CN212786853U

CN212786853U - Fog device falls in manual simulation

Info

Publication number: CN212786853U
Application number: CN202021455413.6U
Authority: CN
Inventors: 庄家尧; 周勇; 郑佳欣; 鞠俊杰; 柳斌; 王同顺; 刘永霞
Original assignee: Jiangsu Yunuo Electronic Technology Co ltd; Nanjing Forestry University
Current assignee: Jiangsu Yunuo Electronic Technology Co ltd; Nanjing Forestry University
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2021-03-26
Anticipated expiration: 2030-07-22

Abstract

The utility model discloses a manual simulation fog-reducing device, which comprises two side columns, wherein water channels are arranged inside the two side columns, and the lower ends of the two side columns are connected with a water pump provided with inlet water through water pipes; a fog falling pipe is transversely arranged between the two sides of the upper end of the upright post; and the upper ends of the upright columns on the two sides are also provided with sleeves transversely arranged at the positions corresponding to the side surfaces, the sleeves are communicated with a water channel inside the fog falling pipe, and the outer diameter of the fog falling pipe is smaller than the inner diameter of the sleeves. The device can correspondingly adjust the spraying direction of the fog dropping pipe, and can realize forward spraying, backward spraying or vertical spraying; and can also be through servo motor control spray tube reciprocating rotation all around, the scope of spraying is bigger like this to along with the reciprocating rotation that makes a round trip of spray tube, the spraying can be more even, and the simulation effect is better.

Description

Fog device falls in manual simulation

Technical Field

The utility model relates to a manual simulation technical equipment field, a fog device falls in manual simulation specifically says so.

Background

In the prior art, in a device for manually simulating fog precipitation, the main structure is to realize the simulated fog precipitation through a water pump, a fog precipitation pipe and a fog precipitation nozzle; the position of the fog-dropping spray head in the prior art is usually fixed and nonadjustable, so that the range of simulating fog-dropping is limited, and the fog-dropping is very uneven and all the fog-dropping is concentrated in one area and is very unreasonable.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a manual simulation fog-reducing device aiming at the defects of the prior art; the technical scheme is as follows:

a manual simulation fog-falling device comprises upright columns at two sides, wherein water channels are arranged inside the upright columns at the two sides, and the lower ends of the upright columns are connected with a water pump provided with inlet water through water pipes; a fog falling pipe is transversely arranged between the two sides of the upper end of the upright post; the upper ends of the upright columns on the two sides are also transversely provided with sleeves corresponding to the side surfaces, the sleeves are communicated with a water channel in the fog-reducing pipe, the outer diameter of the fog-reducing pipe is smaller than the inner diameter of the sleeve, the two ends of the fog-reducing pipe are respectively embedded in the sleeves on the two sides, the two ends of the fog-reducing pipe are also provided with sealing plates embedded in the sleeves, so that the fog-reducing pipe is rotatably embedded in the sleeves on the two sides in a sealing manner, and the lower end part of the fog-reducing pipe is also provided with a row of fog-reducing nozzles with uniform intervals; and the upper end of the upright posts on two sides is also provided with a transverse platform, the transverse platform at one end is correspondingly provided with a servo motor, the other end is correspondingly provided with a bearing device, a screw rod of the servo motor is transversely arranged on the bearing device at the other end, the screw rod is correspondingly arranged above the mist reducing pipe, the screw rod is also provided with gears with uniform intervals, the upper end surface of the mist reducing pipe is correspondingly provided with an arc-shaped rack which corresponds to the gear position and is arranged in a meshed manner with the gears, and the mist reducing pipe can correspondingly rotate in a reciprocating manner under the driving of the servo motor.

Preferably, the screw rod of the servo motor is arranged right above the fog dropping pipe; in order to ensure that the screw rod of the servo motor and the mist dropping pipe are correspondingly installed, the positions of the screw rod and the mist dropping pipe are set.

Preferably, the radian of the arc-shaped rack is set to be 90 degrees, and the reciprocating rotation direction of the corresponding servo motor does not exceed 90 degrees.

Preferably, three gears on the screw rod of the servo motor are uniformly arranged at intervals, and the positions and the number of the arc-shaped racks on the mist falling pipe are correspondingly arranged.

Preferably, sealing gaskets are arranged between the sealing plates at the two ends of the fog falling pipe and the sleeve.

Preferably, the inner diameter of the sleeve is twice of the inner diameter of the fog-reducing pipe; the outer diameter of the sleeve is set to be larger, and the inner diameter of the mist reducing pipe is set to be smaller, so that water flow can be accelerated rapidly according to the Venturi principle, and mist can be smoothly sprayed out from the mist reducing pipe.

Preferably, the bottoms of the upright posts on the two sides are provided with water pumps which are correspondingly connected to the water pool; to increase the circulating spray, a water pump may be provided and connected to the water reservoir.

Has the advantages that: the utility model discloses following beneficial effect has:

(1) when the device is used, a water body is sent into the water channel through the water pump, flows into the fog-dropping pipe through the sleeve, and is sprayed out through the fog-dropping nozzle arranged on the fog-dropping pipe to form a simulated fog-dropping effect; in the device, the fog dropping pipe and the screw rod of the servo motor above the fog dropping pipe are correspondingly arranged and are correspondingly installed through the meshing of the gear and the arc-shaped rack, so that the fog dropping pipe is driven by the servo motor to rotate, the spraying direction of the fog dropping pipe can be correspondingly adjusted, and the fog dropping can be realized by forward spraying, backward spraying or vertical spraying; the spraying pipe can be controlled to rotate back and forth in a reciprocating mode through the servo motor, so that the spraying range is larger, the spraying is more uniform along with the reciprocating rotation of the spraying pipe, and the simulation effect is better;

(2) in order to realize rotation and sealing of the spray pipe, the upper ends of the upright columns on two sides are provided with the transversely installed sleeves, the sleeves are communicated with the water channels in the upright columns, two ends of the spray pipe are embedded in the sleeves through the arranged sealing plates, and the sealing gaskets are correspondingly arranged, so that the spray pipe can rotate and can be sealed, and the structure is reasonable; in addition, the inner diameter of the sleeve is larger, the inner diameter of the spray pipe is smaller, so that the water entering the spray pipe from the sleeve is suddenly reduced in diameter, the flow speed is increased, the spray pipe is sprayed out in a vaporific structure more easily, and the spraying device is reasonable in structure and convenient to use.

Drawings

FIG. 1 is a view of the structure of the present invention;

fig. 2 is a sectional view taken along line a-a of fig. 1.

Detailed Description

The present invention will be further clarified by the following embodiments with reference to the attached drawings, which are implemented on the premise of the technical solution of the present invention, and it should be understood that these embodiments are only used for illustrating the present invention and are not used for limiting the scope of the present invention.

As shown in fig. 1 and 2, the artificial simulation fog-falling device comprises upright posts 1 at two sides, wherein water channels 2 are arranged inside the upright posts 1 at two sides, and the lower ends of the upright posts 1 are connected with a water pump 3 for feeding water through a water pipe; a fog falling pipe 4 is transversely arranged between the two sides of the upper end of the upright post 1; the upper ends of the upright columns 1 at two sides are also transversely provided with sleeves 5 corresponding to the side positions, the sleeves 5 are communicated with the water channels 2 in the fog-reducing pipes 4, the outer diameters of the fog-reducing pipes 4 are smaller than the inner diameters of the sleeves 5, two ends of the fog-reducing pipes 4 are respectively embedded in the sleeves 5 at two sides, sealing plates 6 are further arranged at two ends of the fog-reducing pipes 4 and are embedded in the sleeves 5, so that the fog-reducing pipes 4 are rotatably embedded in the sleeves 5 at two sides in a sealing manner, and the lower ends of the fog-reducing pipes 4 are further provided with a row of fog-reducing nozzles 7 with uniform intervals; and the upper end of the upright posts 1 on both sides is also provided with a transverse platform 14, the transverse platform 14 at one end is correspondingly provided with a servo motor 8, the other end is correspondingly provided with a bearing device 9, a screw 10 of the servo motor 8 is transversely arranged on the bearing device 9 at the other end, the screw 10 is correspondingly arranged above the fog falling pipe 4, the screw 10 is also provided with gears 11 with uniform intervals, the upper end surface of the fog falling pipe 4 is correspondingly provided with an arc-shaped rack 12 which corresponds to the gear 11 and is meshed with the gear 11, and the fog falling pipe 4 can correspondingly rotate in a reciprocating way under the drive of the servo motor 8.

A screw 10 of the servo motor 8 is arranged right above the fog dropping pipe 4; in order to ensure that the screw of the servo motor 8 and the mist falling pipe 4 are correspondingly arranged, the positions of the screw and the mist falling pipe are set; the radian of the arc-shaped rack 12 is set to be 90 degrees, and the reciprocating rotation direction of the corresponding servo motor 8 does not exceed 90 degrees; three gears 11 on a screw 10 of the servo motor 8 are uniformly arranged at intervals, and the positions and the number of the arc-shaped racks 12 on the fog falling pipe 4 are correspondingly arranged; sealing gaskets 13 are arranged between the sealing plates 6 at the two ends of the fog falling pipe 4 and the sleeve 5; the inner diameter of the sleeve 5 is twice of the inner diameter of the fog-dropping pipe 4; the outer diameter of the sleeve 5 is set to be larger, and the inner diameter of the fog falling pipe 4 is set to be smaller, so that the water flow can be rapidly accelerated according to the Venturi principle, and the fog can be smoothly sprayed out from the fog falling pipe 4; the bottoms of the upright posts 1 on the two sides are respectively provided with a water pump 3, and the water pumps 3 are correspondingly connected to the water pool; to increase the circulating spray, a water pump 3 may be provided and connected to the water basin.

When the device is used, a water body is sent into the water channel through the water pump, flows into the fog-dropping pipe through the sleeve, and is sprayed out through the fog-dropping nozzle arranged on the fog-dropping pipe to form a simulated fog-dropping effect; in the device, the fog dropping pipe and the screw rod of the servo motor above the fog dropping pipe are correspondingly arranged and are correspondingly installed through the meshing of the gear and the arc-shaped rack, so that the fog dropping pipe is driven by the servo motor to rotate, the spraying direction of the fog dropping pipe can be correspondingly adjusted, and the fog dropping can be realized by forward spraying, backward spraying or vertical spraying; and can also be through servo motor control spray tube reciprocating rotation all around, the scope of spraying is bigger like this to along with the reciprocating rotation that makes a round trip of spray tube, the spraying can be more even, and the simulation effect is better.

In order to realize rotation and sealing of the spray pipe, the upper ends of the upright columns on two sides are provided with the transversely installed sleeves, the sleeves are communicated with the water channels in the upright columns, two ends of the spray pipe are embedded in the sleeves through the arranged sealing plates, and the sealing gaskets are correspondingly arranged, so that the spray pipe can rotate and can be sealed, and the structure is reasonable; in addition, the inner diameter of the sleeve is larger, the inner diameter of the spray pipe is smaller, so that the water entering the spray pipe from the sleeve is suddenly reduced in diameter, the flow speed is increased, the spray pipe is sprayed out in a vaporific structure more easily, and the spraying device is reasonable in structure and convenient to use.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the invention and the appended claims, and all equivalent changes and modifications made according to the claims should be included in the scope of the present invention.

Claims

1. The utility model provides a fog device falls in manual simulation which characterized in that: the water-saving device comprises upright columns (1) on two sides, wherein water channels (2) are arranged inside the upright columns (1) on the two sides, and the lower ends of the upright columns (1) are connected with a water pump (3) for feeding water through a water pipe; a fog falling pipe (4) is transversely arranged between the two sides of the upper end of the upright post (1); the upper ends of the upright columns (1) on the two sides are also transversely provided with sleeves (5) corresponding to the side positions, the sleeves (5) are communicated with the water channels (2) in the fog falling pipes (4), the outer diameters of the fog falling pipes (4) are smaller than the inner diameters of the sleeves (5), the two ends of each fog falling pipe (4) are respectively embedded in the sleeves (5) on the two sides, sealing plates (6) are further arranged at the two ends of each fog falling pipe (4) and embedded in the sleeves (5), so that the fog falling pipes (4) are rotatably embedded in the sleeves (5) on the two sides in a sealing mode, and the lower end parts of the fog falling pipes (4) are further provided with a row of fog falling spray nozzles (7) with uniform intervals; and horizontal platform (14) are all still installed to the upper end of both sides stand (1), and corresponding servo motor (8) are installed to the horizontal platform (14) of its one end on, bearing device (9) are then installed to the other end correspondingly, and horizontal installation is to the bearing device (9) of the other end on screw rod (10) of servo motor (8), and corresponding the setting of screw rod (10) is in the top of falling fog pipe (4), and still install evenly spaced gear (11) on screw rod (10), and the up end of falling fog pipe (4) then corresponding install with gear (11) position and with arc rack (12) of gear (11) meshing installation, fall fog pipe (4) can corresponding reciprocating rotation under servo motor (8)'s the drive.

2. The artificial fog-reducing device according to claim 1, wherein: and a screw rod (10) of the servo motor (8) is arranged right above the fog falling pipe (4).

3. The artificial fog-reducing device according to claim 2, characterized in that: the radian of the arc-shaped rack (12) is set to be 90 degrees, and the reciprocating rotation direction of the corresponding servo motor (8) is not more than 90 degrees.

4. The artificial fog-reducing device according to claim 1, wherein: three gears (11) on a screw rod (10) of the servo motor (8) are uniformly arranged at intervals, and the positions and the number of arc-shaped racks (12) on the mist falling pipe (4) are correspondingly arranged.

5. The artificial fog-reducing device according to claim 1, wherein: sealing gaskets (13) are arranged between the sealing plates (6) at the two ends of the fog falling pipe (4) and the sleeve (5).

6. The artificial fog-reducing device according to claim 1, wherein: the inner diameter of the sleeve (5) is twice of the inner diameter of the fog falling pipe (4).

7. The artificial fog-reducing device according to claim 1, wherein: the bottoms of the upright posts (1) on the two sides are respectively provided with a water pump (3), and the water pumps (3) are correspondingly connected to the water pool.