CN111569554A - Top suction filter device for particulate matter raising mechanism - Google Patents

Top suction filter device for particulate matter raising mechanism Download PDF

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Publication number
CN111569554A
CN111569554A CN202010298141.1A CN202010298141A CN111569554A CN 111569554 A CN111569554 A CN 111569554A CN 202010298141 A CN202010298141 A CN 202010298141A CN 111569554 A CN111569554 A CN 111569554A
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China
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coil spring
abutting
space control
control mechanism
main
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CN202010298141.1A
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Chinese (zh)
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宋乐庆
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Individual
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Priority to CN202010298141.1A priority Critical patent/CN111569554A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/02Particle separators, e.g. dust precipitators, having hollow filters made of flexible material
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A50/00TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
    • Y02A50/20Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters
    • Y02A50/2351Atmospheric particulate matter [PM], e.g. carbon smoke microparticles, smog, aerosol particles, dust

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

Abstract

The invention discloses a top suction filter device for a particulate matter dust raising mechanism, which comprises a main hollow shell. The dust removal device is matched with the bottom rotating device for the particulate matter dust raising mechanism, can effectively raise dust of particulate matters, is low in labor intensity and low in pollution degree to the environment, can realize a suction type dust removal function under the rotation driving of the driving motor, can effectively reduce the occurrence of an environment pollution phenomenon caused by dust diffusion, meanwhile, the device utilizes a cloth bag for filtration, has the characteristics of good air diffusion and high filtration efficiency, has a rotating state static part abutting joint mechanism, can be in sealed butt joint with the port of the bottom rotating device for the particulate matter dust raising mechanism, and accordingly achieves the functions of dust adsorption and the like, and has a pipeline installation type conical structure leading-in mechanism, and can reduce the occurrence of a dust backflow phenomenon caused by air backflow.

Description

Top suction filter device for particulate matter raising mechanism
Technical Field
The invention relates to the technical field of particulate matter raising dust, in particular to a top suction filtering device for a particulate matter raising dust mechanism.
Background
At present, after particulate matter is stored for a long time or when dust is required to be removed, but the existing dust removal device is low in efficiency and high in labor intensity, and causes large air pollution.
Disclosure of Invention
The invention aims to provide a top suction filter device for a particulate matter dust raising mechanism, so as to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a top suction filter device for a particulate matter dust raising mechanism comprises a main hollow shell, wherein a bottom mounting base plate of an integrated structure is arranged at the bottom end of the main hollow shell, a top mounting base plate structure is arranged at the top of the main hollow shell, a main hollow structure is arranged at the center inside the main hollow shell, a main part mounting groove structure is arranged at the bottom of the main hollow structure of the main hollow shell, a rotary state static part abutting joint mechanism is mounted inside the main part mounting groove structure, a crawler belt through hole structure is arranged on the side face of the main hollow shell, a main fixing rod is mounted at the center inside the main hollow shell, a main shaft sleeve is mounted in the middle of the main fixing rod, a main rotary shaft is mounted at the center of the main shaft sleeve through a main bearing, fan blades are mounted at two ends of the main rotary shaft, and air flow caused by the rotation of the fan blades faces the top mounting base plate structure, the improved cloth bag type rotary table is characterized in that a crawler wheel is installed on a shaft body of the main rotary shaft, a crawler belt is clamped on the side face of the crawler wheel, a pipeline installation type conical structure leading-in mechanism is installed at the top of the main hollow structure, a plurality of coil spring abutting telescopic space control mechanisms arranged in an annular array mode are installed at the top of the top installation base plate structure, a main limiting plate is installed at the top of each coil spring abutting telescopic space control mechanism, and a cloth bag is fixed on the periphery of each coil spring abutting telescopic space control mechanism and the periphery of each main limiting plate.
Furthermore, the rotating state static type part abutting mechanism comprises a first shaft sleeve for the rotating state static type part abutting mechanism, a first vent hole for the rotating state static type part abutting mechanism, a second shaft sleeve for the rotating state static type part abutting mechanism, a bottom abutting plate for the rotating state static type part abutting mechanism, a second vent hole for the rotating state static type part abutting mechanism and a bearing for the rotating state static type part abutting mechanism; the static formula part of rotation is contradicted and is provided with the static formula part of rotation and contradict that first air vent for docking mechanism in the middle center in the first axle sleeve for docking mechanism, the static formula part of rotation is contradicted and is installed a static formula part of rotation and contradict for docking mechanism second axle sleeve for docking mechanism with the bearing through main seal circle and the static formula part of rotation for docking mechanism in the static formula part of rotation, the static formula part of rotation is contradicted and is contradicted for docking mechanism second axle sleeve for docking mechanism, the static formula part of rotation is contradicted and is provided with the static formula part of rotation of integral type structure and contradict for docking mechanism bottom and to touch panel at the bottom for the mechanism, the static formula part of rotation is contradicted and is provided with the static formula part of rotation and contradict for docking mechanism second air vent in the middle.
Furthermore, the rotating state static type component is abutted against the butting mechanism and is installed inside the main component installation groove structure through the side surface of the first shaft sleeve.
Further, the horizontal height of the bottom abutting plate for the rotating state static component abutting mechanism is lower than the horizontal height of the bottom mounting substrate.
Further, the pipe-mounted conical structure introduction mechanism comprises a cylindrical hollow shell for the pipe-mounted conical structure introduction mechanism, a conical hollow shell for the pipe-mounted conical structure introduction mechanism, a cylindrical hollow structure for the pipe-mounted conical structure introduction mechanism, a conical hollow structure for the pipe-mounted conical structure introduction mechanism, an air inlet port for the pipe-mounted conical structure introduction mechanism, and an exhaust port for the pipe-mounted conical structure introduction mechanism; the one end of the cylindrical hollow shell for the pipeline installation type conical structure leading-in mechanism is provided with a conical hollow shell for the pipeline installation type conical structure leading-in mechanism of an integrated structure, the insides of the cylindrical hollow shell for the pipeline installation type conical structure leading-in mechanism and the conical hollow shell for the pipeline installation type conical structure leading-in mechanism are respectively provided with a cylindrical hollow structure for the pipeline installation type conical structure leading-in mechanism and a conical hollow structure for the pipeline installation type conical structure leading-in mechanism, and the two ends of the cylindrical hollow structure for the pipeline installation type conical structure leading-in mechanism and the conical hollow structure for the pipeline installation type conical structure leading-in mechanism respectively form an air inlet port for the pipeline installation type conical structure leading-in mechanism and an exhaust port for the pipeline installation type conical structure leading-in mechanism.
Further, the structural radius of the inlet port for the pipe-mounted tapered structure introduction mechanism is larger than the structural radius of the exhaust port for the pipe-mounted tapered structure introduction mechanism.
Further, the pipeline-mounted conical structure leading-in mechanism is mounted inside the main hollow structure by the outer side of the cylindrical hollow shell.
Further, the coil spring abutting telescopic space control mechanism comprises a first connecting plate for a coil spring abutting telescopic space control mechanism, a first bolt hole for a coil spring abutting telescopic space control mechanism, a hollow rod body for a coil spring abutting telescopic space control mechanism, a hollow structure for a coil spring abutting telescopic space control mechanism, a movable plate for a coil spring abutting telescopic space control mechanism, a coil spring for a coil spring abutting telescopic space control mechanism, a telescopic rod for a coil spring abutting telescopic space control mechanism, a second connecting plate for a coil spring abutting telescopic space control mechanism and a second bolt hole for a coil spring abutting telescopic space control mechanism; the spiral spring conflict telescopic space control mechanism is characterized in that a plurality of spiral spring conflict telescopic space control mechanism first bolt holes are arranged in the first connecting plate for the spiral spring conflict telescopic space control mechanism, one end face of the first connecting plate for the spiral spring conflict telescopic space control mechanism is provided with a spiral spring conflict telescopic space control mechanism hollow rod body with an integrated structure, a hollow structure for the spiral spring conflict telescopic space control mechanism is arranged in the hollow rod body for the spiral spring conflict telescopic space control mechanism, a movable plate for the spiral spring conflict telescopic space control mechanism is arranged in the hollow structure for the spiral spring conflict telescopic space control mechanism, one end of the movable plate for the spiral spring conflict telescopic space control mechanism is provided with a compressed spiral spring conflict telescopic space control mechanism spiral spring, the telescopic space control mechanism of a coil spring conflict is with telescopic space control mechanism of a coil spring conflict is installed at the other end center of movable plate for the telescopic space control mechanism of coil spring conflict, the body of rod of the telescopic space control mechanism of coil spring conflict runs through a terminal surface center of the telescopic space control mechanism of coil spring conflict is with the hollow body of rod, just the telescopic space control mechanism of coil spring conflict is with the telescopic space control mechanism of telescopic space control mechanism of telescopic space control mechanism of coil spring is at the one end installation second connecting plate of a coil spring conflict that is located the outside, the inside of the telescopic space control mechanism of coil spring conflict with the second connecting plate is provided with the telescopic.
Further, the coil spring is abutted against the telescopic space control mechanism and mounted on the upper surface of the top mounting base plate structure through a first connecting plate by bolts.
Further, the spiral spring is abutted against the telescopic space control mechanism and fixedly connected with the surface of the bottom of the limiting plate through a second connecting plate.
Compared with the prior art, the invention has the beneficial effects that: the invention is used by matching with the bottom rotating device for the particulate matter dust raising mechanism, can effectively raise dust of particulate matters, has low labor intensity and low pollution degree to the environment, can realize a suction type dust removing function under the rotation driving of the driving motor, can effectively reduce the occurrence of environmental pollution phenomena caused by dust diffusion, simultaneously, the device utilizes a cloth bag for filtration, has the characteristics of good air diffusivity and strong filtration efficiency, has a rotating state static type part abutting joint mechanism, can be in sealed butt joint with the port of the bottom rotating device for the particulate matter dust raising mechanism, thereby realizing the functions of dust adsorption and the like, in addition, the device has a pipeline installation type conical structure leading-in mechanism, can reduce the occurrence of dust backflow phenomena caused by air backflow, in addition, the device has coil spring and contradicts telescopic space control mechanism, can control the sack space at the during operation, realizes optimizing and stores.
Drawings
FIG. 1 is a schematic view of a top suction filter device for a particulate matter dusting mechanism according to the present invention;
FIG. 2 is a schematic structural diagram of a rotating static component abutting mechanism in a top suction filter device for a particulate matter dusting mechanism according to the present invention;
FIG. 3 is a schematic structural diagram of a pipeline-mounted tapered guiding mechanism of a top suction filter device for a particulate matter dusting mechanism according to the present invention;
FIG. 4 is a schematic structural view of a retractable space control mechanism against which a coil spring of a top suction filter device for a particulate matter dusting mechanism according to the present invention abuts;
in the figure: 1, a main hollow housing, 2, a bottom mounting base plate, 3, a top mounting base plate structure, 4, a main hollow structure, 5, a main part mounting groove structure, 6, a rotating state static part abutting mechanism, 61, a rotating state static part abutting mechanism first sleeve, 62, a rotating state static part abutting mechanism first vent, 63, a rotating state static part abutting mechanism second sleeve, 64, a rotating state static part abutting mechanism bottom abutting plate, 65, a rotating state static part abutting mechanism second vent, 66, a rotating state static part abutting mechanism bearing, 7, a track through hole structure, 8, a main fixing rod, 9, a sleeve, 10, a main rotating shaft, 11, a fan blade, 12, a crawler wheel, 13, a track, 14, a pipeline mounting type conical structure leading-in mechanism, 141, 142, 143, 144, 145, 146, 15, 16, a first bolt hole for a telescopic space control mechanism, 163, 164, 165, a moving plate for a telescopic space control mechanism, 165, a coil spring, 16, 166, the helical spring is abutted against the helical spring for the telescopic space control mechanism, 167, the helical spring is abutted against the telescopic rod for the telescopic space control mechanism, 168, the helical spring is abutted against the second connecting plate for the telescopic space control mechanism, 169, and the helical spring is abutted against the second bolt hole, 17 and the cloth bag for the telescopic space control mechanism.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the main hollow shell comprises a main hollow shell 1, a bottom mounting base plate 2 of an integrated structure is arranged at the bottom end of the main hollow shell 1, a top mounting base plate structure 3 is arranged at the top of the main hollow shell 1, a main hollow structure 4 is arranged at the center inside the main hollow shell 1, a main component mounting groove structure 5 is arranged at the bottom of the main hollow structure 4 of the main hollow shell 1, a rotating state static component abutting joint mechanism 6 is mounted inside the main component mounting groove structure 5, a crawler belt through hole structure 7 is arranged on the side surface of the main hollow shell 1, a main fixing rod 8 is mounted at the center inside of the main hollow shell 1, a main shaft sleeve 9 is mounted in the middle of the main fixing rod 8, a main rotating shaft 10 is mounted at the center of the main shaft sleeve 9 through a main bearing, fan blades 11 are mounted at two ends of the main rotating shaft 10, and air flow caused by the rotation of the fan blades 11 faces the top mounting, the main rotating shaft is characterized in that a crawler wheel 12 is installed on the shaft body of the main rotating shaft 10, a crawler belt 13 is clamped on the side face of the crawler wheel 12, a pipeline installation type conical structure leading-in mechanism 14 is installed at the top of the main hollow structure 4, a plurality of coil springs arranged in an annular array mode are installed at the top of the top installation base plate structure 3 and abut against the telescopic space control mechanism 16, a main limiting plate 15 is installed at the top of the telescopic space control mechanism 16 abutted against by the coil springs, and a cloth bag 17 is fixed on the periphery of the telescopic space control mechanism 16 abutted against by the coil springs and the main limiting plate 15.
Referring to fig. 2, the rotating-state static component abutting mechanism 6 includes a first sleeve 61 for the rotating-state static component abutting mechanism, a first vent hole 62 for the rotating-state static component abutting mechanism, a second sleeve 63 for the rotating-state static component abutting mechanism, a bottom abutting plate 64 for the rotating-state static component abutting mechanism, a second vent hole 65 for the rotating-state static component abutting mechanism, and a bearing 66 for the rotating-state static component abutting mechanism; a first ventilation hole 62 for the rotary state static type part abutting and butting mechanism is arranged at the center inside the first shaft sleeve 61 for the rotary state static type part abutting and butting mechanism, a second shaft sleeve 63 for the rotary state static type component abutting mechanism is arranged in the first shaft sleeve 61 for the rotary state static type component abutting mechanism through a main sealing ring and a bearing 66 for the rotary state static type component abutting mechanism, the rotating state static type component is abutted against the second shaft sleeve 63 for the butting mechanism, the side surface of the bottom of the second shaft sleeve 63 for the rotating state static type component abutting against the butting mechanism is provided with a rotating state static type component abutting against bottom abutting plate 64 for the butting mechanism in an integrated structure, a second vent hole 65 for the rotating state static type component abutting and butting mechanism is formed in the center of the inner part of the second shaft sleeve 63 for the rotating state static type component abutting and butting mechanism; the side surface of the rotating state static component abutting joint mechanism is arranged in the main component mounting groove structure 5 by using a first shaft sleeve 61; the bottom of the rotating-state stationary-type component abutting mechanism bottom abutting plate 64 is lower in level than the bottom of the bottom mounting substrate 2.
Referring to fig. 3, the pipe-mounted tapered structure introduction mechanism 14 includes a pipe-mounted tapered structure introduction mechanism cylindrical hollow housing 141, a pipe-mounted tapered structure introduction mechanism tapered hollow housing 142, a pipe-mounted tapered structure introduction mechanism cylindrical hollow structure 143, a pipe-mounted tapered structure introduction mechanism tapered hollow structure 144, a pipe-mounted tapered structure introduction mechanism air intake port 145, and a pipe-mounted tapered structure introduction mechanism exhaust port 146; a pipe-mounted conical structure introduction mechanism conical hollow housing 142 of an integrated structure is provided at one end of the pipe-mounted conical structure introduction mechanism cylindrical hollow housing 141, a pipe-mounted conical structure introduction mechanism cylindrical hollow structure 143 and a pipe-mounted conical structure introduction mechanism conical hollow structure 144 are provided inside the pipe-mounted conical structure introduction mechanism cylindrical hollow housing 141 and the pipe-mounted conical structure introduction mechanism conical hollow housing 142, respectively, and a pipe-mounted conical structure introduction mechanism air intake port 145 and a pipe-mounted conical structure introduction mechanism exhaust port 146 are formed at both ends of the pipe-mounted conical structure introduction mechanism cylindrical hollow structure 143 and the pipe-mounted conical structure introduction mechanism conical hollow structure 144, respectively; the structural radius of the duct-mounted tapered structure introduction mechanism intake port 145 is larger than the structural radius of the duct-mounted tapered structure introduction mechanism exhaust port 146; the outside of the pipe-mounted cone-shaped structure introduction mechanism cylindrical hollow casing 141 is mounted inside the main hollow structure 4.
Referring to fig. 4, the coil spring abutting telescopic space controlling mechanism 16 includes a first connecting plate 161 for the coil spring abutting telescopic space controlling mechanism, a first bolt hole 162 for the coil spring abutting telescopic space controlling mechanism, a hollow rod 163 for the coil spring abutting telescopic space controlling mechanism, a hollow structure 164 for the coil spring abutting telescopic space controlling mechanism, a moving plate 165 for the coil spring abutting telescopic space controlling mechanism, a coil spring 166 for the coil spring abutting telescopic space controlling mechanism, a telescopic rod 167 for the coil spring abutting telescopic space controlling mechanism, a second connecting plate 168 for the coil spring abutting telescopic space controlling mechanism, and a second bolt hole 169 for the coil spring abutting telescopic space controlling mechanism; a plurality of first bolt holes 162 for the coil spring abutting telescopic space control mechanism are arranged inside the first connecting plate 161 for the coil spring abutting telescopic space control mechanism, a hollow rod body 163 for the coil spring abutting telescopic space control mechanism of an integrated structure is arranged at one end face of the first connecting plate 161 for the coil spring abutting telescopic space control mechanism, a hollow structure 164 for the coil spring abutting telescopic space control mechanism is arranged inside the hollow rod body 163 for the coil spring abutting telescopic space control mechanism, a movable plate 165 for the coil spring abutting telescopic space control mechanism is arranged inside the hollow structure 164 for the coil spring abutting telescopic space control mechanism, and a coil spring 166 for the compressed coil spring abutting telescopic space control mechanism is arranged at one end of the movable plate 165 for the coil spring abutting telescopic space control mechanism, a coil spring abutting telescopic space control mechanism telescopic rod 167 is installed at the center of the other end of the moving plate 165 for the coil spring abutting telescopic space control mechanism, a rod body of the coil spring abutting telescopic space control mechanism telescopic rod 167 penetrates through the center of one end face of the coil spring abutting telescopic space control mechanism hollow rod body 163, a coil spring abutting telescopic space control mechanism second connecting plate 168 is installed at one end, located at the outside, of the coil spring abutting telescopic space control mechanism telescopic rod 167, and a plurality of coil spring abutting telescopic space control mechanism second bolt holes 169 are formed in the coil spring abutting telescopic space control mechanism second connecting plate 168; the coil spring is mounted on the upper surface of the top mounting base plate structure 2 by means of bolts against a first connecting plate 161 for the telescopic space control mechanism; the coil spring is fixedly connected with the bottom surface of the limiting plate 15 by abutting against the telescopic space control mechanism through the second connecting plate 168.
The specific use mode is as follows: in the work of the invention, the bottom mounting base plate 1 is fixedly connected with the particulate matter dust raising mechanism through a second connecting plate by a reverse thread structure rotary distance adjusting mechanism in the bottom rotating device through a bolt, when the dust-raising mechanism works each time, the rotating distance adjusting mechanism of the reverse thread structure in the bottom rotating device is used for adjusting the dust raising mechanism of the particles, so that the rotating state static component is abutted against the top of the rotating shell in the bottom rotating device for the particulate matter dust raising mechanism by the bottom abutting structure 64 to realize sealing, then the caterpillar band 13 is clamped with a placing groove structure of a rotating wheel in a driving motor, when the driving motor works, under the linkage action of the components, the fan blades 11 rotate rapidly to cause air to flow, and the flow direction of the air faces the cloth bag 17, so that dust can be adsorbed and filtered into the cloth bag 17.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a particulate matter raise dust is top suction filter equipment for mechanism, includes main cavity shell (1), its characterized in that: the bottom of the main hollow shell (1) is provided with a bottom mounting base plate (2) of an integrated structure, the top of the main hollow shell (1) is provided with a top mounting base plate structure (3), the center of the inside of the main hollow shell (1) is provided with a main hollow structure (4), the bottom of the main hollow shell (1) positioned at the main hollow structure (4) is provided with a main part mounting groove structure (5), the inside of the main part mounting groove structure (5) is provided with a rotating state static part abutting mechanism (6), the side of the main hollow shell (1) is provided with a crawler through hole structure (7), the center of the inside of the main hollow shell (1) is provided with a main fixing rod (8), the middle of the main fixing rod (8) is provided with a main shaft sleeve (9), and the center of the main shaft sleeve (9) is provided with a main rotating shaft (10) through the main, the fan blade of the utility model discloses a fan blade, including main rotation axis (10), fan blade (11) are installed at the both ends of main rotation axis (10), the air flow that causes when fan blade (11) are rotatory is towards top mounting substrate structure (3), install a athey wheel (12) on the axis body of main rotation axis (10), a side joint track (13) of athey wheel (12), a pipeline installation formula toper structure guiding-in mechanism of main hollow structure (4) top installation (14), the telescopic space control mechanism of coil spring conflict (16) that a plurality of annular arrays set up are installed at top mounting substrate structure (3) top, a main limiting plate of top installation (15) of telescopic space control mechanism of coil spring conflict (16), a peripheral fixed sack (17) of telescopic space control mechanism of coil spring conflict (16) and main limiting plate (15).
2. A top suction filter device for a particulate matter dusting mechanism according to claim 1, characterised in that: the rotary state static type part abutting mechanism (6) comprises a first shaft sleeve (61) for the rotary state static type part abutting mechanism, a first air vent (62) for the rotary state static type part abutting mechanism, a second shaft sleeve (63) for the rotary state static type part abutting mechanism, a bottom abutting plate (64) for the rotary state static type part abutting mechanism, a second air vent (65) for the rotary state static type part abutting mechanism and a bearing (66) for the rotary state static type part abutting mechanism; a first vent hole (62) for the rotary state static type component abutting and butting mechanism is arranged at the center inside a first shaft sleeve (61) for the rotary state static type component abutting and butting mechanism, a second shaft sleeve (63) for the rotary state static type part abutting and butting mechanism is arranged in the first shaft sleeve (61) for the rotary state static type part abutting and butting mechanism through a main sealing ring and a bearing (66) for the rotary state static type part abutting and butting mechanism, the rotating state static type component is abutted against the second shaft sleeve (63) for the butting mechanism, the side surface of the bottom of the second shaft sleeve (63) for the rotating state static type component abutting against the butting mechanism is provided with a rotating state static type component abutting against the bottom abutting plate (64) with an integrated structure, and a second vent hole (65) for the abutting mechanism of the rotating state static component is arranged at the center inside a second shaft sleeve (63) for the abutting mechanism of the rotating state static component.
3. A top suction filter device for a particulate matter dusting mechanism according to claim 2, characterised in that: and the rotating state static component is abutted against the butting mechanism and is arranged in the main component mounting groove structure (5) by the side surface of the first shaft sleeve (61).
4. A top suction filter device for a particulate matter dusting mechanism according to claim 2, characterised in that: the horizontal height of the bottom abutting plate (64) for the rotating state static component abutting mechanism is lower than that of the bottom mounting base plate (2).
5. A top suction filter device for a particulate matter dusting mechanism according to claim 1, characterised in that: the pipe-mounted conical structure introduction mechanism (14) comprises a cylindrical hollow shell (141) for the pipe-mounted conical structure introduction mechanism, a conical hollow shell (142) for the pipe-mounted conical structure introduction mechanism, a cylindrical hollow structure (143) for the pipe-mounted conical structure introduction mechanism, a conical hollow structure (144) for the pipe-mounted conical structure introduction mechanism, an air inlet port (145) for the pipe-mounted conical structure introduction mechanism, and an air outlet port (146) for the pipe-mounted conical structure introduction mechanism; one end of the cylindrical hollow shell (141) for the pipeline installation type conical structure leading-in mechanism is provided with a conical hollow shell (142) for the pipeline installation type conical structure leading-in mechanism with an integrated structure, the inner parts of the cylindrical hollow shell (141) for the pipeline-mounted conical structure leading-in mechanism and the conical hollow shell (142) for the pipeline-mounted conical structure leading-in mechanism are respectively provided with a cylindrical hollow structure (143) for the pipeline-mounted conical structure leading-in mechanism and a conical hollow structure (144) for the pipeline-mounted conical structure leading-in mechanism, an inlet port (145) for the pipe-mounted tapered structure introduction mechanism and an outlet port (146) for the pipe-mounted tapered structure introduction mechanism are formed at both ends of the cylindrical hollow structure (143) for the pipe-mounted tapered structure introduction mechanism and the tapered hollow structure (144) for the pipe-mounted tapered structure introduction mechanism, respectively.
6. A top suction filter device for a particulate matter dusting mechanism according to claim 5, characterised in that: the inlet port (145) for the pipe-mounted cone-shaped structure introduction mechanism has a larger structural radius than the exhaust port (146) for the pipe-mounted cone-shaped structure introduction mechanism.
7. A top suction filter device for a particulate matter dusting mechanism according to claim 5, characterised in that: the outer side of the cylindrical hollow shell (141) for the pipeline installation type conical structure leading-in mechanism is installed in the main hollow structure (4).
8. A top suction filter device for a particulate matter dusting mechanism according to claim 1, characterised in that: the coil spring abutting telescopic space control mechanism (16) comprises a first connecting plate (161) for the coil spring abutting telescopic space control mechanism, a first bolt hole (162) for the coil spring abutting telescopic space control mechanism, a hollow rod body (163) for the coil spring abutting telescopic space control mechanism, a hollow structure (164) for the coil spring abutting telescopic space control mechanism, a moving plate (165) for the coil spring abutting telescopic space control mechanism, a coil spring (166) for the coil spring abutting telescopic space control mechanism, a telescopic rod (167) for the coil spring abutting telescopic space control mechanism, a second connecting plate (168) for the coil spring abutting telescopic space control mechanism and a second bolt hole (169) for the coil spring abutting telescopic space control mechanism; a plurality of first bolt holes (162) for the coil spring abutting telescopic space control mechanism are arranged in a first connecting plate (161) for the coil spring abutting telescopic space control mechanism, a hollow rod body (163) for the coil spring abutting telescopic space control mechanism is arranged at one end face of the first connecting plate (161) for the coil spring abutting telescopic space control mechanism, the hollow rod body (163) for the coil spring abutting telescopic space control mechanism is of an integrated structure, a hollow structure (164) for the coil spring abutting telescopic space control mechanism is arranged in the hollow rod body (163) for the coil spring abutting telescopic space control mechanism, a movable plate (165) for the coil spring abutting telescopic space control mechanism is arranged in the hollow structure (164) for the coil spring abutting telescopic space control mechanism, and a coil spring (166) for the compressed coil spring abutting telescopic space control mechanism is arranged at one end of the movable plate (165) for the coil spring abutting telescopic space control mechanism, coil spring conflicts telescopic space control telescopic for mechanism rod (167) of telescopic for space control mechanism is installed at the other end center of movable plate (165) for the telescopic space control mechanism of coil spring conflict, the body of rod that coil spring conflicts telescopic for space control mechanism rod (167) runs through a terminal surface center that coil spring conflicts telescopic for space control mechanism hollow body of rod (163), just coil spring conflicts telescopic for space control mechanism telescopic for mechanism rod (167) and conflicts telescopic for space control mechanism second connecting plate (168) at the one end installation coil spring that lies in the outside, the inside that coil spring conflicts telescopic for space control mechanism second connecting plate (168) is provided with a plurality of coil spring and conflicts telescopic for space control mechanism second bolt hole (169).
9. A top suction filter device for a particulate matter dusting mechanism as claimed in claim 8, wherein: the coil spring is abutted against the telescopic space control mechanism and is installed on the upper surface of the top mounting base plate structure (2) through a first connecting plate (161) through a bolt.
10. A top suction filter device for a particulate matter dusting mechanism as claimed in claim 8, wherein: the spiral spring is abutted against the telescopic space control mechanism and fixedly connected with the bottom surface of the limiting plate (15) through a second connecting plate (168).
CN202010298141.1A 2020-04-16 2020-04-16 Top suction filter device for particulate matter raising mechanism Withdrawn CN111569554A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202010298141.1A CN111569554A (en) 2020-04-16 2020-04-16 Top suction filter device for particulate matter raising mechanism

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Application Number Priority Date Filing Date Title
CN202010298141.1A CN111569554A (en) 2020-04-16 2020-04-16 Top suction filter device for particulate matter raising mechanism

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Publication Number Publication Date
CN111569554A true CN111569554A (en) 2020-08-25

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CN202010298141.1A Withdrawn CN111569554A (en) 2020-04-16 2020-04-16 Top suction filter device for particulate matter raising mechanism

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112677336A (en) * 2020-12-22 2021-04-20 潍坊工程职业学院 Wall is supplementary dust extraction for puncher

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112677336A (en) * 2020-12-22 2021-04-20 潍坊工程职业学院 Wall is supplementary dust extraction for puncher

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