CN214597803U - Energy-concerving and environment-protective type combination formula dust collector - Google Patents

Abstract

The utility model discloses an energy-saving environment-friendly combined dust removal device, which comprises an air filtration device and an air conduit mechanism; the air filtering equipment comprises a cuboid shell, an axial flow fan, a filter bag mounting plate and a front side door plate; the ventilation pipeline mechanism comprises a circulating air outlet pipeline, a circulating air inlet pipeline, extension butt-joint pipelines and branch pipelines which are respectively installed on the extension butt-joint pipelines in a communicated mode. The energy-saving environment-friendly combined dust removal device utilizes the filter bag mounting brackets to mount the air filter bags, so that a plurality of filter units can be formed in the cuboid shell, the requirement of rapid air filtration is met, the polluted air is prevented from being discharged to the external environment, and the environment-friendly effect is achieved; the corresponding extension butt joint pipeline can be cut off as required by utilizing the cut-off sealing unit, so that unnecessary air circulation filtration is avoided and the energy consumption of the circulating fan is reduced according to the length of the air inlet butt joint pipeline and the air outlet butt joint pipeline.

Description

Energy-concerving and environment-protective type combination formula dust collector

Technical Field

The utility model relates to a dust collector, especially an energy-concerving and environment-protective type combination formula dust collector.

Background

At present, in the generation process of a plurality of workshops, a large amount of dust exists, the health of workers can be seriously influenced if the workshops work in the environment for a long time, the existing countermeasure is to discharge the dust through an exhaust fan, only polluted air is discharged out of the workshops, external air pollution is caused, and the air purification effect in the workshops is not good. Therefore, it is necessary to design an energy-saving and environment-friendly combined dust removal device, which can filter air in a workshop, and can be installed in a combined manner according to needs, so that the energy-saving and environment-friendly combined dust removal device is energy-saving and environment-friendly, and the working environment of the workshop is effectively improved.

Disclosure of Invention

Utility model purpose: the utility model provides an energy-concerving and environment-protective type combination formula dust collector can filter the air in the workshop, can carry out the combination formula installation as required simultaneously, and energy-conserving and environmental protection effectively improve the operational environment in workshop.

The technical scheme is as follows: the energy-saving environment-friendly combined dust removal device comprises an air filtering device and an air pipe mechanism;

the air filtering equipment comprises a cuboid shell, an axial flow fan, a filter bag mounting plate and a front side door plate; an air inlet window is arranged at the top of the cuboid shell; the axial flow fan is fixedly arranged at the top of the cuboid shell, and an air outlet of the axial flow fan is butted with the air inlet window; an air inlet conical cover is arranged at an air inlet of the axial flow fan, and a driving motor of the axial flow fan is fixedly arranged at the top of the air inlet conical cover and used for driving the axial flow fan to rotate; an air inlet pipe is communicated with the side edge of the air inlet conical cover; the bottom of the cuboid shell is provided with a supporting footing;

side strip-shaped plates are arranged on the left side edge, the right side edge and the rear side edge of the upper part of the inner side of the cuboid-shaped shell, and sealing grooves are formed in the side surfaces of the three side strip-shaped plates along the length direction of the side strip-shaped plates; an air outlet pipe is communicated and arranged on the vertical side surface of the cuboid shell and below the side edge strip-shaped plate; two support guide rails are longitudinally arranged on the inner bottom of the cuboid shell; a T-shaped sliding groove is longitudinally arranged on the upper side surface of the supporting guide rail, and a supporting sliding strip is slidably arranged in the T-shaped sliding groove; the left side edge, the right side edge and the rear side edge of the filter bag mounting plate are respectively embedded into the sealing grooves of the three side strip-shaped plates; supporting columns are vertically arranged on the left side and the right side of the lower side of the filter bag mounting plate, and the lower ends of the supporting columns are fixedly mounted on the supporting slide bars on the corresponding sides; the front side edge of the filter bag mounting plate and the front ends of the two supporting sliding strips are fixedly mounted on the rear side surface of the front side door plate;

a filter bag inlet and outlet window is arranged on the front side surface of the cuboid shell, and a front side door plate is fixedly sealed on the filter bag inlet and outlet window through a door plate locking mechanism; each filter bag mounting hole is distributed on the filter bag mounting plate, and each air filter bag is mounted on each filter bag mounting hole through a filter bag mounting bracket;

the ventilation pipeline mechanism comprises a circulating air outlet pipeline, a circulating air inlet pipeline, each extension butt-joint pipeline and branch pipelines which are respectively installed on each extension butt-joint pipeline in a communicated manner; the circulating air outlet pipeline is communicated with the air outlet pipe in a butt joint mode, and the circulating air inlet pipeline is communicated with the air inlet pipe in a butt joint mode; mounting flanges are arranged at the two ends of the extension butt joint pipeline; each extending butt joint pipeline is installed in a butt joint mode through a mounting flange at the end portion to form an air inlet butt joint pipeline and an air outlet butt joint pipeline;

the air inlet butt joint pipeline and the air outlet butt joint pipeline are respectively installed on the end parts of the circulating air outlet pipeline and the circulating air inlet pipeline in a butt joint mode; each extension butt joint pipeline of the air inlet butt joint pipeline and the air outlet butt joint pipeline is provided with a partition closed unit; a branch air inlet mechanism is arranged below each branch pipeline on the air inlet butt joint pipeline and is used for sucking air flow to be humidified and filtered; each branch pipeline is provided with at least one suspension mechanism for suspension installation of each branch pipeline; an air outlet diffusion mechanism is arranged below each branch pipeline on the air outlet butt joint pipeline and used for diffusing air flow discharged by the air outlet butt joint pipeline.

Further, the door plate locking mechanism comprises locking units which are respectively arranged on the side edges of the filter bag inlet and outlet windows; the locking unit comprises a fixed seat, a rotating shaft, a rotating arm and a locking bolt; the fixed seat is fixedly arranged on the outer wall of the cuboid shell close to the filter bag inlet and outlet window; the rotating shaft is rotatably arranged on the fixed seat, and the rotating arm is vertically arranged on the end part of the rotating shaft; the locking bolt is screwed on the end of the rotating arm, and the end of the screw rod of the locking bolt presses on the front side surface of the front door panel.

Further, a roller support is fixedly arranged in the middle of the lower edge of the front side door plate; a supporting roller is rotatably arranged on the roller support; the middle part of the front side door plate is provided with a push-pull handle.

Furthermore, elastic sealing strips are arranged on the left side edge, the right side edge and the rear side edge of the filter bag mounting plate.

Further, the filter bag mounting bracket comprises a top supporting ring piece, a bottom circular ring and connecting supporting rods; each connecting support rod is vertically connected between the top support ring piece and the bottom ring; a bag opening circular ring is arranged at a bag opening at the upper end of the air filter bag, and the outer diameter of the bag opening circular ring is larger than the aperture of the filter bag mounting hole; the air filter bag is sleeved on the filter bag mounting bracket and is inserted into the filter bag mounting hole together; the bag opening circular ring is supported at the upper side orifice of the filter bag mounting hole, and the top supporting ring sheet is pressed on the bag opening circular ring.

Furthermore, the branch air inlet mechanism comprises an upper connecting pipe, a lower sleeve and two height adjusting screws; the upper end of the upper connecting pipe is communicated and installed on the pipe wall below the branch pipe, and the lower end of the upper connecting pipe is inserted into the pipe orifice at the upper end of the lower sleeve; two upper supports are arranged on the outer pipe wall of the upper connecting pipe, and two lower supports are arranged on the outer pipe wall of the lower sleeve; the lower ends of the two height adjusting screw rods are respectively and fixedly arranged on the two lower supports, and the upper ends of the two height adjusting screw rods respectively penetrate through the two upper supports; an adjusting nut is screwed on the two height adjusting screw rods in a threaded manner and is positioned above the upper support; and a pipe orifice conical air guide sleeve is arranged at the pipe orifice at the lower end of the lower casing pipe.

Further, a pipe orifice sealing ring is arranged at a pipe orifice at the upper end of the lower sleeve and used for sealing a pipe wall gap between the lower sleeve and the upper connecting pipe.

Further, the air outlet diffusion mechanism comprises an air outlet extension pipe, an air outlet adjusting pipe, a diffusion impeller and two lifting adjusting screws; the upper end of the air outlet extension pipe is communicated and installed on the pipe wall below the branch pipe, and the lower end of the air outlet extension pipe is inserted into the pipe orifice at the upper end of the air outlet adjusting pipe; two upper adjusting seats are arranged on the outer pipe wall of the air outlet extension pipe, and two lower fixing seats are arranged on the outer pipe wall of the air outlet adjusting pipe; the lower ends of the two lifting adjusting screw rods are respectively and fixedly arranged on the two lower fixing seats, and the upper ends of the two lifting adjusting screw rods respectively penetrate through the two upper adjusting seats; a positioning nut is screwed on the two lifting adjusting screws in a threaded manner and is positioned above the upper adjusting seat; a supporting cross beam is transversely arranged at the lower end pipe orifice of the air outlet adjusting pipe, and the diffusion impeller is rotatably arranged in the middle of the supporting cross beam.

Furthermore, a gap sealing ring is arranged at the upper end pipe orifice of the air outlet adjusting pipe and used for sealing a pipe wall gap between the air outlet adjusting pipe and the air outlet extension pipe.

Further, the suspension mechanism comprises a ring sleeve, a suspension rod and a top mounting plate; the ring sleeve is sleeved on the branch pipeline, and the suspension rod is connected between the ring sleeve and the top mounting plate; a bolt hole is formed in the top mounting plate; the partition closing unit comprises a partition fixing plate and a partition inserting plate; the partition fixing plate is installed on the extension butt joint pipeline in a cut-off mode, and a partition window convenient for air flow to pass through is arranged in the center of the plate surface of the partition fixing plate; the rectangular partition jacks are arranged on the side faces of the edges of the partition fixing plates, and the partition inserting plates are inserted into the rectangular partition jacks and used for closing the partition windows.

Compared with the prior art, the utility model, its beneficial effect is: the air filter bags are mounted by using the filter bag mounting brackets, so that a plurality of filter units can be formed in the cuboid shell, the requirement of rapid air filtration is met, polluted air is prevented from being discharged to the external environment, and the environment-friendly effect is achieved; the supporting sliding strips, the supporting columns, the supporting guide rails, the side strip-shaped plates, the sealing grooves and the filter bag mounting plates can be used for conveniently taking out the air filter bag for cleaning or replacing after the front side door plate is pulled to move forwards; the door plate locking mechanism can be used for detachably mounting the front side door plate, so that each air filter bag in the door plate can be maintained conveniently; the air outlet diffusion mechanism can be used for diffusing the clean air flow at the air outlet, so that the clean air flow can be rapidly diffused in a workshop; the corresponding extension butt joint pipeline can be cut off as required by utilizing the cut-off sealing unit, so that unnecessary air circulation filtration is avoided and the energy consumption of the circulating fan is reduced according to the length of the air inlet butt joint pipeline and the air outlet butt joint pipeline.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the air filtration apparatus of the present invention;

FIG. 3 is a schematic view of the air filtration apparatus of the present invention in a partial cross-sectional configuration;

FIG. 4 is a schematic structural view of the branch air intake mechanism of the present invention;

fig. 5 is the utility model discloses an air-out diffusion mechanism structure sketch map.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-5, the utility model discloses an energy-concerving and environment-protective type combination formula dust collector includes: air filtration equipment and ventilation duct mechanisms;

the air filtering device comprises a cuboid shell 101, an axial flow fan 103, a filter bag mounting plate 131 and a front side door plate 102; an air inlet window 121 is arranged at the top of the cuboid shell 101; the axial flow fan 103 is fixedly arranged at the top of the cuboid shell 101, and an air outlet of the axial flow fan 103 is butted with the air inlet window 121; an air inlet conical cover 104 is arranged at an air inlet of the axial flow fan 103, and a driving motor 105 of the axial flow fan 103 is fixedly arranged at the top of the air inlet conical cover 104 and used for driving the axial flow fan 103 to rotate; an air inlet pipe 106 is communicated with the side edge of the air inlet conical cover 104; a support foot 115 is arranged at the bottom of the cuboid-shaped shell 101;

the left side, the right side and the rear side of the upper part of the inner side of the cuboid shell 101 are all provided with side edge strips 116, and the side surfaces of the three side edge strips 116 are all provided with sealing grooves 117 along the length direction; an air outlet pipe 107 is communicated and arranged on the vertical side surface of the cuboid shell 101 and below the side edge strip-shaped plate 116; two support rails 127 are longitudinally arranged on the inner bottom of the rectangular parallelepiped housing 101; a T-shaped sliding groove 129 is longitudinally arranged on the upper side surface of the supporting guide rail 127, and a supporting sliding strip 128 is slidably arranged in the T-shaped sliding groove 129; the left side edge, the right side edge and the rear side edge of the filter bag mounting plate 131 are respectively embedded into the sealing grooves 117 of the three side edge strip-shaped plates 116; supporting columns 126 are vertically arranged on the left side and the right side of the lower side of the filter bag mounting plate 131, and the lower ends of the supporting columns 126 are fixedly mounted on supporting slide bars 128 on the corresponding sides; the front side edge of the filter bag mounting plate 131 and the front ends of the two support sliding strips 128 are fixedly mounted on the rear side surface of the front side door plate 102;

a filter bag inlet and outlet window is arranged on the front side surface of the cuboid shell 101, and a front side door plate 102 is fixedly sealed on the filter bag inlet and outlet window through a door plate locking mechanism; each filter bag mounting hole 119 is distributed on the filter bag mounting plate 131, and each air filter bag 125 is mounted on each filter bag mounting hole 119 through a filter bag mounting bracket;

the ventilation pipeline mechanism comprises a circulating air outlet pipeline 201, a circulating air inlet pipeline 202, extension butt-joint pipelines 203 and branch pipelines 210 which are respectively installed on the extension butt-joint pipelines 203 in a communicated manner; the circulating air outlet pipeline 201 is in butt communication with the air outlet pipe 107, and the circulating air inlet pipeline 202 is in butt communication with the air inlet pipe 106; mounting flanges 204 are arranged at two ends of the extension butt joint pipeline 203; each extension butt joint pipeline 203 is butt jointed and installed through a mounting flange 204 at the end part to form an air inlet butt joint pipeline and an air outlet butt joint pipeline;

the air inlet butt joint pipeline and the air outlet butt joint pipeline are respectively installed on the end parts of the circulating air outlet pipeline 201 and the circulating air inlet pipeline 202 in a butt joint mode; each extension butt joint pipeline 203 of the air inlet butt joint pipeline and the air outlet butt joint pipeline is provided with a partition closed unit; a branch air inlet mechanism is arranged below each branch pipeline 210 on the air inlet butt joint pipeline and is used for sucking air flow to be humidified and filtered; at least one suspension mechanism is installed on each branch pipeline 210, and is used for suspension installation of each branch pipeline; an air outlet diffusion mechanism is installed below each branch pipe 210 on the air outlet butt joint pipeline and used for diffusing air flow discharged by the air outlet butt joint pipeline.

The air filter bags 125 are mounted by the filter bag mounting brackets, so that a plurality of filter units can be formed in the cuboid-shaped shell 101, the requirement of rapid air filtration is met, polluted air is prevented from being discharged to the external environment, and the environment-friendly effect is achieved; the air filter bag 125 can be conveniently taken out for cleaning or replacement after the front side door plate 102 is pulled to move forwards by using the support slide strips 128, the support columns 126, the support guide rails 127, the side edge strip plates 116, the sealing grooves 117 and the filter bag mounting plate 131; the front door plate 102 can be detachably mounted by using the door plate locking mechanism, so that each air filter bag 125 inside the front door plate can be maintained conveniently; the air outlet diffusion mechanism can be used for diffusing the clean air flow at the air outlet, so that the clean air flow can be rapidly diffused in a workshop; the corresponding extension butt joint pipeline 203 can be separated as required by utilizing the separation sealing unit, so that unnecessary air circulation filtration is avoided and the energy consumption of the circulating fan 125 is reduced according to the length of the air inlet butt joint pipeline and the air outlet butt joint pipeline.

Further, the door plate locking mechanism comprises locking units which are respectively arranged on the side edges of the filter bag inlet and outlet windows; the locking unit comprises a fixed seat 111, a rotating shaft 112, a rotating arm 113 and a locking bolt 114; the fixed seat 111 is fixedly arranged on the outer wall of the cuboid shell 101 close to the filter bag inlet and outlet window; the rotating shaft 112 is rotatably mounted on the fixed base 111, and the rotating arm 113 is vertically mounted on the end of the rotating shaft 112; the locking bolt 114 is screw-fitted on the end of the rotating arm 113, and the screw end of the locking bolt 114 is pressed against the front side surface of the front door panel 102. Is rotatably mounted on the fixed seat 111 by using a rotating shaft 112 so as to rotate the rotating arm 113 to avoid blocking the front side door panel 102 when detached; after the front door panel 102 is closed, the rotation arm 113 is rotated, and the front door panel 102 is closed and pressed by the lock bolt 114.

Further, a roller support 109 is fixedly installed in the middle of the lower edge of the front side door panel 102; a support roller 110 is rotatably mounted on the roller support 109; a push-pull handle 108 is provided at the front side middle portion of the front door panel 102. The front door 102 can be easily pushed and pulled by the push-pull handle 108, and the front door 102 can be supported by the support roller 110 when the front door 102 is pushed and pulled.

Further, elastic sealing strips 118 are disposed on the left side, the right side and the rear side of the filter bag mounting plate 131. The elastic sealing strip 118 can enhance the air tightness of the edge of the filter bag mounting plate 131 and prevent air leakage from the edge gap.

Further, the filter bag mounting bracket comprises a top support ring piece 120, a bottom ring 124 and each connecting support rod 123; each connecting support rod 123 is vertically connected between the top support ring piece 120 and the bottom ring 124; a bag opening circular ring 122 is arranged at the bag opening at the upper end of the air filter bag 125, and the outer diameter of the bag opening circular ring 122 is larger than the aperture of the filter bag mounting hole 119; the air filter bag 125 is sleeved on the filter bag mounting bracket and inserted into the filter bag mounting hole 119 together; the pocket ring 122 is supported at the upper side aperture of the filter pocket mounting hole 119 and the top support ring piece 120 presses on the pocket ring 122. The air filter bag 125 can be unfolded by using the filter bag mounting bracket, so that the filtering effect of the air filter bag 125 is ensured; the top support ring piece 120 is pressed on the bag opening circular ring 122, so that the bag opening of the air filter bag 125 can be detachably mounted, and the air filter bag 125 can be cleaned or replaced conveniently in the later period; the outer diameter of the bag mouth circular ring 122 is set to be larger than the aperture of the filter bag mounting hole 119, so that the bag mouth can be prevented from falling below the filter bag mounting hole 119.

Further, the branch air inlet mechanism comprises an upper connecting pipe 211, a lower sleeve 212 and two height adjusting screws 216; the upper end of the upper connecting pipe 211 is communicated and installed on the pipe wall below the branch pipe 210, and the lower end of the upper connecting pipe 211 is inserted into the upper pipe orifice of the lower sleeve 212; two upper supports 215 are arranged on the outer pipe wall of the upper connecting pipe 211, and two lower supports 214 are arranged on the outer pipe wall of the lower sleeve 212; the lower ends of the two height adjusting screws 216 are respectively and fixedly arranged on the two lower supports 214, and the upper ends of the two height adjusting screws 216 respectively penetrate through the two upper supports 215; an adjusting nut 217 is screwed on the two height adjusting screws 216, and the adjusting nut 217 is positioned above the upper support 215; a nozzle conical air guide sleeve 218 is arranged at the lower nozzle of the lower sleeve 212. The connection length of the upper connection pipe 211 and the lower sleeve 212 can be adjusted by the matching of the two height adjusting screws 216 and the adjusting nuts 217, so that the adjustment according to the height of a workshop is facilitated; the use of the nozzle cone dome 218 facilitates airflow entry at the nozzle.

Further, a nozzle sealing ring 213 is disposed at the upper nozzle of the lower sleeve 212 for sealing a tube wall gap between the lower sleeve 212 and the upper connecting tube 211. The pipe wall gap between the lower sleeve 212 and the upper connection pipe 211 can be sealed by the pipe orifice seal 213.

Further, the air outlet diffusion mechanism comprises an air outlet extension pipe 225, an air outlet adjusting pipe 226, a diffusion impeller 220 and two lifting adjusting screws 235; the upper end of the air outlet extension pipe 225 is communicated and installed on the pipe wall below the branch pipe 210, and the lower end of the air outlet extension pipe 225 is inserted into the upper pipe orifice of the air outlet adjusting pipe 226; two upper adjusting seats 234 are arranged on the outer pipe wall of the air outlet extension pipe 225, and two lower fixing seats 233 are arranged on the outer pipe wall of the air outlet adjusting pipe 226; the lower ends of the two lifting adjusting screws 235 are respectively and fixedly arranged on the two lower fixing seats 233, and the upper ends of the two lifting adjusting screws 235 respectively penetrate through the two upper adjusting seats 234; a positioning nut 236 is screwed on the two lifting adjusting screws 235, and the positioning nut 236 is positioned above the upper adjusting seat 234; a supporting beam 219 is transversely arranged at the lower end pipe orifice of the air outlet adjusting pipe 226, and the diffusion impeller 220 is rotatably mounted in the middle of the supporting beam 219. The diffusion impeller 220 is rotatably arranged at the lower end pipe orifice of the air outlet adjusting pipe 226, so that the discharged air flow can be rapidly diffused into a workshop; the connection length of the air outlet extension pipe 225 and the air outlet adjusting pipe 226 can be adjusted by the matching of the lifting adjusting screw 235 and the positioning nut 236, so that the adjustment according to the height of a workshop is facilitated.

Further, a gap sealing ring 227 is disposed at an upper end pipe orifice of the air outlet adjusting pipe 226, and is used for sealing a pipe wall gap between the air outlet adjusting pipe 226 and the air outlet extension pipe 225. The duct wall gap between the outlet air adjusting duct 226 and the outlet air extending duct 225 can be sealed by the gap sealing ring 227.

Further, the suspension mechanism comprises a ring 207, a suspension rod 208 and a top mounting plate 209; the ring sleeve 207 is sleeved on the branch pipeline 210, and the suspension rod 208 is connected between the ring sleeve 207 and the top mounting plate 209; a bolt hole is arranged on the top mounting plate 209; the partition closing unit comprises a partition fixing plate 205 and a partition inserting plate 206; the partition fixing plate 205 is installed on the extension butt joint pipeline 203 in a cut-off manner, and a partition window convenient for air flow to pass through is arranged in the center of the plate surface of the partition fixing plate 205; a rectangular partition jack is arranged on the side surface of the edge of the partition fixing plate 205, and a partition inserting plate 206 is inserted into the rectangular partition jack and used for closing the partition window. Suspension mounting of the branch pipes 210 can be facilitated by using a suspension mechanism; the partition fixing plate 205 and the partition insertion plate 206 constitute a partition closing unit, and the corresponding partition insertion plate 206 can be completely inserted as required, so that the corresponding butt joint pipeline 203 is closed, and the energy consumption of the axial flow fan 132 is reduced.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An energy-concerving and environment-protective type combination formula dust collector which characterized in that: comprises an air filtering device and a ventilating duct mechanism;

the air filtering equipment comprises a cuboid shell (101), an axial flow fan (103), a filter bag mounting plate (131) and a front side door plate (102); an air inlet window (121) is arranged at the top of the cuboid shell (101); the axial flow fan (103) is fixedly arranged at the top of the cuboid shell (101), and an air outlet of the axial flow fan (103) is butted with the air inlet window (121); an air inlet conical cover (104) is arranged at an air inlet of the axial flow fan (103), and a driving motor (105) of the axial flow fan (103) is fixedly arranged at the top of the air inlet conical cover (104) and is used for driving the axial flow fan (103) to rotate; an air inlet pipe (106) is communicated with the side edge of the air inlet conical cover (104); a supporting foot (115) is arranged at the bottom of the cuboid shell (101);

the left side edge, the right side edge and the rear side edge of the upper part of the inner side of the cuboid shell (101) are respectively provided with a side edge strip-shaped plate (116), and the side surfaces of the three side edge strip-shaped plates (116) are respectively provided with a sealing groove (117) along the length direction; an air outlet pipe (107) is communicated and arranged on the vertical side surface of the cuboid shell (101) and below the side edge strip-shaped plate (116); two support guide rails (127) are longitudinally arranged on the inner bottom of the cuboid shell (101); a T-shaped sliding groove (129) is longitudinally arranged on the upper side surface of the supporting guide rail (127), and a supporting sliding strip (128) is slidably arranged in the T-shaped sliding groove (129); the left side, the right side and the rear side of the filter bag mounting plate (131) are respectively embedded into the sealing grooves (117) of the three side strip-shaped plates (116); supporting columns (126) are vertically arranged on the left side and the right side of the lower side of the filter bag mounting plate (131), and the lower ends of the supporting columns (126) are fixedly mounted on supporting sliding strips (128) on the corresponding sides; the front side of the filter bag mounting plate (131) and the front ends of the two supporting slide bars (128) are fixedly mounted on the rear side of the front side door plate (102);

a filter bag inlet and outlet window is arranged on the front side surface of the cuboid shell (101), and a front side door plate (102) is fixedly sealed on the filter bag inlet and outlet window through a door plate locking mechanism; each filter bag mounting hole (119) is distributed on the filter bag mounting plate (131), and each air filter bag (125) is mounted on each filter bag mounting hole (119) through a filter bag mounting bracket;

the ventilation pipeline mechanism comprises a circulating air outlet pipeline (201), a circulating air inlet pipeline (202), extension butt-joint pipelines (203) and branch pipelines (210) which are respectively installed on the extension butt-joint pipelines (203) in a communicated manner; the circulating air outlet pipeline (201) is in butt joint communication with the air outlet pipe (107), and the circulating air inlet pipeline (202) is in butt joint communication with the air inlet pipe (106); mounting flanges (204) are arranged at two ends of the extension butt joint pipeline (203); each extension butt joint pipeline (203) is butt jointed and installed through an installation flange (204) at the end part to form an air inlet butt joint pipeline and an air outlet butt joint pipeline;

the air inlet butt joint pipeline and the air outlet butt joint pipeline are respectively installed on the end parts of the circulating air outlet pipeline (201) and the circulating air inlet pipeline (202) in a butt joint mode; each extension butt joint pipeline (203) of the air inlet butt joint pipeline and the air outlet butt joint pipeline is provided with a partition closed unit; a branch air inlet mechanism is arranged below each branch pipeline (210) on the air inlet butt joint pipeline and is used for sucking air flow to be humidified and filtered; at least one suspension mechanism is arranged on each branch pipeline (210) and used for suspension installation of each branch pipeline; an air outlet diffusion mechanism is arranged below each branch pipeline (210) on the air outlet butt joint pipeline and used for diffusing air flow discharged by the air outlet butt joint pipeline.

2. The energy-saving environment-friendly combined dust removal device as claimed in claim 1, wherein: the door plate locking mechanism comprises locking units which are respectively arranged on the side edges of the filter bag inlet and outlet windows; the locking unit comprises a fixed seat (111), a rotating shaft (112), a rotating arm (113) and a locking bolt (114); the fixed seat (111) is fixedly arranged on the outer wall of the cuboid shell (101) close to the filter bag inlet and outlet window; the rotating shaft (112) is rotatably arranged on the fixed seat (111), and the rotating arm (113) is vertically arranged on the end part of the rotating shaft (112); a locking bolt (114) is screwed on the end of the rotating arm (113), and the end of the screw of the locking bolt (114) presses the front side surface of the front door panel (102).

3. The energy-saving environment-friendly combined dust removal device as claimed in claim 1, wherein: a roller support (109) is fixedly arranged in the middle of the lower edge of the front side door panel (102); a supporting roller (110) is rotatably arranged on the roller support (109); a push-pull handle (108) is arranged in the middle of the front side of the front door panel (102).

4. The energy-saving environment-friendly combined dust removal device as claimed in claim 1, wherein: elastic sealing strips (118) are arranged on the left side edge, the right side edge and the rear side edge of the filter bag mounting plate (131).

5. The energy-saving environment-friendly combined dust removal device as claimed in claim 1, wherein: the filter bag mounting bracket comprises a top supporting ring sheet (120), a bottom circular ring (124) and connecting supporting rods (123); each connecting support rod (123) is vertically connected between the top support ring piece (120) and the bottom circular ring (124); a bag opening circular ring (122) is arranged at the bag opening at the upper end of the air filter bag (125), and the outer diameter of the bag opening circular ring (122) is larger than the aperture of the filter bag mounting hole (119); the air filter bag (125) is sleeved on the filter bag mounting bracket and is inserted into the filter bag mounting hole (119) together; the bag mouth circular ring (122) is supported at the upper side hole of the filter bag mounting hole (119), and the top supporting ring sheet (120) is pressed on the bag mouth circular ring (122).

6. The energy-saving environment-friendly combined dust removal device as claimed in claim 1, wherein: the branch air inlet mechanism comprises an upper connecting pipe (211), a lower sleeve (212) and two height adjusting screws (216); the upper end of the upper connecting pipe (211) is communicated and installed on the pipe wall below the branch pipe (210), and the lower end of the upper connecting pipe (211) is inserted into the pipe orifice at the upper end of the lower sleeve (212); two upper supports (215) are arranged on the outer pipe wall of the upper connecting pipe (211), and two lower supports (214) are arranged on the outer pipe wall of the lower sleeve (212); the lower ends of the two height adjusting screw rods (216) are respectively and fixedly arranged on the two lower supports (214), and the upper ends of the two height adjusting screw rods (216) respectively penetrate through the two upper supports (215); an adjusting nut (217) is screwed on the two height adjusting screw rods (216), and the adjusting nut (217) is positioned above the upper support (215); a nozzle conical air guide sleeve (218) is arranged at the nozzle at the lower end of the lower sleeve (212).

7. The energy-saving environment-friendly combined dust removal device as claimed in claim 6, wherein: and a pipe orifice sealing ring (213) is arranged at the pipe orifice at the upper end of the lower sleeve (212) and used for sealing a pipe wall gap between the lower sleeve (212) and the upper connecting pipe (211).

8. The energy-saving environment-friendly combined dust removal device as claimed in claim 1, wherein: the air outlet diffusion mechanism comprises an air outlet extension pipe (225), an air outlet adjusting pipe (226), a diffusion impeller (220) and two lifting adjusting screws (235); the upper end of the air outlet extension pipe (225) is communicated and installed on the pipe wall below the branch pipe (210), and the lower end of the air outlet extension pipe (225) is inserted into the upper pipe orifice of the air outlet adjusting pipe (226); two upper adjusting seats (234) are arranged on the outer pipe wall of the air outlet extension pipe (225), and two lower fixing seats (233) are arranged on the outer pipe wall of the air outlet adjusting pipe (226); the lower ends of the two lifting adjusting screw rods (235) are respectively and fixedly arranged on the two lower fixed seats (233), and the upper ends of the two lifting adjusting screw rods (235) respectively penetrate through the two upper adjusting seats (234); a positioning nut (236) is screwed on the two lifting adjusting screws (235), and the positioning nut (236) is positioned above the upper adjusting seat (234); a supporting beam (219) is transversely arranged at the lower end pipe orifice of the air outlet adjusting pipe (226), and the diffusion impeller (220) is rotatably arranged in the middle of the supporting beam (219).

9. The energy-saving environment-friendly combined dust removal device as claimed in claim 8, wherein: a gap sealing ring (227) is arranged at the upper end pipe orifice of the air outlet adjusting pipe (226) and used for sealing a pipe wall gap between the air outlet adjusting pipe (226) and the air outlet extension pipe (225).

10. The energy-saving environment-friendly combined dust removal device as claimed in claim 8, wherein: the suspension mechanism comprises a ring sleeve (207), a suspension rod (208) and a top mounting plate (209); the loop (207) is sleeved on the branch pipeline (210), and the suspension rod (208) is connected between the loop (207) and the top mounting plate (209); a bolt hole is arranged on the top mounting plate (209); the partition closing unit comprises a partition fixing plate (205) and a partition inserting plate (206); the partition fixing plate (205) is installed on the extension butt joint pipeline (203) in a cut-off mode, and a partition window convenient for air flow to pass through is arranged in the center of the plate surface of the partition fixing plate (205); rectangular partition jacks are arranged on the side faces of the edges of the partition fixing plates (205), and partition inserting plates (206) are inserted into the rectangular partition jacks and used for closing partition windows.

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