outlet. That is, for example, when using a power source of an outlet, the AC power obtained from the outlet is converted into direct current through an inverter, and the current from the inverter is passed through the coil 318, thereby generating a magnetic field in the coil 318 and affecting the permanent magnet 315. As a result, the rotary shaft 312 rotates. Therefore, by disengaging the clutch 314 and moving the rotating device 310 with a power source such as an outlet, the air can be compressed and the air blown by the rotation of the impeller 317 without using the prime mover 313.
 なお、空気の圧縮は、インペラ316の回転により行う方式でなくてもよい。例えば、回転軸312の回転を利用してピストンを往復運動させるレシプロ圧縮機であったり、回転軸312にスクリューを設けたシングルスクリュー圧縮機やツインスクリュー圧縮機等であってもよい。 Note that the air compression may not be performed by the rotation of the impeller 316. For example, a reciprocating compressor that reciprocates a piston using the rotation of the rotating shaft 312 or a single screw compressor or a twin screw compressor in which a screw is provided on the rotating shaft 312 may be used.
 本実施の形態の集塵用車両1においては、集塵用車両1は、原動機の動力によって走行する車両本体2を備えているので、走行することができる。よって、空気を清浄化させたい場所に集塵用車両1を容易に移動できる。 In the dust collection vehicle 1 of the present embodiment, the dust collection vehicle 1 includes the vehicle body 2 that travels by the power of the prime mover, and therefore can travel. Therefore, the dust collecting vehicle 1 can be easily moved to a place where it is desired to clean the air.
 また、回転装置310の羽根車317の回転により、空気取入部21から空気排出部25に向けて空気が流れる。そして、空気取入部21へ集塵装置3の外から空気が取り入れられる。
 また、集塵装置3には、空気取入部21が設けられている構造体10の前側壁材20を囲うようにして、導入部30が設けられている。導入部30は、空気取入部21とは逆側の部分が広く開口しているので、導入部30に向かってくる空気は、空気取入部21に導かれる。よって、導入部30がない場合に比べ、より広範囲の空気を集塵装置3の内部に取り込むことができる。
 特に、集塵用車両1を走行させながら、集塵用車両1による集塵を行う場合には、導入部30の効果が大きい。すなわち、集塵用車両1の走行中においては、集塵用車両1の走行によっても空気取入部21から空気排出部25への空気の流れが発生するが、導入部30により、より広範囲の空気を空気取入部21に導くことができるので、より多くの空気および塵埃を集塵装置3の内部に取り込むことができる。
Further, the air flows from the air intake unit 21 toward the air discharge unit 25 by the rotation of the impeller 317 of the rotation device 310. Then, air is taken into the air intake unit 21 from the outside of the dust collector 3.
Further, the dust collector 3 is provided with an introduction portion 30 so as to surround the front side wall member 20 of the structure 10 in which the air intake portion 21 is provided. Since the introduction part 30 has a wide opening on the opposite side to the air intake part 21, the air coming toward the introduction part 30 is guided to the air intake part 21. Therefore, a wider range of air can be taken into the dust collecting device 3 than in the case where the introduction unit 30 is not provided.
In particular, when the dust collection vehicle 1 performs dust collection while the dust collection vehicle 1 is traveling, the effect of the introduction unit 30 is great. That is, during the traveling of the dust collection vehicle 1, the air flow from the air intake unit 21 to the air discharge unit 25 is also generated by the traveling of the dust collection vehicle 1. Therefore, more air and dust can be taken into the dust collecting device 3.
 空気取入部21から集塵装置3に取り込まれた空気は、まず、第一フィルタ装置50の第一フィルタ本体51を通過し、空気に含まれる塵埃の一部は、第一フィルタ本体51で捕集される。
 第一フィルタ本体51を通過した空気は、次に、第二フィルタ装置100の管状部材102を通過する。管状部材102には、コイル101が巻き付けられており、コイル101には電流が流されているので、管状部材102を通過した空気はイオン化され清浄化される。
 管状部材102を通過した空気は、次に、第三フィルタ装置150のレーザー光Lに当てられる。レーザー光Lは、殺菌力があるので、レーザー光Lを通過する空気に含まれる菌が殺されることとなる。また、レーザー光Lを用いることで、紫外線ライトを用いる場合に比べ高い殺菌力が得られるので、レーザー光Lを通過する空気に対しても殺菌を行うことができる。
 レーザー光Lに当てられた空気は、次に、第四フィルタ装置200の活性炭フィルタ201を通過する。そして、空気中に含まれる一酸化炭素、二酸化炭素および排気ガス等が活性炭フィルタ201に吸着される。また、活性炭フィルタ201により例えばアンモニア臭等の消臭も行われる。
 活性炭フィルタ201を通過した空気は、次に、第五フィルタ装置250のHEPAフィルタ251を通過する。そして、レーザー光Lで殺された菌や、空気中に残っているその他の塵埃がHEPAフィルタ251に捕集される。
 HEPAフィルタ251を通過した空気は、次に、クーリングベッド301を通過する。クーリングベッド301は、水によって湿らされているので、クーリングベッド301を通過する空気が冷却される。
 以上により、清浄化され、冷却された空気が、空気排出部25から排出される。
The air taken into the dust collector 3 from the air intake 21 first passes through the first filter body 51 of the first filter device 50, and a part of the dust contained in the air is captured by the first filter body 51. Be collected.
The air that has passed through the first filter body 51 then passes through the tubular member 102 of the second filter device 100. Since the coil 101 is wound around the tubular member 102 and an electric current is passed through the coil 101, the air that has passed through the tubular member 102 is ionized and cleaned.
The air that has passed through the tubular member 102 is then applied to the laser light L of the third filter device 150. Since the laser light L has a sterilizing power, bacteria contained in the air passing through the laser light L are killed. Moreover, since high sterilization power is obtained by using the laser light L compared with the case where an ultraviolet light is used, it can sterilize also with respect to the air which passes the laser light L.
Next, the air applied to the laser light L passes through the activated carbon filter 201 of the fourth filter device 200. Then, carbon monoxide, carbon dioxide, exhaust gas and the like contained in the air are adsorbed by the activated carbon filter 201. Further, the activated carbon filter 201 also performs deodorization such as ammonia odor.
The air that has passed through the activated carbon filter 201 then passes through the HEPA filter 251 of the fifth filter device 250. The bacteria killed by the laser beam L and other dust remaining in the air are collected by the HEPA filter 251.
The air that has passed through the HEPA filter 251 then passes through the cooling bed 301. Since the cooling bed 301 is moistened with water, the air passing through the cooling bed 301 is cooled.
As described above, the cleaned and cooled air is discharged from the air discharge unit 25.
 なお、各フィルタ装置と、回転装置310と、の配置は、本実施形態の順番に限られない。回転装置310によって、空気取入部21から空気排出部25に向けて空気が流され、この空気が各フィルタ装置を通過するようになっていればよい。
 また、各フィルタ装置やクーリングベッド301は、捕集したい塵埃や、空気の冷却の必要性に応じて、必要なもののみ備えられていてもよい。このとき、各フィルタ装置等が設けられている構造体10は、構造材用継手11と構造材17により骨組が組み立てられているので、内部に設けたい装置等の数や大きさに応じて簡単に、構造体10を拡大縮小することができる。
 また、第一フィルタ本体51やHEPAフィルタ251は、捕集したい塵埃の種類に応じて、違う種類のエアフィルタ等を用いてもよい。
In addition, arrangement | positioning with each filter apparatus and the rotation apparatus 310 is not restricted to the order of this embodiment. It is only necessary that the rotation device 310 allows air to flow from the air intake portion 21 toward the air discharge portion 25 so that the air passes through each filter device.
Moreover, each filter apparatus and the cooling bed 301 may be provided only with what is required according to the dust to collect or the necessity of cooling of air. At this time, the structure 10 provided with each filter device and the like is constructed of a framework by the structural material joint 11 and the structural material 17, so that it can be easily adapted to the number and size of the devices and the like to be provided inside. In addition, the structure 10 can be enlarged or reduced.
The first filter body 51 and the HEPA filter 251 may use different types of air filters or the like depending on the type of dust to be collected.
 このような集塵用車両1は、例えば、お祭り等のイベントが行われる場所や、学校等の人が集まる場所、あるいは車の往来が激しい場所等の空気が汚れやすい場所や汚れている場所等に停車させて使用される。集塵用車両1は、20フィートコンテナを積載することができるトラックである車両本体2を備えており、原動機の動力によって走行することができるので、人が集まるときのみこうした場所に集塵用車両1を移動させ、空気中の塵埃を除去したり、空気を冷却させたりすることが可能となる。
 なお、集塵装置3は、通常のコンテナと同様に扱うことができ取り外しも容易なので、集塵装置3を取り外して設置しておき、空気の清浄化を行うこともできる。
Such a dust collecting vehicle 1 is, for example, a place where events such as festivals are held, a place where people such as schools gather, a place where the traffic of vehicles is heavy, a place where air is easily contaminated, a place where it is dirty, etc. Used to stop. The dust collection vehicle 1 includes a vehicle main body 2 that is a truck on which a 20-foot container can be loaded and can be driven by the power of the prime mover. Therefore, the dust collection vehicle 1 is placed in such a place only when people gather. It is possible to move 1 to remove dust in the air or to cool the air.
Since the dust collector 3 can be handled in the same manner as a normal container and can be easily removed, the dust collector 3 can be removed and installed to clean the air.
 また、集塵用車両1は、走行しながら使用することもできる。例えば、大気汚染の激しい地域等を走行させることで、このような地域の空気を清浄化することができる。
 また、車両本体2の運転席2aの下部には、送風装置4が、送風口4aを下方かつ後方に向けた状態で、運転席2aの下部に設けられているので、送風装置4を作動させると地面に向けて送風装置4から風が吹き付けられ、地面にある塵埃が、板状部31dや空気取入部21に向けて飛ばされる。よって、送風装置4を動かしながら、集塵用車両1を走行させることで、この飛ばされた(舞い上げられた)塵埃を集塵装置3内部に吸い込み、集塵することができる。したがって、路面清掃車のように、地面に落ちている塵埃を集めていくことができる。従来の、掃除機のように地面の塵埃を直接吸い込む方式の路面清掃車では、吸い込む力がかかる範囲が狭く、吸い込む力も弱いので、路面清掃車をゆっくり走らせなければならず、清掃に時間がかかる。また、ブラシを利用して地面の塵埃を集める路面清掃車の場合、定期的にブラシを交換する必要があるので、ランニングコストがかかる。これに対し、本実施の形態に係る集塵用車両1では、送風装置4により、板状部31dや空気取入部21に向けて地面の塵埃等を飛ばし、塵埃等を集めることができるので、集塵用車両1を速く走らせても塵埃等を集めることができ、また、ブラシの交換等のコストも発生しない。
 また、送風装置4から送られる風の強さを強くすることで、比較的大きめの塵埃等も集めることができる。したがって、例えば、飛行機の滑走路に落ちている飛行機のタイヤの破片や小石等を集めたり、運動場の整備をしたりするために、集塵用車両1を使用することもできる。また、集めたい塵埃等の大きさに合わせて、このゴミ等を捕集するのに適したフィルタとなるように第一フィルタ装置50の第一フィルタ本体51等を変えてもよい。
The dust collecting vehicle 1 can also be used while traveling. For example, the air in such an area can be purified by running in an area where air pollution is severe.
Moreover, since the air blower 4 is provided in the lower part of the driver's seat 2a in the lower part of the driver's seat 2a of the vehicle body 2 with the air outlet 4a directed downward and rearward, the air blower 4 is operated. Wind is blown from the blower 4 toward the ground, and dust on the ground is blown toward the plate-like portion 31d and the air intake portion 21. Therefore, by moving the dust collecting vehicle 1 while moving the blower 4, the blown-up dust can be sucked into the dust collecting device 3 and collected. Therefore, dust falling on the ground can be collected like a road surface cleaning car. In a conventional road sweeper that sucks in the dust on the ground like a vacuum cleaner, the area where the suction force is applied is narrow and the suction force is weak. . Further, in the case of a road surface cleaning vehicle that collects dust on the ground using a brush, it is necessary to periodically replace the brush, which requires a running cost. On the other hand, in the dust collection vehicle 1 according to the present embodiment, the air blower 4 can blow dust and the like on the ground toward the plate-like portion 31d and the air intake portion 21, so that dust can be collected. Dust etc. can be collected even if the vehicle 1 for dust collection is run quickly, and costs such as brush replacement do not occur.
Further, by increasing the strength of the wind sent from the blower 4, relatively large dust can be collected. Therefore, for example, the dust collection vehicle 1 can be used to collect pieces of a tire, pebbles and the like of an airplane tire that have fallen on the runway of the airplane, or to maintain a playground. Further, the first filter body 51 of the first filter device 50 and the like may be changed so as to be a filter suitable for collecting dust or the like according to the size of dust or the like to be collected.
 本実施の形態に係る第一フィルタ装置50においては、タービン52は、第一フィルタ装置50の前方から後方に向かって流れる空気により回転する。また、タービン52の回転は、ベルト(動力伝達部)54を介してローラー53cに伝わり、ローラー53cが回転する。そして、ローラー53cが回転することにより、3本のローラー53間に張架された第一フィルタ本体51が、周回するようになっている。 In the first filter device 50 according to the present embodiment, the turbine 52 is rotated by air flowing from the front to the rear of the first filter device 50. The rotation of the turbine 52 is transmitted to the roller 53c via the belt (power transmission unit) 54, and the roller 53c rotates. The first filter body 51 stretched between the three rollers 53 rotates around the roller 53c.
 よって、第一フィルタ本体51の、空気の流れてくる側(空気取入部21側)を向く面が、順次変化するようになっている。つまり、第一フィルタ本体51において、フィルタとして主に機能するのは、流体の流れてくる側を向く面であるが、第一フィルタ本体51を周回させることにより、流体の流れてくる側に、フィルタとして機能する面を周回移動させて向けることができる。このため、フィルタの有効面積を広くすることができ、フィルタを交換せずとも、フィルタが目詰まりを起こしにくい。したがって、長期間第一フィルタ本体51のフィルタ性能を維持することができる。また、フィルタの塵埃を捕集する力が落ちにくいので、効率的に空気を清浄化することができる。 Therefore, the surface of the first filter main body 51 facing the air flowing side (air intake portion 21 side) is sequentially changed. That is, in the first filter main body 51, the surface that mainly functions as a filter is the surface facing the fluid flowing side, but by circulating the first filter main body 51, the fluid flowing side The surface functioning as a filter can be turned around. For this reason, the effective area of the filter can be widened, and the filter is not easily clogged without replacing the filter. Therefore, the filter performance of the first filter body 51 can be maintained for a long time. Moreover, since the force of collecting the dust on the filter is difficult to drop, the air can be efficiently cleaned.
 また、第一フィルタ本体51は、風や水流等の自然の力により周回することが可能なので、第一フィルタ本体51を回転させるためのモーター等を備える必要がない。
 また、本実施の形態に係る集塵用車両1の回転装置310のように、空気を流す装置と併用することで、この流される空気により第一フィルタ本体51を周回させることもできる。そして、例えば、回転装置310の回転軸312の回転速度を調整する等することにより、第一フィルタ本体51の周回速度を調整することもできる。
Moreover, since the 1st filter main body 51 can be circulated by natural forces, such as a wind and a water flow, it is not necessary to provide the motor etc. for rotating the 1st filter main body 51. FIG.
Moreover, the 1st filter main body 51 can also be circulated by this flowing air by using together with the apparatus which flows air like the rotation apparatus 310 of the vehicle 1 for dust collection which concerns on this Embodiment. Then, for example, the rotational speed of the first filter body 51 can be adjusted by adjusting the rotational speed of the rotary shaft 312 of the rotating device 310.
 また、第一フィルタ本体51の内側には、噴出装置80が配置されており、複数の噴出部82の噴出口82aが下方、すなわち、第一フィルタ本体51側に向けられている。そして、噴出口82aからは、回転装置310で圧縮された空気が噴き出されるようになっている。また、第一フィルタ装置50の下側には、塵埃回収部58および塵埃貯蓄部が設けられている。
 よって、噴出口82aから噴き出された空気により、第一フィルタ本体51に付着した塵埃が押し出され、塵埃回収部58を通じて塵埃貯蓄部に塵埃が溜められるようになっている。また、複数の噴出部82は、左右方向に延びる管81の軸方向に複数設けられており、第一フィルタ本体51は、タービン52の回転により、管81の周りを周回するので、
フィルタ全体の塵埃を除去し、塵埃貯蓄部に溜めることができる。
 したがって、第一フィルタ本体51が目詰まりを起こすことがなく、長期間フィルタ性能を維持することができる。また、空気によって塵埃を押し出すため、ブラシ等によってフィルタを擦って塵埃を除去するような方式に比べて、フィルタが傷みにくく、長期間フィルタ性能を維持することができる。
Moreover, the ejection apparatus 80 is arrange | positioned inside the 1st filter main body 51, and the jet nozzle 82a of the some ejection part 82 is orient | assigned to the 1st filter main body 51 side below. The air compressed by the rotating device 310 is ejected from the ejection port 82a. Further, a dust collecting unit 58 and a dust storage unit are provided below the first filter device 50.
Therefore, dust adhering to the first filter body 51 is pushed out by the air ejected from the ejection port 82 a, and the dust is stored in the dust storage unit through the dust collection unit 58. Further, the plurality of ejection portions 82 are provided in the axial direction of the pipe 81 extending in the left-right direction, and the first filter body 51 circulates around the pipe 81 due to the rotation of the turbine 52.
Dust from the entire filter can be removed and stored in the dust storage unit.
Therefore, the first filter body 51 is not clogged, and the filter performance can be maintained for a long time. Further, since dust is pushed out by air, the filter is less likely to be damaged and the filter performance can be maintained for a long period of time compared to a method in which dust is removed by rubbing the filter with a brush or the like.
 また、本実施の形態に係る第二フィルタ装置100においては、後面板104に、上下方向および左右方向に整列した複数の穴105が設けられており、前面板103にも後面板104の穴105と対向する位置に穴が設けられている。また、管状部材102は、一方の端部が、後面板104の穴105に嵌入されており、この穴105と対向する位置にある前面板103の穴に、他方の端部が嵌入されている。よって、管状部材102は、軸を前後方向に向けた状態で、上下方向および左右方向に整列して並べられていることとなる。
 また、各管状部材102の外周部には、前面板103と後面板104との間において、コイル101が巻き付けられており、コイル101には、回転装置310から電流が流される。そして、第一フィルタ装置50を通過した空気は、第二フィルタ装置100の管状部材102の内部を通過する。
 管状部材102の内部には、コイル101に電流が流されることによって、磁界が生じており、管状部材102の内部を通過する空気中の各分子等は、この磁界の影響を受ける。そして、磁界にさらされた分子は、イオン化しやすくなる。また、空気中の荷電粒子等が、磁界および電界から力を受け、運動が活発になり、空気中の分子や管状部材の内壁等と衝突することで、マイナスイオンが発生する。したがって、マイナスイオンが増え、空気が清浄化される。
 また、運動が活発になった荷電粒子の衝突等により、有害物質が分解され、空気が清浄化される。
 また、管状部材102は、銅製であり、コイル101に電流が流れることによって、熱を帯びるため、管状部材102に接した菌を殺すことができる。したがって、管状部材102の内部を通る空気が清浄化される。なお、管状部材102は、銅製に限らず、その他の金属製等であっても、熱を帯び、菌を殺すことができる。
In the second filter device 100 according to the present embodiment, the rear plate 104 is provided with a plurality of holes 105 aligned in the vertical direction and the left-right direction, and the front plate 103 also has holes 105 in the rear plate 104. A hole is provided at a position opposite to. In addition, one end of the tubular member 102 is fitted into the hole 105 of the rear plate 104, and the other end is fitted into the hole of the front plate 103 at a position facing the hole 105. . Therefore, the tubular members 102 are aligned and aligned in the up-down direction and the left-right direction with the shaft directed in the front-rear direction.
In addition, a coil 101 is wound around the outer peripheral portion of each tubular member 102 between the front plate 103 and the rear plate 104, and a current flows from the rotating device 310 to the coil 101. The air that has passed through the first filter device 50 passes through the inside of the tubular member 102 of the second filter device 100.
A magnetic field is generated inside the tubular member 102 by causing a current to flow through the coil 101, and each molecule in the air passing through the tubular member 102 is affected by the magnetic field. And the molecule | numerator exposed to the magnetic field becomes easy to ionize. Moreover, negative ions are generated when charged particles or the like in the air receive a force from a magnetic field or an electric field and become active and collide with molecules in the air or the inner wall of the tubular member. Therefore, negative ions increase and the air is cleaned.
Moreover, harmful substances are decomposed and the air is cleaned by collision of charged particles whose movement is active.
Moreover, since the tubular member 102 is made of copper and is heated when a current flows through the coil 101, the bacteria in contact with the tubular member 102 can be killed. Therefore, the air passing through the inside of the tubular member 102 is cleaned. The tubular member 102 is not limited to copper but can be heated and kill bacteria even if it is made of other metals.
 また、コイル101は、コイル101が軸方向前側から見て反時計回りに巻かれた反時計回り部101aと、時計回りに巻かれた時計回り部101bとを、備えている。また、反時計回り部101aと時計回り部101bとは、管状部材102の軸方向に沿って交互に繰り返して配置されている。このため、管状部材102の内部を通過する荷電粒子等は、交互に向きが変化する磁界から力を受けることとなる。よって、一方向にコイル101を巻いただけの場合に比べ、荷電粒子等の動きは、よりランダムかつ活発になり、分子が反応しやすくなり、マイナスイオンも発生しやすくなる。したがって、管状部材102の内部を通る空気がより清浄化される。 Further, the coil 101 includes a counterclockwise portion 101a in which the coil 101 is wound counterclockwise when viewed from the front side in the axial direction, and a clockwise portion 101b wound in the clockwise direction. Further, the counterclockwise portion 101 a and the clockwise portion 101 b are alternately and repeatedly arranged along the axial direction of the tubular member 102. For this reason, charged particles or the like passing through the inside of the tubular member 102 receive a force from a magnetic field whose direction changes alternately. Therefore, as compared with the case where only the coil 101 is wound in one direction, the movement of charged particles or the like becomes more random and active, molecules are likely to react, and negative ions are likely to be generated. Therefore, the air passing through the inside of the tubular member 102 is further purified.
 また、本実施の形態に係る第三フィルタ装置150においては、レーザー装置151は、レーザー光Lが真下方向に放射されるようにして、左右方向に並べられた穴154と穴156とに嵌入された状態で設けられている。また、前側に配置されている複数の穴154および穴156は、左右方向に同ピッチPで配置され、後側に配置されている複数の穴154および穴156は、左右方向に同ピッチPで配置されているが、前側に配置され、かつ左右に隣り合う穴154,154または穴156,156間の中央位置に、後側に配置された穴154または穴156が位置している。すなわち、穴154および穴156は、左右方向に並べて設けられており、隣り合う穴154および隣り合う穴156は、前後方向にずれた位置に配置されている。
 よって、隣り合うレーザー装置151が、左右方向においてぶつかり合うのを防ぎ、左右方向の間隔を詰めてレーザー装置151を配置することができる。特に、レーザー装置151に、左右方向に突出する部分がある場合には、隣り合う穴154および隣り合う穴156が前後方向にずれていることによる効果が大きい。また、前側に配置されている穴154(穴156)と、この穴154(穴156)と左右に隣り合う後側に配置された穴154(穴156)とが、左右方向において一部重なるように配置することもできる。
Further, in the third filter device 150 according to the present embodiment, the laser device 151 is fitted into the hole 154 and the hole 156 arranged in the left-right direction so that the laser light L is emitted directly downward. It is provided in the state. The plurality of holes 154 and holes 156 arranged on the front side are arranged at the same pitch P in the left-right direction, and the plurality of holes 154 and holes 156 arranged on the rear side are arranged at the same pitch P in the left-right direction. Although arranged, the hole 154 or the hole 156 arranged on the rear side is located at the center position between the holes 154 and 154 or the holes 156 and 156 which are arranged on the front side and adjacent to the left and right. That is, the hole 154 and the hole 156 are provided side by side in the left-right direction, and the adjacent hole 154 and the adjacent hole 156 are arranged at positions shifted in the front-rear direction.
Therefore, it is possible to prevent the adjacent laser devices 151 from colliding with each other in the left-right direction, and to arrange the laser devices 151 with a small interval in the left-right direction. In particular, when the laser device 151 has a portion that protrudes in the left-right direction, the effect of shifting the adjacent holes 154 and the adjacent holes 156 in the front-rear direction is great. Further, the hole 154 (hole 156) disposed on the front side and the hole 154 (hole 156) disposed on the rear side adjacent to the left and right are partially overlapped in the left-right direction. It can also be arranged.
 また、第二フィルタ装置100を通過する空気は、管状部材102を通過することになる。よって、第二フィルタ装置100を通過した空気を、第三フィルタ装置で殺菌する場合には、各管状部材102の後側延長線上をレーザー光Lが通過するようにレーザー装置151を配置することが望ましい。
 本実施の形態に係る第三フィルタ装置150においては、レーザー装置151が左右方向の間隔を詰めて配置されることで、左右方向に所定間隔で並べられた管状部材102それぞれの後側延長線上をレーザー光Lが通過するように、レーザー装置151が配置されている。また、レーザー装置151のうちの1つから放射されたレーザー光Lは、上下方向に所定間隔で整列した管状部材102の後側延長線上を通過する。
 また、レーザー装置151は、並べられた管状部材102の各上下方向の列に対して1つ設けられており、1つのレーザー装置151から放射されたレーザー光Lは、上下方向に整列した一列の管状部材102すべての軸方向後側延長線上を通過する。よって、管状部材102から流出した空気に、レーザー装置151から放射された殺菌力のあるレーザー光が当てられることになる。
 したがって、第二フィルタ装置100を通過した空気に含まれる菌を、熱量が大きく、高い殺菌力のあるレーザー光に当て、殺すことができ、空気を清浄化することができる。
 また、1つのレーザー装置151から放射されたレーザー光Lが、上下方向に整列した一列の管状部材102すべての軸方向後側延長線上を通過するようにすることで、必要なレーザー装置151の数が削減されている。
Further, the air passing through the second filter device 100 passes through the tubular member 102. Therefore, when the air that has passed through the second filter device 100 is sterilized by the third filter device, the laser device 151 can be arranged so that the laser light L passes through the rear extension of each tubular member 102. desirable.
In the third filter device 150 according to the present embodiment, the laser devices 151 are arranged with a small distance in the left-right direction, so that the rear extension lines of the tubular members 102 arranged in the left-right direction at predetermined intervals are arranged. A laser device 151 is arranged so that the laser light L passes. Further, the laser light L emitted from one of the laser devices 151 passes on the rear extension line of the tubular member 102 aligned at a predetermined interval in the vertical direction.
In addition, one laser device 151 is provided for each vertical row of the tubular members 102 arranged, and the laser light L emitted from one laser device 151 is aligned in a vertical direction. All of the tubular members 102 pass over the axial rearward extension line. Therefore, the sterilizing laser light emitted from the laser device 151 is applied to the air flowing out from the tubular member 102.
Therefore, the bacteria contained in the air that has passed through the second filter device 100 can be killed by being irradiated with laser light having a large amount of heat and high sterilization power, and the air can be purified.
Further, the number of necessary laser devices 151 can be obtained by allowing the laser light L emitted from one laser device 151 to pass along the axial rearward extension lines of all the tubular members 102 aligned in the vertical direction. Has been reduced.
 また、本実施の形態に係る回転装置310においては、原動機313の回転により回転軸312が回転する。そして、回転軸312が回転することにより、永久磁石315とコイル318との協働による発電と、羽根車317の回転による送風と、インペラ316の回転による空気の圧縮と、が行なわれる。
 したがって、1つの動力源により、送風、発電および気体の圧縮を行うことができる。
 また、永久磁石315、インペラ316および羽根車317は、1本の回転軸312に設けられている。すなわち、永久磁石315とインペラ316と羽根車317とは、同軸上に配置されている。
 したがって、回転装置310の、回転軸312の径方向における大きさを小さくすることができ、回転装置310が小型化できるので、回転装置310を省スペースで設置することができる。
Further, in rotating device 310 according to the present embodiment, rotating shaft 312 is rotated by the rotation of prime mover 313. Then, by rotating the rotating shaft 312, power generation by the cooperation of the permanent magnet 315 and the coil 318, air blowing by the rotation of the impeller 317, and air compression by the rotation of the impeller 316 are performed.
Therefore, ventilation, power generation, and gas compression can be performed by one power source.
Further, the permanent magnet 315, the impeller 316 and the impeller 317 are provided on one rotating shaft 312. That is, the permanent magnet 315, the impeller 316, and the impeller 317 are coaxially arranged.
Therefore, the size of the rotating device 310 in the radial direction of the rotating shaft 312 can be reduced, and the rotating device 310 can be reduced in size, so that the rotating device 310 can be installed in a space-saving manner.
 また、ワイヤ329が緩められる方向に調整つまみ331が回されると、第二支持部材327内部の調整機構を介して接続部材328が動き、羽根325が羽根車317の回転方向に平行な方向(回転軸312に垂直な方向)を向くように回転するようになっている。また、ワイヤ329が引っ張られる方向に調整つまみ331が回されると、第二支持部材327内部の調整機構を介して接続部材328が動き、羽根325が羽根車317の回転方向に垂直な方向(回転軸312に平行な方向)を向くように回転するようになっている。
 したがって、羽根車の羽根の角度を変えることができ、羽根車が空気に与える圧力や羽根車の回転により送られる風量を、必要に応じて調整することができる。
When the adjustment knob 331 is turned in the direction in which the wire 329 is loosened, the connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is parallel to the rotation direction of the impeller 317 ( It rotates so as to face the direction perpendicular to the rotation shaft 312. When the adjustment knob 331 is turned in the direction in which the wire 329 is pulled, the connection member 328 moves via the adjustment mechanism inside the second support member 327, and the blade 325 is in a direction perpendicular to the rotation direction of the impeller 317 ( It rotates so as to face in a direction parallel to the rotation axis 312.
Therefore, the angle of the impeller blades can be changed, and the pressure applied to the air by the impeller and the amount of air sent by the rotation of the impeller can be adjusted as necessary.
 また、本実施の形態に係る集塵用車両1においては、導入部30は、最も閉じた状態において、構造体10とは逆側の開口部の面積が、空気取入部21が設けられた前側壁材20の面積よりも下側の板状部31dが開いている分だけ広い面積となるようになっており、開状態においては、この最も閉じた状態から、構造体10とは逆側の開口部が開くようになっている。よって、導入部30は、開状態において、空気取入部21側の開口部の面積よりも、その逆側の開口部の面積が広いので、導入部30に向かってくる風を集めて空気取入部21に導くことができる。したがって、導入部30により、広範囲の空気を集塵装置3の内部に導き、清浄化することができるので、空気を効率的に清浄化できる。
 また、導入部30の一部である板状部31は、伸縮可能なシリンダ36を介して構造体10と接続されており、このシリンダ36の伸縮により、板状部31は、上下または左右に揺動する。そして、板状部31が揺動することにより導入部30が開閉する。よって、導入部30は開閉自在な状態となっており、導入部30を閉状態とすることで、狭い場所でも容易に走行することができる。
Moreover, in the dust collection vehicle 1 according to the present embodiment, the introduction part 30 is in the most closed state, and the area of the opening opposite to the structure 10 is the same as that before the air intake part 21 is provided. The plate-shaped portion 31d on the lower side of the side wall member 20 has an open area that is larger than that of the side wall member 20, and in the open state, from the most closed state to the opposite side of the structure body 10. The opening is designed to open. Therefore, since the area of the opening on the opposite side is larger than the area of the opening on the air intake part 21 side in the open state, the introduction part 30 collects wind coming toward the introduction part 30 to collect the air intake part. 21. Therefore, since a wide range of air can be guided to the inside of the dust collector 3 and cleaned by the introduction unit 30, the air can be efficiently cleaned.
In addition, the plate-like portion 31 which is a part of the introduction portion 30 is connected to the structure 10 via an extendable cylinder 36, and the plate-like portion 31 is moved vertically or horizontally by the expansion and contraction of the cylinder 36. Swing. And the introduction part 30 opens and closes when the plate-shaped part 31 swings. Therefore, the introduction part 30 is in an openable / closable state, and the introduction part 30 can be easily traveled even in a narrow place by closing the introduction part 30.
 また、導入部30は、空気取入部21が設けられている構造体10の前面側に設けられており、閉状態において、上側の板状部31aが、構造体10から前側に突出した状態で、構造体10の上面と略平行となり、左右の板状部31b,31cが、構造体10から前側に突出した状態で、構造体10の左右の面と略平行となる。そして、この状態から、上側の板状部31aの前方が上方に向けて開き、左右の板状部31b,31cが、それぞれ左右方向に向けて開くことで導入部30が開状態となる。つまり、導入部30は、空気取入部21と逆側の開口部が、開状態において、集塵用車両1の走行方向前方に向けられている。よって、集塵用車両1が走行すると、導入部30から空気取入部21、そして空気排出部25に向けた空気の流れができるので、集塵用車両1を走らせることで、空気中の塵埃を集めることができ、集塵用車両1を走らせた広範囲の空気を清浄化することができる。
 したがって、空気を効率的に清浄化することができる。
Moreover, the introduction part 30 is provided in the front side of the structure 10 in which the air intake part 21 is provided, and in the closed state, the upper plate-like part 31a protrudes from the structure 10 to the front side. The left and right plate- like portions 31 b and 31 c are substantially parallel to the left and right surfaces of the structure 10 in a state where the left and right plate- like portions 31 b and 31 c protrude from the structure 10 to the front side. Then, from this state, the front of the upper plate-like portion 31a opens upward, and the left and right plate- like portions 31b and 31c open in the left-right direction, whereby the introduction portion 30 is in the open state. That is, the opening part on the side opposite to the air intake part 21 is directed forward in the traveling direction of the dust collecting vehicle 1 in the open state. Therefore, when the dust collection vehicle 1 travels, air can flow from the introduction unit 30 to the air intake unit 21 and the air discharge unit 25. Therefore, by running the dust collection vehicle 1, dust in the air Can be collected, and a wide range of air in which the vehicle 1 for dust collection is run can be purified.
Therefore, the air can be efficiently cleaned.
 また、本実施の形態に係る集塵用車両1においては、送風装置4は、送風口4aを下方かつ後方に向けた状態で、運転席2aの下部に設けられている。空気中に含まれる塵埃には、地面に落ちたり、再度飛散したりを繰り返す塵埃等もあるが、送風装置4によって地面に落ちている塵埃を舞い上げ、捕集することができるので、効率的に塵埃を集め、空気を清浄化することができる。 In the dust collection vehicle 1 according to the present embodiment, the blower 4 is provided at the lower part of the driver's seat 2a with the blower port 4a facing downward and rearward. The dust contained in the air includes dust that repeatedly falls on the ground or resprays. However, since the dust that has fallen on the ground can be lifted and collected by the blower 4, it is efficient. It can collect dust and clean the air.
 また、集塵装置3の上下左右にそれぞれ位置する板状部31のうち、上、左および右に位置する板状部31(31a,31b,31c)には、センサ33が設けられている。そして、センサ33が検知した障害物の情報は、集塵装置3に備えられた制御回路に送られ、この制御回路が、センサ33が検知した障害物の情報に応じてシリンダ36を伸縮させる指令を出し、この指令に基づきシリンダ36が伸縮する。よって、集塵用車両1の走行中に障害物がある場合に、導入部30が自動で開閉するので、スムーズに走行することができ、短時間でより長い距離走らせることが可能となるので、広範囲の空気を清浄化することができ、効率的に空気を清浄化することができる。また、走行速度が上がるほど、導入部30から空気排出部25に向けて多くの空気が流れるようになるが、センサ33が障害物を検知するので、狭い場所等においても走行速度を上げることができ、効率的に空気を清浄化することができる。
 なお、センサ33は、運転席2aや構造体10に設けられていてもよいが、センサ33は、主に導入部30が障害物に当たらないよう、障害物を検知するためのものなので、導入部30と障害物との距離を正確に測れるように、導入部30に設けられていることが好ましい。
In addition, among the plate-like portions 31 respectively located on the upper, lower, left and right sides of the dust collector 3, the plate-like portions 31 (31a, 31b, 31c) located on the upper, left, and right are provided with sensors 33. Then, the obstacle information detected by the sensor 33 is sent to a control circuit provided in the dust collector 3, and the control circuit instructs the cylinder 36 to expand and contract according to the obstacle information detected by the sensor 33. The cylinder 36 expands and contracts based on this command. Therefore, when there is an obstacle while the dust collecting vehicle 1 is traveling, the introduction part 30 automatically opens and closes, so that the vehicle can travel smoothly and can travel a longer distance in a short time. A wide range of air can be cleaned, and the air can be efficiently cleaned. Further, as the traveling speed increases, more air flows from the introduction unit 30 toward the air discharge unit 25. However, since the sensor 33 detects an obstacle, the traveling speed can be increased even in a narrow place. It is possible to clean the air efficiently.
The sensor 33 may be provided in the driver's seat 2a or the structure 10, but the sensor 33 is mainly used to detect an obstacle so that the introduction unit 30 does not hit the obstacle. It is preferable to be provided in the introduction part 30 so that the distance between the part 30 and the obstacle can be measured accurately.
1  集塵用車両
2  車両本体
3  集塵装置
4  送風装置
21  空気取入部
25  空気排出部
30  導入部
50  第一フィルタ装置
51  第一フィルタ本体
52  タービン
54  ベルト(動力伝達部)
100  第二フィルタ装置
101  コイル
102  管状部材
150  第三フィルタ装置
151  レーザー装置
151  レーザー装置
310  回転装置(集塵装置用送風装置)
311  ケーシング
312  回転軸
313  原動機
315  永久磁石(回転子)
316  インペラ(圧縮装置)
317  羽根車
318  コイル(固定子)
320  吸込口
321  吐出口
325  羽根
L  レーザー光
DESCRIPTION OF SYMBOLS 1 Vehicle for dust collection 2 Vehicle main body 3 Dust collector 4 Blower 21 Air intake part 25 Air discharge part 30 Introduction part 50 First filter apparatus 51 First filter main body 52 Turbine 54 Belt (power transmission part)
100 Second filter device 101 Coil 102 Tubular member 150 Third filter device 151 Laser device 151 Laser device 310 Rotating device (blower for dust collector)
311 Casing 312 Rotating shaft 313 Motor 315 Permanent magnet (rotor)
316 impeller (compressor)
317 impeller 318 coil (stator)
320 Suction port 321 Discharge port 325 Blade L Laser light

Claims (9)

  1.  原動機の動力によって走行する車両本体と、この車両本体に設けられた集塵装置と、を備えており、
     前記集塵装置は、空気を取り入れる空気取入部と、空気を排出する空気排出部と、前記空気取入部と前記空気排出部との間に設けられ、前記空気取入部から取り入れた空気を清浄化する少なくとも1つのフィルタ装置と、前記空気取入部から前記空気排出部に向けて空気を流す集塵装置用送風装置と、を備えていることを特徴とする集塵用車両。
    A vehicle body that is driven by the power of the prime mover, and a dust collector provided in the vehicle body,
    The dust collector is provided between an air intake unit that takes in air, an air discharge unit that discharges air, and the air intake unit and the air discharge unit, and purifies the air taken from the air intake unit A dust collection vehicle comprising: at least one filter device that performs the above operation, and a dust collector blower that allows air to flow from the air intake portion toward the air discharge portion.
  2.  前記集塵装置用送風装置は、ケーシングと、このケーシングを貫通する回転軸と、この回転軸を回転させるための原動機と、を備え、
     前記ケーシングには、固定子が設けられており、
     前記ケーシングから突出する前記回転軸には、送風用の羽根を備える羽根車が設けられ、前記ケーシング内の前記回転軸には、前記固定子との協働によって発電するための回転子が設けられていることを特徴とする請求項1に記載の集塵用車両。
    The dust collector blower includes a casing, a rotating shaft that passes through the casing, and a prime mover for rotating the rotating shaft,
    The casing is provided with a stator,
    The rotating shaft that protrudes from the casing is provided with an impeller provided with blades for blowing air, and the rotating shaft in the casing is provided with a rotor for generating electric power in cooperation with the stator. The dust collecting vehicle according to claim 1, wherein the dust collecting vehicle is a dust collecting vehicle.
  3.  前記集塵装置用送風装置は、ケーシングと、このケーシングを貫通する回転軸と、この回転軸を回転させるための原動機と、を備え、
     前記ケーシングには、吸込口と、吐出口と、前記回転軸の回転によって作動すると共に、前記吸込口から取り込んだ気体を圧縮して前記吐出口から吐き出す圧縮装置と、が設けられており、
     前記ケーシングから突出する前記回転軸には、送風用の羽根を備える羽根車が設けられていることを特徴とする請求項1に記載の集塵用車両。
    The dust collector blower includes a casing, a rotating shaft that passes through the casing, and a prime mover for rotating the rotating shaft,
    The casing is provided with a suction port, a discharge port, a compression device that operates by rotation of the rotating shaft, compresses the gas taken in from the suction port, and discharges the gas from the discharge port,
    2. The dust collecting vehicle according to claim 1, wherein the rotating shaft protruding from the casing is provided with an impeller having blades for blowing air.
  4.  前記集塵装置用送風装置は、ケーシングと、このケーシングを貫通する回転軸と、この回転軸を回転させるための原動機と、を備え、
     前記ケーシングには、吸込口と、吐出口と、前記回転軸の回転によって作動すると共に、前記吸込口から取り込んだ気体を圧縮して前記吐出口から吐き出す圧縮装置と、固定子と、が設けられており、
     前記ケーシングから突出する前記回転軸には、送風用の羽根を備える羽根車が設けられ、前記ケーシング内の前記回転軸には、前記固定子との協働によって発電するための回転子が設けられていることを特徴とする請求項1に記載の集塵用車両。
    The dust collector blower includes a casing, a rotating shaft that passes through the casing, and a prime mover for rotating the rotating shaft,
    The casing is provided with a suction port, a discharge port, a compression device that operates by rotation of the rotating shaft, compresses the gas taken in from the suction port, and discharges the gas from the discharge port, and a stator. And
    The rotating shaft that protrudes from the casing is provided with an impeller provided with blades for blowing air, and the rotating shaft in the casing is provided with a rotor for generating electric power in cooperation with the stator. The dust collecting vehicle according to claim 1, wherein the dust collecting vehicle is a dust collecting vehicle.
  5.  前記フィルタ装置のうちの少なくとも1つは、第一フィルタ装置であり、
     前記第一フィルタ装置は、塵埃等を捕集する第一フィルタ本体と、空気の流れにより回転するタービンと、動力伝達部と、を備え、
     前記第一フィルタ本体は、前記動力伝達部を介して伝わる前記タービンの回転により生じた動力により周回可能な状態で設けられていることを特徴とする請求項1から4のいずれか1項に記載の集塵用車両。
    At least one of the filter devices is a first filter device;
    The first filter device includes a first filter body that collects dust and the like, a turbine that is rotated by a flow of air, and a power transmission unit.
    The said 1st filter main body is provided in the state which can go around by the motive power which arose by rotation of the said turbine transmitted through the said power transmission part, The any one of Claim 1 to 4 characterized by the above-mentioned. Vehicle for dust collection.
  6.  前記フィルタ装置のうちの少なくとも1つは、第二フィルタ装置であり、
     前記第二フィルタ装置は、外周部にコイルが巻き付けられ、空気が内部を通過する複数の管状部材を備えており、
     前記複数の管状部材は、向きを揃えて並べられていることを特徴とする請求項1から5のいずれか1項に記載の集塵用車両。
    At least one of the filter devices is a second filter device;
    The second filter device includes a plurality of tubular members in which a coil is wound around an outer peripheral portion and air passes through the inside.
    The dust collecting vehicle according to any one of claims 1 to 5, wherein the plurality of tubular members are arranged with their directions aligned.
  7.  前記フィルタ装置のうちの少なくとも1つは、第三フィルタ装置であり、
     前記第三フィルタ装置は、殺菌力のあるレーザー光を放射する複数の前記レーザー装置を備え、前記レーザー光により殺菌を行うフィルタ装置であり、
     前記複数のレーザー装置は、各前記レーザー装置から放射されるレーザー光が同一の方向を向くようにして所定方向に並べて設けられていることを特徴とする請求項1から6のいずれか1項に記載の集塵用車両。
    At least one of the filter devices is a third filter device;
    The third filter device is a filter device that includes a plurality of the laser devices that emit laser light having sterilizing power, and sterilizes with the laser light,
    7. The laser device according to claim 1, wherein the plurality of laser devices are arranged in a predetermined direction so that laser beams emitted from the laser devices are directed in the same direction. The dust collecting vehicle described.
  8.  前記集塵装置には、前記空気取入部に向けて空気を導入するための導入部が、開閉自在に設けられており、
     前記導入部は、開状態において、前記空気取入部側の開口部の面積よりも、その逆側の開口部の面積が広くなることを特徴とする請求項1から7のいずれか1項に記載の集塵用車両。
    In the dust collector, an introduction part for introducing air toward the air intake part is provided so as to be openable and closable.
    The said introduction part is an open state, The area of the opening part on the opposite side becomes larger than the area of the opening part on the said air intake part side, The any one of Claim 1 to 7 characterized by the above-mentioned. Vehicle for dust collection.
  9.  前記空気取入部よりも、前記車両本体の走行方向において前側に、地面方向に向けて風を吹き付けるための送風装置が設けられていることを特徴とする請求項1から8のいずれか1項に記載の集塵用車両。 9. The blower according to claim 1, further comprising: a blower for blowing wind toward the ground in front of the air intake portion in the traveling direction of the vehicle body. 10. The dust collecting vehicle described.
PCT/JP2018/012496 2018-03-27 2018-03-27 Dust collection vehicle WO2019186705A1 (en)

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