CN220476511U - Microclimate adjusting device applied to gardens - Google Patents

Abstract

The utility model discloses a microclimate adjusting device applied to gardens, which comprises a movable water pipe, a supporting frame, a water conveying structure, an adjusting structure, a humidity sensor and a controller, wherein the movable water pipe is arranged on the supporting frame; 2 movable water pipes are arranged, each movable water pipe is provided with a plurality of spray heads, and the right end of each movable water pipe is closed; the four supporting frames are respectively arranged at two ends of the movable water pipe; the water delivery structure comprises a water delivery pipe, a water inlet pipe and a pump; the adjusting structure is arranged on the first support frame and connected with the two movable water pipes, and the adjusting structure drives the movable water pipes to do reciprocating swing motion; the humidity sensor is arranged on the movable water pipe; the humidity sensor collects the humidity of gardens and transmits humidity information to the controller, and the controller controls the adjusting structure and the water delivery structure to work according to the humidity information, so that the amplitude of the reciprocating swing of the movable water pipe and the water spraying intensity are controlled. The utility model can adjust the watering range and intensity according to the humidity of gardens.

Description

Microclimate adjusting device applied to gardens

Technical Field

The utility model relates to the field of garden maintenance, in particular to a microclimate adjusting device applied to gardens, which is used for watering plants in the gardens.

Background

The existing garden watering mode is generally two modes, one is to water plants in the garden directly through an artificial untimely water taking pipe, and the other is to automatically spray and water in a set time. The lack of micro-climate regulating function in the watering mode can lead to growth limitation and even death of plants in gardens due to the influence of extreme weather conditions (such as high temperature, drought and the like). In addition, lack of microclimate regulation function, humidity and temperature in gardens cannot be effectively regulated, and drying or over-wetting of the garden environment may be caused, so that plant growth and comfort of people are affected.

Disclosure of Invention

The main object of the present utility model is to provide a microclimate adjusting device for gardens, which can adjust the watering range and intensity according to the humidity of gardens.

The technical scheme adopted by the utility model is as follows:

a microclimate adjusting device applied to gardens comprises a movable water pipe, a supporting frame, a water conveying structure, an adjusting structure, a humidity sensor and a controller;

2 movable water pipes are arranged in parallel; each movable water pipe is provided with a plurality of spray heads, and the right end of each movable water pipe is closed;

the four support frames are respectively arranged at two ends of the movable water pipe, the first support frame and the second support frame are positioned at the left end of the movable water pipe, and the third support frame and the fourth support frame are positioned at the right end of the movable water pipe;

the water delivery structure comprises a water delivery pipe, a water inlet pipe and a pump; two ends of the water pipe are respectively arranged on the first support frame and the second support frame and are respectively and movably connected with the left ends of the two movable water pipes; the water outlet end of the water inlet pipe is communicated with the middle part of the water delivery pipe; the pump is arranged on the water inlet pipe;

the adjusting structure is arranged on the third supporting frame and the fourth supporting frame, is connected with the two movable water pipes and drives the movable water pipes to do reciprocating swing motion;

the humidity sensor is arranged on the movable water pipe; the humidity sensor collects the humidity of gardens and transmits humidity information to the controller, and the controller controls the adjusting structure and the water delivery structure to work according to the humidity information, so that the amplitude of the reciprocating swing of the movable water pipe and the water spraying intensity are controlled.

According to the scheme, the adjusting structure comprises a linkage pipe, a bevel gear set and a driving assembly;

the linkage pipes are respectively arranged on the third support frame and the fourth support frame;

the bevel gear set includes a first bevel gear and a second bevel gear; the two first conical gears are respectively arranged at two ends of the linkage tube; two second bevel gears are respectively arranged at the right ends of the two movable water pipes; the first bevel gear is meshed with the second bevel gear;

the driving assembly drives the conical gear set to rotate so as to drive the movable water pipe to do reciprocating swing motion; simple and reasonable structure and convenient realization.

According to the scheme, the driving assembly comprises a rotating disc, a driving column, a driving motor, a connecting shaft, a first half tooth and a second half tooth;

the rotating disc is arranged on the first conical gear at the side of the fourth supporting frame; the driving column is arranged on the rotating disc;

the driving motor is arranged on the fourth supporting frame;

the connecting shaft is connected with a driving shaft of the driving motor;

the first half teeth and the second half teeth are arranged on the connecting shaft, and the second half teeth are arranged below the first half teeth; the teeth of the first half tooth and the second half tooth are arranged in a staggered manner, and the first half tooth and the second half tooth are matched with the driving column;

the driving motor drives the connecting shaft to rotate, and the connecting shaft drives the first half teeth and the second half teeth to be respectively meshed with the driving column in an alternating mode;

when the first half teeth are meshed with the driving column, the rotating disk rotates, the rotating disk drives a first conical gear in the fourth supporting frame to rotate, and the first conical gear in the fourth supporting frame drives a second conical gear on a movable water pipe arranged on the fourth supporting frame to rotate, so that the movable water pipe is driven to rotate; the rotating disc drives the linkage pipe to rotate, the linkage pipe drives the first conical gear in the third support frame to rotate, and the first conical gear in the third support frame drives the second conical gear on the other movable water pipe to rotate, so that the movable water pipe is driven to rotate;

when the second half teeth are meshed with the driving column, the rotating disk rotates in the other direction, the rotating disk drives the first conical gear in the fourth supporting frame to rotate in the other direction, and the first conical gear in the fourth supporting frame drives the second conical gear on the movable water pipe arranged on the fourth supporting frame to rotate in the other direction, so that the movable water pipe is driven to rotate in the other direction; the rotating disk drives the linkage pipe to rotate in the other direction, the linkage pipe drives the first conical gear in the third support frame to rotate in the other direction, and the first conical gear in the third support frame drives the second conical gear on the other movable water pipe to rotate in the other direction, so that the movable water pipe is driven to rotate in the other direction; simple structure, easy to realize.

According to the scheme, the water delivery pipe is of a U-shaped structure, and the two ends of the water delivery pipe are respectively and movably connected with the two movable water pipes, so that the water delivery pipe is convenient to install and is convenient to rotate without affecting the movable water pipes.

According to the scheme, the spray heads on each movable water pipe are arranged at equal intervals, so that plants in gardens can be uniformly watered.

According to the scheme, the humidity sensor comprises a plurality of humidity probes, so that the humidity of gardens can be accurately obtained, and better watering can be achieved.

The utility model has the beneficial effects that:

the humidity sensor is arranged on the movable water pipe, the water conveying structure is controlled according to data transmitted by the humidity sensor to adjust the watering intensity, and the adjusting structure is controlled to adjust the watering range, so that microclimate adjustment of gardens is realized, and plants in the gardens are prevented from growing to be limited or even dying due to the influence of extreme weather conditions (such as high temperature, drought and the like); the influence on plant growth and human comfort level caused by dry or over-wet garden environment is avoided;

by arranging the driving motor, the connecting shaft, the first half teeth, the second half teeth and the driving column, the movable water pipe performs reciprocating swing motion, and then the water spraying direction and range of the spray head can be adjusted according to the motion of the adjusting structure, so that accurate adjustment of microclimate in gardens is realized;

according to the detection result of the humidity sensor and the movement of the driving component, the water spraying range and the strength of the spray head are automatically adjusted to meet the micro-climate adjustment requirement required in gardens, automatic micro-climate adjustment is realized, the comfort and the controllability of the garden environment are improved, the most suitable micro-climate conditions are provided for gardens, and more pleasant garden experience is created for people.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a microclimate regulating device applied to gardens;

fig. 2 is a schematic structural view of another view angle of the micro climate adjusting device applied to gardens;

FIG. 3 is a schematic structural view of an adjustment structure;

FIG. 4 is an enlarged view of A in FIG. 2;

in the figure: 1. the movable water pipe, 2, the shower nozzle, 3, the support frame, 3.1, first support frame, 3.2, second support frame, 3.3, third support frame, 3.4, fourth support frame, 4, the raceway, 5, the inlet tube, 6, the pump, 7, the linkage pipe, 8.1, first conical gear, 8.2, second conical gear, 9, the rotary disk, 10, the actuating post, 11, driving motor, 12, the connecting axle, 13, first half tooth, 14, second half tooth, 15, humidity transducer.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Example 1

Referring to fig. 1 and 4, a microclimate adjusting device for garden comprises a movable water pipe 1, a supporting frame 3, a water delivery structure, an adjusting structure, a humidity sensor 15 and a controller.

2 movable water pipes 1 are arranged in parallel; a plurality of spray heads 2 distributed at equal intervals are arranged on each movable water pipe 1, and the right end of each movable water pipe 1 is closed.

The four support frames 3 are respectively arranged at two ends of the movable water pipe 1, a first support frame 3.1 and a second support frame 3.2 are arranged at the left end of the movable water pipe 1, and a third support frame 3.3 and a fourth support frame 3.4 are arranged at the right end of the movable water pipe 1.

The water delivery structure comprises a water delivery pipe 4, a water inlet pipe 5 and a pump 6; the water delivery pipe 4 is U-shaped, the U-shaped water delivery pipe 4 is convenient to connect with the two movable water pipes 1, and the rotation of the two movable water pipes 1 can be ensured. The two ends are respectively arranged on the first support frame 3.1 and the second support frame 3.2 and are respectively and movably connected with the left ends of the two movable water pipes 1 so that the water pipe 4 does not influence the rotation of the movable water pipes 1; the water outlet end of the water inlet pipe 5 is communicated with the middle part of the water delivery pipe 4; the pump 6 is mounted on the inlet pipe 5. The water delivery pipe 4 is used for delivering water into the movable water pipe 1 through the pump 6, a continuous water source is provided for the movable water pipe 1, the water inlet pipe 5 is used for delivering the water source into the water delivery pipe 4 and then delivering the water into the movable water pipe 1 through the water delivery pipe 4, and the pump 6 is used for extracting and pushing the water from the water source into the water inlet pipe 5 and then delivering the water into the movable water pipe 1 through the water delivery pipe 4. The working procedure is as follows: the pump 6 is started to pump water from a water source and push the water into the water inlet pipe 5, then the water inlet pipe 5 conveys the water into the water conveying pipe 4 communicated with the water inlet pipe, the water conveying pipe 4 conveys the water into the movable water pipe 1 rotatably connected with the water conveying pipe, and the water in the movable water pipe 1 is sprayed out through the spray head 2, so that microclimate adjustment of gardens is realized.

The adjusting structure is arranged on the third supporting frame 3.3 and the fourth supporting frame 3.4 and is connected with the two movable water pipes 1, and the adjusting structure drives the movable water pipes 1 to do reciprocating swing motion.

The humidity sensor 15 is provided with a plurality of humidity probes and is arranged on the movable water pipe 1; humidity sensor 1 gathers the humidity in gardens and gives the controller with humidity information transfer, and the controller is according to humidity information control regulation structure, water delivery structure work, and then control movable water pipe 1 reciprocating pendulum's range and water spray intensity.

When humidity sensor 15 detects that gardens environment humidity is lower, unsuitable vegetation, through the water delivery structure to the inside water delivery of activity water pipe 1, water is spouted through shower nozzle 2 on the activity water pipe 1. At the same time, the adjusting structure starts to start, so that the movable water pipe 1 swings reciprocally. Thus, the water spraying range of the spray head 2 can be flexibly adjusted to meet the requirement of microclimate adjustment in gardens, and in this way, the water spraying range and the strength can be timely adjusted according to the change of the ambient humidity, so that proper microclimate conditions are provided for the gardens, and the plant growth is promoted.

Example 2

Referring to fig. 2 and 3, unlike embodiment 1, the adjustment structure includes a linkage tube 7, a bevel gear set, and a drive assembly.

The linkage pipe 7 is respectively arranged on the third supporting frame 3.3 and the fourth supporting frame 3.4.

The bevel gear set comprises a first bevel gear 8.1 and a second bevel gear 8.2; two first bevel gears 8.1 are respectively arranged at two ends of the linkage pipe 7; two second bevel gears 8.2 are respectively arranged at the right ends of the two movable water pipes 1; the first bevel gear 8.1 and the second bevel gear 8.2 are in mesh.

The function of the linkage tube 7 is to connect the support frame 3 and the first bevel gear 8.1 such that the first bevel gear 8.1 can rotate with the movement of the linkage tube 7. The conical gear set converts the motion of the linkage tube 7 into the reciprocating swing of the movable water pipe 1, so as to adjust the water spraying range of the spray head 2, and the driving component is used for providing power to drive the motion of the linkage tube 7 and the conical gear set. The working procedure is as follows: first, the drive assembly is started, power is supplied, and then power is transmitted to the linkage tube 7, so that the linkage tube 7 starts to move. With movement of the linkage tube 7, the bevel gear set will also rotate accordingly. Because the second conical gear 8.2 on the movable water pipe 1 and the first conical gear 8.1 on the linkage pipe 7 are meshed with each other, the rotation of the first conical gear 8.1 drives the second conical gear 8.2 connected with the movable water pipe 1 to rotate, so that the movable water pipe 1 swings reciprocally. The swinging movable water pipe 1 can change the water spraying direction and range of the spray head 2, so that the microclimate is adjusted, and the water spraying range and strength of the spray head 2 can be automatically adjusted according to the detection result of the humidity sensor 15 and the movement of the adjusting structure through the cooperative work of the series of actions, so as to meet the microclimate adjustment required in gardens.

The drive assembly comprises a rotary disk 9, a drive column 10, a drive motor 11, a connecting shaft 12, a first half tooth 13 and a second half tooth 14. The rotary disk 9 is arranged on the first conical gear 8.1 at the side of the fourth supporting frame 3.4; the drive post 10 is mounted on the rotating disc 9. The driving motor 11 is arranged on the fourth supporting frame 3.4; the connection shaft 12 is connected to a drive shaft of the drive motor 11. The first half tooth 13 and the second half tooth 14 are arranged on the connecting shaft 12, and the second half tooth 14 is arranged below the first half tooth 13; in this embodiment, the teeth of the first half-tooth 13 and the second half-tooth 14 are arranged in a staggered manner, and the first half-tooth 13 and the second half-tooth 14 are matched with the driving column 10.

The driving motor 11 drives the connecting shaft 12 to rotate, and the connecting shaft 12 drives the first half teeth 13 and the second half teeth 14 to be respectively meshed with the driving column 10 in an alternating mode, so that the movable water pipe is driven to do reciprocating swing motion.

When the first half teeth 13 are meshed with the driving post 10, the rotating disk 9 rotates, the rotating disk 9 drives the first conical gear 8.1 in the fourth supporting frame 3.4 to rotate, and the first conical gear 8.1 in the fourth supporting frame 3.4 drives the second conical gear 8.2 on the movable water pipe 1 arranged on the fourth supporting frame 3.4 to rotate, so that the movable water pipe 1 is driven to rotate; the rotating disk 9 drives the linkage pipe 7 to rotate, the linkage pipe 7 drives the first conical gear 8.1 in the third support frame 3.3 to rotate, and the first conical gear 8.1 in the third support frame 3.3 drives the second conical gear 8.2 on the other movable water pipe 1 to rotate, so that the movable water pipe 1 is driven to rotate;

when the second half teeth 14 are meshed with the driving post 10, the rotating disk 9 rotates in the other direction, the rotating disk 9 drives the first conical gear 8.1 in the fourth supporting frame 3.4 to rotate in the other direction, the first conical gear 8.1 in the fourth supporting frame 3.4 is arranged on the movable water pipe 1 on the fourth supporting frame 3.4, the second conical gear 8.2 on the movable water pipe 1 is driven to rotate in the other direction, and the movable water pipe 1 is driven to rotate in the other direction, so that the swing of the movable water pipe 1 is realized; the rotating disk 9 drives the linkage pipe 7 to rotate towards the other direction, the linkage pipe 7 drives the first conical gear 8.1 in the third support frame 3.3 to rotate towards the other direction, the first conical gear 8.1 in the third support frame 3.3 drives the second conical gear 8.2 on the other movable water pipe 1 to rotate towards the other direction, and then the movable water pipe 1 is driven to rotate towards the other direction, so that the swing of the movable water pipe 1 is realized.

The function of the rotating disc 9 is to provide a platform supporting and connecting the drive post 10 so that the drive post 10 can be fixed to the rotating disc 9 and move with the rotation of the rotating disc 9. The driving column 10 is used for driving the rotating disk 9 to move under the driving action of the driving component, so that the reciprocating swing of the two movable water pipes 1 is realized; the drive motor 11 supplies power, and transmits the power to the connecting shaft 12 through the drive shaft. The connecting shaft 12 transmits power to the first half-tooth 13 and the second half-tooth 14, the first half-tooth 13 is meshed with the driving column 10, the power is transmitted to the driving column 10 through rotary motion, the linkage tube 7 is driven to rotate in one direction, the second half-tooth 14 is meshed with the driving column 10, when the first half-tooth 13 is separated from the driving column 10, the second half-tooth 14 is meshed with the driving column 10, the power is transmitted to the driving column 10 through rotary motion, the driving column 10 is driven to rotate in the other direction, and the movable water tube 1 and the spray head 2 are driven to realize reciprocating motion.

The working procedure is as follows: when the drive motor 11 is started, power is supplied to the connecting shaft 12. The connecting shaft 12 rotates with the drive shaft of the drive motor 11, driving the first and second half-teeth 13 and 14, respectively, into engagement with the drive column 10 in an alternating manner. As the connecting shaft 12 rotates, the drive post 10 also follows the rotation. Through the meshing with the drive post 10, the connecting axle 12 transmits power to the rotary disk 9, and the motion on the rotary disk 9 can transmit to the linkage pipe 7, finally realizes the reciprocal swing of movable water pipe 1 and shower nozzle 2 on the movable water pipe 1 under the effect of the tapered gear group. Thus, the corresponding adjustment and movement can be realized, the water spraying range and intensity of the spray head 2 are changed to adapt to the micro-climate adjustment requirement of gardens, and the water spraying range and intensity of the spray head 2 can be automatically adjusted according to the detection result of the humidity sensor 15 and the movement of the driving assembly through the cooperative work of the rotating disc 9 and the driving column 10 so as to meet the micro-climate adjustment required in gardens

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (6)

1. A microclimate adjustment device for use in gardens, characterized in that: comprises a movable water pipe, a supporting frame, a water delivery structure, an adjusting structure, a humidity sensor and a controller;

2 movable water pipes are arranged in parallel; each movable water pipe is provided with a plurality of spray heads, and the right end of each movable water pipe is closed;

the four support frames are respectively arranged at two ends of the movable water pipe, the first support frame and the second support frame are positioned at the left end of the movable water pipe, and the third support frame and the fourth support frame are positioned at the right end of the movable water pipe;

the water delivery structure comprises a water delivery pipe, a water inlet pipe and a pump; two ends of the water pipe are respectively arranged on the first support frame and the second support frame and are respectively and movably connected with the left ends of the two movable water pipes; the water inlet pipe is communicated with the water delivery pipe; the pump is arranged on the water inlet pipe;

the adjusting structure is arranged on the third supporting frame and the fourth supporting frame, is connected with the two movable water pipes and drives the movable water pipes to do reciprocating swing motion;

the humidity sensor is arranged on the movable water pipe; the humidity sensor collects the humidity of gardens and transmits humidity information to the controller, and the controller controls the adjusting structure and the water delivery structure to work according to the humidity information, so that the amplitude of the reciprocating swing of the movable water pipe and the water spraying intensity are controlled.

2. Microclimate adjustment device for use in gardens according to claim 1, characterized in that: the adjusting structure comprises a linkage tube, a conical gear set and a driving assembly;

the linkage pipes are respectively arranged on the third support frame and the fourth support frame;

the bevel gear set includes a first bevel gear and a second bevel gear; the two first conical gears are respectively arranged at two ends of the linkage tube; two second bevel gears are respectively arranged at the right ends of the two movable water pipes; the first bevel gear is meshed with the second bevel gear;

the driving assembly drives the conical gear set to rotate, and then drives the movable water pipe to do reciprocating swing motion.

3. Microclimate adjustment device for use in gardens according to claim 2, characterized in that: the driving assembly comprises a rotating disc, a driving column, a driving motor, a connecting shaft, a first half tooth and a second half tooth;

the rotating disc is arranged on the first conical gear at the side of the fourth supporting frame; the driving column is arranged on the rotating disc;

the driving motor is arranged on the fourth supporting frame;

the connecting shaft is connected with a driving shaft of the driving motor;

the first half teeth and the second half teeth are arranged on the connecting shaft, and the second half teeth are arranged below the first half teeth; the teeth of the first half tooth and the second half tooth are arranged in a staggered manner, and the first half tooth and the second half tooth are matched with the driving column;

the driving motor drives the connecting shaft to rotate, and the connecting shaft drives the first half teeth and the second half teeth to be respectively meshed with the driving column in an alternating mode;

when the first half teeth are meshed with the driving column, the rotating disk rotates, the rotating disk drives a first conical gear in the fourth supporting frame to rotate, and the first conical gear in the fourth supporting frame drives a second conical gear on a movable water pipe arranged on the fourth supporting frame to rotate, so that the movable water pipe is driven to rotate; the rotating disc drives the linkage pipe to rotate, the linkage pipe drives the first conical gear in the third support frame to rotate, and the first conical gear in the third support frame drives the second conical gear on the other movable water pipe to rotate, so that the movable water pipe is driven to rotate;

when the second half teeth are meshed with the driving column, the rotating disk rotates in the other direction, the rotating disk drives the first conical gear in the fourth supporting frame to rotate in the other direction, and the first conical gear in the fourth supporting frame drives the second conical gear on the movable water pipe arranged on the fourth supporting frame to rotate in the other direction, so that the movable water pipe is driven to rotate in the other direction; the rotating disk drives the linkage pipe to rotate in the other direction, the linkage pipe drives the first conical gear in the third support frame to rotate in the other direction, and the first conical gear in the third support frame drives the second conical gear on the other movable water pipe to rotate in the other direction, so that the movable water pipe is driven to rotate in the other direction.

4. Microclimate adjustment device for use in gardens according to claim 1, characterized in that: the water delivery pipe is of a U-shaped structure, and two ends of the water delivery pipe are respectively and movably connected with two movable water pipes.

5. Microclimate adjustment device for use in gardens according to claim 1, characterized in that: the spray heads on each movable water pipe are arranged at equal intervals.

6. Microclimate adjustment device for use in gardens according to claim 1, characterized in that: the humidity sensor includes a plurality of humidity probes.