CN219792959U - High-altitude gas production device - Google Patents

Abstract

The utility model provides a high-altitude gas production device which comprises a gas production pipe, wherein a joint pipe is connected to the upper side of the gas production pipe, the bottom of the joint pipe is connected with a tray plate, a sleeve is connected to the upper side of the joint pipe, the upper side of the sleeve is connected with a gas production filter sleeve, the upper surface of a side plate on the right side of the gas production filter sleeve is connected with a limiting vertical rod, the lower surface of a side plate on the left side of the gas production filter sleeve is connected with a servo motor, and the output end of the servo motor is connected with a threaded rod. According to the high-altitude gas production device, through the charging function of the solar charging module, the nut sleeve frame can be driven by the threaded rod at the output end of the servo motor to move up and down along the limiting vertical rod, the brush sleeve and the raised head block are controlled to clean the outer surface of the gas production filter sleeve up and down back and forth, the problem that the filter module arranged on the gas production tower module used in the existing high-altitude gas production device cannot be automatically maintained is effectively solved, and the high-altitude gas production quality of the high-altitude gas production device is improved.

Description

High-altitude gas production device

Technical Field

The utility model relates to the technical field of high-altitude gas production, in particular to a high-altitude gas production device.

Background

The glucose fermentation needs to use clean air, but at present, the air pollution is serious, if the air on the ground is directly used, the cleaning treatment is needed, the device is complicated and high in cost, but the air cleanliness in the air is high, and the glucose fermentation can be used by simple filtration.

In the prior art, a high-altitude gas collecting device with the application publication number of CN202063909U is disclosed, the high-altitude gas collecting device comprises a gas collecting tower, the bottom of the gas collecting tower is connected with a bag filter, an air outlet is arranged on the bag filter, and the air outlet is connected with an air compressor.

However, the filtering module arranged on the gas production tower module used in the high-altitude gas production device provided by the prior art cannot be automatically maintained, but cannot be manually cleaned and maintained in the high air, and the filtering efficiency of the filtering module is easily affected for a long time, so that the high-altitude gas production device is necessary to solve the technical problems.

Disclosure of Invention

The utility model provides a high-altitude gas production device, which solves the problem that a filtering module arranged on a gas production tower module used in the existing high-altitude gas production device cannot be automatically maintained.

In order to solve the technical problems, the utility model provides a high-altitude gas production device, which comprises: a gas production pipe;

the joint pipe is connected to the upper side of the gas production pipe, and the bottom of the joint pipe is connected with a tray plate;

the sleeve is connected to the upper side of the joint pipe, the upper side of the sleeve is connected with a gas production filter sleeve, two sides of the bottom of the gas production filter sleeve are connected with side plates, the upper surface of the side plate on the right side of the gas production filter sleeve is connected with a limit upright rod, the lower surface of the side plate on the left side of the gas production filter sleeve is connected with a servo motor, and the output end of the servo motor is connected with a threaded rod;

the outer part of the gas production filter sleeve is provided with a nut sleeve frame in a jogged mode through the threaded rod, and the inner wall of the nut sleeve frame is provided with a brush sleeve attached to the outer surface of the gas production filter sleeve.

The servo motor is an existing servo-controlled driving motor device and is used for controlling the threaded rod to rotate in different speeds and in opposite directions, and the brush sleeve can be detached and replaced through external threads.

Preferably, a plurality of round grooves are sequentially formed in the brush sleeve, spring rings are connected in the round grooves, protruding head blocks are connected to the output ends of the spring rings, and the protruding head blocks correspond to the openings of the gas production filtering sleeve in size.

The raised head block can be slightly protruded out of the inner wall of the brush sleeve under the action of the spring ring and is used for cleaning scraps in the opening of the outer surface of the gas production filter sleeve.

Preferably, the upper surface of the limiting upright rod is connected with a cover disc corresponding to the gas production filtering sleeve, and the bottom of the cover disc is connected with a shield for accommodating the brush sleeve.

Preferably, the bottom of the sleeve is connected with a wing plate sleeve.

Preferably, the outer surface of the tray plate is provided with a plurality of solar charging modules in a circumferential arrangement.

The solar charging module is an existing solar charging device and corresponds to the servo motor.

Preferably, the outer surfaces of the threaded rod and the nut sleeve frame are provided with anti-corrosion coatings.

Compared with the related art, the high-altitude gas production device provided by the utility model has the following beneficial effects:

the utility model provides a high-altitude gas production device, which can drive a nut sleeve frame to move up and down along a limiting vertical rod through a threaded rod at the output end of a servo motor under the charging action of a solar charging module, and control a brush sleeve and a raised head block to clean the outer surface of a gas production filter sleeve up and down back and forth, so that the problem that a filter module arranged on a gas production tower module used in the existing high-altitude gas production device can not be automatically maintained is effectively solved, and the high-altitude gas production quality of the high-altitude gas production device is improved.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of a high-altitude gas production device according to the present utility model;

FIG. 2 is a schematic diagram of a gas production filter sleeve of a high-altitude gas production device according to the present utility model;

FIG. 3 is a schematic structural view showing the splitting effect of a nut sleeve frame of the high-altitude gas production device;

fig. 4 is a schematic structural diagram of a second embodiment of a high-altitude gas production device according to the present utility model.

Reference numerals in the drawings: 1. the solar energy collecting device comprises a gas collecting pipe, 2, a joint pipe, 3, a tray plate, 4, a solar energy charging module, 5, a wing plate sleeve, 6, a sleeve, 7, a side plate, 8, a limiting vertical rod, 9, a cover disc, 10, a shield, 11, a servo motor, 12, a threaded rod, 13, a gas collecting filter sleeve, 14, a nut sleeve frame, 15, a brush sleeve, 16, a round opening groove, 17, a spring ring, 18, a raised head block, 19, an expansion ferrule, 20, a rubber cotton brush, 21 and a notch.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, and fig. 3 in combination, fig. 1 is a schematic structural diagram of a first embodiment of a high-altitude gas production device according to the present utility model; FIG. 2 is a schematic diagram of a gas production filter sleeve of a high-altitude gas production device according to the present utility model; fig. 3 is a schematic structural view of a nut sleeve frame splitting effect of a high-altitude gas production device. An overhead gas production apparatus comprising: a gas production pipe 1;

the joint pipe 2 is connected to the upper side of the gas production pipe 1, and the bottom of the joint pipe 2 is connected with a tray plate 3;

the sleeve 6 is connected to the upper side of the joint pipe 2, the upper side of the sleeve 6 is connected with a gas production filter sleeve 13, two sides of the bottom of the gas production filter sleeve 13 are connected with side plates 7, the upper surface of the side plate 7 on the right side of the gas production filter sleeve 13 is connected with a limit upright rod 8, the lower surface of the side plate 7 on the left side of the gas production filter sleeve 13 is connected with a servo motor 11, and the output end of the servo motor 11 is connected with a threaded rod 12;

the outer part of the gas production filter sleeve 13 is provided with a nut sleeve frame 14 through a threaded rod 12 and the threaded rod 12 in a jogged mode, and the inner wall of the nut sleeve frame 14 is provided with a brush sleeve 15 attached to the outer surface of the gas production filter sleeve 13.

The servo motor 11 is an existing servo-controlled driving motor device and is used for controlling the threaded rod 12 to rotate in different speeds and in opposite directions, and the brush sleeve 15 can be detached and replaced through external threads.

The inside of brush cover 15 installs a plurality of round mouth grooves 16 in proper order, and the inside in round mouth groove 16 all is connected with spring coil 17, and the output of spring coil 17 all is connected with protruding head piece 18, and the size of protruding head piece 18 corresponds with the opening size of gas production filter sleeve 13.

The raised head block 18 can protrude a little bit from the inner wall of the brush sleeve 15 through the action of the spring ring 17 and is used for cleaning the scraps in the opening on the outer surface of the gas production filter sleeve 13.

The upper surface of spacing pole setting 8 is connected with the cover dish 9 that corresponds gas production filter sleeve 13, and the bottom of cover dish 9 is connected with the guard shield 10 that accomodates brush cover 15.

The bottom of the sleeve 6 is connected with a wing plate sleeve 5.

The outer surface of the tray plate 3 is provided with a plurality of solar charging modules 4 in a circumferential arrangement.

The solar charging module 4 is a conventional solar charging device and corresponds to the servo motor 11.

The outer surfaces of the threaded rod 12 and the nut sleeve frame 14 are provided with anti-corrosion coatings.

The working principle of the high-altitude gas production device provided by the utility model is as follows: when the solar energy charging device is used, solar energy charging can be carried out through the solar energy charging modules 4 with multiple angles installed on the outer surface of the joint pipe 2, the nut sleeve frame 14 is driven by the threaded rod 12 at the output end of the servo motor 11 to move up and down along the limiting vertical rod 8, the brush sleeve 15 and the raised head block 18 outside the spring ring 17 are controlled to clean the outer surface of the gas production filter sleeve 13 up and down back and forth, and the gas production module of the high-altitude gas production device can be automatically cleaned.

Compared with the related art, the high-altitude gas production device provided by the utility model has the following beneficial effects:

through solar charging module's effect of charging, can be through servo motor output threaded rod drive nut cover frame along spacing pole setting reciprocates, control brush cover and protruding block are to adopting gas filter sleeve's surface to clear up and down, effectually solved the problem that the filtration module that the gas production tower module that a kind of high altitude gas production device that it provided used set up can not automatic maintenance, improve high altitude gas production device's high altitude gas production quality.

Second embodiment

Referring to fig. 4, fig. 4 is a schematic structural diagram of a second embodiment of a high-altitude gas production device according to the present utility model. Based on the high-altitude gas production device provided in the first embodiment of the present utility model, the second embodiment of the present utility model proposes another high-altitude gas production device. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present utility model provides a high-altitude gas collecting device, which is different in that an expansion ferrule 19 is mounted on the upper side of the inner part of the nut sleeve frame 14, which is attached to the brush sleeve 15.

The rubber cotton wiper 20 is installed on the inner wall of the expansion ferrule 19, and a plurality of notches 21 are formed in the surface of the rubber cotton wiper 20.

Working principle: in use, the brush sleeve 15 is further improved in dust brushing effect by the rubber cotton wiper 20 and the notch 21.

The beneficial effects are that: the dust brushing effect of the brush sleeve 15 can be further improved by the rubber cotton wiper 20 and the notch 21.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A high altitude gas production apparatus, comprising: a gas production pipe;

the joint pipe is connected to the upper side of the gas production pipe, and the bottom of the joint pipe is connected with a tray plate;

the sleeve is connected to the upper side of the joint pipe, the upper side of the sleeve is connected with a gas production filter sleeve, two sides of the bottom of the gas production filter sleeve are connected with side plates, the upper surface of the side plate on the right side of the gas production filter sleeve is connected with a limit upright rod, the lower surface of the side plate on the left side of the gas production filter sleeve is connected with a servo motor, and the output end of the servo motor is connected with a threaded rod;

the outer part of the gas production filter sleeve is provided with a nut sleeve frame in a jogged mode through the threaded rod, and the inner wall of the nut sleeve frame is provided with a brush sleeve attached to the outer surface of the gas production filter sleeve.

2. The high-altitude gas production device according to claim 1, wherein a plurality of round grooves are sequentially formed in the brush sleeve, spring rings are connected to the inside of the round grooves, raised head blocks are connected to the output ends of the spring rings, and the raised head blocks correspond to the openings of the gas production filter sleeve in size.

3. The high-altitude gas production device according to claim 1, wherein a cover plate corresponding to the gas production filter sleeve is connected to the upper surface of the limiting upright rod, and a shield for accommodating the brush sleeve is connected to the bottom of the cover plate.

4. The high-altitude gas production device according to claim 1, wherein a wing plate sleeve is connected to the bottom of the sleeve.

5. The high-altitude gas production device according to claim 1, wherein the outer surface of the tray plate is provided with a plurality of solar charging modules in a circumferential arrangement.

6. The high-altitude gas production device according to claim 1, wherein the threaded rod and the outer surface of the nut sleeve frame are provided with anti-corrosion coatings.