CN217887527U - Automatic change circulated medicine waste gas tower device that adds - Google Patents

Abstract

The utility model relates to a waste gas tower technical field just discloses an automatic change circulated medicine waste gas tower device that adds, including waste gas tower mechanism, the inside swing joint of waste gas tower mechanism has mixing mechanism, the inside fixedly connected with circulation mechanism that still goes of waste gas tower mechanism, waste gas tower mechanism includes the tower structure. This automatic change can circulate and add medicine waste gas tower device, through the inside at the tower structure setting up the division board, and connect the circulating pipe on the division board, collect and transmit to the position reuse who sprays the pump through the circulating pipe through the liquid medicine after the division board is to neutralization, after the liquid medicine is utilized many times, seal the abandonment liquid medicine on the division board of emitting through rotating the shunt tubes to the lower extreme of circulating pipe, then rotate the shunt tubes once more and relieve the sealing to the circulating pipe lower extreme through the circulating pipe, and connect the pipeline of defeated medicine to the inside of tower structure from newly-added medicine, reached and circulated medicine and made the complete effect of medicine utilization.

Description

Automatic change circulated medicine waste gas tower device that adds

Technical Field

The utility model relates to a waste gas tower technical field specifically is an automatic change circulated medicine waste gas tower device that adds.

Background

The waste gas tower is a device for treating industrial waste gas, and is generally internally provided with a spray pump for spraying liquid medicine to treat the waste gas.

The traditional waste gas tower treats waste gas by spraying liquid medicine, and the sprayed liquid medicine cannot be completely utilized due to the spraying speed and the flowing of the waste gas, so that the unneutralized part of the liquid medicine is wasted.

It is clear that there is a need for an automatic recycling dosing waste gas tower device, which is used to solve the above-mentioned problem of incomplete utilization of the liquid medicine in the background art.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides an automatic change circulated medicine waste gas tower device that adds possesses advantages such as liquid medicine reuse, has solved the liquid medicine that mentions in the above-mentioned background and can not utilize complete problem.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an automatic recyclable dosing waste gas tower device comprises a waste gas tower mechanism, wherein a mixing mechanism is movably connected inside the waste gas tower mechanism, and a circulating mechanism is fixedly connected inside the waste gas tower mechanism;

the waste gas tower mechanism comprises a tower structure, the outer surface of the tower structure is respectively communicated with an air inlet channel and an air outlet channel, the inner bottom of the tower structure is fixedly connected with a spray pump, and the top end of a hard extension pipe of the spray pump is fixedly connected with a spray head;

the mixing mechanism comprises a support ring, and mixing fan blades are fixedly connected to the inside of the support ring;

the circulation mechanism includes the division board, the circulation hole has been seted up to the first half section of outer axle center of division board, the external fixed surface of division board is connected with the circulating pipe, the other end of circulating pipe extends to the inside of tower structure, the centre intercommunication of circulating pipe has communicating pipe, the inside swing joint of communicating pipe has the shunt tubes.

The partition board is arranged in the tower structure, the circulating pipe is connected to the partition board, the neutralized liquid medicine is collected through the partition board and is transmitted to the position of the spray pump through the circulating pipe for recycling, after the liquid medicine is used for multiple times, the lower end of the circulating pipe is sealed by rotating the shunt pipe to discharge the waste liquid medicine on the partition board, then the shunt pipe is rotated again to remove the sealing on the lower end of the circulating pipe through the circulating pipe, and the medicine conveying pipeline is connected to newly add the medicine into the tower structure, so that the effects of circulating the medicine and completely utilizing the medicine are achieved;

cup joint mixed flabellum through the activity on the extension pipe of spraying the pump to inner wall through support ring and tower structure supports spacingly, makes mixed flabellum be located inlet channel under, when inlet channel passes through waste gas at a high speed, mixed flabellum can rotate under the effect of waste gas air current, thereby mix the inside air of tower structure, make atomizing liquid medicine can be more abundant fuse with waste gas, reached the effect that promotes exhaust-gas treatment efficiency.

Preferably, the inlet channels extend into the interior of the tower structure and are curved downwardly, and the outlet channels have a height greater than the inlet channels.

With inlet channel's top downwarping for avoid the liquid medicine that sprays to enter into inlet channel's inside, directly blow the rotation of mixing fan blade through the exhaust gas air current that can pass through inlet channel spun.

Preferably, the spray pump is located at the axis of the tower structure, and the outer surface of the extension pipe of the spray pump is provided with a limit groove which is sleeved with the axis of the mixed fan blade.

The extension pipe of the spray pump is arranged at the axis of the tower structure, so that the mixed fan blades sleeved on the extension pipe can be positioned at the center and uniformly stressed all around, and the demand of power can be reduced when the air flow drives the mixed fan blades to rotate.

Preferably, the support ring extends to the inner wall of the tower structure and is movably connected with the inner wall of the tower structure, the support ring is composed of a plurality of inclined plane blades of the mixing blades, and the mixing blades are located under the air inlet channel.

Extend the support ring to the inside of tower structure to can avoid support ring atress back slope, and with mixing flabellum setting under the orificial air intake channel, can make the air current that passes through in the air intake channel can directly blow mixing flabellum and rotate.

Preferably, the isolation plate is penetrated by an extension pipe of the spray pump and fixedly connected with the extension pipe, the isolation plate is positioned below the support ring, and the axis of the isolation plate is an inclined groove.

The inside of the tower structure is divided into an upper chamber and a lower chamber by the partition plate, and the liquid medicine dripped after being sprayed can enter the inside of the circulating pipe through the inclined groove at the axle center of the partition plate for recycling or directly discharged through the shunt pipe.

Preferably, the circulating pipe is a U-shaped pipe, one end of the circulating pipe is communicated with the circulating hole, and the other end of the circulating pipe is located at the bottom of the isolation plate.

The circulating pipe is set into a U-shaped pipe, so that two cavities inside the tower structure can be circulated, and the medicine can be recycled.

Preferably, the inside of communicating pipe is provided with the sealed piece with shunt tubes surface overlap joint, the extension of shunt tubes to the inside of communicating pipe and with communicating pipe inner wall overlap joint, the shunt tubes is located and has seted up the through-hole that the triangle-shaped distributes such as three on the inside one section of communicating pipe.

The three through holes are formed in the surface of the shunt pipe, the positions of the three through holes are changed by rotating the shunt pipe, so that the effect of up-and-down communication of the circulating pipe, the communication of the upper end and the shunt pipe or the communication of the lower end and the shunt pipe can be achieved, circulation is achieved when the circulating pipe is communicated up and down, and the top end of the shunt pipe needs to be sleeved with the sealing cover to avoid liquid leakage.

Compared with the prior art, the utility model provides an automatic change circulated medicine waste gas tower device that adds possesses following beneficial effect:

1. this automatic change can circulate and add medicine waste gas tower device, through the inside at the tower structure setting up the division board, and connect the circulating pipe on the division board, liquid medicine after to the neutralization is collected and is transmitted to the position reuse who sprays the pump through the circulating pipe through the division board, after liquid medicine is utilized many times, seal the abandonment liquid medicine on emitting the division board through rotating the shunt tubes to the lower extreme of circulating pipe, then rotate the shunt tubes once more and relieve the sealing to the circulating pipe lower extreme through the circulating pipe, and connect the pipeline of defeated medicine to the inside of tower structure from newly adding the medicine, reached and can circulate the medicine and make the complete effect of medicine utilization.

2. This automatic but change circulation adds medicine waste gas tower device, it cup joints mixed flabellum to manage through the extension at the spray pump, and support spacingly through the inner wall of support ring with the tower structure, make mixed flabellum be located inlet channel under, when inlet channel passes through waste gas at a high speed, it can rotate under the effect of waste gas air current to mix the flabellum, thereby mix the inside air of tower structure, make atomizing liquid medicine can be more abundant fuse with waste gas, the effect that promotes exhaust-gas treatment efficiency has been reached.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the hybrid fan blade of the present invention;

FIG. 3 is a sectional view of the structure of the communicating tube of the present invention;

FIG. 4 is a schematic diagram of the structure of the isolation board of the present invention;

fig. 5 is a schematic view of the structure of the shunt tube of the present invention.

Wherein: 1. an exhaust gas tower mechanism; 101. a tower structure; 102. an air intake passage; 103. an air outlet channel; 104. a spray pump; 105. a shower head; 2. a mixing mechanism; 201. a support ring; 202. mixing fan blades; 3. a circulating mechanism; 301. a separator plate; 302. a circulation hole; 303. a circulation pipe; 304. a communicating pipe; 305. and (4) dividing the tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, an automatic recyclable dosing waste gas tower device includes a waste gas tower mechanism 1, a mixing mechanism 2 movably connected inside the waste gas tower mechanism 1, and a circulating mechanism 3 fixedly connected inside the waste gas tower mechanism 1;

the waste gas tower mechanism 1 comprises a tower structure 101, the outer surface of the tower structure 101 is respectively communicated with an air inlet channel 102 and an air outlet channel 103, the inner bottom of the tower structure 101 is fixedly connected with a spray pump 104, and the top end of a hard extension pipe of the spray pump 104 is fixedly connected with a spray head 105;

the mixing mechanism 2 comprises a support ring 201, and mixing fan blades 202 are fixedly connected inside the support ring 201;

the circulating mechanism 3 comprises a partition plate 301, a circulating hole 302 is formed in the upper half section of the outer axis of the partition plate 301, a circulating pipe 303 is fixedly connected to the outer surface of the partition plate 301, the other end of the circulating pipe 303 extends to the inside of the tower structure 101, a communicating pipe 304 is communicated with the middle of the circulating pipe 303, and a shunt pipe 305 is movably connected to the inside of the communicating pipe 304.

Through the technical scheme, the partition plate 301 is arranged in the tower structure 101, the circulating pipe 303 is connected to the partition plate 301, the neutralized liquid medicine is collected through the partition plate 301 and is transmitted to the position of the spray pump 104 through the circulating pipe 303 for recycling, after the liquid medicine is used for multiple times, the lower end of the circulating pipe 303 is sealed through rotating the dividing pipe 305 to discharge the waste liquid medicine on the partition plate 301, then the dividing pipe 305 is rotated again to remove the sealing on the lower end of the circulating pipe 303 through rotating the circulating pipe 303, and the pipeline for conveying the liquid medicine is connected to newly add the liquid medicine into the tower structure 101, so that the effects of circulating the liquid medicine and completely utilizing the liquid medicine are achieved;

through the activity cup joint hybrid fan blade 202 on the extension pipe at spray pump 104, and support spacingly through the inner wall of support ring 201 and tower structure 101, make hybrid fan blade 202 be located inlet channel 102 under, when inlet channel 102 passes through waste gas at a high speed, hybrid fan blade 202 can rotate under the effect of waste gas air current, thereby mix the inside air of tower structure 101, make the atomizing liquid medicine can be more abundant fuse with waste gas, the effect that promotes exhaust-gas treatment efficiency has been reached.

Specifically, the inlet channels 102 extend into the tower structure 101 and are bent downward, and the outlet channels 103 have a height greater than that of the inlet channels 102.

Through the technical scheme, the top end of the air inlet channel 102 is bent downwards, so that the sprayed liquid medicine is prevented from entering the air inlet channel 102, and the mixing fan blades 202 can be directly blown to rotate through the waste gas flow sprayed out of the air inlet channel 102.

Specifically, the spray pump 104 is located at the axis of the tower structure 101, and the outer surface of the extension pipe of the spray pump 104 is provided with a limit groove to be sleeved with the axis of the hybrid fan blade 202.

Through the technical scheme, the extension pipe of the spray pump 104 is arranged at the axis of the tower structure 101, so that the mixed fan blades 202 sleeved on the extension pipe can be positioned at the center and uniformly stressed all around, and the demand of power can be reduced when the air flow drives the mixed fan blades 202 to rotate.

Specifically, the support ring 201 extends to the inner wall of the tower structure 101 and is movably connected with the inner wall, the mixed blades 202 are composed of a plurality of inclined blades, and the mixed blades 202 are located right below the air inlet channel 102.

Through the technical scheme, the support ring 201 is extended to the inside of the tower structure 101, so that the support ring 201 can be prevented from being inclined after being stressed, the mixing fan blades 202 are arranged under the pipe orifice of the air inlet channel 102, and the air flow passing through the air inlet channel 102 can directly blow the mixing fan blades 202 to rotate.

Specifically, the isolation plate 301 is penetrated by an extension pipe of the spray pump 104 and fixedly connected with the extension pipe, the isolation plate 301 is located below the support ring 201, and the axis of the isolation plate 301 is an inclined groove.

Through the technical scheme, the inside of the tower structure 101 is divided into the upper chamber and the lower chamber by the partition plate 301, and the liquid medicine dripping after being sprayed can enter the inside of the circulating pipe 303 through the inclined groove at the axle center of the partition plate 301 for recycling or directly discharging through the shunt pipe 305.

Specifically, the circulation pipe 303 is a U-shaped pipe, one end of the circulation pipe 303 is communicated with the circulation hole 302, and the other end of the circulation pipe 303 is located at the bottom of the partition plate 301.

Through the technical scheme, the circulating pipe 303 is set to be a U-shaped pipe, so that two cavities in the tower structure 101 can be circulated, and the recycling of the medicines is realized.

Specifically, the inside of the communicating pipe 304 is provided with a sealing block overlapping with the outer surface of the dividing pipe 305, the dividing pipe 305 extends to the inside of the communicating pipe 304 and overlaps with the inner wall of the communicating pipe 304, and three through holes distributed in an equal triangular shape are formed in one section of the dividing pipe 305 located inside the communicating pipe 304.

Through the technical scheme, the three through holes are formed in the surface of the shunt pipe 305, the positions of the three through holes are changed by rotating the shunt pipe 305, the upper end of the circulating pipe 303 can be communicated with the upper portion and the lower end of the circulating pipe 303, the upper end of the circulating pipe is communicated with the shunt pipe 305, or the lower end of the circulating pipe is communicated with the shunt pipe 305, circulation is achieved when the circulating pipe 303 is communicated with the upper portion and the lower end of the circulating pipe 303, but the top end of the shunt pipe 305 needs to be sleeved with the sealing cover to avoid liquid leakage.

When the device is used, the isolation plate 301 is arranged in the tower structure 101, the circulating pipe 303 is connected to the isolation plate 301, the neutralized liquid medicine is collected through the isolation plate 301 and is transmitted to the position of the spray pump 104 through the circulating pipe 303 for recycling, after the liquid medicine is used for multiple times, the lower end of the circulating pipe 303 is sealed through rotating the dividing pipe 305 to discharge the waste liquid medicine on the isolation plate 301, then the dividing pipe 305 is rotated again to remove the sealing on the lower end of the circulating pipe 303 through rotating the circulating pipe 303, and the connecting pipeline for medicine transmission is connected to newly add the medicine into the tower structure 101, so that the effects of circulating the medicine and completely utilizing the medicine are achieved;

through the activity cup joint hybrid fan blade 202 on the extension pipe at spray pump 104, and support spacingly through the inner wall of support ring 201 and tower structure 101, make hybrid fan blade 202 be located inlet channel 102 under, when inlet channel 102 passes through waste gas at a high speed, hybrid fan blade 202 can rotate under the effect of waste gas air current, thereby mix the inside air of tower structure 101, make the atomizing liquid medicine can be more abundant fuse with waste gas, the effect that promotes exhaust-gas treatment efficiency has been reached.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an automatic change circulated medicine waste gas tower device that adds, includes waste gas tower mechanism (1), its characterized in that: the interior of the waste gas tower mechanism (1) is movably connected with a mixing mechanism (2), and the interior of the waste gas tower mechanism (1) is also fixedly connected with a circulating mechanism (3);

the waste gas tower mechanism (1) comprises a tower structure (101), the outer surface of the tower structure (101) is respectively communicated with an air inlet channel (102) and an air outlet channel (103), the inner bottom of the tower structure (101) is fixedly connected with a spray pump (104), and the top end of a hard extension pipe of the spray pump (104) is fixedly connected with a spray head (105);

the mixing mechanism (2) comprises a support ring (201), and mixing blades (202) are fixedly connected inside the support ring (201);

circulation mechanism (3) are including division board (301), circulation hole (302) have been seted up to the first half section of outer axle center of division board (301), the outer fixed surface of division board (301) is connected with circulating pipe (303), the other end of circulating pipe (303) extends to the inside of tower structure (101), the centre intercommunication of circulating pipe (303) has communicating pipe (304), the inside swing joint of communicating pipe (304) has shunt tubes (305).

2. The automatic change circulated medicine waste gas tower device of claim 1, characterized in that: the inlet channels (102) extend to the interior of the tower structure (101) and are bent downwards, and the outlet channels (103) have a height higher than the inlet channels (102).

3. The automatic change circulated medicine waste gas tower device of claim 1, characterized in that: the spraying pump (104) is positioned at the axis of the tower structure (101), and the outer surface of an extension pipe of the spraying pump (104) is provided with a limit groove which is sleeved with the axis of the mixing fan blade (202).

4. The automatic change circulated medicine waste gas tower device of claim 1, characterized in that: the support ring (201) extends to the inner wall of the tower structure (101) to be movably connected, the mixed fan blades (202) are composed of a plurality of inclined plane fan blades, and the mixed fan blades (202) are located under the air inlet channel (102).

5. The automatic change circulated medicine waste gas tower device of claim 1, characterized in that: the isolation plate (301) is penetrated by an extension pipe of the spray pump (104) and fixedly connected with the extension pipe, the isolation plate (301) is positioned below the support ring (201), and the axis of the isolation plate (301) is an inclined plane groove.

6. The automatic change circulated medicine waste gas tower device of claim 1, characterized in that: the circulating pipe (303) is a U-shaped pipe, one end of the circulating pipe (303) is communicated with the circulating hole (302), and the other end of the circulating pipe (303) is positioned at the bottom of the isolation plate (301).

7. The automatic change circulated medicine waste gas tower device of claim 1, characterized in that: the inside of communicating pipe (304) is provided with the sealed piece with shunt tubes (305) surface overlap joint, the extension of shunt tubes (305) to the inside of communicating pipe (304) and with communicating pipe (304) inner wall overlap joint, shunt tubes (305) are located and have seted up the through-hole that three more equal triangle-shaped distributes on one section of communicating pipe (304) inside.

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