CN215391150U - Promote intelligent cleaning device of green house film light transmissivity - Google Patents

Abstract

The application relates to an intelligent cleaning device for improving the light transmittance of an agricultural greenhouse film, which comprises a water tank and a plate trailer, wherein the greenhouse comprises a frame body and the film, the water tank is fixed on a keel of the frame body, and a suction pump is installed on the ground; the plate trailer comprises a support plate and a support positioned at the upper end part of the support plate, wherein the inclined end surfaces of wing plates at two sides of the support plate are respectively fixed with a first motor, and the output shaft of the first motor is coaxially and rotatably connected with a roller; the wing plates on the two sides of the supporting plate are rotatably connected with wheels and a second motor; the upper end surface of the bracket is provided with a cleaning pump and a battery; the water inlet of the cleaning pump is connected with a water inlet pipe, the lower end part of the water inlet pipe is inserted into the water tank, the water outlet of the cleaning pump is connected with first water pipes facing films on two sides, and the first water pipes are located in front of the rolling direction of the rollers. This application has realized the clean operation with the film, and then has made the light transmissivity of film promote, makes to see through the light intensity that the film shines on the seedling and obtains guaranteeing, does benefit to the seed and sprouts in the rooting of the in-process of growing seedlings.

Description

Promote intelligent cleaning device of green house film light transmissivity

Technical Field

The application relates to the field of agricultural greenhouses, in particular to an intelligent cleaning device for improving light transmittance of agricultural greenhouses films.

Background

The seedling raising refers to a process of raising seedlings, and originally means that the seedlings are raised in a nursery garden, a hotbed or a greenhouse, and after the seedlings are raised, seeds are raised to be individuals capable of independently living for transplanting to the land for planting. During the seedling raising process, seeds are buried in a soil layer, and the germination of the seeds is directly related to the illumination condition except that the temperature, the moisture and the oxygen are suitable. The illumination not only can provide a source of partial heat in the seedling raising greenhouse, but also is an energy source for the seedlings to carry out photosynthesis, and the illumination influences the growth and development quality of the seedlings and is an indispensable factor for cultivating strong seedlings. The requirements of seedlings on the light intensity are different according to the types of vegetables, but basically the requirements are below the light saturation point of the vegetables and above the light compensation point, and in the range, the photosynthetic intensity of the plant body is increased along with the increase of the light intensity. Meanwhile, the length of the illumination time also influences the accumulation of nutrients and the flower bud differentiation of seedlings, and if the seedlings are under the condition of weak light for a long time, overgrowth of the seedlings is easy to form, so that the plant height, the stem length, the leaf number, the chlorophyll and leaf area, the dry weight of the plants are reduced, the flower bud differentiation is delayed, and the quality of the whole seedlings is reduced.

As the indoor temperature of the agricultural greenhouse can be kept within a certain range, the seedlings are mostly grown in the agricultural greenhouse in the process of growing the seedlings in northern areas. In the process of seedling culture, firstly, a plurality of seeds are buried into the ground with a certain depth, and water is sprayed to ensure that the water content of soil meets the requirement. For the illumination requirement in the seedling process, the existing greenhouse comprises a frame body erected on the ground and a film covered on the frame body, and at the moment, sunlight irradiates the ground through the film, so that various groups of seeds can continuously take roots and germinate.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: in the process of seedling culture, sunlight irradiates on a film on the outer side of the greenhouse, and light penetrates through the film and then irradiates on the ground; along with the extension of time, the dust in the air constantly deposits on the film, and the luminousness of film reduces this moment, makes the inside light intensity of entering big-arch shelter reduce, is difficult to satisfy the light intensity demand that the seed developed at this moment among the seedling growing process, so there is improved space.

SUMMERY OF THE UTILITY MODEL

In order to ensure the luminousness of big-arch shelter outside film, guarantee the light intensity requirement of the in-process seed development of growing seedlings, this application provides an intelligent cleaning device who promotes green house film light transmissivity.

The application provides a pair of intelligent cleaning device who promotes green house film light transmissivity adopts following technical scheme:

an intelligent cleaning device for improving the light transmittance of an agricultural greenhouse film comprises a water tank and a plate trailer, wherein the greenhouse on the ground comprises a frame body and a film covered on the frame body, the water tank is fixed on a keel of the frame body and extends horizontally, and a suction pump for supplying water to the water tank is installed on the ground; the plate trailer comprises a support plate and a support positioned at the upper end part of the support plate, the support plate is formed by splicing two groups of obliquely arranged wing plates, first motors are fixed on the oblique end surfaces of the wing plates at two sides of the support plate, the output shafts of the first motors are coaxially and rotatably connected with rollers, and the peripheral surfaces of the rollers are abutted to the thin film; the wing plates on the two sides of the supporting plate are rotatably connected with wheels which are abutted against and rotate with the two sides of the water tank and a second motor which drives the wheels to rotate; the upper end face of the bracket is provided with a cleaning pump and a battery, and the battery supplies power to each group of the first motor, the second motor and the cleaning pump; the water inlet of the cleaning pump is connected with a water inlet pipe, the lower end part of the water inlet pipe is inserted into the water tank, the water outlet of the cleaning pump is connected with first water pipes facing the films on two sides, and the first water pipes are located in front of the rolling direction of the rollers.

By adopting the technical scheme, when dust is accumulated on the covered film to cause the light transmittance of the film to be reduced, the seedlings cultivated in the greenhouse can affect rooting and sprouting due to insufficient illumination; the film is required to be cleaned, the water tank is erected at the keel position of the frame body in the application, the water body in the well is conveyed to the interior of the water tank by virtue of the suction pump, and the water body is filled in the water tank; when the film is cleaned, the battery supplies power to the first motor, the second motor and the cleaning pump of each group, so that the running of power parts of each group is ensured, the first motors of each group are arranged on the inclined end surfaces at two sides of the supporting plate, the output shaft of the first motor and the roller rotate coaxially, the lower part of the outer peripheral surface of the roller is abutted against the film to rotate, the second motors of each group drive the wheels to rotate, the wheels of each group are abutted against two sides of the water tank to rotate, and the plate trailer is further moved along the water tank; at the in-process that the trigger removed, the scavenging pump is at the up end of installing support, inside the inlet tube that the scavenging pump water inlet is connected inserted the basin, when the scavenging pump power-on rotation, the water is through the suction of inlet tube this moment, the water further flows from the first water pipe of both sides, first water pipe is located the place ahead of roller rotation direction, the water body that flows from the first water pipe of both sides is constantly watered to the film of both sides this moment, the water plays the washing effect with the film this moment, constantly pivoted roller further cleans the dust, make the dust of depositing on the film constantly clear away, the event technical scheme of this application has realized the cleaning operation with the film, and then make the light transmissivity of film promote, the light intensity that makes to shine the seedling through the film obtains the assurance, do benefit to the rooting-out of seed in the seedling growing process.

Preferably, the upper end surfaces of the vertical side walls on the two sides of the water tank are both concavely provided with sliding grooves, and the wheels of each group are in rolling connection with the sliding grooves.

Through adopting above-mentioned technical scheme, the spout is located the vertical lateral wall of basin both sides, and when the wooden handcart moved along the basin, each group's wheel and spout roll connection this moment, the setting up of spout played the guide effect to each group's wheel, made this wooden handcart motion process on the basin more steady.

Preferably, two groups of second water pipes facing the film are fixed on the upper end face of the bracket, and the two groups of second water pipes are connected with the water outlet of the cleaning pump; the second water pipe is positioned behind the rolling direction of the roller.

Through adopting above-mentioned technical scheme, the second water pipe is located the up end of support, each group of second water pipe is towards the film of both sides, the second water pipe is further connected with the delivery port of scavenging pump, when the trigger moves along the basin, the water body that flows from the second water pipe this moment is located the rear of roller direction of motion, the roller is washed the dust on the film constantly this moment, the water body that flows from the second water pipe further washes the dust on the film, make the dust along with the water along the film flow subaerial, the cleanliness of film has been promoted.

Preferably, a plurality of groups of support legs are fixed on the frame body below the inclined end surfaces on the two sides of the greenhouse, the upper end parts of the support legs of each group are integrally connected with a protection plate, and the plane where the protection plate is located is perpendicular to the plane where the inclined end surfaces of the greenhouse are located; and one end of each group of rollers, which is far away from the first motor, is coaxially rotated to form a roller wheel, a wall groove is concavely arranged on the end surface of one side, facing the water tank, of the protection plate, and the roller wheel and the wall groove are connected in an inserted manner to rotate.

Through adopting above-mentioned technical scheme, each group's stabilizer blade is fixed on the frame of both sides, backplate and the upper end body coupling of each group's stabilizer blade, when the roller removed along the film, the gyro wheel of roller tip this moment and the wall groove on the backplate are pegged graft and are rotated, and above-mentioned setting plays the supporting role with roller tip, so the lower tip of roller can remain the butt with the film throughout, makes the clean degree promotion of roller to the film.

Preferably, each set of wheels is made of rubber.

Through adopting above-mentioned technical scheme, each group's wheel and the spout rolling connection on the basin, select the material of each group's wheel for the rubber material, the wheel of rubber material is at the rotation in-process, and the frictional force between wheel and the spout is great, and each group's wheel is difficult for taking place to skid this moment.

Preferably, a plurality of groups of illumination sensors located below the film are fixed on the frame body, each group of illumination sensors acquires illumination intensity data in real time, a controller in signal connection with each group of illumination sensors is installed on the support, and the controller controls the suction pump, the first motor, the second motor and the cleaning pump to start and stop in real time.

By adopting the technical scheme, each group of the illumination sensors are fixed on the frame body, the illumination sensors can acquire the illumination intensity in the greenhouse in real time, when dust accumulated on the film is more, the light intensity data acquired by each group of the illumination sensors is reduced, the controller arranged on the support acquires the data of each group of the illumination sensors in real time, and when the data received by the controller is smaller than the preset light intensity threshold value, the cleaning device starts to operate to clean the film; the intelligent control to this kind of cleaning device has been realized to the above-mentioned setting, is convenient for in time carry out the cleaning operation to the film.

Preferably, four groups of limiting plates with angle steel structures are fixed on the upper end face of the support, the four groups of limiting plates surround to form a square area, and the four groups of right-angle edges of the battery are clamped and fixed with the limiting plates.

Through adopting above-mentioned technical scheme, each group's limiting plate is fixed at the up end of support, and when carrying out the fixed of battery, each group's limiting plate forms the joint fixed to the battery this moment, and the stability of event battery on the support is higher, and the difficult emergence of battery is rocked on the support.

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

1. in the application, the water tank is erected at the keel position of the frame body, and the water body in the water well is conveyed to the interior of the water tank by virtue of the suction pump, and at the moment, the interior of the water tank is filled with the water body; when the film is cleaned, the battery supplies power to the first motor, the second motor and the cleaning pump of each group, so that the running of power parts of each group is ensured, the first motors of each group are arranged on the inclined end surfaces at two sides of the supporting plate, the output shaft of the first motor and the roller rotate coaxially, the lower part of the outer peripheral surface of the roller is abutted against the film to rotate, the second motors of each group drive the wheels to rotate, the wheels of each group are abutted against two sides of the water tank to rotate, and the plate trailer is further moved along the water tank; in the moving process of the plate trailer, a cleaning pump is arranged on the upper end face of an installation support, a water inlet pipe connected with a water inlet of the cleaning pump is inserted into a water tank, when the cleaning pump is electrified and rotated, water is sucked through the water inlet pipe at the moment, the water further flows out from first water pipes on two sides, the first water pipes are positioned in front of the rotating direction of a roller, the water flowing out from the first water pipes on the two sides is continuously watered to films on the two sides at the moment, the water plays a role in flushing the films at the moment, the roller which continuously rotates further cleans dust, and the dust accumulated on the films is continuously removed, so that the technical scheme of the application realizes the cleaning operation of the films, the light transmission of the films is improved, the light intensity irradiated on seedlings through the films is ensured, and rooting and sprouting of seeds in the seedling raising process are facilitated;

2. the chutes are positioned on the vertical side walls at the two sides of the water tank, when the plate trailer moves along the water tank, the wheels of each group are in rolling connection with the chutes, and the chutes are arranged to play a role in guiding the wheels of each group, so that the movement process of the plate trailer on the water tank is more stable; each group of wheels is in rolling connection with the sliding groove on the water tank, the selected material of each group of wheels is rubber, and the friction between the wheels and the sliding groove is large in the rotating process of the wheels made of rubber, so that the wheels in each group are not easy to slip;

3. each group of illumination sensors are fixed on the frame body, the illumination sensors can acquire the illumination intensity in the greenhouse in real time, when dust deposited on the film is more, the light intensity data acquired by each group of illumination sensors is reduced, the controller mounted on the support acquires the data of each group of illumination sensors in real time, and when the data received by the controller is smaller than a preset light intensity threshold value, the cleaning device starts to operate to clean the film; the intelligent control to this kind of cleaning device has been realized to the above-mentioned setting, is convenient for in time carry out the cleaning operation to the film.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic diagram of the overall structure from another perspective in the embodiment of the present application;

FIG. 5 is an enlarged view at B in FIG. 3;

fig. 4 is an enlarged view at C in fig. 3.

Description of reference numerals: 1. a ground surface; 11. a suction pump; 111. a water feeding pipe; 12. planting frames; 13. young seedlings; 2. a greenhouse; 21. a frame body; 22. a film; 23. a support leg; 231. a guard plate; 232. a wall groove; 3. a water tank; 31. a chute; 4. lathing; 41. a support plate; 411. a wheel; 42. a support; 421. a limiting plate; 422. a controller; 5. a first motor; 51. a roller; 52. a roller; 6. a second motor; 7. cleaning the pump; 71. a water inlet pipe; 72. a first water pipe; 73. a second water pipe; 8. a battery; 9. an illumination sensor.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses intelligent cleaning device for improving light transmittance of 2 thin films 22 of agricultural greenhouse. Referring to fig. 1, a ground 1 is horizontally disposed, and a greenhouse 2 is constructed on the ground 1. Planting frames 12 are placed on the ground 1 inside the greenhouse 2, and potted seedlings 13 are placed on the upper portion and the lower portion of the planting frames 12. The greenhouse 2 on the ground 1 comprises a frame body 21 and a film 22 covering the frame body 21, wherein the film 22 covers the upper end and the two side end faces of the greenhouse 2, and the lower end edges of the two sides of the film 22 are buried underground. This kind of promote intelligent cleaning device of 2 film 22 light transmissivity on green house includes basin 3 and wooden handcart 4, and the length of basin 3 is the same with the length of big-arch shelter 2, and basin 3 is fixed and is constantly extended horizontally on framework 21 fossil fragments position.

Referring to fig. 1 and 2, the pallet 4 includes a support plate 41 and a bracket 42 located at an upper end of the support plate 41, the support plate 41 is formed by splicing two sets of obliquely arranged wing plates, and a middle position of the two sets of support plates 41 is horizontally arranged. The inclined end surfaces of the wing plates at two sides of the supporting plate 41 are both fixed with first motors 5, the output shafts of the first motors 5 face the films 22 at two sides, the output shafts of the first motors 5 of each group are coaxially and rotatably connected with rollers 51, a plurality of groups of villi which are distributed irregularly are fixed on the peripheral surfaces of the rollers 51, and the peripheral surfaces of the rollers 51 are abutted against the films 22. Both side wing plates of the supporting plate 41 are rotatably connected with wheels 411 which are connected with both sides of the water tank 3 in an abutting and rotating manner and second motors 6 which drive the wheels 411 to rotate, each group of wheels 411 are made of rubber, and the second motors 6 drive the wheels 411 to rotate in a gear meshing manner. The upper end surfaces of the vertical side walls at two sides of the water tank 3 are concavely provided with sliding grooves 31, the inner bottom surface of each sliding groove 31 is obliquely arranged, and each group of wheels 411 are in rolling connection with the sliding grooves 31.

The upper end surface of the bracket 42 is provided with a cleaning pump 7 and a battery 8, and the battery 8 is electrically connected with each group of the first motor 5, the second motor 6 and the cleaning pump 7; the upper end surface of the bracket 42 is fixed with four groups of limiting plates 421 with angle steel structures, the four groups of limiting plates 421 enclose a square area, and the four groups of right-angle edges of the battery 8 are clamped and fixed with the groups of limiting plates 421. The water inlet of the cleaning pump 7 is connected with a water inlet pipe 71, the lower end part of the water inlet pipe 71 penetrates through the support 42 and the support plate 41, the lower end part of the water inlet pipe 71 is inserted into the water tank 3, the water outlet of the cleaning pump 7 is connected with a first water pipe 72 facing the films 22 on both sides, and the first water pipe 72 is positioned in front of the rolling direction of the roller 51.

Two groups of second water pipes 73 facing the film 22 are fixed on the upper end surface of the bracket 42, the two groups of second water pipes 73 are connected with the water outlet of the cleaning pump 7, and at the moment, the two groups of second water pipes 73 and the two groups of first water pipes 72 are respectively positioned at the front edge and the rear edge of the upper end surface of the bracket 42; the second water pipe 73 is located rearward in the rolling direction of the roller 51.

Referring to fig. 1 and 2, a plurality of groups of illumination sensors 9 located below the film 22 are fixed on the frame 21, each group of illumination sensors 9 acquires illumination intensity data in real time, the support 42 is provided with a controller 422 in signal connection with each group of illumination sensors 9, and each group of illumination sensors 9 is connected with the controller 422 through bluetooth. The controller 422 is located at one side of the battery 8, and the controller 422 controls the start and stop of the first motor 5, the second motor 6 and the cleaning pump 7 in real time.

Referring to fig. 3 and 4, a suction pump 11 for supplying water to the water tank 3 is installed on the floor 1, and the suction pump 11 independently supplies power; a water inlet of the suction pump 11 is connected with a well or a pond through a pipeline, a water outlet of the suction pump 11 is connected with a water feeding pipe 111, a water conveying pipe continuously extends to the water tank 3 along the end surface of one side of the greenhouse 2, and the upper end part of the water feeding pipe 111 is communicated with the water tank 3; the controller 422 controls the start and stop of the suction pump 11 in real time. The end of each set of rollers 51 remote from the first motor 5 is coaxially rotated by a roller 52.

Referring to fig. 3 and 5, a plurality of groups of support legs 23 are fixed on the frame 21 below the inclined end surfaces of the two sides of the greenhouse 2, the groups of support legs 23 are arranged in a collinear manner, the upper end parts of the groups of support legs 23 are integrally connected with a protection plate 231, the length of the protection plate 231 is the same as that of the greenhouse 2, and the plane where the protection plate 231 is located is perpendicular to the plane where the inclined end surfaces of the greenhouse 2 are located. The end surface of one side of the protection plate 231 facing the water tank 3 is concavely provided with a wall groove 232, and the roller 52 is inserted into the wall groove 232 to rotate.

The implementation principle of the intelligent cleaning device for improving the light transmittance of the film 22 of the agricultural greenhouse 2 in the embodiment of the application is as follows:

each group of potted seedlings 13 is placed on the planting frame 12, the illumination intensity inside the greenhouse 2 needs to be ensured, and the requirement for illumination in the growth process of the seedlings 13 is met. During the period of cultivating the seedlings 13, the film 22 on the periphery of the greenhouse 2 continuously accumulates dust.

When dust is accumulated on the covered film 22 to cause the light transmittance of the film 22 to be reduced, the seedlings 13 cultivated in the greenhouse 2 can be affected to take roots and sprout due to insufficient illumination; at this time, the film 22 needs to be cleaned, in this application, the water tank 3 is erected at the keel position of the frame 21, and the water body in the well is conveyed to the water tank 3 by the suction pump 11, and at this time, the water tank 3 is filled with the water body; when the cleaning operation of the film 22 is performed, the controller 422 mounted on the bracket 42 acquires the data of each set of the illumination sensors 9 in real time, and when the data received by the controller 422 is smaller than a preset light intensity threshold, the cleaning device starts to operate to perform the cleaning operation of the film 22; at this time, the battery 8 supplies power to each set of the first motor 5, the second motor 6 and the cleaning pump 7, so that the operation of each set of power components is ensured, at this time, each set of the first motor 5 is installed on the inclined end surfaces at both sides of the supporting plate 41, the output shaft of the first motor 5 rotates coaxially with the roller 51, the lower part of the outer peripheral surface of the roller 51 is abutted against the film 22 to rotate, each set of the second motor 6 drives the wheel 411 to rotate, each set of the wheel 411 is abutted against and rotates with both sides of the water tank 3, and further, the movement of the pallet truck 4 along the water tank 3 is realized. In the above process, the flow rates of the suction pump 11 and the cleaning pump 7 are the same, and the water level inside the water tank 3 is kept constant.

In the moving process of the plate trailer 4, the cleaning pump 7 is arranged on the upper end face of the mounting bracket 42, the water inlet pipe 71 connected with the water inlet of the cleaning pump 7 is inserted into the water tank 3, when the cleaning pump 7 is electrified and rotated, water is sucked through the water inlet pipe 71 at the moment, the water further flows out from the first water pipes 72 on the two sides, the first water pipes 72 are positioned in front of the rotating direction of the roller 51, the water flowing out from the first water pipes 72 on the two sides is continuously watered towards the films 22 on the two sides, the water plays a role in flushing the films 22 at the moment, the roller 51 which rotates continuously further scrubs dust, and the dust deposited on the films 22 is continuously removed; the second water pipes 73 are positioned on the upper end surface of the bracket 42, each group of the second water pipes 73 faces the films 22 on two sides, the second water pipes 73 are further connected with the water outlet of the cleaning pump 7, when the pallet 4 moves along the water tank 3, the water body flowing out of the second water pipes 73 is positioned behind the roller 51 in the moving direction, the roller 51 continuously washes dust on the films 22, the water body flowing out of the second water pipes 73 further washes the dust on the films 22, the dust flows onto the ground 1 along the films 22 along with the water body, and the cleanliness of the films 22 is improved.

Therefore, the technical scheme of the application realizes the cleaning operation of the film 22, further improves the light transmission of the film 22, ensures the light intensity of the film 22 irradiated on the seedling 13, and is favorable for the rooting and sprouting of the seeds in the seedling raising process.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a promote intelligent cleaning device of green house film light transmissivity which characterized in that: the greenhouse comprises a water tank (3) and a plate trailer (4), wherein a greenhouse (2) on the ground (1) comprises a frame body (21) and a film (22) covered on the frame body (21), the water tank (3) is fixed on the keel position of the frame body (21) and continuously and horizontally extends, and a suction pump (11) used for supplying water to the water tank (3) is installed on the ground (1); the plate trailer (4) comprises a support plate (41) and a support (42) positioned at the upper end part of the support plate (41), the support plate (41) is formed by splicing two groups of obliquely arranged wing plates, a first motor (5) is fixed on the inclined end surfaces of the wing plates at two sides of the support plate (41), the output shaft of the first motor (5) is coaxially and rotatably connected with a roller (51), and the peripheral surface of the roller (51) is abutted to the thin film (22); the wing plates at the two sides of the supporting plate (41) are rotatably connected with wheels (411) which are abutted against and rotate with the two sides of the water tank (3) and second motors (6) which drive the wheels (411) to rotate; a cleaning pump (7) and a battery (8) are mounted on the upper end face of the support (42), and the battery (8) supplies power to the first motor (5), the second motor (6) and the cleaning pump (7) of each group; the water inlet of scavenging pump (7) is connected with inlet tube (71), the lower tip of inlet tube (71) inserts inside basin (3), scavenging pump (7) delivery port is connected with towards both sides first water pipe (72) of film (22), first water pipe (72) are located the place ahead of roller (51) roll direction.

2. The intelligent cleaning device for improving the light transmittance of the agricultural greenhouse film as claimed in claim 1, wherein: the upper end surfaces of the vertical side walls on the two sides of the water tank (3) are both concavely provided with sliding grooves (31), and the wheels (411) of each group are in rolling connection with the sliding grooves (31).

3. The intelligent cleaning device for improving the light transmittance of the agricultural greenhouse film as claimed in claim 2, wherein: two groups of second water pipes (73) facing the film (22) are fixed on the upper end face of the support (42), and the two groups of second water pipes (73) are connected with a water outlet of the cleaning pump (7); the second water pipe (73) is located rearward in the rolling direction of the roller (51).

4. The intelligent cleaning device for improving the light transmittance of the agricultural greenhouse film as claimed in claim 3, wherein: a plurality of groups of support legs (23) are fixed on the frame body (21) below the inclined end surfaces on the two sides of the greenhouse (2), the upper end parts of the support legs (23) of each group are integrally connected with a protection plate (231), and the plane where the protection plate (231) is located is vertical to the plane where the inclined end surfaces of the greenhouse (2) are located; one end of each group of rollers (51) far away from the first motor (5) coaxially rotates to form a roller (52), a wall groove (232) is concavely arranged on the end face of one side, facing the water tank (3), of the protection plate (231), and the roller (52) is connected with the wall groove (232) in an inserting mode.

5. The intelligent cleaning device for improving the light transmittance of the agricultural greenhouse film as claimed in claim 4, wherein: each group of wheels (411) is made of rubber.

6. The intelligent cleaning device for improving the light transmittance of the agricultural greenhouse film as claimed in claim 5, wherein: the film cleaning machine is characterized in that a plurality of groups of illumination sensors (9) located below the film (22) are fixed on the frame body (21), each group of the illumination sensors (9) acquires illumination intensity data in real time, a controller (422) in signal connection with each group of the illumination sensors (9) is installed on the support (42), and the controller (422) controls the suction pump (11), the first motor (5), the second motor (6) and the cleaning pump (7) to be started and stopped in real time.

7. The intelligent cleaning device for improving the light transmittance of the agricultural greenhouse film as claimed in claim 6, wherein: the upper end face of support (42) is fixed with four groups of limiting plate (421) of angle steel structure, and four groups limiting plate (421) enclose to close and are square region, four groups of right angle borders of battery (8) and each group limiting plate (421) joint are fixed.

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