CN222009775U - A single-tube tower with ventilation structure - Google Patents

Abstract

The utility model relates to the field of single-pipe towers, in particular to a single-pipe tower with a ventilation structure. Technical problems: in the single-tube tower maintenance process, because the large communication ports are arranged for ventilation in most of the use of the existing single-tube towers, rain and snow and animals easily enter the single-tube towers, pollution is easily caused to the inside of the single-tube towers, and the use convenience of the single-tube towers is reduced. The technical scheme is as follows: the utility model provides a single-tube tower with ventilation structure, including base subassembly, coupling assembling, ventilation unit and power pack, through setting up first fan and second fan, improve the inside ventilation efficiency of single-tube tower to solve the in-process of maintaining at single-tube tower, can be because the great intercommunication mouth that is provided with for ventilation most in the use of current single-tube tower, easily make rain and snow and animal get into single-tube tower, easily cause the pollution to single-tube tower inside, lead to single-tube tower's convenience of use to descend.

Description

Single-pipe tower with ventilation structure

Technical Field

The utility model relates to the field of single-pipe towers, in particular to a single-pipe tower with a ventilation structure.

Background

The utility model provides a single-tube tower, belong to the technical field of pipe tower, work platform including tower body and tower body upper portion connection setting, the door opening is offered to the tower body bottom pipe wall, the door opening is offered to the pipe wall of work platform place, antenna boom is fixed in on the rail of work platform, in the use of current single-tube tower for ventilation mostly has great intercommunication mouth with the outside, and single-tube tower is mostly higher, easily make various birds get into single-tube tower nesting, perhaps make the sleet get into single-tube tower, lead to the degree of difficulty that needs to maintain in the future to improve.

Disclosure of utility model

In order to overcome the in-process of maintaining at single-tube tower, can be because the great intercommunication mouth that is provided with for ventilation in the use of current single-tube tower mostly, easily make rain and snow and animal get into single-tube tower, easily cause the pollution to single-tube tower inside, lead to single-tube tower's convenience of use to descend.

The technical scheme of the utility model is as follows: a single-pipe tower with a ventilation structure comprises a base component, a connecting component, a ventilation component and a power component; the upper end part of the base component is provided with a connecting component; the upper end part of the connecting component is provided with a ventilation component; the inner side of the ventilation component is provided with a power component.

Preferably, the device is supported by providing a base assembly; connecting the base assembly and the ventilation assembly by providing a connection assembly; ventilating the inside of the tower by arranging a ventilating assembly, and reducing foreign matters from entering; the power assembly is arranged to drive the internal assembly to rotate so as to seal the single-pipe tower.

Preferably, the base assembly comprises a supporting base, a first outer tube, a first inlet, a first connecting disc, a first inner tube and a second inlet; the upper end part of the supporting base is fixedly connected with a first outer tube; the front end part of the first outer tube is provided with a first inlet; the upper end part of the first inlet is provided with a first connecting disc; the inner side of the first outer tube is rotationally connected with a first inner tube; the front end part of the first inner tube is provided with a second inlet; the first inlet and the second inlet are used for facilitating the access of workers to the device, and the rest components are installed through the first connecting disc.

Preferably, the connecting assembly comprises a second outer tube, a second connecting disc, a first sliding groove, a second inner tube and a first connecting ring; the upper end part of the first connecting disc is provided with a second outer tube; the upper end part and the lower end part of the second outer tube are fixedly connected with second connecting discs; the inner side of the second outer pipe is provided with a first chute; the inner side of the first chute is rotationally connected with a first connecting ring; the first connecting ring is fixedly connected with a second inner pipe; the height of the device is increased by the second outer tube and the second inner tube so as to adapt to the working environment.

Preferably, the ventilation assembly comprises a third outer tube, a third connecting disc, a third inlet, a second chute, a blocking plate, a first fan, a protective top, a protective plate, a third inner tube, a fourth inlet and a second connecting ring; the upper end part of the second connecting disc at the upper end part is provided with a third outer tube; a third connecting disc is fixedly connected to the outer side of the third outer tube; a third inlet is formed in the front end part of the third outer tube; a second chute is formed in the inner side of the third outer tube; the blocking plate is arranged at the upper end part of the third outer tube, and a first fan is arranged on the blocking plate; the third inlet is convenient for workers to enter and exit, and the blocking plate and the first fan are used for supplying air to the tower.

Preferably, a protective roof is arranged on the outer side of the blocking plate; a protective plate is arranged on the protective top; the lower end part of the blocking plate is provided with a third inner pipe; a fourth inlet is formed in the front end part of the third inner tube; the outer side of the third inner tube is fixedly connected with a second connecting ring; the third inner tube and the third outer tube are rotatably connected through a second connecting ring and a second sliding groove; sundries entering the first fan are reduced through the protective roof and the protective plate, and workers can conveniently enter and exit through the fourth inlet.

Preferably, the power assembly comprises a motor, a supporting disc, a supporting rod, a climbing rod, a mounting seat, a rotating disc and a second fan; a motor is arranged on the inner side of the supporting base; a supporting disc is rotationally connected to the motor rotating shaft; the upper end part of the supporting disc is fixedly connected with a supporting rod; a climbing rod is fixedly connected on the supporting rod; the supporting disc and the supporting rod are driven to rotate through the motor, so that the first inner tube, the second inner tube and the third inner tube are driven to rotate through the climbing rod, and the first inlet and the third inlet are blocked by the first inner tube and the third inner tube.

Preferably, the upper end part of the supporting rod is fixedly connected with a mounting seat; the lower end part of the mounting seat is rotationally connected with a rotating disc; the rotating disc is provided with a second fan; the second fan is installed through the rotating disc so as to improve ventilation efficiency, and the rotating disc is utilized as a rest platform.

The utility model has the beneficial effects that:

1. The first fan and the second fan are arranged to ventilate the inside of the tower, and the filter plate and the protective cover are utilized to reduce foreign matters from entering the tower, so that the problem that in the maintenance process of the single-pipe tower, because a large communication port is arranged for ventilation in most of the use of the existing single-pipe tower, rain, snow and animals easily enter the single-pipe tower, pollution is easily caused to the inside of the single-pipe tower, the use convenience of the single-pipe tower is reduced, and the use convenience of the whole single-pipe tower with a ventilation structure can be improved;

2. The air supply in the tower is realized through the blocking plate and the first fan, and the second fan is arranged through the supporting rod and the rotating disc, so that the ventilation efficiency is improved, the rotating disc is used as a rest platform, and the use convenience of the whole single-tube tower with the ventilation structure can be improved to a certain extent;

3. The device is convenient for staff to come in and go out through first entry, second entry, third entry and fourth entry, starter motor drives supporting disk and bracing piece and rotates, so that drive first inner tube, second inner tube and third inner tube through climbing the pole and rotate, so that utilize first inner tube and third inner tube to block first entry and third entry, and utilize protection top and protection shield to reduce the debris that gets into first fan in order to reduce the condition emergence of external object entering the tower, and then can improve the life of whole single-tube tower that has ventilation structure.

Drawings

FIG. 1 shows a perspective view of a single-tube tower having a ventilation structure in accordance with the present utility model;

FIG. 2 shows a partially cut-away perspective schematic view of a single-tube tower foundation assembly having a ventilation structure in accordance with the present utility model;

FIG. 3 shows a schematic view of a single-tube tower connection assembly with ventilation structure of the present utility model in a partially cut-away perspective configuration;

Fig. 4 shows a schematic perspective view of a single-tube tower connection assembly with a ventilation structure according to the present utility model;

Fig. 5 shows a first perspective view of a single-tube tower ventilation assembly having a ventilation structure in accordance with the present utility model;

fig. 6 shows a second perspective view of a single-tube tower ventilation assembly having a ventilation structure in accordance with the present utility model;

Fig. 7 shows a schematic perspective view of a single-tube tower power assembly with ventilation structure according to the present utility model.

Reference numerals illustrate: 1. a base assembly; 2. a connection assembly; 3. a ventilation assembly; 4. a power assembly; 101. a support base; 102. a first outer tube; 103. a first inlet; 104. a first connection plate; 105. a first inner tube; 106. a second inlet; 201. a second outer tube; 202. a second connection pad; 203. a first chute; 204. a second inner tube; 205. a first connection ring; 301. a third outer tube; 302. a third connection pad; 303. a third inlet; 304. a second chute; 305. a blocking plate; 306. a first fan; 307. a protective roof; 308. a protective plate; 309. a third inner tube; 310. a fourth inlet; 311. a second connecting ring; 401. a motor; 402. a support plate; 403. a support rod; 404. climbing a lifting rod; 405. a mounting base; 406. a rotating disc; 407. and a second fan.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1, the present utility model provides an embodiment: a single-pipe tower with a ventilation structure comprises a base component 1, a connecting component 2, a ventilation component 3 and a power component 4; the upper end part of the base component 1 is provided with a connecting component 2; the upper end part of the connecting component 2 is provided with a ventilation component 3; the inside of the ventilation assembly 3 is provided with a power assembly 4.

Referring to fig. 2-4, in the present embodiment, the base assembly 1 includes a support base 101, a first outer tube 102, a first inlet 103, a first connection plate 104, a first inner tube 105, and a second inlet 106; the upper end part of the supporting base 101 is fixedly connected with a first outer tube 102; the front end part of the first outer tube 102 is provided with a first inlet 103; the upper end of the first inlet 103 is provided with a first connecting disc 104; a first inner tube 105 is rotatably connected to the inner side of the first outer tube 102; the front end part of the first inner tube 105 is provided with a second inlet 106; the connection assembly 2 includes a second outer tube 201, a second connection disc 202, a first chute 203, a second inner tube 204, and a first connection ring 205; the second outer tube 201 is arranged at the upper end part of the first connecting disc 104; the upper end and the lower end of the second outer tube 201 are fixedly connected with a second connecting disc 202; a first sliding groove 203 is formed in the inner side of the second outer tube 201; a first connecting ring 205 is rotatably connected to the inner side of the first chute 203; the first connecting ring 205 is fixedly connected with a second inner pipe 204; the first inlet 103 and the second inlet 106 are used for facilitating the access of staff to the device, and the rest components are installed through the first connecting disc 104; the height of the device is increased by the second outer tube 201 and the second inner tube 204 in order to adapt to the working environment.

Referring to fig. 5 to 7, in the present embodiment, the ventilation assembly 3 includes a third outer tube 301, a third connection pad 302, a third inlet 303, a second chute 304, a blocking plate 305, a first fan 306, a protective top 307, a protective plate 308, a third inner tube 309, a fourth inlet 310, and a second connection ring 311; the upper end of the second connection disc 202 of the upper end is mounted with a third outer tube 301; a third connecting disc 302 is fixedly connected to the outer side of the third outer tube 301; a third inlet 303 is formed in the front end of the third outer tube 301; a second chute 304 is formed on the inner side of the third outer tube 301; the upper end of the third outer tube 301 is provided with a blocking plate 305 on which a first fan 306 is arranged; a protective roof 307 is mounted outside the barrier 305; a protective plate 308 is mounted on the protective top 307; the lower end of the barrier plate 305 is provided with a third inner tube 309; a fourth inlet 310 is formed in the front end of the third inner tube 309; a second connecting ring 311 is fixedly connected to the outer side of the third inner pipe 309; the third inner tube 309 is rotatably connected with the third outer tube 301 by a second connecting ring 311 and a second chute 304; the power assembly 4 comprises a motor 401, a supporting disc 402, a supporting rod 403, a climbing rod 404, a mounting seat 405, a rotating disc 406 and a second fan 407; a motor 401 is arranged on the inner side of the supporting base 101; a supporting disc 402 is rotatably connected to the rotating shaft of the motor 401; the upper end part of the supporting disc 402 is fixedly connected with a supporting rod 403; a climbing rod 404 is fixedly connected on the supporting rod 403; the upper end part of the supporting rod 403 is fixedly connected with a mounting seat 405; a rotating disc 406 is rotatably connected to the lower end of the mounting seat 405; the second fan 407 is mounted on the rotating disc 406; the third inlet 303 is used for facilitating the ingress and egress of workers, and the blocking plate 305 and the first fan 306 are used for supplying air to the tower; impurities entering the first fan 306 are reduced through the protective roof 307 and the protective plate 308, and the personnel access is facilitated through the fourth inlet 310; the supporting plate 402 and the supporting rod 403 are driven to rotate by the motor 401 so as to drive the first inner tube 105, the second inner tube 204 and the third inner tube 309 to rotate by the climbing rod 404, so that the first inlet 103 and the third inlet 303 are blocked by the first inner tube 105 and the third inner tube 309; a second fan 407 is mounted by the rotating disc 406 in order to increase ventilation efficiency and to act as a rest platform with the rotating disc 406.

Before use, the motor 401 is started to drive the supporting disc 402 and the supporting rod 403 to rotate, so that the climbing rod 404 drives the first inner tube 105, the second inner tube 204 and the third inner tube 309 to rotate, and the first inlet 103 and the third inlet 303 are conveniently opened by utilizing the first inner tube 105 and the third inner tube 309, so that a worker can conveniently enter and exit the device through the first inlet 103 and the second inlet 106;

In use, air is supplied to the tower through the barrier plate 305 and the first fan 306 while debris entering the first fan 306 is reduced by the protective roof 307 and the protective plate 308, and the second fan 407 is mounted by the support bar 403 and the rotating disc 406 to increase ventilation efficiency, and the rotating disc 406 is used as a rest platform for personnel to climb into the third outer tube 301 by the climbing rod 404 and leave the device through the third inlet 303 and the fourth inlet 310 for the rest of the work.

Through the above steps, the apparatus is supported by providing the support base 101 and the first outer tube 102; the first outer tube 102 and the third outer tube 301 are connected by providing the second outer tube 201 and the second connection pad 202; ventilating the inside of the tower and reducing foreign objects by providing a first fan 306 and a protective plate 308; the motor 401 and the supporting rods 403 are arranged to drive the internal components to rotate so as to seal the single-tube tower, so that the problem that in the maintenance process of the single-tube tower, the large communication ports are formed in the prior single-tube tower for ventilation in most of the use processes is solved, rain and snow and animals can enter the single-tube tower easily, the inside of the single-tube tower is polluted easily, the use convenience of the single-tube tower is reduced, and the use convenience of the single-tube tower with a ventilation structure can be improved.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. A single-tube tower with a ventilation structure, comprising a base assembly (1); the method is characterized in that: the air conditioner also comprises a connecting component (2), a ventilation component (3) and a power component (4); the upper end part of the base component (1) is provided with a connecting component (2); the upper end part of the connecting component (2) is provided with a ventilation component (3); the inner side of the ventilation component (3) is provided with a power component (4).

2. A single-tube tower having a ventilation structure as claimed in claim 1, wherein: the base assembly (1) comprises a supporting base (101), a first outer tube (102), a first inlet (103), a first connecting disc (104), a first inner tube (105) and a second inlet (106); the upper end part of the supporting base (101) is fixedly connected with a first outer tube (102); a first inlet (103) is formed in the front end of the first outer tube (102); the upper end part of the first inlet (103) is provided with a first connecting disc (104); the inner side of the first outer tube (102) is rotationally connected with a first inner tube (105); a second inlet (106) is formed in the front end of the first inner tube (105).

3. A single-tube tower having a ventilation structure as claimed in claim 2, wherein: the connecting assembly (2) comprises a second outer tube (201), a second connecting disc (202), a first sliding groove (203), a second inner tube (204) and a first connecting ring (205); the upper end part of the first connecting disc (104) is provided with a second outer tube (201); the upper end and the lower end of the second outer tube (201) are fixedly connected with a second connecting disc (202); a first chute (203) is formed on the inner side of the second outer pipe (201); a first connecting ring (205) is rotationally connected to the inner side of the first chute (203); the first connecting ring (205) is fixedly connected with a second inner tube (204).

4. A single-tube tower having a ventilation structure as claimed in claim 2, wherein: the ventilation assembly (3) comprises a third outer tube (301), a third connecting disc (302), a third inlet (303), a second sliding groove (304), a blocking plate (305), a first fan (306), a protective top (307), a protective plate (308), a third inner tube (309), a fourth inlet (310) and a second connecting ring (311); the upper end part of the second connecting disc (202) at the upper end part is provided with a third outer tube (301); a third connecting disc (302) is fixedly connected to the outer side of the third outer tube (301); a third inlet (303) is formed in the front end part of the third outer tube (301); a second chute (304) is formed in the inner side of the third outer tube (301); a blocking plate (305) is arranged at the upper end part of the third outer tube (301), and a first fan (306) is arranged on the blocking plate.

5. A single-tube tower having a ventilation structure as claimed in claim 4, wherein: a protective roof (307) is arranged outside the blocking plate (305); a protective plate (308) is arranged on the protective top (307); a third inner pipe (309) is arranged at the lower end part of the blocking plate (305); a fourth inlet (310) is formed at the front end part of the third inner tube (309); a second connecting ring (311) is fixedly connected to the outer side of the third inner pipe (309); the third inner tube (309) is rotatably connected to the third outer tube (301) via a second connecting ring (311) and a second sliding groove (304).

6. A single-tube tower having a ventilation structure as claimed in claim 2, wherein: the power assembly (4) comprises a motor (401), a supporting disc (402), a supporting rod (403), a climbing rod (404), a mounting seat (405), a rotating disc (406) and a second fan (407); a motor (401) is arranged on the inner side of the supporting base (101); a supporting disc (402) is rotatably connected to the rotating shaft of the motor (401); the upper end part of the supporting disc (402) is fixedly connected with a supporting rod (403); the support rod (403) is fixedly connected with a climbing rod (404).

7. A single-tube tower having a ventilation structure as claimed in claim 6, wherein: the upper end part of the supporting rod (403) is fixedly connected with a mounting seat (405); a rotating disc (406) is rotatably connected to the lower end part of the mounting seat (405); a second fan (407) is mounted on the rotating disk (406).