CN112076568A - Gradual change adjustable gaseous vortex type dust collector - Google Patents

Abstract

The invention discloses a gradual change adjustable gas vortex type dust removal device which comprises a main hollow shell, wherein a supporting leg is arranged at the bottom of the main hollow shell. The device provided by the invention sprays high-pressure gas through the longitudinal air spraying pipelines arranged in the annular array, the spraying direction is controlled, so that a vortex state is formed, peripheral air is adsorbed to the center of a vortex due to the vortex state of the air, at the moment, sprayed mist liquid can filter the peripheral air, the air with dust is continuously rotated due to the vortex state, the dust in the air can be adsorbed by the liquid to a greater extent, and the filtering effect is realized.

Description

Gradual change adjustable gaseous vortex type dust collector

Technical Field

The invention relates to the technical field of dust removal, in particular to a gradual-change adjustable gas vortex type dust removal device.

Background

At present, dust collector often all is dust extraction, can only carry out air adsorption to a direction, filters the air again, but its dust removal ability is poor, and efficiency is also than low.

Disclosure of Invention

The invention aims to provide a gradual-change adjustable gas vortex type dust removal device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a gradual change adjustable gas vortex type dust removal device comprises a main hollow shell, wherein supporting legs are installed at the bottom of the main hollow shell, a main liquid storage space is arranged at the center inside the main hollow shell, a plurality of annular array type main part installation spaces are arranged around the main liquid storage space, an annular air reserved space is arranged at the bottom of each main part installation space, a main air inlet hole communicated with the external space and the annular air reserved space is formed in the main hollow shell, a main threaded rod penetrates through the center of the bottom of the main hollow shell and is connected with the main hollow shell through a main threaded structure, a main rotating plate is installed at the bottom end of the main threaded rod, a main piston plate is installed at one end, located inside the main part installation space, of the main threaded rod through a bearing, and the side face of the main liquid storage space is communicated with the side face of the main part installation space through a main liquid through hole, a plurality of longitudinal air injection pipelines are arranged on the edge of the main hollow shell, the pipeline body of each longitudinal air injection pipeline is inserted into the main part installation space and the annular air reserved space, a main air flowing hole is arranged in the longitudinal air injection pipeline, an auxiliary air flowing hole is arranged at the top end of the main air flowing hole, the longitudinal air injection pipeline is provided with air injection holes at one side facing the center, a rotary medium driving mechanism is arranged on the pipeline body positioned in the main part mounting space, the center of the upper surface of the main hollow shell is provided with a liquid pipeline with an integrated structure, the center of the liquid pipeline is provided with a liquid flowing space, the inner wall of the side surface of the liquid pipeline is provided with a plurality of through holes, and the inside of each through hole is provided with a mist spray head, and the inside of the main hollow shell is provided with a liquid inlet hole which is communicated with the outside space and the bottom of the liquid flowing space.

Further, the rotary medium driving mechanism includes a circular plate for the rotary medium driving mechanism, an internal rotation space for the rotary medium driving mechanism, an annular movement space for the rotary medium driving mechanism, an internal rotation plate for the rotary medium driving mechanism, a shaft body mounting hole for the rotary medium driving mechanism, a baffle plate structure for the rotary medium driving mechanism, a liquid flow hole for the rotary medium driving mechanism, and a return coil spring for the rotary medium driving mechanism.

Further, an inner rotating space for the rotary medium driving mechanism is provided at the center inside the circular plate for the rotary medium driving mechanism, an annular moving space for the rotary medium driving mechanism is provided on one circumferential side surface of the inner rotating space for the rotary medium driving mechanism, and the volume of the annular moving space for the rotary medium driving mechanism is equal to or larger than the virtual circumferential volume of the inner rotating space for the rotary medium driving mechanism, an inner rotating plate for the rotary medium driving mechanism is installed inside the inner rotating space for the rotary medium driving mechanism, a barrier plate structure for the rotary medium driving mechanism is provided on the side surface of the inner rotating plate for the rotary medium driving mechanism inside the annular moving space for the rotary medium driving mechanism, and the barrier plate structure for the rotary medium driving mechanism can rotate in the annular moving space for the rotary medium driving mechanism, and two variable sealing areas are provided, a liquid flow hole for the rotary medium driving mechanism is arranged in the rotary medium driving mechanism circular plate and communicates the side surface of the rotary medium driving mechanism circular plate with one end part of the rotary medium driving mechanism annular moving space, a shaft body mounting hole for the rotary medium driving mechanism is arranged at the longitudinal center of the rotary medium driving mechanism circular plate and the rotary medium driving mechanism inner rotating plate, and a return spiral spring for the rotary medium driving mechanism is arranged in the rotary medium driving mechanism annular moving space.

Furthermore, the pipeline body of the longitudinal air injection pipeline is installed in the shaft body installation hole for the rotary medium driving mechanism inside the internal rotating plate for the rotary medium driving mechanism, and the pipeline body and the shaft body are fixedly connected, and the pipeline body of the longitudinal air injection pipeline is installed in the shaft body installation hole for the rotary medium driving mechanism inside the circular plate for the rotary medium driving mechanism, and the pipeline body and the shaft body are connected through a rotatable bearing.

Further, the end of the liquid flow hole for the rotary medium driving mechanism communicates with the main liquid through hole.

Furthermore, the liquid storage space and the interior of the main liquid through hole are filled with buffer solution, and when no buffer solution is left in the rotary medium driving mechanism, the buffer solution is completely filled in the liquid storage space and the sealed area in the interior of the main liquid through hole.

Compared with the prior art, the invention has the beneficial effects that: the device provided by the invention sprays high-pressure gas through the longitudinal air spraying pipelines arranged in the annular array, the spraying direction is controlled, so that a vortex state is formed, peripheral air is adsorbed to the center of a vortex due to the vortex state of the air, at the moment, sprayed mist liquid can filter the peripheral air, the air with dust is continuously rotated due to the vortex state, the dust in the air can be adsorbed by the liquid to a greater extent, and the filtering effect is realized.

Drawings

FIG. 1 is a schematic view of a full-section structure of a gradual-change adjustable gas vortex type dust removal device of the present invention;

FIG. 2 is a schematic structural diagram of a rotary medium driving mechanism in a gradual change adjustable gas vortex type dust removing device according to the present invention;

in the figure: 1, main hollow housing, 2, support legs, 3, main liquid storage space, 4, main part installation space, 5, main liquid through hole, 6, annular air reserve space, 7, main air intake hole, 8, main piston plate, 9, main threaded rod, 10, main thread structure, 11, main rotating plate, 12, rotary medium driving mechanism, 121, rotary medium driving mechanism circular plate, 122, rotary medium driving mechanism internal rotating space, 123, rotary medium driving mechanism annular moving space, 124, rotary medium driving mechanism internal rotating plate, 125, rotary medium driving mechanism shaft body installation hole, 126, rotary medium driving mechanism baffle plate structure, 127, rotary medium driving mechanism liquid flow hole, 128, rotary medium driving mechanism return coil spring, 13, longitudinal air injection duct, 14, main air flow hole, 13, main air flow hole, and, 15, secondary air flow holes, 16, gas injection holes, 17, liquid conduits, 18, liquid flow spaces, 19, liquid inlet holes, 20, mist nozzles.

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, supporting legs 2 are installed at the bottom of the main hollow shell 1, a main liquid storage space 3 is arranged at the center of the interior of the main hollow shell 1, a plurality of annular array-type main component installation spaces 4 are arranged around the main liquid storage space 3, an annular air reserved space 6 is arranged at the bottom of each main component installation space 4, a main air inlet 7 which is communicated with an external space and the annular air reserved space 6 is arranged in the main hollow shell 1, a main threaded rod 9 penetrates through the center of the bottom of the main hollow shell 1 and is connected with the main hollow shell through a main threaded structure 10, a main rotating plate 11 is installed at the bottom end of the main threaded rod 9, a main piston plate 8 is installed at one end of the main component installation space 4 in a bearing mode through the main threaded rod 9, and the side face of the main liquid storage space 3 is communicated with the side face of the main component installation space 4 through a main liquid through hole 5, a plurality of longitudinal air injection pipelines 13 are installed at the edge of the main hollow shell 1, each longitudinal air injection pipeline 13 is arranged inside the main part installation space 4 and the annular air reserved space 6, a main air flow hole 14 is arranged inside the longitudinal air injection pipeline 13, an auxiliary air flow hole 15 is arranged at the top end of the main air flow hole 14, an air injection hole 16 is arranged on one side of the longitudinal air injection pipeline 13 facing the center, the longitudinal air injection pipeline 13 is arranged on the pipeline body inside the main part installation space 4 and is provided with a rotary medium driving mechanism 12, a liquid pipeline 17 of an integrated structure is arranged at the center of the upper surface of the main hollow shell 1, a liquid flow space 18 is arranged at the center of the liquid pipeline 17, a plurality of through holes are formed in the inner wall of the side surface of the liquid pipeline 17, and a mist spray nozzle 20 is installed inside each through hole, the interior of the main hollow casing 1 is provided with a liquid inlet hole 19 communicating the external space and the bottom of the liquid flowing space 18.

Referring to fig. 2, the rotary medium driving mechanism 12 includes a circular plate 121 for the rotary medium driving mechanism, an internal rotating space 122 for the rotary medium driving mechanism, an annular moving space 123 for the rotary medium driving mechanism, an internal rotating plate 124 for the rotary medium driving mechanism, a shaft body mounting hole 125 for the rotary medium driving mechanism, a baffle plate structure 126 for the rotary medium driving mechanism, a liquid flow hole 127 for the rotary medium driving mechanism, and a return coil spring 128 for the rotary medium driving mechanism; an inner rotating space 122 for a rotary medium driving mechanism is provided at the center inside the circular plate 121 for a rotary medium driving mechanism, an annular moving space 123 for a rotary medium driving mechanism is provided on one circumferential side surface of the inner rotating space 122 for a rotary medium driving mechanism, the annular moving space 123 for a rotary medium driving mechanism has a volume of 1/4 which is a virtual circumferential volume of the annular moving space, an inner rotating plate 124 for a rotary medium driving mechanism is provided inside the inner rotating space 122 for a rotary medium driving mechanism, a barrier plate structure 126 for a rotary medium driving mechanism is provided on a side surface of the inner rotating plate 124 for a rotary medium driving mechanism which is located inside the annular moving space 123 for a rotary medium driving mechanism, and the barrier plate structure 126 for a rotary medium driving mechanism is rotatable in the annular moving space 123 for a rotary medium driving mechanism, and two variable sealing regions are provided, a liquid flow hole 127 for rotary medium drive mechanism communicating the side surface thereof with one end of the annular space 123 for rotary medium drive mechanism is provided in the rotary medium drive mechanism circular plate 121, a shaft body mounting hole 125 for rotary medium drive mechanism is provided at the center in the longitudinal direction of the rotary medium drive mechanism circular plate 121 and the inner rotary plate 124 for rotary medium drive mechanism, and a return coil spring 128 for rotary medium drive mechanism is mounted in the annular space 123 for rotary medium drive mechanism; the pipe body of the longitudinal air injection pipe 13 is installed in the rotary medium driving mechanism shaft body installation hole 125 inside the rotary medium driving mechanism internal rotating plate 124, and the two are fixedly connected, and the pipe body of the longitudinal air injection pipe 13 is installed in the rotary medium driving mechanism shaft body installation hole 125 inside the rotary medium driving mechanism circular plate 121, and the two are connected by a rotatable bearing; the end of the rotary medium driving mechanism liquid flow hole 127 communicates with the main liquid passage hole 5.

The liquid storage space 3 and the main liquid through hole 5 are filled with buffer solution, and when no buffer solution is left in the rotary medium driving mechanism 12, the buffer solution completely fills the sealed area between the liquid storage space 3 and the main liquid through hole 5.

Certain attention must be paid to: when controlling the angle of the gas ejection holes 16, it should be directed toward around the axis line of the main hollow shell 1.

The specific use mode is as follows: during the operation of the invention, the main air inlet 7 and the main liquid inlet 19 are respectively connected with the air outlet of the air blower and the water outlet of the water pump, at the moment, the main rotating plate 11 is rotated, the main piston 8 moves upwards under the action of the main thread structure 10, at the moment, the buffer solution enters the rotary medium driving mechanism 12, so as to drive the longitudinal air injection pipeline 12 to rotate, and the rotating direction of the air injection hole 16 is controlled, so that the strength of the vortex state can be adjusted, after the high-pressure air is generated, the air is discharged through the air injection hole 16, so that the vortex of the air is generated, the surrounding air is adsorbed to the vortex center, at the moment, the fog-like liquid injected by the fog-like spray nozzle 20 can filter the surrounding air, and the air with dust is continuously rotated due to the vortex state, so that the dust in the air is adsorbed by.

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 (6)

1. The utility model provides a gradual change adjustable gaseous vortex formula dust collector, includes main hollow shell (1), its characterized in that: the supporting legs (2) are installed at the bottom of the main hollow shell (1), a main liquid storage space (3) is arranged at the center of the interior of the main hollow shell (1), a plurality of annular array-type main part installation spaces (4) are arranged around the main liquid storage space (3), an annular air reserved space (6) is arranged at the bottom of each main part installation space (4), a main air inlet hole (7) communicated with the external space and the annular air reserved space (6) is formed in the interior of the main hollow shell (1), the center of the bottom of the main hollow shell (1) is penetrated by a main threaded rod (9), the main threaded rod and the main air inlet hole are connected through a main threaded structure (10), a main rotating plate (11) is installed at the bottom end of the main threaded rod (9), a main piston plate (8) is installed at one end of the interior of the main part installation space (4) through a bearing, the main liquid storage space (3) and the main part installation space (4) are communicated through a main liquid through hole (5), a plurality of longitudinal air injection pipelines (13) are installed at the edge of the main hollow shell (1), each longitudinal air injection pipeline (13) is inserted into the main part installation space (4) and the annular air reserved space (6) through a pipeline body, a main air flow hole (14) is formed in the longitudinal air injection pipeline (13), an auxiliary air flow hole (15) is formed in the top end of the main air flow hole (14), air injection holes (16) are formed in one sides of the longitudinal air injection pipelines (13) facing the center, a rotary medium driving mechanism (12) is installed on the longitudinal air injection pipeline (13) located in the main part installation space (4), and a liquid pipeline (17) of an integrated structure is arranged in the center of the upper surface of the main hollow shell (1), the center of liquid pipeline (17) is equipped with liquid flow space (18), the inner wall of liquid pipeline (17) side is equipped with a plurality of through-holes, and an internally mounted fog shower nozzle (20) of every through-hole, the inside of main hollow shell (1) is equipped with the liquid manhole (19) of intercommunication external space and liquid flow space (18) bottom.

2. The gradual change adjustable gas vortex type dust removing device of claim 1, wherein: the rotary medium drive mechanism (12) includes a rotary medium drive mechanism disk (121), a rotary medium drive mechanism internal rotation space (122), a rotary medium drive mechanism annular movement space (123), a rotary medium drive mechanism internal rotation plate (124), a rotary medium drive mechanism shaft body mounting hole (125), a rotary medium drive mechanism baffle plate structure (126), a rotary medium drive mechanism liquid flow hole (127), and a rotary medium drive mechanism return coil spring (128).

3. The gradual change adjustable gas vortex dust removal device of claim 2, wherein: an inner rotating space (122) for a rotary medium driving mechanism is arranged at the center inside the circular plate (121) for the rotary medium driving mechanism, an annular moving space (123) for the rotary medium driving mechanism is arranged on one circumferential side surface of the inner rotating space (122) for the rotary medium driving mechanism, the volume of the annular moving space (123) for the rotary medium driving mechanism is 1/4 of the virtual circumferential volume, an inner rotating plate (124) for the rotary medium driving mechanism is arranged inside the inner rotating space (122) for the rotary medium driving mechanism, a baffle plate structure (126) for the rotary medium driving mechanism is arranged on the side surface of the inner rotating plate (124) for the rotary medium driving mechanism, which is positioned inside the annular moving space (123) for the rotary medium driving mechanism, and the baffle plate structure (126) for the rotary medium driving mechanism can be arranged in the annular moving space (126) for the rotary medium driving mechanism (123) And two variable sealing areas are provided while rotating, a liquid flow hole (127) for the rotary medium drive mechanism is provided inside the rotary medium drive mechanism circular plate (121) to communicate the side surface thereof with one end of the rotary medium drive mechanism annular movement space (123), a rotary medium drive mechanism shaft body mounting hole (125) is provided at the longitudinal center of the rotary medium drive mechanism circular plate (121) and the rotary medium drive mechanism inner rotation plate (124), and a return coil spring (128) for the rotary medium drive mechanism is mounted inside the rotary medium drive mechanism annular movement space (123).

4. The gradual change adjustable gas vortex dust removal device of claim 3, wherein: the pipeline body of the longitudinal air injection pipeline (13) is arranged in a shaft body mounting hole (125) for the rotary medium driving mechanism in the inner rotary plate (124) for the rotary medium driving mechanism and is fixedly connected with the shaft body, and the pipeline body of the longitudinal air injection pipeline (13) is arranged in a shaft body mounting hole (125) for the rotary medium driving mechanism in the circular plate (121) for the rotary medium driving mechanism and is connected with the shaft body by a rotatable bearing.

5. The gradual change adjustable gas vortex dust removal device of claim 3, wherein: the end of the liquid flow hole (127) for the rotary medium drive mechanism communicates with the main liquid through hole (5).

6. The gradual change adjustable gas vortex type dust removing device of claim 1, wherein: and the liquid storage space (3) and the main liquid through hole (5) are filled with buffer solution, and when no buffer solution is left in the rotary medium driving mechanism (12), the buffer solution completely fills the sealed interval between the liquid storage space (3) and the main liquid through hole (5).

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