CN210840889U - Greenhouse system based on artificial intelligent control - Google Patents

Abstract

The utility model discloses a greenhouse system based on artificial intelligence control, including the greenhouse body, the greenhouse body includes lateral wall structure and top structure, and top mechanism and lateral wall mechanism enclose into the greenhouse chamber, are provided with a plurality of support frames along length direction interval in the greenhouse chamber, all are provided with humidity detection mechanism, water spray mechanism, illumination detection mechanism and illumination adjustment mechanism on each support frame, and humidity detection mechanism is including the fixed plate of connection on the support frame, is provided with humidity transducer on the detection probe; the water spraying mechanism comprises a water tank, a water conveying pipe and a water spraying piece, the illumination adjusting mechanism comprises a containing box and a rotating rod, and shading cloth and a rotating roller are arranged in the containing box. The utility model provides a greenhouse system is based on artificial intelligence control, can adjust the humidity of soil in the greenhouse and the illumination intensity in the greenhouse automatically for can cultivate different plants in same greenhouse.

Description

Greenhouse system based on artificial intelligent control

Technical Field

The utility model relates to a plant cultivation intelligent control field especially relates to a greenhouse system based on artificial intelligence control.

Background

The greenhouse is widely used in modern agricultural production, scientific experiments and gardening appreciation because the greenhouse can cultivate or grow seedlings of plants without being influenced by seasons and regions. In seasons unsuitable for plant growth, the method can provide a growth period and increase yield, and is mainly used for cultivating or raising seedlings of plants such as warm vegetables, flowers and trees in low-temperature seasons.

Most simple structure of current greenhouse system, intelligent degree is low, sprinkling irrigation system and illumination adjustment mechanism in the greenhouse are simple, it is improper that humidity or illumination intensity in the greenhouse appear often in soil to influence the growth of plant, and in the real use, can cultivate different plants in same greenhouse, the plant of difference is different to humidity and illumination intensity's requirement, rely on the manual work to adjust among the prior art, efficiency is lower, cause the waste of water resource easily, and be unfavorable for the growth of plant.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a greenhouse system based on artificial intelligence control to solve the above-mentioned weak point among the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a greenhouse system based on artificial intelligence control, includes the greenhouse body, the greenhouse body includes lateral wall structure and top structure, the top mechanism with lateral wall mechanism encloses into the greenhouse cavity, still includes:

the supporting frames are arranged at intervals along the length direction of the greenhouse cavity and comprise supporting columns and supporting tables arranged on the supporting columns, a group of supporting columns is arranged on the left side and the right side of the bottom of each supporting table, and at least one supporting column is arranged in each group;

the humidity detection mechanism comprises a fixed plate connected to the support column, a through hole is formed in the fixed plate, an insertion pipe is rotatably arranged in the through hole, an insertion part capable of being inserted into soil is arranged at the lower end of the insertion pipe, a detection probe is arranged on the insertion part, and a humidity sensor is arranged on the detection probe;

the water spraying mechanism comprises a water tank, a water conveying pipe and water spraying pieces, the water tank is arranged on the outer side of the greenhouse body, the water spraying pieces are arranged on all groups of the supporting columns, control valves are arranged on the water spraying pieces, and the water tank is communicated with the water spraying pieces through the water conveying pipe;

the illumination detection mechanism is arranged on the support table and comprises a photosensitive sensor;

illumination adjustment mechanism, each all be provided with one on the support frame illumination adjustment mechanism, illumination adjustment mechanism includes holding box and dwang, the holding box sets up the relative both sides of top structure, be provided with shading cloth and rotatory kun in the holding box, be connected with servo motor on the rotatory kun, shading cloth is located holding box outside one end is provided with lays the piece, dwang one end with it is connected to lay the piece, the other end of dwang rotates to be connected on the rotation seat of brace table, be provided with the drive on the rotation seat the dwang carries out pivoted actuating mechanism.

In the greenhouse system, the supporting columns are provided with the humidity detection mechanism and the water spraying mechanism, and the humidity detection mechanism and the water spraying mechanism are arranged on the adjacent two groups of supporting columns in different directions.

In the greenhouse system, the support column is provided with the vertical sliding groove, one side of the fixed plate is provided with the sliding block, and the sliding block can slide up and down along the vertical sliding groove to adjust the position of the fixed plate.

In the greenhouse system, the water spraying piece comprises a telescopic rod, a connecting block and a hemispherical spray head arranged on the connecting block, a water feeding channel is arranged in the telescopic rod, the water feeding channel is communicated with the water delivery pipe, and the connecting block is arranged at one end of the telescopic rod; the hemispherical spray head is rotatably arranged on the connecting block, and the hemispherical spray head is always communicated with the water delivery channel in the rotating process.

In the greenhouse system, the rotating seat is arranged in the middle of the supporting table, the opening cavity is formed in the rotating seat, the mounting plate is arranged in the middle of the opening cavity, the driving mechanism comprises driving motors arranged on the left side and the right side of the mounting plate, and the driving motors are connected with driving gears.

In the greenhouse system, the end part of the rotating rod is provided with the circular rotating seat, the circular rotating seat is provided with the open slot, the side wall of the open slot is provided with the sawtooth part, and the driving gear is meshed with the sawtooth part through the transmission gear.

The greenhouse system further comprises a temperature control mechanism, and the temperature control mechanism comprises a temperature sensor and an air conditioning system.

In the technical scheme, the utility model provides a greenhouse system based on artificial intelligence control, the greenhouse body includes lateral wall structure and top structure, top mechanism and lateral wall mechanism enclose into the greenhouse chamber, be provided with the support frame in the greenhouse chamber, humidity detection mechanism, water spray mechanism, illumination detection mechanism and illumination adjustment mechanism, can adjust the humidity of soil in the greenhouse automatically through humidity detection mechanism and water spray mechanism, can adjust the intensity of illumination in the greenhouse automatically through illumination detection mechanism and illumination adjustment mechanism, adjust and replace manual regulation through intelligent control, promote efficiency, the greenhouse chamber sets up a plurality of support frames along length direction in proper order at intervals simultaneously, all be provided with temperature detection mechanism, water spray mechanism, illumination detection mechanism and illumination adjustment mechanism on each support frame, so realize controlling the greenhouse chamber segmentation and adjust humidity and illumination intensity, make can cultivate different plants in same greenhouse, and according to the difference of plant, correspond control respectively and adjust humidity and illumination intensity, promote cultivation efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic structural diagram of a greenhouse based on artificial intelligence control according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a support frame according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a rotating seat according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a circular rotating seat provided in an embodiment of the present invention.

Description of reference numerals:

1. a greenhouse body; 1.1, a side wall structure; 1.2, a top structure; 1.3, a greenhouse cavity; 2. a support frame; 2.1, supporting columns; 2.2, supporting the table; 2.3, a vertical chute; 3. a humidity detection mechanism; 3.1, fixing a plate; 3.2, inserting a tube; 3.3, an insertion part; 4. a water spraying mechanism; 4.1, a water tank; 4.2, a water conveying pipe; 4.3, a water spraying piece; 4.4, a telescopic rod; 4.5, connecting blocks; 4.6, a hemispherical spray head; 5. an illumination detection mechanism; 6. an illumination adjustment mechanism; 6.1, accommodating the box; 6.2, shading cloth; 6.3, arranging the parts; 6.4, rotating the rod; 7. a rotating seat; 7.1, opening the cavity; 7.2, mounting a plate; 7.3, driving a motor; 7.4, driving the gear; 7.5, a transmission gear; 7.6, a circular rotating seat; 7.7, opening grooves; 7.8, a sawtooth part; 8. a temperature control mechanism.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, an embodiment of the present invention provides a greenhouse system based on artificial intelligence control, including a greenhouse body 1, the greenhouse body 1 includes a side wall structure 1.1 and a top structure 1.2, the top mechanism and the side wall mechanism enclose a greenhouse cavity 1.3, further including a support frame 2, a humidity detection mechanism 3, a water spray mechanism 4, an illumination detection mechanism 5 and an illumination adjustment mechanism 6, the support frame 2 has a plurality of supports, the plurality of supports 2 are arranged along the length direction of the greenhouse cavity 1.3 at intervals, the support frame 2 includes a support column 2.1 and a support table 2.2 arranged on the support column 2.1, the left and right sides of the bottom of each support table 2.2 are provided with a group of support columns 2.1, each group of support columns 2.1 has at least one; the humidity detection mechanism 3 comprises a fixed plate 3.1 connected to the support column 2.1, a through hole is formed in the fixed plate 3.1, an insertion pipe 3.2 is rotatably arranged in the through hole, an insertion part 3.3 capable of being inserted into soil is arranged at the lower end of the insertion pipe 3.2, a detection probe is arranged on the insertion part 3.3, and a humidity sensor is arranged on the detection probe; the water spraying mechanism 4 comprises a water tank 4.1, a water delivery pipe 4.2 and water spraying pieces 4.3, the water tank 4.1 is arranged at the outer side of the greenhouse body 1, the water spraying pieces 4.3 are arranged on the supporting columns 2.1, control valves are arranged on the water spraying pieces 4.3, and the water tank 4.1 is communicated with the water spraying pieces 4.3 through the water delivery pipe 4.2; the illumination detection mechanism 5 is arranged on the support table 2.2, and the illumination detection mechanism 5 comprises a photosensitive sensor; each support frame 2 is provided with an illumination adjusting mechanism 6, each illumination adjusting mechanism 6 comprises a containing box 6.1 and a rotating rod 6.4, the containing boxes 6.1 are arranged on two opposite sides of the top structure 1.2, shading cloth 6.2 and a rotating roller are arranged in the containing box 6.1, the rotating roller is connected with a servo motor, one end, located on the outer side of the containing box 6.1, of the shading cloth 6.2 is provided with a cloth placing piece 6.3, one end of the rotating rod 6.4 is connected with the cloth placing piece 6.3, the other end of the rotating rod 6.4 is rotatably arranged on a rotating seat 7 of the support table 2.2, and a driving mechanism for driving the rotating rod 6.4 to rotate is arranged on the rotating seat 7.

Specifically, the sidewall structure 1.1 may be a wall or a frame, the top structure 1.2 is arc-shaped, the top structure 1.2 includes a frame and a light transmission mechanism disposed on the frame, the light transmission mechanism may be transparent glass, a greenhouse cavity 1.3 is defined by the sidewall structure 1.1 and the top structure 1.2, the greenhouse cavity 1.3 is rectangular, the greenhouse cavity 1.3 is used for cultivating plants, a plurality of support frames 2 are disposed in the greenhouse cavity 1.3, the plurality of support frames 2 are sequentially disposed at equal intervals along the length direction of the greenhouse cavity 1.3, the support frames 2 include support columns 2.1 and support tables 2.2 disposed on the support columns 2.1, the support columns 2.1 are used for fixing the support tables 2.2 on the bottom surface or the mounting surface in the greenhouse cavity 1.3, two groups of support columns 2.1 are disposed under each support table 2.2, the two groups of support columns 2.1 are disposed on the left and right sides of the support tables 2.2 respectively, each group of support column 2.1 includes at least one support column, or two or more, the bottom of support column 2.1 is provided with the mounting, can be fixed plate, fixing base, also can install at subaerial set screw and fixed part, so set gradually a plurality of support frames 2 from a left side to the right side in greenhouse cavity 1.3's inside.

In the embodiment, a humidity detection mechanism 3, a water spraying mechanism 4, an illumination detection mechanism 5 and an illumination adjustment mechanism 6 are arranged in a greenhouse cavity 1.3, and the humidity detection mechanism 3, the water spraying mechanism 4, the illumination detection mechanism 5 and the illumination adjustment mechanism 6 are arranged corresponding to the support frames 2, namely, the humidity detection mechanism 3, the water spraying mechanism 4, the illumination detection mechanism 5 and the illumination adjustment mechanism 6 are arranged on each support frame 2, so that the sectional control and the temperature and illumination intensity adjustment are realized in the greenhouse cavity 1.3, the humidity detection mechanism 3 and the water spraying mechanism 4 are matched to realize the detection and control of humidity, the humidity detection mechanism 3 is arranged on the support column 2.1, the humidity detection mechanism 3 comprises a fixed plate 3.1 and an insertion tube 3.2 arranged on the fixed plate 3.1, the fixed plate 3.1 is connected on the support column 2.1, the fixed plate 3.1 can be fixedly connected on the support column 2.1, preferably, the fixing plate 3.1 is slidably disposed on the supporting column 2.1, the fixing plate 3.1 can slide up and down along the supporting column 2.1, so as to adjust the height of the fixing plate 3.1, a connecting member is disposed between the fixing plate 3.1 and the supporting column 2.1, the connecting member can be a sliding sleeve disposed on the fixing plate 3.1, the sliding sleeve can slide up and down along the supporting column 2.1, the connecting member can also be other structures, a locking member is further disposed between the fixing plate 3.1 and the supporting column 2.1, the fixing of the position of the fixing plate 3.1 can be achieved by the locking member, the locking member can be a locking pin, a locking screw rod or other structures, a through hole is disposed on the fixing plate 3.1, the through hole penetrates through the upper and lower surfaces of the fixing plate 3.1, the insertion tube 3.2 is disposed inside the through hole, a matching thread can be disposed between the outer wall of the insertion tube 3.2 and the, the lower extreme of intubate 3.2 is provided with the inserting part 3.3 that can insert in soil, inserting part 3.3 is a tip, can make intubate 3.2 rotate through the rotating part, make inserting part 3.3 can insert in soil, be provided with the test probe on inserting part 3.3, can be provided with recess or open cavity that can supply the test probe to put into in the lateral part or the inside of inserting part 3.3, be provided with humidity transducer on the test probe, humidity transducer can detect the humidity in the soil, after inserting part 3.3 to soil, the test probe is located in soil, humidity transducer on the test probe can detect the humidity in the soil.

In this embodiment, the water spraying mechanism 4 enables each position in the greenhouse cavity 1.3 to be sprayed with water, the water spraying mechanism 4 includes a water tank 4.1, the water tank 4.1 is disposed outside the greenhouse body 1, the water tank 4.1 can be connected with a water inlet mechanism, water can be delivered into the water tank 4.1 through the water inlet mechanism, each support column 2.1 can be provided with a water spraying member 4.3, each group of support columns 2.1 can be provided with only one water spraying member 4.3, specifically, each position of the greenhouse cavity 1.3 can be sprayed with water according to the water spraying range of each water spraying member 4.3, the water spraying member 4.3 can be a nozzle, the water spraying member 4.3 is provided with a control valve which can open or close the water spraying member 4.3, each water spraying member 4.3 is connected with the water delivery pipe 4.2, the water delivery pipe 4.2 is connected with the water outlet of the water tank 4.1, the water delivery pipe 4.2 and the water tank 4.1 can be further provided with a water pump mechanism, thus, and the humidity detection mechanism 3 can detect the humidity of each section, when the humidity is lower than the preset value, the corresponding control valve controls the water spraying piece 4.3 to be opened, water spraying is carried out on the relative position, therefore, the humidity of the soil at the corresponding position is adjusted, and when the soil humidity meets the requirement, the control valve controls the water spraying piece 4.3 to be closed, so that water can be saved.

In this embodiment, each supporting platform 2.2 is provided with an illumination detection mechanism 5 and an illumination adjustment mechanism 6, the illumination detection mechanism 5 is arranged on the supporting platform 2.2, the illumination detection mechanism 5 includes a photosensitive sensor, an installation part for installing the photosensitive sensor can be arranged on the supporting platform 2.2, the illumination intensity can be detected through the photosensitive sensor, the illumination adjustment mechanism 6 includes a containing box 6.1 and a rotating rod 6.4, the containing box 6.1 can be a cylindrical structure, the containing box 6.1 is arranged at the connection part of the side wall structure 1.1 and the top structure 1.2, the length of the containing box 6.1 is consistent with the length of the top structure 1.2, namely the sum of the lengths of the containing boxes 6.1 is equal to the length of the top structure 1.2, so that the top structure 1.2 is divided into a section through the containing box 6.1, the illumination intensity of the top structure 1.2 can be adjusted in sections, the containing box 6.1 is internally provided with a shading cloth 6.2 and a rotating roller, the rotary roller is connected with a servo motor which can control the rotary roller to rotate so as to realize the arrangement of the shade cloth 6.2 and the collection of the shade cloth 6.2, one end of the shade cloth 6.2, which is positioned at the outer side of the containing box 6.1, is provided with an arrangement part 6.3, the arrangement part 6.3 can be a rod body, the arrangement part 6.3 is connected with one end of the shade cloth 6.2, which is positioned at the containing box 6.1, the arrangement part 6.3 is in sliding connection with the top structure 1.2, namely, the arrangement part 6.3 can slide along the frame body of the top structure 1.2, the arrangement part 6.3 covers the shade cloth 6.2 on the top structure 1.2 in the sliding process, one end of the rotary rod 6.4 is connected with the arrangement part 6.3, the other end of the rotary rod 6.4 is rotatably arranged on the rotary seat 7 of the rotary rod 2.2, the rotary seat 7 is provided with a driving mechanism for driving the rotary rod 6.4 to rotate, the driving mechanism can be a driving motor and a driving rod, and also can be a driving motor, after illumination detection mechanism 5 detects that illumination intensity is greater than the default, actuating mechanism drive dwang 6.4 rotates, dwang 6.4 rotates and drives cloth piece 6.3 and rotates along the top mechanism, servo motor control rotatory kun cloth is put gobo 6.2, thereby make gobo 6.2 shelter from the sunshine of top structure 1.2, after illumination intensity is less than the default, actuating mechanism drive dwang 6.4 rotated this moment, servo motor control rotatory kun collects gobo 6.2, thereby make gobo 6.2 collect to the holding box 6.1 in, thereby realize the regulation to illumination intensity. Further, this embodiment further includes a controller, each control valve, the photosensitive sensor, the humidity sensor, the driving mechanism, and the servo motor are electrically connected to the controller, the controller may be a single chip microcomputer or a control system in the prior art, a control system or a control mechanism in the prior art that acquires information related to the illumination intensity and humidity detected by the photosensitive sensor and the humidity sensor and controls the control valve, the driving mechanism, and the servo motor to operate may be used in this embodiment.

The embodiment of the utility model provides a greenhouse system based on artificial intelligence control, greenhouse body 1 includes lateral wall structure 1.1 and top structure 1.2, top mechanism and lateral wall mechanism enclose into greenhouse chamber 1.3, be provided with support frame 2 in greenhouse chamber 1.3, humidity detection mechanism 3, water spray mechanism 4, illumination detection mechanism 5 and illumination adjustment mechanism 6, can adjust the humidity of soil in the greenhouse automatically through humidity detection mechanism 3 and water spray mechanism 4, can adjust the intensity of illumination in the greenhouse automatically through illumination detection mechanism 5 and illumination adjustment mechanism 6, adjust and replace manual regulation through intelligent control, promote efficiency, greenhouse chamber 1.3 sets up a plurality of support frames 2 along length direction in proper order at an interval simultaneously, all be provided with temperature detection mechanism, water spray mechanism 4, illumination detection mechanism 5 and illumination adjustment mechanism 6 on each support frame 2, so realize that greenhouse chamber 1.3 segmentation is controlled and is adjusted temperature and illumination intensity for can cultivate different plants in same greenhouse, and according to the difference of plant, correspond control regulation humidity and illumination intensity respectively, promote cultivation efficiency.

In this embodiment, it is preferable that each group of the supporting columns 2.1 is provided with a humidity detection mechanism 3 and a water spraying mechanism 4, the orientations of the humidity detection mechanism 3 and the water spraying mechanism 4 on the two adjacent groups of the supporting columns 2.1 are different, the detection mechanism and the water spraying mechanism 4 on each group of the supporting columns 2.1 are arranged on the same side, when each group of the supporting columns 2.1 has two or more than two, the humidity detection mechanism 3 and the water spraying mechanism 4 are arranged on the supporting column 2.1 close to the side, so that the interval arrangement between the humidity detection mechanisms 3 and the interval arrangement between the water spraying mechanisms 4 are realized, when the humidity detection mechanism 3 and the water spraying mechanism 4 are reduced, the detection and the adjustment of the humidity are satisfied.

In this embodiment, preferably, the supporting column 2.1 is provided with a vertical sliding groove 2.3, one side of the fixing plate 3.1 is provided with a sliding block, and the sliding block can slide up and down along the vertical sliding groove 2.3 to adjust the position of the fixing plate 3.1; the sliding block restriction is in vertical spout 2.3, and is provided with the locking piece between sliding block and vertical spout 2.3, and the locking piece can be the locking lever, is provided with the sticking department in vertical spout 2.3, and the sticking department can be the locking hole, so the sliding block can realize the fixed to the sliding block through the locking piece after sliding to suitable position along vertical spout 2.3.

In this embodiment, preferably, the water spraying part 4.3 includes an expansion link 4.4, a connecting block 4.5 and a hemispherical nozzle 4.6 disposed on the connecting block 4.5, the length of the expansion link 4.4 can be adjusted, a water feeding channel is disposed inside the expansion link 4.4, the water feeding channel is communicated with the water pipe 4.2, the connecting block 4.5 is disposed at one end of the expansion link 4.4, a water outlet cavity communicated with the water feeding channel is disposed inside the connecting block 4.5, the hemispherical nozzle 4.6 is rotatably disposed on the connecting block 4.5, the hemispherical nozzle 4.6 can be rotatably connected to the connecting block 4.5 through a rotating shaft, in the rotating process, the hemispherical nozzle 4.6 is always communicated with the water outlet cavity, the water outlet cavity is communicated with the water feeding channel, and the hemispherical nozzle 4.6 can increase the area of water spraying.

In this embodiment, preferably, the rotating seat 7 is disposed at the middle position of the supporting table 2.2, an open cavity 7.1 is disposed in the rotating seat 7, a mounting plate 7.2 is disposed at the middle position of the open cavity 7.1, the driving mechanism includes driving motors 7.3 disposed at the left and right sides of the mounting plate 7.2, a driving gear 7.4 is connected to the driving motors 7.3, a circular rotating seat 7.6 is disposed at the end of the rotating rod 6.4, an open slot 7.7 is disposed on the circular rotating seat 7.6, a sawtooth portion 7.8 is disposed on the side wall of the open slot 7.7, the driving gear 7.4 is engaged with the sawtooth portion 7.8 through a transmission gear 7.5, at least two transmission gears 7.5 are provided, the driving gear 7.4 is rotated by the driving motors 7.3, and the driving gear 7.4 rotates the circular rotating seat 7.67 through the transmission gear 7.5, so as to drive.

In this embodiment, preferably, the greenhouse system further includes a temperature control mechanism 8, the temperature control mechanism 8 includes a temperature sensor and an air conditioning system, the temperature sensor is used for detecting the temperature in the greenhouse cavity 1.3 and transmitting the detected temperature information to the controller, the air conditioning system is used for adjusting the temperature in the greenhouse cavity 1.3, and the air conditioning system is also connected to the controller.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. The utility model provides a greenhouse system based on artificial intelligence control, includes the greenhouse body, the greenhouse body includes lateral wall structure and top structure, the top mechanism with lateral wall mechanism encloses into the greenhouse cavity, its characterized in that still includes:

the supporting frames are arranged at intervals along the length direction of the greenhouse cavity and comprise supporting columns and supporting tables arranged on the supporting columns, a group of supporting columns is arranged on the left side and the right side of the bottom of each supporting table, and at least one supporting column is arranged in each group;

the humidity detection mechanism comprises a fixed plate connected to the support column, a through hole is formed in the fixed plate, an insertion pipe is rotatably arranged in the through hole, an insertion part capable of being inserted into soil is arranged at the lower end of the insertion pipe, a detection probe is arranged on the insertion part, and a humidity sensor is arranged on the detection probe;

the water spraying mechanism comprises a water tank, a water conveying pipe and water spraying pieces, the water tank is arranged on the outer side of the greenhouse body, the water spraying pieces are arranged on all groups of the supporting columns, control valves are arranged on the water spraying pieces, and the water tank is communicated with the water spraying pieces through the water conveying pipe;

the illumination detection mechanism is arranged on the support table and comprises a photosensitive sensor;

illumination adjustment mechanism, each all be provided with one on the support frame illumination adjustment mechanism, illumination adjustment mechanism includes holding box and dwang, the holding box sets up the relative both sides of top structure, be provided with shading cloth and rotatory kun in the holding box, be connected with servo motor on the rotatory kun, shading cloth is located holding box outside one end is provided with lays the piece, dwang one end with it is connected to lay the piece, the other end of dwang rotates to be connected on the rotation seat of brace table, be provided with the drive on the rotation seat the dwang carries out pivoted actuating mechanism.

2. The greenhouse system of claim 1, wherein each group of the support columns is provided with the humidity detection mechanism and the water spraying mechanism, and the humidity detection mechanism and the water spraying mechanism on two adjacent groups of the support columns are oriented in different directions.

3. The greenhouse system as claimed in claim 1, wherein the support posts are provided with vertical sliding grooves, and one side of the fixing plate is provided with sliding blocks which can slide up and down along the vertical sliding grooves to adjust the position of the fixing plate.

4. The greenhouse system as claimed in claim 1, wherein the water spraying member comprises a telescopic rod, a connecting block and a hemispherical nozzle arranged on the connecting block, a water feeding channel is arranged inside the telescopic rod, the water feeding channel is communicated with the water delivery pipe, and the connecting block is arranged at one end of the telescopic rod;

the hemispherical spray head is rotatably arranged on the connecting block, and the hemispherical spray head is always communicated with the water delivery channel in the rotating process.

5. The greenhouse system as claimed in claim 1, wherein the rotary seat is disposed at a middle position of the support platform, an open cavity is disposed in the rotary seat, a mounting plate is disposed at a middle position of the open cavity, the driving mechanism comprises driving motors disposed at left and right sides of the mounting plate, and the driving motors are connected with driving gears.

6. The greenhouse system as claimed in claim 5, wherein the end of the rotating rod is provided with a circular rotating seat, the circular rotating seat is provided with an open slot, the side wall of the open slot is provided with a sawtooth part, and the driving gear is meshed with the sawtooth part through a transmission gear.

7. The greenhouse system of claim 1, further comprising a temperature control mechanism, the temperature control mechanism comprising a temperature sensor and an air conditioning system.

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