CN115039678B

CN115039678B - Atomization humidification effect control system of ecological bonsai

Info

Publication number: CN115039678B
Application number: CN202210725096.2A
Authority: CN
Inventors: 王伟
Original assignee: Huoshanbu Town Gardening Co ltd
Current assignee: Huoshanbu Town Gardening Co ltd
Priority date: 2022-06-23
Filing date: 2022-06-23
Publication date: 2023-12-01
Anticipated expiration: 2042-06-23
Also published as: CN115039678A

Abstract

The application discloses an atomization humidification effect control system of an ecological bonsai, which comprises a plurality of sprayers arranged in a bonsai pool, a manifold block arranged in the pool and an air blowing device for providing power for each sprayer; the sprayer is also provided with a water drawing device for drawing water in the water tank; a ventilation main pipe is connected between the air blowing device and the manifold block, an air collecting cavity communicated with the ventilation main pipe is arranged in the manifold block, the bottom of the sprayer is connected with a ventilation hose, and the ventilation hose is connected with the manifold block and communicated with the air collecting cavity; the air blowing device pressurizes air and sequentially discharges the air through the manifold block and the sprayer, and meanwhile, the water drawing device draws water into the sprayer, so that air sprayed by the sprayer carries water drops, an atomization humidifying effect is generated, the humidity environment in the bonsai is maintained, and the bonsai effect is enhanced.

Description

Atomization humidification effect control system of ecological bonsai

Technical Field

The application relates to the technical field of artificial bonsais, in particular to an atomization humidification effect control system of an ecological bonsai.

Background

Bonsai, one of the excellent traditional arts in China, is an artwork which takes plants and mountain stones as basic materials to represent natural landscapes in the pot. The artistic flowerpot takes plants, mountain stones, soil, water and the like as materials, is cultivated by artistic creation and gardening, is used for typically and intensively shaping beautiful scenery of nature in a pot, achieves the artistic effects of shrinking the land to form a inch, seeing the small, medium and large, and simultaneously shows a profound mood as a three-dimensional beautiful reduced version of mountain and water scenic spots with scenery. The potted landscape is composed of three elements of scenery, basin and frame, which are linked together to form a unified whole.

With the rapid development of the artificial bonsai technology, the requirement on the ornamental effect of the bonsai is higher and higher, the existing artificial bonsai needs to keep a certain humidity environment in the bonsai during daily maintenance, and the atomization effect is also needed in the bonsai so as to enhance the bonsai effect.

Disclosure of Invention

In order to maintain the humidity environment of the bonsai and enhance the atomization effect of the bonsai, the application provides an atomization humidification effect control system of the ecological bonsai.

The application provides an atomization humidification effect control system for an ecological bonsai, which adopts the following technical scheme:

an atomization humidification effect control system of an ecological bonsai comprises a plurality of sprayers which are arranged in a bonsai pool, a manifold block which is arranged in the pool, and an air blowing device which is used for providing power for each sprayer; the sprayer is also provided with a water drawing device for drawing water in the water tank; a ventilation main pipe is connected between the air blowing device and the manifold block, an air collecting cavity communicated with the ventilation main pipe is arranged in the manifold block, the bottom of the sprayer is connected with a ventilation hose, and the ventilation hose is connected with the manifold block and communicated with the air collecting cavity; the air blowing device pressurizes air and sequentially discharges the air through the manifold block and the sprayer, and meanwhile, the water drawing device draws water into the sprayer, so that air sprayed out of the sprayer carries water drops, and an atomization humidifying effect is achieved.

Through the technical scheme, when spraying humidification is carried out on the bonsai, a user starts the air blowing device, pressurized air sequentially passes through the ventilation main pipe, the manifold block and the ventilation hose to enter the sprayer, and meanwhile, the water drawing device draws water into the sprayer, so that the sprayer can generate water vapor, an atomization effect is generated, the humidity environment in the bonsai is maintained, and the bonsai effect is enhanced.

Further, the sprayer comprises a sinking shell and a shrinking shell connected to the top of the sinking shell, wherein the inner diameter of the shrinking shell gradually decreases from the end part to the middle part; the water drawing device is communicated with the middle part of the inner shrink tube shell; one end of the ventilation hose is connected with the manifold block, the other end of the ventilation hose is communicated with the bottom of the sinking shell, and the lower end of the inner shrinkage shell is communicated with the inside of the sinking shell.

Through the technical scheme, when the air blowing device is started, high-pressure air enters the inner shrinking shell through the sinking shell, when the high-pressure air passes through the middle part of the inner shrinking shell, the passing area is gradually reduced, the air flow speed is increased, the flowing air pressure at the position is reduced, the adsorption force is generated, the water extracted by the water drawing device is mixed into the high-speed air and is crushed, and therefore spraying is formed, the structure is simple and ingenious, and the water is uniformly diffused.

Further, the water drawing device comprises a floating air bag sleeved on the middle part of the shrinking tube shell and a water storage arc-shaped ring piece connected to the inner side of the floating air bag, the inner side of the water storage arc-shaped ring piece is fixedly connected with the side wall of the shrinking tube shell, the cross section of the water storage arc-shaped ring piece is in a concave arc shape, and a water inlet hole is formed in the bottom of the water storage arc-shaped ring piece; and a water drawing hole is formed in the side wall of the middle part of the retraction tube shell, one end of the water drawing hole is communicated with the concave part of the water storage arc-shaped ring piece, and the other end of the water drawing hole is communicated with the inner wall of the retraction tube shell.

Through the technical scheme, moisture in the bonsai enters the inner concave part of the water storage arc ring piece through the water inlet hole, then when the air blowing device is started, negative pressure is formed in the middle part of the inner shrinking tube shell, so that the moisture in the water storage arc ring piece is absorbed into the inner shrinking tube shell through the water drawing hole, and the absorbed moisture is crushed and mixed into high-speed air flow under the friction of the high-speed air flow, so that water mist is formed.

Further, the bottom of the floating air bag is connected with a water receiving pipe, one end of the water receiving pipe is connected with the side wall of the shrinking tube shell, and the other end of the water receiving pipe is communicated with the inside of the floating air bag; the connecting part of the water receiving pipe and the inner shrink tube shell is positioned below the middle part of the inner shrink tube shell.

Through the technical scheme, the inflation frequency of the air blowing device is controlled, the inner shrinking tube shell can be adjusted to enter the air in the floating air bag through the water receiving tube, so that the levitation force of the floating air bag is adjusted, the floating air bag sinks in a gap where the air blowing device stops blowing, water in the bonsai can enter the water storage arc-shaped ring piece through the water inlet hole, water mist is formed when the air blowing device blows air, water drawing circulation is formed, the concentration of the formed water mist can be controlled through the air blowing frequency and amplitude of the air blowing device, and the control logic is simple and effective.

Further, the water receiving pipe is arc-shaped, and the middle part of the water receiving pipe is upwards arched.

Through above-mentioned technical scheme, the setting of water receiving pipe does benefit to the air in the shrink tube shell and gets into in the floating gasbag.

Further, a dosing port is formed in the side wall of the shrink tube shell, a dosing bottle is connected with the dosing port in a threaded mode, a dosing inclined hole is formed in the side wall of the shrink tube shell, one end of the dosing inclined hole is communicated with the middle of the inner wall of the shrink tube shell, and the other end of the dosing inclined hole is communicated with the dosing port.

Through the technical scheme, when the air blowing device is started, the liquid medicine in the medicine adding bottle can enter the inner shrink tube shell through the medicine adding inclined hole, so that the liquid medicine is mixed into the water mist, and the plants in the bonsai are uniformly added with medicine.

In summary, the present application includes at least one of the following beneficial technical effects:

(1) When spraying and humidifying the bonsai, a user starts the air blowing device, so that pressurized air sequentially enters the sprayer through the ventilation main pipe, the manifold block and the ventilation hose, and meanwhile, the water drawing device draws water into the sprayer, so that the sprayer can generate water vapor, an atomization effect is generated, the humidity environment in the bonsai is maintained, and the bonsai effect is enhanced;

(2) When the air blowing device is started, high-pressure air enters the inner shrinking shell through the sinking shell, and when the high-pressure air passes through the middle part of the inner shrinking shell, the passing area is gradually reduced, so that the flowing air pressure at the position is reduced, the adsorption force is generated, the water extracted by the water drawing device is mixed into the high-speed air and crushed, the spray is formed, the structure is simple and ingenious, and the water is uniformly diffused;

(3) The air filling frequency of the air blowing device is controlled, the inner shrinking tube shell can be adjusted to enter the air in the floating air bag through the water receiving tube, so that the levitation force of the floating air bag is adjusted, the floating air bag sinks in a gap where the air blowing device stops blowing, water in the bonsai can enter the water storage arc ring piece through the water inlet hole, water mist is formed when the air blowing device blows air, water drawing circulation is formed, the concentration of the formed water mist can be controlled through the air blowing frequency and amplitude of the air blowing device, and the control logic is simple and effective.

Drawings

FIG. 1 is a schematic diagram of a control system for atomizing and humidifying effects for a ecological bonsai;

FIG. 2 is a schematic view of the external structure of the atomizer;

FIG. 3 is a schematic view of the internal structure of the atomizer;

fig. 4 is a schematic diagram of a start-up cycle coordinate of the air-blowing device.

The reference numerals in the figures illustrate:

1. a sprayer; 11. a sinking shell; 12. an internally shrinking tube shell; 121. a water drawing hole; 2. a manifold block; 3. a water drawing device; 31. a floating air bag; 311. a water receiving pipe; 32. a water storage arc ring piece; 321. a water inlet hole; 4. a gas blowing device; 5. a ventilation manifold; 6. a ventilation hose; 71. a medicine adding port; 72. and (5) adding a medicine bottle.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, a plurality of sprayers 1 are arranged in a water pool of an ecological bonsai, a manifold block 2 is arranged in the water pool, a water drawing device 3 is arranged on the sprayers 1, and an air blowing device 4 for providing power for each sprayer 1, wherein the air blowing device 4 can be an air pump.

Referring to fig. 1, a ventilation manifold 5 is connected between an air-blowing device 4 and a manifold block 2, an air collection cavity communicated with the ventilation manifold 5 is arranged in the manifold block 2, a ventilation hose 6 is connected to the bottom of the sprayer 1, and the ventilation hose 6 is connected with the manifold block 2 and communicated with the air collection cavity. The air blowing device 4 pressurizes air and sequentially discharges the air through the manifold block 2 and the sprayer 1, and meanwhile, the water drawing device 3 draws water into the sprayer 1, so that the air sprayed by the sprayer 1 carries water drops, and an atomization humidifying effect is generated.

Referring to fig. 1 and 2, the atomizer 1 includes a submerged housing 11 and a telescopic housing 12 connected to the top of the submerged housing 11, the inner diameter of the telescopic housing 12 gradually decreasing in the end-to-middle direction. One end of the air hose 6 is connected with the manifold block 2, the other end is communicated with the bottom of the sinking shell 11, and the lower end of the inner shrink tube shell 12 is communicated with the inside of the sinking shell 11.

Referring to fig. 2 and 3, the water drawing device 3 includes a floating air bag 31 sleeved on the middle part of the inner shrink tube shell 12, and a water storage arc-shaped ring piece 32 connected to the inner side of the floating air bag 31, wherein the inner side of the water storage arc-shaped ring piece 32 is fixedly connected with the side wall of the inner shrink tube shell 12, the cross section of the water storage arc-shaped ring piece 32 is in a concave arc shape, and a water inlet 321 is formed in the bottom of the water storage arc-shaped ring piece 32. The middle side wall of the inner shrink tube shell 12 is provided with a water drawing hole 121, one end of the water drawing hole 121 is communicated with the concave part of the water storage arc-shaped ring piece 32, and the other end is communicated with the inner wall of the inner shrink tube shell 12. Referring to fig. 3, the bottom of the floating airbag 31 is connected with a water pipe 311, one end of the water pipe 311 is connected to the side wall of the telescopic tube 12, and the other end is communicated with the inside of the floating airbag 31. The joint between the water receiving pipe 311 and the inner shrink tube shell 12 is positioned below the middle part of the inner shrink tube shell 12. The water receiving pipe 311 is arc-shaped, and the middle part of the water receiving pipe 311 is upwards arched.

Referring to fig. 2, a dosing port 71 is formed on the side wall of the inner shrink tube shell 12, a dosing bottle 72 is connected with the dosing port 71 in a threaded manner, a dosing inclined hole is formed in the side wall of the inner shrink tube shell 12, one end of the dosing inclined hole is communicated with the middle part of the inner wall of the inner shrink tube shell 12, and the other end of the dosing inclined hole is communicated with the dosing port 71. And the medication-adding inclined hole is located at one end higher than the other end in the shrink tube shell 12.

The embodiment of the application relates to an atomization humidification effect control system for ecological bonsai, which comprises the following implementation principle: before the atomization humidification effect control system is used, a user sets the atomization humidification effect control system in a closed bonsai, the user evenly sets each sprayer 1 on a water body, places a manifold block 2 in the water body, then connects an air blowing device 4 positioned outside the bonsai through a ventilation main pipe 5, and finally pours plant curing liquid medicine into a medicine adding bottle 72.

When using the system, the user activates the air-blowing device 4, and the air-blowing device 4 is activated according to the periodic law in fig. 4.

In the interval time period between the starting of the air blowing device 4, the starting of the air blowing device 4 is stopped, the air in the floating air bag 31 leaks through the water receiving pipe 311 and the shrinking shell 12, so that the buoyancy of the floating air bag 31 is reduced, the water storage arc-shaped ring piece 32 is sunk, and the water in the bonsai can enter the water storage arc-shaped ring piece 32 through the water inlet 321, so that the water drawing work is completed.

In the starting time period of the air-blowing device 4, the air-blowing device 4 generates high-pressure air to sequentially pass through the air manifold 5, the manifold block 2, the air hose 6 and the sinking shell 11 to enter the shrinking shell 12, and the inner diameter of the middle part of the shrinking shell 12 is reduced, so that the high-speed air flow is further accelerated, negative pressure is generated in the middle part of the shrinking shell 12, moisture entering the water storage arc-shaped ring piece 32 in the starting interval time period is drawn into the shrinking shell 12, and the moisture is diffused into the air flow due to the collision of the high-speed air flow in the shrinking shell 12, so that water mist is formed and sprayed out from the upper end of the shrinking shell 12, an atomization effect is generated, the humidity environment in the bonsai is maintained, and the bonsai effect is enhanced.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. An atomization humidification effect control system of ecological bonsai is characterized in that: the device comprises a plurality of sprayers (1) arranged in a bonsai pool, a manifold block (2) arranged in the pool and an air blowing device (4) for providing power for each sprayer (1); the sprayer (1) is also provided with a water drawing device (3) for drawing water in the water tank; a ventilation main pipe (5) is connected between the air blowing device (4) and the manifold block (2), an air collection cavity communicated with the ventilation main pipe (5) is arranged in the manifold block (2), the bottom of the sprayer (1) is connected with a ventilation hose (6), and the ventilation hose (6) is connected with the manifold block (2) and communicated with the air collection cavity; the air blowing device (4) pressurizes air and sequentially discharges the air through the manifold block (2) and the sprayer (1), and meanwhile, the water drawing device (3) draws water into the sprayer (1) so that the air sprayed by the sprayer (1) carries water drops to generate an atomization humidifying effect; the sprayer (1) comprises a sinking shell (11) and a shrinking-in shell (12) connected to the top of the sinking shell (11), wherein the inner diameter of the shrinking-in shell (12) gradually decreases from the end to the middle; the water drawing device (3) is communicated with the middle part of the inner shrink tube shell (12); one end of the ventilation hose (6) is connected with the manifold block (2), the other end of the ventilation hose is communicated with the bottom of the sinking shell (11), and the lower end of the retraction tube shell (12) is communicated with the inside of the sinking shell (11); the water drawing device (3) comprises a floating air bag (31) sleeved on the middle part of the shrinking tube shell (12), and a water storage arc-shaped ring piece (32) connected to the inner side of the floating air bag (31), wherein the inner edge of the water storage arc-shaped ring piece (32) is fixedly connected with the side wall of the shrinking tube shell (12), the cross section of the water storage arc-shaped ring piece (32) is in a concave arc shape, and a water inlet hole (321) is formed in the bottom of the water storage arc-shaped ring piece (32); the side wall of the middle part of the shrinking tube shell (12) is provided with a water drawing hole (121), one end of the water drawing hole (121) is communicated with the concave part of the water storage arc-shaped ring piece (32), and the other end of the water drawing hole is communicated with the inner wall of the shrinking tube shell (12).

2. The atomizing and humidifying effect control system of an ecological bonsai according to claim 1, wherein: the bottom of the floating air bag (31) is connected with a water receiving pipe (311), one end of the water receiving pipe (311) is connected with the side wall of the inward shrinking tube shell (12), and the other end of the water receiving pipe is communicated with the inside of the floating air bag (31); the communicating part of the water receiving pipe (311) and the shrinking tube shell (12) is positioned below the middle part of the shrinking tube shell (12).

3. The atomizing and humidifying effect control system of the ecological bonsai according to claim 2, wherein: the water receiving pipe (311) is arc-shaped, and the middle part of the water receiving pipe (311) is upwards arched.

4. The atomizing and humidifying effect control system of an ecological bonsai according to claim 1, wherein: the utility model discloses a medicine adding device, including interior shrink tube shell (12), including inner shrink tube shell (12) and outer shrink tube shell, the shaping has medicine adding port (71) on the side wall of inner shrink tube shell (12), medicine adding port (71) threaded connection has medicine adding bottle (72), the inclined hole that adds has been seted up in the lateral wall of inner shrink tube shell (12), medicine adding inclined hole one end and inner shrink tube shell (12) inner wall middle part intercommunication, the other end with medicine adding port (71) intercommunication.