WO2017152332A1 - 一种雾霾回收车 - Google Patents

一种雾霾回收车 Download PDF

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Publication number
WO2017152332A1
WO2017152332A1 PCT/CN2016/075759 CN2016075759W WO2017152332A1 WO 2017152332 A1 WO2017152332 A1 WO 2017152332A1 CN 2016075759 W CN2016075759 W CN 2016075759W WO 2017152332 A1 WO2017152332 A1 WO 2017152332A1
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Prior art keywords
fixedly connected
frame
rod
fixing
bracket
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PCT/CN2016/075759
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English (en)
French (fr)
Inventor
刘湘静
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刘湘静
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Publication date
Application filed by 刘湘静 filed Critical 刘湘静
Priority to PCT/CN2016/075759 priority Critical patent/WO2017152332A1/zh
Publication of WO2017152332A1 publication Critical patent/WO2017152332A1/zh

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D50/00Combinations of methods or devices for separating particles from gases or vapours

Definitions

  • the invention relates to the technical field of smog treatment, in particular to a smog recovery vehicle.
  • a haze recovery vehicle comprising a bottom plate, a casing above the bottom plate, an air intake device disposed on the casing, a cylinder device located below the air intake device, and a a collecting device on the left side of the cylinder device, a liquefying device on the right side of the cylinder device, an adhering device on the right side of the liquefaction device, a heating device located above the adhering device, on the right side of the heating device An air outlet device and a fixing device disposed in the housing.
  • the invention has the following beneficial effects: the smog recovery vehicle of the invention has the advantages of simple structure, convenient use, the smog can be sucked into the smog, and then the smog is fully purified and filtered, firstly, the volume is larger. The particles are filtered off, and then the smaller particles are filtered out, and then liquefied to reduce the moisture in the air, thereby making The water vapor cannot be combined with the particles, so that the mist does not occur, and some impurities in the air can be adhered to the adhesive layer, the cleaning effect is remarkable, and the temperature can be heated to vaporize the water droplets in the air.
  • FIG. 1 is a schematic structural view of a haze recovery vehicle of the present invention.
  • the smog recovery vehicle of the present invention comprises a bottom plate 1 , a casing 2 located above the bottom plate 1 , an air intake device 3 disposed on the casing 2 , and a lower portion of the air intake device 3 .
  • a cylinder device 4 a collecting device 5 located on the left side of the cylinder device 4, a liquefying device 6 located on the right side of the cylinder device 4, an adhering device 7 located on the right side of the liquefaction device 6, and the adhering device
  • the bottom plate 1 has a rectangular parallelepiped, and the bottom plate 1 is horizontally placed, and the bottom plate 1 is provided with a first roller 11 positioned below.
  • the first roller 11 is provided with two left and right sides respectively under the bottom plate 1, the first roller 11 is a cylinder, the first roller 11 is horizontally placed, and the first roller 11 can be driven.
  • the bottom plate 1 moves.
  • the casing 2 has a hollow rectangular parallelepiped, the casing 2 has an inverted concave shape in cross section, and the lower surface of the casing 2 is fixed to the upper surface of the bottom plate 1.
  • the housing 2 is provided with a first through hole 21 on the right surface, a first diagonal rod 22 on the left side of the housing 2, and a first curved rod 23 above the first diagonal rod 22.
  • the first slanting rod 22 is inclined, the lower end of the first slanting rod 22 is fixedly connected to the upper surface of the bottom plate 1, and the upper end of the first slanting rod 22 is fixed to the left surface of the casing 2. connection.
  • the first bending rod 23 is curved, the lower end of the first bending rod 23 is fixedly connected to the first diagonal rod 22, and the upper end of the first bending rod 23 is fixed to the left surface of the casing 2. connection.
  • the second slanting bar 24 is inclined, the lower end of the second slanting bar 24 is fixedly connected to the upper surface of the bottom plate 1, and the upper end of the second slanting bar 24 is fixed to the right surface of the casing 2. connection.
  • the first crossbar 25 is horizontal, the left end of the first crossbar 25 is fixedly connected to the right surface of the casing 2, and the right end of the first crossbar 25 and the left end of the grip bar 29 The surface is fixedly connected.
  • the first bracket 26 is L-shaped, one end of the first bracket 26 is fixedly connected to the right surface of the casing 2, and the other end of the first bracket 26 and the upper surface of the first crossbar 25 Fixed connection.
  • the third diagonal rod 27 is inclined, and the upper end of the third diagonal rod 27 is fixedly connected with the lower surface of the first horizontal rod 25, and the lower end of the third inclined rod 27 is opposite to the casing 2
  • the right surface is fixedly coupled to provide sufficient support for the first crossbar 25.
  • the first vertical rod 28 is vertically connected, the lower end of the first vertical rod 28 is fixedly connected to the second diagonal rod 24, and the upper end of the first vertical rod 28 is fixed to the third inclined rod 27. connection.
  • the grip bar 29 is in the shape of a rectangular parallelepiped, and the grip bar 29 is placed vertically so as to be convenient for the user to hold, thereby facilitating the movement of the present invention to a desired position.
  • the air intake device 3 includes a first filter net 31, an intake pipe 32 located on the right side of the first filter net 31, and a fan 33 disposed on the intake pipe 32.
  • the fourth slanting rod 37 has a second bracket 38 located above the air inlet pipe 32 and a first connecting rod 39 located above the second bracket 38.
  • the first filter mesh 31 is hemispherical, the right surface of the first filter mesh 31 is fixedly connected to the left surface of the housing 2, and the first filter mesh 31 is located at the left of the second through hole 20. side.
  • the intake pipe 32 is horizontal, the intake pipe 32 extends through the second through hole 20 and is fixedly connected to the casing 2, and the left end of the intake pipe 32 is received in the interior of the first filter 31 .
  • the first purification frame 34 has a semi-circular cross section, the first purification frame 34 has a hollow shape, the first purification frame 34 is horizontally placed, and the first purification frame 34 is disposed on the lower surface.
  • the third through hole 341 and the fourth through hole 342 at the left side thereof, the right end of the intake pipe 32 is aligned with the fourth through hole 342 and fixedly connected to the left surface of the first purification frame 34.
  • the first roller 35 is in a cylindrical shape, the first roller 35 is horizontally placed, and the first roller 35 is received in the first purification frame 34 and can be rotated in the first purification frame 34.
  • the first roller 35 is located on the right side of the fourth through hole 342.
  • the filter block 36 is provided with a plurality of evenly distributed on the first roller 35, the filter block 36 is a rectangular parallelepiped, and the filter frame 36 is fixedly connected with the first roller 35, so that the first roller When the 35 is rotated clockwise, the filter block 36 may perform preliminary filtering on the gas entering the first purification frame 34 from the fourth through hole 342.
  • the fourth slanting rod 37 is disposed at two upper and lower sides of the intake pipe 32, and the fourth slanting rod 37 is inclined, and one end of the fourth slanting rod 37 and the intake pipe 2
  • the other end of the fourth diagonal rod 37 is fixedly connected to the first purification frame 34 to fix the intake pipe 32.
  • Place The second bracket 38 is L-shaped, one end of the second bracket 38 is fixedly connected to the inner surface of the casing 2, and the other end of the second bracket 38 is fixedly connected with the fan 33, so that the second bracket 38 can be
  • the fan 33 serves as a support.
  • the first connecting rod 39 is a rectangular parallelepiped, the first connecting rod 39 is vertically placed, and the lower end of the first connecting rod 39 is fixedly connected to the upper surface of the second bracket 38.
  • the cylinder device 4 includes a second purification frame 41 , a first push rod 42 disposed on the second purification frame 41 , and a cylinder 43 located below the first push rod 42 .
  • a spacer 44 below the cylinder 43 a second filter 45 located above the first push rod 42 , a first stop 46 located below the second filter 45 , and a second cleaning frame 41 .
  • the first spring 40 on the frame 49.
  • the second purification frame 41 has a concave cross section, the upper end of the second purification frame 41 is aligned with the third through hole 341 and is fixedly connected to the first purification frame 34, and the second purification frame is 41 is provided with a fifth through hole 411 on the right surface, a sixth through hole 412 on the left surface, and a first sealing ring 413 disposed on the lower surface, the first sealing ring 413 is annular, the first The seal ring 413 is fixedly coupled to the second purification frame 41, and the lower surface of the first seal ring 413 is in the same plane as the lower surface of the second purification frame 41.
  • the spacer 44 is a rectangular parallelepiped, and the spacer 44 is horizontally placed, and a lower surface of the spacer 44 is fixedly coupled to an upper surface of the bottom plate 1.
  • the lower surface of the cylinder 43 is fixedly coupled to the upper surface of the spacer 44.
  • the first push rod 42 is vertical, and the lower end of the first push rod 42 is connected to the cylinder 43 such that the cylinder 43 drives the first push rod 42 to move up and down, the first push rod
  • An upper end of the 42 passes through the first seal ring 413 and extends to the inside of the second purification frame 41, and a side surface of the first push rod 42 is slidably coupled to an inner surface of the first seal ring 413,
  • First push The rod 42 is provided with a seventh through hole 421 penetrating the side thereof, and the upper surface of the first push rod 42 is inclined.
  • the second filter net 45 is inclined, the side surface of the second filter net 45 is slidably connected to the inner surface of the second purification frame 41, and the second filter net 45 is inclined at the upper left direction and the lower left side.
  • the upper end of the first push rod 42 is fixedly coupled to the lower surface of the second filter net 45 such that the air entering the second purification frame 41 needs to be filtered by the second filter screen 45.
  • the first block 46 has a vertical shape, and the upper end of the first block 46 is fixedly connected to the lower surface of the second filter 45, and the right surface of the first block 46 is opposite to the second
  • the first stop 46 can block the fifth through hole 411 when the inner surface of the purification frame 41 is slidably connected such that the second filter 45 moves downward to the lowest.
  • the first blocking block 47 is a rectangular parallelepiped, and the first blocking block 47 is vertically disposed.
  • the first blocking block 47 is received in the sixth through hole 412 and is slidably connected to the second cleaning frame 41.
  • the first blocking block 47 is blocked in the sixth through hole 412.
  • the first rotating frame 48 has a concave shape, one end of the first rotating frame 48 is fixedly connected to the left surface of the first blocking block 47, and the other end of the first rotating frame 48 is provided with a second connecting rod.
  • the second connecting rod 481 is a rectangular parallelepiped, the second connecting rod 481 is horizontally placed, and the right end of the second connecting rod 481 is fixedly connected with the left surface of the second cleaning frame 41, the second connection
  • the rod 481 is pivotally coupled to the first revolving frame 48 such that the first revolving frame 48 is rotatable about the second connecting rod 481.
  • the first positioning frame 49 has an L shape, and one end of the first positioning frame 49 is fixedly connected to the left surface of the second cleaning frame 41, and the other end of the first positioning frame 49 is vertical.
  • the first spring 40 is horizontally connected, the left end of the first spring 40 is fixedly connected to the first positioning frame 49, and the right end of the first spring 40 is fixedly connected with the first rotating frame 48, thereby The first blocking block 47 is received in the sixth through hole 412.
  • the collecting device 5 includes a third bracket 51 located at the third a second cross bar 52 on the right side of the bracket 51, a first support bar 56 above the second cross bar 52, a third cross bar 53 above the first support bar 56, and the third cross bar A first collection box 54 above the 53 and a first fixing block 55 on the left side of the first collection box 54.
  • the third bracket 51 is L-shaped, one end of the third bracket 51 is fixedly connected to the upper surface of the bottom plate 1 , and the other end of the third bracket 51 is fixedly connected to the inner surface of the casing 2 .
  • the second crossbar 52 is a rectangular parallelepiped, the second crossbar 52 is horizontally placed, and the left end of the second crossbar 52 is fixedly connected to the right surface of the third bracket 51, and the second crossbar 52 is The right end is fixedly coupled to the left surface of the cylinder 43.
  • the third crossbar 53 is a rectangular parallelepiped, the third crossbar 53 is horizontally placed, and the left end of the third crossbar 53 is fixedly connected to the right surface of the third bracket 51, and the third crossbar 53 is The right end is slidably coupled to the left surface of the first push rod 42.
  • the first support rod 56 is a rectangular parallelepiped, the first support rod 56 is vertically placed, and the lower end of the first support rod 56 is fixedly connected with the upper surface of the second cross rod 52, the first support rod The upper end of the 56 is fixedly coupled to the lower surface of the third rail 53.
  • the first collection box 54 has a hollow rectangular parallelepiped shape, the first collection box 54 has a concave cross section, and the lower surface of the first collection box 54 is in contact with the upper surface of the third crossbar 53.
  • the first collection box 54 is located below the first rotating frame 48 such that impurities flowing out of the sixth through hole 412 enter the first collection box 54.
  • the first fixing block 55 is a rectangular parallelepiped, the first fixing block 55 is vertically placed, and the lower surface of the first fixing block 55 is fixedly connected with the upper surface of the third cross bar 53. The right surface of the block 55 is in contact with the left surface of the first collection box 54.
  • the liquefaction device 6 includes a liquefaction tank 61, a first pipe 62 located on the left side of the liquefaction tank 61, a third connecting rod 63 located below the first pipe 62, and located in the liquefaction tank. a liquefaction plate 64 above the 61, a third filter 65 located below the liquefaction plate 64, a sponge block 66 located below the third filter mesh 65, and a second A support rod 67, a water tank 68 above the liquefaction plate 64, a first cover plate 69 above the water tank 68, and a second vertical rod 60 above the first cover plate 69.
  • the liquefied tank 61 has a hollow trapezoidal cross section, the lower surface of the liquefaction tank 61 is fixedly connected to the upper surface of the bottom plate 1, and the liquefied tank 61 has a concave cross section, and the liquefaction tank 61 is provided.
  • An eighth through hole 611 on the left surface and a ninth through hole 612 on the right surface are provided.
  • the first duct 62 is horizontal, the left end of the first duct 62 is aligned with the fifth through hole 411 and is fixedly connected with the right surface of the second purifying frame 41, so that the first duct 62
  • the inside is communicated with the inside of the second purification tank 41, and the right end of the first duct 62 is aligned with the eighth through hole 611 and is fixedly connected to the left surface of the liquefaction tank 61.
  • the third connecting rod 63 is horizontal, the left end of the third connecting rod 63 is fixedly connected to the right surface of the cylinder 43, and the right end of the third connecting rod 63 is fixed to the left surface of the liquefaction tank 61. connection.
  • the liquefaction plate 64 is inclined downward in the upper left direction, the side of the liquefaction plate 64 is fixedly connected to the inner surface of the liquefaction tank 61, and the liquefaction plate 64 is made of a heat conductive material, so that the liquefaction plate can be made
  • the lower temperature is maintained such that the air entering the liquefaction tank 61 from the eighth through hole 611 is liquefied, and the liquefaction plate 64 is made of a heat conductive material.
  • the third filter net 65 is provided with two and respectively located on the upper and lower sides, the third filter net 65 is horizontal, and the side surface of the third filter net 65 is fixedly connected to the inner surface of the liquefaction tank 61.
  • the sponge block 66 is horizontally connected, and the upper and lower surfaces of the sponge block 66 are fixedly connected to the third filter net 65 located above and below, and the side surface of the sponge block 66 is fixedly connected to the inner surface of the liquefaction tank 61. It is thus possible to filter some of the smaller impurities.
  • the second support rod 67 is vertical, the lower end of the second support rod 67 is fixedly connected to the inner surface of the liquefaction tank 61, and the upper end of the second support rod 67 and the third filter located below
  • the lower surface of the 65 is fixedly connected, and the second support rod 67 is provided with a tenth through hole 671 extending through the left and right surfaces thereof.
  • the tenth through hole 671 is long.
  • the square shape is such that the second support rods 67 are spatially connected to each other.
  • the lower surface of the water tank 68 is fixedly coupled to the upper surface of the liquefaction plate 64 and forms a sealed space such that the refrigerant liquid in the water tank 68 does not leak, and the water tank 68 is made of a heat insulating material.
  • the upper surface of the water tank 68 is horizontal, and the water tank 68 is provided with a second fixing block 681.
  • the second fixing block 681 is provided with two and respectively located on the left and right sides, and the second fixing block 681 is a rectangular parallelepiped.
  • the second fixing block 681 is horizontally placed, and the side of the second fixing block 681 is fixedly connected to the inner surface of the water tank 68.
  • the first cover plate 69 is a rectangular parallelepiped, the first cover plate 69 is horizontally placed, and the lower surface of the first cover plate 69 is in contact with the upper surface of the second fixing block 681, the first cover plate 69 The side faces are in contact with the inner surface of the water tank 68.
  • the second vertical rod 60 is a cylinder, the second vertical rod 60 is placed vertically, and the lower surface of the second vertical rod 60 is fixedly connected to the upper surface of the first cover plate 69.
  • the adhering device 7 includes an adhesive frame 71, a first adhesive layer 72 located in the adhesive frame 71, and a second adhesive on the right side of the first adhesive layer 72.
  • the fourth crossbar 70 on the side.
  • the adhesion frame 71 has a hollow triangle in cross section, and the adhesion layer 71 is provided with a first circular hole 711 on the lower surface and a second circular hole 712 at the upper end, the first circular hole 711 and The second circular hole 712 has a circular shape and communicates with the inside of the adhesion frame 71.
  • the first adhesive layer 72 is a rectangular parallelepiped, the first adhesive layer 72 is vertically placed, and the left surface of the first adhesive layer 72 is fixedly connected to the inner surface of the adhesive frame 71.
  • An adhesive layer 72 can adhere to some impurities in the air.
  • the second adhesive layer 73 is inclined, on the second adhesive layer 73
  • the surface is fixedly coupled to the inner surface of the adhesive frame 71, the second adhesive layer 73 may adhere to a portion of the dust in the air, and the second adhesive layer 73 is a rectangular parallelepiped.
  • the fourth bracket 74 is L-shaped, one end of the fourth bracket 74 is fixedly connected to the right surface of the liquefaction tank 61, and the other end of the fourth bracket 74 is vertical and the adhesion frame
  • the lower surface of the 71 is fixedly coupled to support the adhesive frame 71.
  • the second duct 75 is curved, and one end of the second duct 75 is aligned with the first circular hole 711 and is fixedly connected with the lower surface of the adhesion frame 71 such that the inside of the second duct 75
  • the other end of the second duct 75 is aligned with the ninth through hole 612 and is fixedly connected to the right surface of the liquefaction tank 61.
  • the third support rod 76 is vertically connected, the lower end of the third support rod 76 is fixedly connected to the upper surface of the bottom plate 1, and the upper end of the third support rod 76 is fixedly connected to the second duct 75. Thereby supporting the second duct 75.
  • the fourth connecting rod 77 is a rectangular parallelepiped, the fourth connecting rod 77 is vertically placed, and the left surface of the fourth connecting rod 77 is fixedly connected with the right surface of the water tank 68, and the fourth connecting rod 77 is The right surface is fixedly coupled to the left surface of the adhesive frame 71 to support the adhesive frame 71.
  • the fifth bracket 78 is L-shaped, one end of the fifth bracket 78 is fixedly connected to the lower surface of the adhesive frame 71, and the other end of the fifth bracket 78 is fixed to the inner surface of the casing 2. connection.
  • the fourth support rod 79 is a rectangular parallelepiped, the fourth support rod 79 is placed vertically, and the lower end of the fourth support rod 79 is fixedly connected to the upper surface of the bottom plate 1, and the upper end of the fourth support rod 79 is It is fixedly coupled to the lower surface of the fifth bracket 78.
  • the fourth crossbar 70 is horizontal, the left end of the fourth crossbar 70 is fixedly connected to the adhesive frame 71, and the right end of the fourth crossbar 70 is fixedly connected to the inner surface of the casing 2. .
  • the heating device 8 includes a third duct 81, a heating frame 82 above the third duct 81, and a fifth support rod located below the third duct 81. 83.
  • a fifth crossbar 84 located on the right side of the fifth support bar 83, a first mount 85 located below the fifth crossbar 84, and a second mount 86 located above the fifth crossbar 84.
  • a collecting block 87 located in the heating frame 82, a second roller 88 located above the collecting block 87, a heat dissipating frame 89 located above the second roller 88, and a section above the heating frame 82
  • the heating frame 82 has a hollow rectangular parallelepiped, and the heating frame 82 is vertically disposed.
  • the heating frame 82 is provided with a third circular hole 821 on the lower surface and a fourth circular hole 822 on the right surface.
  • the lower end of the third duct 81 is vertical, the upper end of the third duct 81 is inclined, and the lower end of the third duct 81 is aligned with the second through hole 712 and the adhesion frame 71
  • the upper end is fixedly connected, and the upper end of the third duct 81 is aligned with the third circular hole 821 and is fixedly connected to the lower surface of the heating frame 82.
  • the fifth support rod 83 is vertically connected, the upper end of the fifth support rod 83 is fixedly connected to the third duct 81, and the lower end of the fifth support rod 83 is fixedly connected to the adhesion frame 71.
  • the fifth crossbar 84 is a rectangular parallelepiped, the fifth crossbar 84 is horizontally placed, and the left end of the fifth crossbar 84 is fixedly coupled to the right surface of the fifth support bar 83.
  • the fifth crossbar 84 is The right end is fixedly coupled to the inner surface of the housing 2.
  • the first fixing frame 85 is L-shaped, and one end of the first fixing frame 85 is fixedly connected to the lower surface of the fifth cross bar 84. The other end of the first fixing frame 85 and the housing 2 are The inner surface is fixedly connected.
  • the second fixing frame 86 is L-shaped, one end of the second fixing frame 86 is fixedly connected with the inner surface of the casing 2, and the other end of the second fixing frame 86 is lower than the heating frame 82.
  • the surface is fixedly coupled to support the heating frame 82.
  • the collecting block 87 is provided with two and respectively located on the left and right sides, and the collecting block 87 is received in the heating frame 82, and the lower surface and the side surface of the collecting block 87 are adjacent to the heating frame 82.
  • the inner surface is fixedly connected, and the upper surface of the aggregate block 87 is curved.
  • the second roller 88 is in the shape of a cylinder, the second roller 88 is horizontally placed, and the second roller 88 is located Above the third circular hole 821, the second roller 88 is provided with an adhesive ring 881, and the adhesive ring 881 is fixedly connected to the second roller 88.
  • the outer surface of the adhesive ring 881 can be Adhere to impurities in the air.
  • the heat dissipation frame 89 is disposed on the left and right sides of the heat dissipation frame 89.
  • the heat dissipation frame 89 is received in the heating frame 82.
  • the heat dissipation frame 89 has a hollow rectangular parallelepiped shape, and the heat dissipation frame 89 has a concave cross section.
  • the heat dissipation frame 89 is fixedly connected to the inner surface of the heating frame 82, and the heat dissipation frame 89 is made of a heat conductive material.
  • the heat dissipation frame 89 is provided with a heating rod 891, and the heating rod 891 is provided. There are two and are respectively located on the left and right sides, and the heating rod 891 is fixedly connected to the inner surface of the heating frame 82.
  • the third vertical rod 80 is vertical, and the upper end of the third vertical rod 80 is fixedly connected to the inner surface of the casing 2, and the lower end of the third vertical rod 80 is upper than the heating frame 82. The surface is fixedly connected.
  • the air outlet device 9 includes an air outlet pipe 93 , an air outlet hopper 94 located on the right side of the air outlet pipe 93 , a fifth connecting rod 92 located above the air outlet pipe 93 , and located below the air outlet pipe 93 .
  • the air outlet pipe 93 is horizontal, and the left end of the air outlet pipe 93 is aligned with the fourth circular hole 822 and is fixedly connected to the right surface of the heating frame 82.
  • the air outlet 94 has a hollow truncated cone shape, and the left surface of the air outlet 94 is fixedly connected to the right end of the air outlet pipe 93.
  • the fifth connecting rod 92 is vertically connected, the upper end of the fifth connecting rod 92 is fixedly connected to the casing 2, and the lower end of the fifth connecting rod 92 is fixedly connected to the air outlet pipe 93.
  • the fifth connecting rod 92 is received in the first through hole 21 .
  • the third fixing frame 91 is L-shaped, one end of the third fixing frame 91 is fixedly connected to the right surface of the heating frame 82, and the other end of the third fixing frame 91 is vertical and
  • the air outlet pipe 93 is fixedly connected, and the third fixing frame 91 passes through the first through hole 21 to support the air outlet pipe 93.
  • the fixing device 10 includes a first fixing rod 101 located at the a fourth fixing frame 102 on the right side of the first fixing frame 101, a second fixing rod 103 on the right side of the fourth fixing frame 102, and a sixth supporting rod 104 located on the right side of the second fixing rod 103.
  • the first fixing rod 101 is a rectangular parallelepiped, the first fixing rod 101 is horizontally placed, and the left end of the first fixing rod 101 is fixedly connected with the inner surface of the casing 2, and the right end of the first fixing rod 101 is The upper end of the first connecting rod 39 is fixedly connected to the lower surface of the first fixing rod 101.
  • the fourth fixing frame 102 is L-shaped, the upper end of the fourth fixing frame 102 is fixedly connected to the inner surface of the casing 2, and the other end of the fourth fixing frame 102 is opposite to the first cleaning frame 34. The left surface is fixedly connected.
  • the second fixing rod 103 is a rectangular parallelepiped, the second fixing rod 103 is horizontally placed, the left end of the second fixing rod 103 is fixedly connected with the fourth fixing rod 102, and the right end of the second fixing rod 103 is The left surface of the sixth support rod 104 is fixedly connected.
  • the sixth support rod 104 is vertical, and the upper end of the sixth support rod 104 is fixedly connected to the inner surface of the casing 2, and the lower end of the sixth support rod 104 and the first purification frame 34 are Fixed connection.
  • the third fixing rod 105 is a rectangular parallelepiped, the third fixing rod 105 is horizontally placed, and the left end of the third fixing rod 105 is fixedly connected with the right surface of the sixth supporting rod 104.
  • the third fixing rod 105 is fixedly connected.
  • the right end is fixedly coupled to the left surface of the seventh support rod 106.
  • the seventh support rod 106 is vertical, and the upper end of the seventh support rod 106 is fixedly connected to the inner surface of the casing 2, and the lower end of the seventh support rod 106 and the first purification frame 34 are Fixed connection.
  • the fifth fixing frame 107 is L-shaped, and one end of the fifth fixing frame 107 is fixed to the inner surface of the casing 2 The other end of the fifth fixing frame 107 is fixedly connected to the right surface of the seventh support rod 106.
  • the fourth fixing rod 108 is horizontally fixed, the left end of the fourth fixing rod 108 is fixedly connected to the first cleaning frame 34, and the right end of the fourth fixing rod 108 is fixed to the left surface of the heating frame 82. connection.
  • the fifth fixing rod 109 is horizontal, the left end of the fifth fixing rod 109 is fixedly connected to the first cleaning frame 34, and the right end of the fifth fixing rod 109 is fixed to the left surface of the heating frame 82. connection.
  • the sixth fixing rod 100 is horizontally connected, the left end of the sixth fixing rod 100 is fixedly connected to the first cleaning frame 34, and the right end of the sixth fixing rod 100 is fixedly connected to the third duct 81.
  • the grip bar 29 can be grasped, moved to a place where the smog is more serious, and then the fan 33 is activated, so that the outside air passes through the first filter.
  • the mesh 31 enters the near tube 32, and then the first roller 35 is activated, so that the first roller 35 rotates counterclockwise, so that the filter block 36 rotates with the counterclockwise rotation of the first roller 35.
  • the filter block 36 can filter the air entering the first purification frame 34 from the intake pipe 32, and push the bulky impurities in the air upward, and then rotate around the first roller 35.
  • the mesh 45 enters the first duct 62 through the fifth through hole 411, and the air on the left side of the first push rod 42 can enter the right side of the first push rod 42 through the seventh through hole 421. Then entering the first conduit 62 .
  • the cylinder 43 is activated, so that the first push rod 42 moves downward, so that the second filter 45 and the first block 46 move downward, so that The first block 46 blocks the fifth through hole 411, so that the air in the second purification frame 41 cannot enter the first pipe 62.
  • the first blocking block 47 and the first rotating frame 48 rotate counterclockwise around the second connecting rod 481, so that the first blocking block 47 no longer blocks the sixth pass.
  • the holes 412, and because the second filter screen 45 is of a slanted design the impurities above the second filter screen 45 slide down to the left and fall within the first collection box 54, facilitating the collection of dust.
  • the gas entering the first conduit 62 enters the liquefaction tank 61, and when it is injected from the first conduit 62 into the liquefaction tank 61, it is directly sprayed on the liquefaction panel 64, at which time the water tank 68 is placed.
  • the smaller-sized impurities can be filtered out, and the water droplets formed after the liquefaction plate 64 is liquefied can be concentrated on the third filter 65 and the sponge block 66, so that the liquefaction effect is better, and no additional liquid water is needed, and the cost is reduced. . Then, after filtering through the third filter 65 and the sponge block 66, it is taken into the adhesion frame 71 through the second pipe 75, and then passes through the first adhesion layer 72 and the second adhesion layer 73 to stick impurities in the air.
  • the impurities in the air are lowered, and then enter the heating frame 82 through the third pipe 81, and the heating rod 891 is activated, so that the temperature in the heating frame 82 rises, and at the same time, the second roller 88 is rotated, so that the adhesive ring 881 can be Adhesively removes the remaining impurities in the air and adheres more fully, which can greatly reduce impurities in the air.
  • the fixing device 10 has a relatively stable fixing effect on other structures. So far, the use process of the smog recovery vehicle of the present invention has been described.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)

Abstract

一种雾霾回收车,包括底板(1)、壳体(2)、进气装置(3)、气缸装置(4)、收集装置(5)、液化装置(6)、粘附装置(7)、加热装置(8)、出气装置(9)及固定装置(10),底板(1)上设有第一滚轮(11),壳体(2)上设有第一通孔(21)、第一斜杆(22)、第一弯曲杆(23)、第二斜杆(24)、第一横杆(25)、第一支架(26)、第三斜杆(27)、第一竖杆(28)、握持杆(29)及第二通孔(20),进气装置(3)包括第一过滤网(31)、进气管(32)、风机(33)、第一净化框(34)、第一滚轮(35)、过滤块(36)、第四斜杆(37)、第二支架(38)及第一连接杆(39),气缸装置(4)包括第二净化框(41)、第一推动杆(42)、气缸(43)、垫块(44)、第二过滤网(45)、第一挡块(46)、第一堵塞块(47)、第一旋转架(48)、第一定位架(49)及第一弹簧(40),收集装置(5)包括第三支架(51)、第二横杆(52)、第一支撑杆(56)、第三横杆(53)、第一收集箱(54),该雾霾回收车能够对雾霾进行充分的净化过滤,减少空气中的水汽,进而使得雾霾不会产生。

Description

一种雾霾回收车 技术领域
本发明涉及雾霾处理技术领域,尤其是涉及一种雾霾回收车。
背景技术
目前世界各国对保护自然环境,防止空气污染,提高空气质量十分重视,近些年来雾霾天气逐年增多,对人们的身体健康造成一定程度的危害,为了人们的身体健康,如何治理空气中的灰霾,改变空气质量,是当今世界各国科技人员都在积极开展研究解决的一项技术问题。
因此,有必要提供一种新的技术方案以克服上述缺陷。
发明内容
本发明的目的在于提供一种可有效解决上述技术问题的雾霾回收车。
为达到本发明之目的,采用如下技术方案:
一种雾霾回收车,所述雾霾回收车包括底板、位于所述底板上方的壳体、设置于所述壳体上的进气装置、位于所述进气装置下方的气缸装置、位于所述气缸装置左侧的收集装置、位于所述气缸装置右侧的液化装置、位于所述液化装置右侧的粘附装置、位于所述粘附装置上方的加热装置、位于所述加热装置右侧的出气装置及设置于所述壳体内的固定装置。
与现有技术相比,本发明具有如下有益效果:本发明雾霾回收车结构简单,使用方便,能够将雾霾吸入其中,然后对雾霾进行充分的净化过滤,首先将其中体积较大的颗粒过滤掉,然后过滤掉其中体积较小得颗粒,然后进行液化,减少空气中的水汽,从而使得 水汽无法与颗粒结合在一起,进而使得雾霾不会产生,并且可以将空气中的一些杂质黏贴在粘层上,清除效果显著,并且可以对其进行加温,使得空气中的水滴汽化,从而不会以液态的形式存在空气中,进而不仅可以提高空气中的湿度,还可以减少空气中的水滴,保证空气的质量,使得灰尘被过滤掉,净化效率高并且净化效果好,同时可以随意将其移动到任意的位置上,对一些雾霾较为严重的地方进行针对性的净化过滤,提高了雾霾处理的效率,同时可以将净化后的空气排出,并且将过滤掉的灰尘集中起来处理,防止环境污染。
附图说明
图1为本发明雾霾回收车的结构示意图。
具体实施方式
如图1所示,本发明雾霾回收车包括底板1、位于所述底板1上方的壳体2、设置于所述壳体2上的进气装置3、位于所述进气装置3下方的气缸装置4、位于所述气缸装置4左侧的收集装置5、位于所述气缸装置4右侧的液化装置6、位于所述液化装置6右侧的粘附装置7、位于所述粘附装置7上方的加热装置8、位于所述加热装置8右侧的出气装置7及设置于所述壳体2内的固定装置10。
如图1所示,所述底板1呈长方体,所述底板1水平放置,所述底板1上设有位其于下方的第一滚轮11。所述第一滚轮11设有两个且分别位于所述底板1下方的左右两侧,所述第一滚轮11呈圆柱体,所述第一滚轮11水平放置,所述第一滚轮11可以带动所述底板1移动。
如图1所示,所述壳体2呈空心的长方体,所述壳体2的横截面呈倒置的凹字形,所述壳体2的下表面与所述底板1的上表面固定 连接,所述壳体2上设有位于右表面的第一通孔21、位于所述壳体2左侧的第一斜杆22、位于所述第一斜杆22上方的第一弯曲杆23、位于所述壳体2右侧的第二斜杆24、位于所述第二斜杆24上方的第一横杆25、位于所述第一横杆25上方的第一支架26、位于所述第一横杆25下方的第三斜杆27、位于所述第三斜杆27下方的第一竖杆28、位于所述第一横杆25右侧的握持杆29及位于左表面的第二通孔20。所述第一斜杆22呈倾斜状,所述第一斜杆22的下端与所述底板1的上表面固定连接,所述第一斜杆22的上端与所述壳体2的左表面固定连接。所述第一弯曲杆23呈弯曲状,所述第一弯曲杆23的下端与所述第一斜杆22固定连接,所述第一弯曲杆23的上端与所述壳体2的左表面固定连接。所述第二斜杆24呈倾斜状,所述第二斜杆24的下端与所述底板1的上表面固定连接,所述第二斜杆24的上端与所述壳体2的右表面固定连接。所述第一横杆25呈水平状,所述第一横杆25的左端与所述壳体2的右表面固定连接,所述第一横杆25的右端与所述握持杆29的左表面固定连接。所述第一支架26呈L型,所述第一支架26的一端与所述壳体2的右表面固定连接,所述第一支架26的另一端与所述第一横杆25的上表面固定连接。所述第三斜杆27呈倾斜状,所述第三斜杆27的上端与所述第一横杆25的下表面固定连接,所述第三斜杆27的下端与所述壳体2的右表面固定连接,从而对所述第一横杆25起到足够的支撑力。所述第一竖杆28呈竖直状,所述第一竖杆28的下端与所述第二斜杆24固定连接,所述第一竖杆28的上端与所述第三斜杆27固定连接。所述握持杆29呈长方体,所述握持杆29竖直放置,从而方便使用者握住,进而方便将本发明移动到需要的位置。
如图1所示,所述进气装置3包括第一过滤网31、位于所述第一过滤网31右侧的进气管32、设置于所述进气管32上的风机33、位于所述进气管32右侧的第一净化框34、位于所述第一净化框34内的第一滚轮35、设置于所述第一滚轮35上的过滤块36、位于所述第一净化框34左侧的第四斜杆37、位于所述进气管32上方的第二支架38及位于所述第二支架38上方的第一连接杆39。所述第一过滤网31呈半球状,所述第一过滤网31的右表面与所述壳体2的左表面固定连接,所述第一过滤网31位于所述第二通孔20的左侧。所述进气管32呈水平状,所述进气管32贯穿所述第二通孔20且与所述壳体2固定连接,所述进气管32的左端收容于所述第一过滤网31的内部。所述第一净化框34呈横截面为半圆的柱体,所述第一净化框34呈空心状,所述第一净化框34水平放置,所述第一净化框34上设有位于下表面的第三通孔341及位于其左表面的第四通孔342,所述进气管32得右端对准所述第四通孔342且与所述第一净化框34的左表面固定连接。所述第一滚轮35呈圆柱体,所述第一滚轮35水平放置,所述第一滚轮35收容于所述第一净化框34内且可以在所述第一净化框34内旋转,所述第一滚轮35位于所述第四通孔342的右侧。所述过滤块36设有若干个且均匀分布在所述第一滚轮35上,所述过滤块36呈长方体,所述过滤框36与所述第一滚轮35固定连接,使得所述第一滚轮35顺时针旋转时,所述过滤块36可以对从所述第四通孔342进入到所述第一净化框34内的气体进行初步的过滤。所述第四斜杆37设有两个且分别位于所述进气管32的上下两侧,所述第四斜杆37呈倾斜状,所述第四斜杆37的一端与所述进气管2固定连接,所述第四斜杆37的另一端与所述第一净化框34固定连接,从而对所述进气管32起到固定作用。所 述第二支架38呈L型,所述第二支架38的一端与所述壳体2的内表面固定连接,所述第二支架38的另一端与所述风机33固定连接,从而可以对所述风机33起到支撑作用。所述第一连接杆39呈长方体,所述第一连接杆39竖直放置,所述第一连接杆39的下端与所述第二支架38的上表面固定连接。
如图1所示,所述气缸装置4包括第二净化框41、设置于所述第二净化框41上的第一推动杆42、位于所述第一推动杆42下方的气缸43、位于所述气缸43下方的垫块44、位于所述第一推动杆42上方的第二过滤网45、位于所述第二过滤网45下方的第一挡块46、设置于所述第二净化框41左表面的第一堵塞块47、位于所述第一堵塞块47左侧的第一旋转架48、位于所述第一旋转架48左侧的第一定位架49及设置于所述第一定位架49上的第一弹簧40。所述第二净化框41的横截面呈凹字形,所述第二净化框41的上端对准所述第三通孔341且与所述第一净化框34固定连接,所述第二净化框41上设有位于右表面的第五通孔411、位于左表面的第六通孔412及设置于下表面的第一密封环413,所述第一密封环413呈环状,所述第一密封环413与所述第二净化框41固定连接,所述第一密封环413的下表面与所述第二净化框41的下表面处于同一平面内。所述垫块44呈长方体,所述垫块44水平放置,所述垫块44的下表面与所述底板1的上表面固定连接。所述气缸43的下表面与所述垫块44的上表面固定连接。所述第一推动杆42呈竖直状,所述第一推动杆42的下端与所述气缸43连接,使得所述气缸43带动所述第一推动杆42上下移动,所述第一推动杆42的上端穿过所述第一密封环413且延伸至所述第二净化框41的内部,所述第一推动杆42的侧面与所述第一密封环413的内表面滑动连接,所述第一推动 杆42上设有贯穿其侧面的第七通孔421,所述第一推动杆42的上表面呈倾斜状。所述第二过滤网45呈倾斜状,所述第二过滤网45的侧面与所述第二净化框41的内表面滑动连接,所述第二过滤网45呈右上方向左下方倾斜,所述第一推动杆42的上端与所述第二过滤网45的下表面固定连接,从而使得进入到所述第二净化框41内的空气需要经过第二过滤网45的过滤。所述第一挡块46呈竖直状,所述第一挡块46的上端与所述第二过滤网45的下表面固定连接,所述第一挡块46的右表面与所述第二净化框41的内表面滑动连接,使得所述第二过滤网45向下移动至最低时,所述第一挡块46可以挡住所述第五通孔411。所述第一堵塞块47呈长方体,所述第一堵塞块47竖直放置,所述第一堵塞块47收容于所述第六通孔412中且与所述第二净化框41滑动连接,使得所述第一堵塞块47堵塞住所述第六通孔412中。所述第一旋转架48呈凹字形,所述第一旋转架48的一端与所述第一堵塞块47的左表面固定连接,所述第一旋转架48的另一端设有第二连接杆481,所述第二连接杆481呈长方体,所述第二连接杆481水平放置,所述第二连接杆481的右端与所述第二净化框41的左表面固定连接,所述第二连接杆481与所述第一旋转架48轴转连接,使得所述第一旋转架48可以围绕所述第二连接杆481旋转。所述第一定位架49呈L型,所述第一定位架49的一端与所述第二净化框41的左表面固定连接,所述第一定位架49的另一端呈竖直状。所述第一弹簧40呈水平状,所述第一弹簧40的左端与所述第一定位架49固定连接,所述第一弹簧40的右端与所述第一旋转架48固定连接,从而使得所述第一堵塞块47收容于所述第六通孔412中。
如图1所示,所述收集装置5包括第三支架51、位于所述第三 支架51右侧的第二横杆52、位于所述第二横杆52上方的第一支撑杆56、位于所述第一支撑杆56上方的第三横杆53、位于所述第三横杆53上方的第一收集箱54及位于所述第一收集箱54左侧的第一固定块55。所述第三支架51呈L型,所述第三支架51的一端与所述底板1的上表面固定连接,所述第三支架51的另一端与所述壳体2的内表面固定连接。所述第二横杆52呈长方体,所述第二横杆52水平放置,所述第二横杆52的左端与所述第三支架51的右表面固定连接,所述第二横杆52的右端与所述气缸43的左表面固定连接。所述第三横杆53呈长方体,所述第三横杆53水平放置,所述第三横杆53的左端与所述第三支架51的右表面固定连接,所述第三横杆53的右端与所述第一推动杆42的左表面滑动连接。所述第一支撑杆56呈长方体,所述第一支撑杆56竖直放置,所述第一支撑杆56的下端与所述第二横杆52的上表面固定连接,所述第一支撑杆56的上端与所述第三横杆53的下表面固定连接。所述第一收集箱54呈空心的长方体,所述第一收集箱54的横截面呈凹字形,所述第一收集箱54的下表面与所述第三横杆53的上表面接触,所述第一收集箱54位于所述第一旋转架48的下方,使得从所述第六通孔412流出的杂质进入到所述第一收集箱54内。所述第一固定块55呈长方体,所述第一固定块55竖直放置,所述第一固定块55的下表面与所述第三横杆53的上表面固定连接,所述第一固定块55的右表面与所述第一收集箱54的左表面接触。
如图1所示,所述液化装置6包括液化箱61、位于所述液化箱61左侧的第一管道62、位于所述第一管道62下方的第三连接杆63、位于所述液化箱61上方的液化板64、位于所述液化板64下方的第三过滤网65、位于所述第三过滤网65下方的海绵块66、第二 支撑杆67、位于所述液化板64上方的水箱68、位于所述水箱68上方的第一盖板69及位于所述第一盖板69上方的第二竖杆60。所述液化箱61的横截面呈空心的直角梯形,所述液化箱61的下表面与所述底板1的上表面固定连接,所述液化箱61的横截面呈凹字形,所述液化箱61上设有位于左表面的第八通孔611及位于右表面的第九通孔612。所述第一管道62呈水平状,所述第一管道62的左端对准所述第五通孔411且与所述第二净化框41的右表面固定连接,使得所述第一管道62的内部与所述第二净化箱41的内部相通,所述第一管道62的右端对准所述第八通孔611且与所述液化箱61的左表面固定连接。所述第三连接杆63呈水平状,所述第三连接杆63的左端与所述气缸43的右表面固定连接,所述第三连接杆63的右端与所述液化箱61的左表面固定连接。所述液化板64呈左上方向右下方倾斜,所述液化板64的侧面与所述液化箱61的内表面固定连接,所述液化板64采用导热的材料制成,从而可以使得所述液化板64保持较低的温度,使得从所述第八通孔611进入到所述液化箱61内的空气进行液化,所述液化板64采用导热材料制成。所述第三过滤网65设有两个且分别位于上下两侧,所述第三过滤网65呈水平状,所述第三过滤网65的侧面与所述液化箱61的内表面固定连接。所述海绵块66呈水平状,所述海绵块66的上下表面分别与位于上下方的第三过滤网65固定连接,所述海绵块66的侧面与所述液化箱61的内表面固定连接,从而可以对一些体积较小的杂质进行过滤。所述第二支撑杆67呈竖直状,所述第二支撑杆67的下端与所述液化箱61的内表面固定连接,所述第二支撑杆67的上端与位于下方的第三过滤网65的下表面固定连接,所述第二支撑杆67上设有贯穿其左右表面的第十通孔671,所述第十通孔671呈长 方体状,使得所述第二支撑杆67左右空间相通。所述水箱68的下表面与所述液化板64的上表面固定连接且形成密封的空间,使得所述水箱68内的冷冻液不会泄露,所述水箱68采用隔热材料制成,所述水箱68的上表面呈水平状,所述水箱68内设有第二固定块681,所述第二固定块681设有两个且分别位于左右两侧,所述第二固定块681呈长方体所述第二固定块681水平放置,所述第二固定块681的侧面与所述水箱68的内表面固定连接。所述第一盖板69呈长方体,所述第一盖板69水平放置,所述第一盖板69的下表面与所述第二固定块681的上表面接触,所述第一盖板69的侧面与所述水箱68的内表面接触。所述第二竖杆60呈圆柱体,所述第二竖杆60竖直放置,所述第二竖杆60的下表面与所述第一盖板69的上表面固定连接。
如图1所示,所述粘附装置7包括粘附框71、位于所述粘附框71内的第一粘附层72、位于所述第一粘附层72右侧的第二粘附层73、位于所述粘附框71下方的第四支架74、位于所述第四支架74下方的第二管道75、位于所述第二管道75下方的第三支撑杆76、位于所述粘附框71左侧的第四连接杆77、位于所述第二管道75右侧的第五支架78、位于所述第五支架78下方的第四支撑杆79及位于所述粘附框71右侧的第四横杆70。所述粘附框71的横截面呈空心的三角形,所述粘附层71上设有位于下表面的第一圆孔711及位于上端的第二圆孔712,所述第一圆孔711及第二圆孔712呈圆形且与所述粘附框71的内部相通。所述第一粘附层72呈长方体,所述第一粘附层72竖直放置,所述第一粘附层72的左表面与所述粘附框71的内表面固定连接,所述第一粘附层72可以粘附空气中的一些杂质。所述第二粘附层73呈倾斜状,所述第二粘附层73的上 表面与所述粘附框71的内表面固定连接,所述第二粘附层73可以粘附空气中的部分灰尘,所述第二粘附层73呈长方体。所述第四支架74呈L型,所述第四支架74的一端与所述液化箱61的右表面固定连接,所述第四支架74的另一端呈竖直状且与所述粘附框71的下表面固定连接,从而对所述粘附框71起到支撑的作用。所述第二管道75呈弯曲状,所述第二管道75的一端对准所述第一圆孔711且与所述粘附框71的下表面固定连接,使得所述第二管道75的内部与所述粘附框71的内部相通,所述第二管道75的另一端对准所述第九通孔612且与所述液化箱61的右表面固定连接。所述第三支撑杆76呈竖直状,所述第三支撑杆76的下端与所述底板1的上表面固定连接,所述第三支撑杆76的上端与所述第二管道75固定连接,从而对所述第二管道75起到支撑作用。所述第四连接杆77呈长方体,所述第四连接杆77竖直放置,所述第四连接杆77的左表面与所述水箱68的右表面固定连接,所述第四连接杆77的右表面与所述粘附框71的左表面固定连接,从而对所述粘附框71起到支撑作用。所述第五支架78呈L型,所述第五支架78的一端与所述粘附框71的下表面固定连接,所述第五支架78的另一端与所述壳体2的内表面固定连接。所述第四支撑杆79呈长方体,所述第四支撑杆79竖直放置,所述第四支撑杆79的下端与所述底板1的上表面固定连接,所述第四支撑杆79的上端与所述第五支架78的下表面固定连接。所述第四横杆70呈水平状,所述第四横杆70的左端与所述粘附框71固定连接,所述第四横杆70的右端与所述壳体2的内表面固定连接。
如图1所示,所述加热装置8包括第三管道81、位于所述第三管道81上方的加热框82、位于所述第三管道81下方的第五支撑杆 83、位于所述第五支撑杆83右侧的第五横杆84、位于所述第五横杆84下方的第一固定架85、位于所述第五横杆84上方的第二固定架86、位于所述加热框82内的集料块87、位于所述集料块87上方的第二滚轮88、位于所述第二滚轮88上方的散热框89及位于所述加热框82上方的第三竖杆80。所述加热框82呈空心的长方体,所述加热框82竖直放置,所述加热框82上设有位于下表面的第三圆孔821及位于右表面的第四圆孔822。所述第三管道81的下端呈竖直状,所述第三管道81的上端呈倾斜状,所述第三管道81的下端对准所述第二通孔712且与所述粘附框71的上端固定连接,所述第三管道81的上端对准所述第三圆孔821且与所述加热框82的下表面固定连接。所述第五支撑杆83呈竖直状,所述第五支撑杆83的上端与所述第三管道81固定连接,所述第五支撑杆83的下端与所述粘附框71固定连接,从而对所述第三管道81起到支撑作用。所述第五横杆84呈长方体,所述第五横杆84水平放置,所述第五横杆84的左端与所述第五支撑杆83的右表面固定连接,所述第五横杆84的右端与所述壳体2的内表面固定连接。所述第一固定架85呈L型,所述第一固定架85的一端与所述第五横杆84的下表面固定连接,所述第一固定架85的另一端与所述壳体2的内表面固定连接。所述第二固定架86呈L型,所述第二固定架86的一端与所述壳体2的内表面固定连接,所述第二固定架86的另一端与所述加热框82的下表面固定连接,从而对所述加热框82起到支撑作用。所述集料块87设有两个且分别位于左右两侧,所述集料块87收容于所述加热框82内,所述集料块87的下表面及侧面与所述加热框82的内表面固定连接,所述集料块87的上表面呈弯曲状。所述第二滚轮88呈圆柱体,所述第二滚轮88水平放置,所述第二滚轮88位于 所述第三圆孔821的上方,所述第二滚轮88上设有粘附环881,所述粘附环881与所述第二滚轮88固定连接,所述粘附环881的外表面可以粘附空气中的杂质。所述散热框89设有两个且分别位于左右两侧,所述散热框89收容于所述加热框82内,所述散热框89呈空心的长方体,所述散热框89的横截面呈凹字形,所述散热框89的侧面与所述加热框82的内表面固定连接,所述散热框89采用导热材料制成,所述散热框89内设有加热棒891,所述加热棒891设有两个且分别位于左右两侧,所述加热棒891与所述加热框82的内表面固定连接。所述第三竖杆80呈竖直状,所述第三竖杆80的上端与所述壳体2的内表面固定连接,所述第三竖杆80的下端与所述加热框82的上表面固定连接。
如图1所示,所述出气装置9包括出气管93、位于所述出气管93右侧的出气斗94、位于所述出气管93上方的第五连接杆92及位于所述出气管93下方的第三固定架91。所述出气管93呈水平状,所述出气管93的左端对准所述第四圆孔822且与所述加热框82的右表面固定连接。所述出气斗94呈空心的圆台状,所述出气斗94的左表面与所述出气管93的右端固定连接。所述第五连接杆92呈竖直状,所述第五连接杆92的上端与所述壳体2固定连接,所述第五连接杆92的下端与所述出气管93固定连接,所述第五连接杆92收容于所述第一通孔21内。所述第三固定架91呈L型,所述第三固定架91的一端与所述加热框82的右表面固定连接,所述第三固定架91的另一端呈竖直状且与所述出气管93固定连接,所述第三固定架91穿过所述第一通孔21,从而对所述出气管93起到支撑作用。
如图1所示,所述固定装置10包括第一固定杆101、位于所述 第一固定架101右侧的第四固定架102、位于所述第四固定架102右侧的第二固定杆103、位于所述第二固定杆103右侧的第六支撑杆104、位于所述第六支撑杆104右侧的第三固定杆105、位于所述第三固定杆105右侧的第七支撑杆106、位于所述第七支撑杆106右侧的第五固定架107、位于所述第五固定架107下方的第四固定杆108、位于所述第四固定杆108下方的第五固定杆109及位于所述第五固定杆109下方的第六固定杆100。所述第一固定杆101呈长方体,所述第一固定杆101水平放置,所述第一固定杆101的左端与所述壳体2的内表面固定连接,所述第一固定杆101的右端与所述第四固定架102固定连接,所述第一连接杆39的上端与所述第一固定杆101的下表面固定连接。所述第四固定架102呈L型,所述第四固定架102的上端与所述壳体2的内表面固定连接,所述第四固定架102的另一端与所述第一净化框34的左表面固定连接。所述第二固定杆103呈长方体,所述第二固定杆103水平放置,所述第二固定杆103的左端与所述第四固定杆102固定连接,所述第二固定杆103的右端与所述第六支撑杆104的左表面固定连接。所述第六支撑杆104呈竖直状,所述第六支撑杆104的上端与所述壳体2的内表面固定连接,所述第六支撑杆104的下端与所述第一净化框34固定连接。所述第三固定杆105呈长方体,所述第三固定杆105水平放置,所述第三固定杆105的左端与所述第六支撑杆104的右表面固定连接,所述第三固定杆105的右端与所述第七支撑杆106的左表面固定连接。所述第七支撑杆106呈竖直状,所述第七支撑杆106的上端与所述壳体2的内表面固定连接,所述第七支撑杆106的下端与所述第一净化框34固定连接。所述第五固定架107呈L型,所述第五固定架107的一端与所述壳体2的内表面固定连 接,所述第五固定架107的另一端与所述第七支撑杆106的右表面固定连接。所述第四固定杆108呈水平状,所述第四固定杆108的左端与所述第一净化框34固定连接,所述第四固定杆108的右端与所述加热框82的左表面固定连接。所述第五固定杆109呈水平状,所述第五固定杆109的左端与所述第一净化框34固定连接,所述第五固定杆109的右端与所述加热框82的左表面固定连接。所述第六固定杆100呈水平状,所述第六固定杆100的左端与所述第一净化框34固定连接,所述第六固定杆100的右端与所述第三管道81固定连接。
如图1所示,所述本发明雾霾回收车使用时,首先可以握住握持杆29,将其移动到雾霾较为严重的地方,然后启动风机33,使得外界的空气经过第一过滤网31的过滤后进入到近期管32内,然后启动第一滚轮35,使得第一滚轮35逆时针旋转,使得所述过滤块36随着所述第一滚轮35的逆时针的旋转而旋转,进而使得所述过滤块36可以对从进气管32进入到所述第一净化框34内的空气进行过滤,并且将空气中体积较大的杂质推动到上方,然后围绕所述第一滚轮35旋转一圈进入到第三通孔341内,而被过滤的空气则直接进入到所述第三通孔341内,然后杂质集中在所述第二过滤网45的上方,而空气则经过第二过滤网45的过滤后经过第五通孔411进入到第一管道62内,并且所述第一推动杆42左侧的空气可以经过第七通孔421进入到所述第一推动杆42的右侧然后进入到所述第一管道62内。当第二过滤网45上沉积的杂质较大影响过滤效果时,启动气缸43,使得第一推动杆42向下移动,进而使得第二过滤网45及第一挡块46向下移动,使得所述第一挡块46挡住所述第五通孔411,使得第二净化框41内的空气无法进入到第一管道62内,此时 由于第二净化框41内的气压增大,进而使得第一堵塞块47及第一旋转架48围绕所述第二连接杆481逆时针旋转,进而使得第一堵塞块47不再堵塞第六通孔412,并且由于第二过滤网45呈倾斜设计,使得第二过滤网45上方的杂质向左滑落下方并且落在所述第一收集箱54内,方便灰尘的收集。进入到所述第一管道62内的气体进入到液化箱61内,当从所述第一管道62喷入到液化箱61内时,其直接喷射在液化板64上,此时水箱68内放置有冷冻水,使得液化板64的温度较低,进而可以使得喷射在液化板64上的水汽进行液化,降低空气中的湿度,然后空气经过第三年过滤网65及海绵块66的过滤后,可以将其中体积较小的杂质过滤掉,并且液化板64液化后形成的水滴可以集中在第三过滤网65及海绵块66上,使得液化效果更好,并且不需要另外添加液态水,降低成本。然后经过第三过滤网65及海绵块66的过滤后经过第二管道75计入到粘附框71内,然后经过第一粘附层72及第二粘附层73,将空气中的杂质粘附掉,降低空气中的杂质,然后经过第三管道81进入到加热框82内,启动加热棒891,使得加热框82内的温度上升,同时使得第二滚轮88旋转,使得粘附环881可以粘附掉空气中剩下的杂质,粘附的较为充分,可以大大降低空气中的杂质。同时由于加热框82内的温度上升,使得空气中的水滴汽化,防止水滴与杂质粘附在一起倒置雾霾较为严重,然后将加热后的空气排气,可以有效的防止雾霾的产生,以及对雾霾进行有效的净化处理,使用者可以握住握持杆29将本发明移动到任何位置,所述固定装置10对其他结构起到了较为稳定的固定作用。至此,本发明雾霾回收车使用过程描述完毕。

Claims (10)

  1. 一种雾霾回收车,其特征在于:所述雾霾回收车包括底板、位于所述底板上方的壳体、设置于所述壳体上的进气装置、位于所述进气装置下方的气缸装置、位于所述气缸装置左侧的收集装置、位于所述气缸装置右侧的液化装置、位于所述液化装置右侧的粘附装置、位于所述粘附装置上方的加热装置、位于所述加热装置右侧的出气装置及设置于所述壳体内的固定装置,所述底板上设有位于所述底板下方的第一滚轮,所述壳体上设有位于其右表面的第一通孔、位于所述壳体左侧的第一斜杆、位于所述第一斜杆上方的第一弯曲杆、位于所述壳体右侧的第二斜杆、位于所述第二斜杆上方的第一横杆、位于所述第一横杆上方的第一支架、位于所述第一横杆下方的第三斜杆、位于所述第三斜杆下方的第一竖杆、位于所述第一横杆右侧的握持杆及位于左表面的第二通孔,所述进气装置包括第一过滤网、位于所述第一过滤网右侧的进气管、设置于所述进气管上的风机、位于所述进气管右侧的第一净化框、位于所述第一净化框内的第三滚轮、设置于所述第三滚轮上的过滤块、位于所述第一净化框左侧的第四斜杆、位于所述进气管上方的第二支架及位于所述第二支架上方的第一连接杆,所述气缸装置包括第二净化框、设置于所述第二净化框上的第一推动杆、位于所述第一推动杆下方的气缸、位于所述气缸下方的垫块、位于所述第一推动杆上方的第二过滤网、位于所述第二过滤网下方的第一挡块、设置于所述第二净化框左表面的第一堵塞块、位于所述第一堵塞 块左侧的第一旋转架、位于所述第一旋转架左侧的第一定位架及设置于所述第一定位架上的第一弹簧,所述收集装置包括第三支架、位于所述第三支架右侧的第二横杆、位于所述第二横杆上方的第一支撑杆、位于所述第一支撑杆上方的第三横杆、位于所述第三横杆上方的第一收集箱及位于所述第一收集箱左侧的第一固定块,所述液化装置包括液化箱、位于所述液化箱左侧的第一管道、位于所述第一管道下方的第三连接杆、位于所述液化箱上方的液化板、位于所述液化板下方的第三过滤网、位于所述第三过滤网下方的海绵块、第二支撑杆、位于所述液化板上方的水箱、位于所述水箱上方的第一盖板及位于所述第一盖板上方的第二竖杆,所述粘附装置包括粘附框、位于所述粘附框内的第一粘附层、位于所述第一粘附层右侧的第二粘附层、位于所述粘附框下方的第四支架、位于所述第四支架下方的第二管道、位于所述第二管道下方的第三支撑杆、位于所述粘附框左侧的第四连接杆、位于所述第二管道右侧的第五支架、位于所述第五支架下方的第四支撑杆及位于所述粘附框右侧的第四横杆,所述加热装置包括第三管道、位于所述第三管道上方的加热框、位于所述第三管道下方的第五支撑杆、位于所述第五支撑杆右侧的第五横杆、位于所述第五横杆下方的第一固定架、位于所述第五横杆上方的第二固定架、位于所述加热框内的集料块、位于所述集料块上方的第二滚轮、位于所述第二滚轮上方的散热框及位于所述加热框上方的第三竖杆,所述出气装置包括出气管、位于所述出气管右侧的出气斗、位于所述出气管上方的第五连接杆及位于所述出气管下方的第三固定架,所述固定装置包括 第一固定杆、位于所述第一固定架右侧的第四固定架、位于所述第四固定架右侧的第二固定杆、位于所述第二固定杆右侧的第六支撑杆、位于所述第六支撑杆右侧的第三固定杆、位于所述第三固定杆右侧的第七支撑杆、位于所述第七支撑杆右侧的第五固定架、位于所述第五固定架下方的第四固定杆、位于所述第四固定杆下方的第五固定杆及位于所述第五固定杆下方的第六固定杆,所述液化箱的横截面呈空心的直角梯形,所述液化箱的下表面与所述底板的上表面固定连接,所述液化箱上设有位于左表面的第八通孔及位于右表面的第九通孔,所述第一管道呈水平状,所述第二净化框上设有位于右表面的第五通孔,所述第一管道的左端对准所述第五通孔且与所述第二净化框的右表面固定连接,所述第一管道的右端对准所述第八通孔且与所述液化箱的左表面固定连接,所述第三连接杆呈水平状,所述第三连接杆的左端与所述气缸的右表面固定连接,所述第三连接杆的右端与所述液化箱的左表面固定连接,所述液化板呈左上方向右下方倾斜,所述液化板的侧面与所述液化箱的内表面固定连接,所述液化板采用导热的材料制成,所述第三过滤网设有两个且分别位于上下两侧,所述第三过滤网呈水平状,所述第三过滤网的侧面与所述液化箱的内表面固定连接,所述海绵块呈水平状,所述海绵块的上下表面分别与位于上下方的第三过滤网固定连接,所述海绵块的侧面与所述液化箱的内表面固定连接,所述第二支撑杆呈竖直状,所述第二支撑杆的下端与所述液化箱的内表面固定连接,所述第二支撑杆的上端与位于下方的第三过滤网的下表面固定连接,所述第二支撑杆上设有贯穿其左右表面的 第十通孔,所述水箱呈竖直状,所述水箱呈空心状,所述水箱的下表面与所述液化板的上表面固定连接,所述水箱的上表面呈水平状,所述水箱内设有第二固定块,所述第二固定块设有两个且分别位于左右两侧,所述第二固定块呈长方体所述第二固定块水平放置,所述第二固定块的侧面与所述水箱的内表面固定连接,所述第一盖板呈长方体,所述第一盖板水平放置,所述第一盖板的下表面与所述第二固定块的上表面接触,所述第一盖板的侧面与所述水箱的内表面接触,所述第二竖杆呈圆柱体,所述第二竖杆竖直放置,所述第二竖杆的下表面与所述第一盖板的上表面固定连接。
  2. 如权利要求1所述的雾霾回收车,其特征在于:所述底板呈长方体,所述第一滚轮呈圆柱体,所述第一滚轮水平放置。
  3. 如权利要求2所述的雾霾回收车,其特征在于:所述第一斜杆呈倾斜状,所述第一斜杆的下端与所述底板的上表面固定连接,所述第一斜杆的上端与所述壳体的左表面固定连接,所述第一弯曲杆呈弯曲状,所述第一弯曲杆的下端与所述第一斜杆固定连接,所述第一弯曲杆的上端与所述壳体的左表面固定连接,所述第二斜杆的下端与所述底板的上表面固定连接,所述第二斜杆的上端与所述壳体的右表面固定连接,所述第一横杆的左端与所述壳体的右表面固定连接,所述第一横杆的右端与所述握持杆的左表面固定连接,所述第一支架呈L型,所述第一支架的一端与所述壳体的右表面固定连接,所述第一支架的另一端与所述第一横杆的上表面固定连接,所述第三斜杆呈倾斜状,所述第三斜杆的上端与所述第一横杆的下表面固定连接,所述第 三斜杆的下端与所述壳体的右表面固定连接,所述第一竖杆呈竖直状,所述第一竖杆的下端与所述第二斜杆固定连接,所述第一竖杆的上端与所述第三斜杆固定连接,所述握持杆竖直放置。
  4. 如权利要求3所述的雾霾回收车,其特征在于:所述第一过滤网呈半球状,所述第一过滤网的右表面与所述壳体的左表面固定连接,所述进气管呈水平状,所述进气管贯穿所述第二通孔且与所述壳体固定连接,所述进气管的左端收容于所述第一过滤网的内部,所述第一净化框呈横截面为半圆的柱体,所述第一净化框水平放置,所述第一净化框上设有位于下表面的第三通孔及位于左表面的第四通孔,所述进气管的右端对准所述第四通孔且与所述第一净化框的左表面固定连接,所述第三滚轮收容于所述第一净化框内,所述第三滚轮位于所述第四通孔的右侧,所述过滤块设有若干个且均匀分布在所述第三滚轮上,所述过滤块呈长方体,所述过滤框与所述第三滚轮固定连接,所述第四斜杆呈倾斜状,所述第四斜杆的一端与所述进气管固定连接,所述第四斜杆的另一端与所述第一净化框固定连接,所述第二支架呈L型,所述第二支架的一端与所述壳体的内表面固定连接,所述第二支架的另一端与所述风机固定连接,所述第一连接杆的下端与所述第二支架的上表面固定连接。
  5. 如权利要求4所述的雾霾回收车,其特征在于:所述第二净化框的横截面呈凹字形,所述第二净化框的上端对准所述第三通孔且与所述第一净化框固定连接,所述第二净化框上设有位于左表面的第六通孔及设置于下表面的第一密封环,所述第一密封环与所述第二净化框固 定连接,所述垫块的下表面与所述底板的上表面固定连接,所述气缸的下表面与所述垫块的上表面固定连接,所述第一推动杆的下端与所述气缸连接,所述第一推动杆的上端穿过所述第一密封环且延伸至所述第二净化框的内部,所述第一推动杆的侧面与所述第一密封环的内表面滑动连接,所述第一推动杆上设有贯穿其侧面的第七通孔,所述第二过滤网呈倾斜状,所述第二过滤网的侧面与所述第二净化框的内表面滑动连接,所述第一推动杆的上端与所述第二过滤网的下表面固定连接,所述第一挡块的上端与所述第二过滤网的下表面固定连接,所述第一挡块的右表面与所述第二净化框的内表面滑动连接,所述第一堵塞块收容于所述第六通孔中且与所述第二净化框滑动连接,所述第一旋转架呈凹字形,所述第一旋转架的一端与所述第一堵塞块的左表面固定连接,所述第一旋转架的另一端设有第二连接杆,所述第二连接杆的右端与所述第二净化框的左表面固定连接,所述第二连接杆与所述第一旋转架轴转连接,所述第一定位架呈L型,所述第一定位架的一端与所述第二净化框的左表面固定连接,所述第一定位架的另一端呈竖直状,所述第一弹簧的左端与所述第一定位架固定连接,所述第一弹簧的右端与所述第一旋转架固定连接。
  6. 如权利要求5所述的雾霾回收车,其特征在于:所述第三支架呈L型,所述第三支架的一端与所述底板的上表面固定连接,所述第三支架的另一端与所述壳体的内表面固定连接,所述第二横杆的左端与所述第三支架的右表面固定连接,所述第二横杆的右端与所述气缸的左表面固定连接,所述第三横杆的左端与所述第三支架的右表面固定连 接,所述第三横杆的右端与所述第一推动杆的左表面滑动连接,所述第一支撑杆的下端与所述第二横杆的上表面固定连接,所述第一支撑杆的上端与所述第三横杆的下表面固定连接,所述第一收集箱呈空心的长方体,所述第一收集箱的下表面与所述第三横杆的上表面接触,所述第一收集箱位于所述第一旋转架的下方,所述第一固定块的下表面与所述第三横杆的上表面固定连接,所述第一固定块的右表面与所述第一收集箱的左表面接触。
  7. 如权利要求6所述的雾霾回收车,其特征在于:所述粘附框的横截面呈空心的三角形,所述粘附层上设有位于下表面的第一圆孔及位于上端的第二圆孔,所述第一粘附层的左表面与所述粘附框的内表面固定连接,所述第二粘附层的上表面与所述粘附框的内表面固定连接,所述第四支架的一端与所述液化箱的右表面固定连接,所述第四支架的另一端呈竖直状且与所述粘附框的下表面固定连接,所述第二管道的一端对准所述第一圆孔且与所述粘附框的下表面固定连接,所述第二管道的另一端对准所述第九通孔且与所述液化箱的右表面固定连接,所述第三支撑杆的下端与所述底板的上表面固定连接,所述第三支撑杆的上端与所述第二管道固定连接,所述第四连接杆的左表面与所述水箱的右表面固定连接,所述第四连接杆的右表面与所述粘附框的左表面固定连接,所述第五支架的一端与所述粘附框的下表面固定连接,所述第五支架的另一端与所述壳体的内表面固定连接,所述第四支撑杆的下端与所述底板的上表面固定连接,所述第四支撑杆的上端与所述第五支架的下表面固定连接,所述第四横杆的左端与所述粘 附框固定连接,所述第四横杆的右端与所述壳体的内表面固定连接。
  8. 如权利要求7所述的雾霾回收车,其特征在于:所述加热框上设有位于下表面的第三圆孔及位于右表面的第四圆孔,所述第三管道的下端对准所述第二通孔且与所述粘附框的上端固定连接,所述第三管道的上端对准所述第三圆孔且与所述加热框的下表面固定连接,所述第五支撑杆的上端与所述第三管道固定连接,所述第五支撑杆的下端与所述粘附框固定连接,所述第五横杆的左端与所述第五支撑杆的右表面固定连接,所述第五横杆的右端与所述壳体的内表面固定连接,所述第一固定架呈L型,所述第一固定架的一端与所述第五横杆的下表面固定连接,所述第一固定架的另一端与所述壳体的内表面固定连接,所述第二固定架呈L型,所述第二固定架的一端与所述壳体的内表面固定连接,所述第二固定架的另一端与所述加热框的下表面固定连接,所述集料块与所述加热框的内表面固定连接,所述集料块的上表面呈弯曲状,所述第二滚轮位于所述第三圆孔的上方,所述第二滚轮上设有粘附环,所述粘附环与所述第二滚轮固定连接,所述散热框的侧面与所述加热框的内表面固定连接,所述散热框内设有加热棒,所述第三竖杆的上端与所述壳体的内表面固定连接,所述第三竖杆的下端与所述加热框的上表面固定连接。
  9. 如权利要求8所述的雾霾回收车,其特征在于:所述出气管的左端对准所述第四圆孔且与所述加热框的右表面固定连接,所述出气斗的左表面与所述出气管的右端固定连接,所述第五连接杆的上端与所述壳体固定连接,所述第五连接杆的下端与所述出气管固定连接,所述 第五连接杆收容于所述第一通孔内,所述第三固定架的一端与所述加热框的右表面固定连接,所述第三固定架的另一端呈竖直状且与所述出气管固定连接,所述第三固定架穿过所述第一通孔。
  10. 如权利要求9所述的雾霾回收车,其特征在于:所述第一固定杆的左端与所述壳体的内表面固定连接,所述第一固定杆的右端与所述第四固定架固定连接,所述第一连接杆的上端与所述第一固定杆的下表面固定连接,所述第四固定架的上端与所述壳体的内表面固定连接,所述第四固定架的另一端与所述第一净化框的左表面固定连接,所述第二固定杆的左端与所述第四固定杆固定连接,所述第二固定杆的右端与所述第六支撑杆的左表面固定连接,所述第六支撑杆的上端与所述壳体的内表面固定连接,所述第六支撑杆的下端与所述第一净化框固定连接,所述第三固定杆的左端与所述第六支撑杆的右表面固定连接,所述第三固定杆的右端与所述第七支撑杆的左表面固定连接,所述第七支撑杆的上端与所述壳体的内表面固定连接,所述第七支撑杆的下端与所述第一净化框固定连接,所述第五固定架的一端与所述壳体的内表面固定连接,所述第五固定架的另一端与所述第七支撑杆的右表面固定连接,所述第四固定杆的左端与所述第一净化框固定连接,所述第四固定杆的右端与所述加热框的左表面固定连接,所述第五固定杆呈水平状,所述第五固定杆的左端与所述第一净化框固定连接,所述第五固定杆的右端与所述加热框的左表面固定连接,所述第六固定杆的左端与所述第一净化框固定连接,所述第六固定杆的右端与所述第三管道固定连接。
PCT/CN2016/075759 2016-03-07 2016-03-07 一种雾霾回收车 WO2017152332A1 (zh)

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CN115414735A (zh) * 2022-08-18 2022-12-02 江苏中研宜普科技有限公司 一种具有对烟气中废液废气无害化处理的净化器

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CN115414735B (zh) * 2022-08-18 2024-05-10 江苏中研宜普科技有限公司 一种具有对烟气中废液废气无害化处理的净化器

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