CN216601008U - Greenhouse skylight jacking mechanism capable of being adjusted according to climate change - Google Patents

Abstract

The utility model discloses a greenhouse skylight jacking mechanism capable of being adjusted according to climate change, which comprises a greenhouse body, wherein transverse plates are fixedly connected at the positions, close to the top, of the left side and the right side of the inner cavity of the greenhouse body, transverse plates are fixedly connected at the positions, close to the top, of the transverse plates, a power supply is fixedly connected at the positions, close to the right side, of the top of the transverse plates, a humidity sensor is fixedly connected at the positions, close to the right side, of the top of the transverse plates, through the mutual matching of the parts, the device can sense the air humidity change and automatically open and close a skylight, the skylight is not required to be opened and closed by a manual pull rope or a wood roller, time and labor are saved, the working efficiency is improved, the problem that when the skylight is closed in bad weather, the influence is possibly caused to plants in a greenhouse and the economic loss is solved, meanwhile, the dust at the top of the skylight can be automatically cleaned, the problem that the dust falls into the greenhouse due to the outside of the skylight for a long time and the sunlight shines into the greenhouse is solved, is beneficial to the growth of crops.

Description

Greenhouse skylight jacking mechanism capable of being adjusted according to climate change

Technical Field

The utility model relates to the technical field of greenhouse skylights, in particular to a greenhouse skylight jacking mechanism capable of being adjusted according to climate change.

Background

Agricultural greenhouses are widely used for agricultural production activities such as vegetable planting, flower cultivation and seedling breeding, the agricultural greenhouses are usually required to be provided with ventilating skylights for temperature adjustment, at present, one-side movable skylights are usually adopted, one ends of the skylights are fixed by hinges in the one-side movable manner, and the other ends of the skylights are movable and pulled up by pull ropes or are jacked up by wood rods;

to large-scale green house cultivation base, the skylight relies on artifical stay cord or wooden roller jack-up skylight power consuming time to in the bad weather of wind and rain, if the skylight is closed untimely, probably cause the influence to the plant in the big-arch shelter, cause economic loss, and the skylight does not have clean function, because the skylight is the glass material, the outside can fall full of the dust for a long time, influences during sunshine shines into big canopy, is unfavorable for crops to grow.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a greenhouse skylight jacking mechanism which can be adjusted according to climate change.

One of the purposes of the utility model is realized by adopting the following technical scheme:

a greenhouse skylight jacking mechanism capable of being adjusted according to climate change comprises a greenhouse body, wherein transverse plates are fixedly connected to the left side and the right side of an inner cavity of the greenhouse body close to the top, a power supply is fixedly connected to the top of the transverse plates close to the right side, a humidity sensor is fixedly connected to the top of the transverse plates close to the right side and is positioned on the right side of the power supply, two electric wires are commonly inserted into one side of the humidity sensor corresponding to the power supply, supporting plates are fixedly connected to the top of the transverse plates close to the left side and the right side, the two supporting plates are arranged in a bilateral symmetry mode by taking the center of the top of the transverse plates as a symmetry axis, slide bars are fixedly connected to one side of the two supporting plates close to the top, two slide blocks are arranged between the two supporting plates, through holes are formed in the two slide blocks, and the outer edges of the slide bars penetrate through the inner cavities of the two through holes, the improved structure of the automobile seat is characterized in that a motor is fixedly connected to the top of the transverse plate close to the front side, a rotating shaft is fixedly connected to a power output shaft of the motor, a fixed plate is fixedly connected to the top of the transverse plate close to the center, a first bearing is fixedly connected to the fixed plate, the rear end of the rotating shaft penetrates through an inner cavity of the first bearing, a driving bevel gear is fixedly connected to the rear end of the rotating shaft, a second bearing is fixedly connected to the bottom of the sliding rod close to the center, a rotating rod is inserted into the inner cavity of the second bearing, a driven bevel gear is fixedly connected to the bottom end of the rotating rod, the driving bevel gear and the driven bevel gear are meshed with each other, a disc is sleeved on the outer edge of the rotating rod close to the center, two linking rods are hinged to each other to the top of the disc and one end, far away from the disc, of each linking rod is hinged to an adjacent sliding block.

Further, rectangle openings are all formed in the top of the greenhouse body close to the left side and the right side, two skylight bodies are hinged to one side, close to the center of the top of the greenhouse body, of the inner cavity of each rectangle opening, connecting rods are hinged to the tops of the sliding blocks, and the ends, away from the sliding rods, of the connecting rods are meshed with the adjacent skylight bodies.

Furthermore, two equal fixedly connected with fixed block in one side that big-arch shelter body top center was kept away from at skylight body top, two one side that the fixed block is close to big-arch shelter body top center is close to equal fixedly connected with pole in center department.

Furthermore, two the fixed block is close to top department and has all seted up spacing hole, two spacing hole inner chamber all runs through and is equipped with the gag lever post, two the equal fixedly connected with stopper of one end at big-arch shelter body top center is kept away from to the gag lever post.

Further, the stopper is close to the equal fixedly connected with storage water tank of the one end at big-arch shelter body top center, two the storage water tank bottom all sets up for laminating each other with adjacent skylight body top, two one side that big-arch shelter body top center was kept away from to the storage water tank is close to the equal fixedly connected with scraper blade of bottom department, two scraper blade bottom all sets up for laminating each other with adjacent skylight body top.

Further, two equal common fixedly connected with dead lever in one side that big-arch shelter body top center was kept away from to storage water tank inner chamber top and bottom, two the round hole has all been seted up near center department to the dead lever, two the round hole inner chamber all runs through and is equipped with the carriage release lever, two the equal fixedly connected with interlock piece in one end that the carriage release lever is close to big-arch shelter body top center, two the equal fixedly connected with arc piece in one end that the big-arch shelter body top center was kept away from to the carriage release lever, two common fixedly connected with two interlock springs between the arc piece and the adjacent dead lever, two the perforation has all been seted up near center department to one side that big-arch shelter body top center was kept away from to the storage water tank, two adjacent perforation inner chamber is all run through to the one end that big-arch shelter body top center was kept away from to the edge of arc piece outside.

Furthermore, two one side fixedly connected with connecting block that skylight body top is close to big-arch shelter body top center, two common fixedly connected with two reset springs between connecting block and the adjacent dead lever.

Compared with the prior art, the utility model has the beneficial effects that:

through mutually supporting between each part, this equipment can respond to the air humidity change, and the automatic switch skylight, need not to rely on artifical stay cord or wooden roller switch skylight, time saving and labor saving, work efficiency is improved, when meetting the bad weather of wind and rain, solved because the skylight is closed untimely, probably cause the influence to the plant in the big-arch shelter, the problem that leads to economic loss, simultaneously can clear up the dust at skylight top automatically, the long-time dust that falls in the skylight outside has been solved, influence the problem in the big-arch shelter that shines into of sunshine, be favorable to crops to grow.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a front view of the present embodiment;

FIG. 2 is a left side view of the part motor of the present embodiment;

FIG. 3 is a top view of the component disk of the present embodiment;

fig. 4 is an enlarged view of a portion a in fig. 1.

In the figure: 1. a greenhouse body; 2. a transverse plate; 3. a support plate; 4. a slide bar; 5. a slider; 6. a connecting rod; 7. a skylight body; 8. a fixing plate; 9. a drive bevel gear; 10. a driven bevel gear; 11. a disc; 12. a linkage rod; 13. a power source; 14. a humidity sensor; 15. a fixed block; 16. a limiting rod; 17. a limiting block; 18. a round bar; 19. a motor; 20. connecting blocks; 21. a return spring; 22. a water storage tank; 23. fixing the rod; 24. a travel bar; 25. a linkage block; 26. an arc-shaped block; 27. a linkage spring; 28. a scraper.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 4, a greenhouse skylight jacking mechanism capable of being adjusted according to climate change comprises a greenhouse body 1, wherein the left side and the right side of the inner cavity of the greenhouse body 1 are fixedly connected with a transverse plate 2 together, the top of the transverse plate 2 is fixedly connected with a power supply 13 adjacent to the right side, the top of the transverse plate 2 is fixedly connected with a humidity sensor 14 adjacent to the right side, the humidity sensor 14 is positioned at the right side of the power supply 13, two wires are inserted into the humidity sensor 14 and the side corresponding to the power supply 13 together, supporting plates 3 are fixedly connected to the top of the transverse plate 2 adjacent to the left side and the right side, the two supporting plates 3 are arranged in bilateral symmetry with the center of the top of the transverse plate 2 as a symmetry axis, a sliding rod 4 is fixedly connected to the side corresponding to the two supporting plates 3 together, two sliding blocks 5 are arranged between the two supporting plates 3, through holes are arranged on the two sliding blocks 5, the outer edges of the sliding rod 4 penetrate through the inner cavities of the two through holes, a motor 19 is fixedly connected to the top of the transverse plate 2 close to the front side, a rotating shaft is fixedly connected to a power output shaft of the motor 19, a fixed plate 8 is fixedly connected to the top of the transverse plate 2 close to the center, a first bearing is fixedly connected to the fixed plate 8, the rear end of the rotating shaft penetrates through the inner cavity of the first bearing, a driving bevel gear 9 is fixedly connected to the rear end of the rotating shaft, a second bearing is fixedly connected to the bottom of the sliding rod 4 close to the center, a rotating rod is inserted into the inner cavity of the second bearing, a driven bevel gear 10 is fixedly connected to the bottom end of the rotating rod, the driving bevel gear 9 and the driven bevel gear 10 are arranged in a mutually meshed manner, a disc 11 is sleeved on the outer edge of the rotating rod close to the center, coupling rods 12 are hinged to the top of the disc 11 and to the front and rear sides, one ends of the two coupling rods 12 far away from the disc 11 are mutually hinged to the adjacent slide blocks 5, rectangular openings are formed in the top of the greenhouse body 1 close to the left and right sides, one sides of the inner cavities of the two rectangular openings, which are close to the center of the top of the greenhouse body 1, are hinged with skylight bodies 7, the tops of the two sliding blocks 5 are hinged with connecting rods 6, and the ends, which are far away from the sliding rod 4, of the two connecting rods 6 are mutually meshed with the adjacent skylight bodies 7, so that the skylight is opened and closed;

the top of each of the two skylight bodies 7 is far away from the center of the top of the greenhouse body 1, one side of each of the two fixing blocks 15, which is close to the center of the top of the greenhouse body 1, is fixedly connected with a fixing block 15, one side of each of the two fixing blocks 15, which is close to the center of the top of the greenhouse body 1, is fixedly connected with a round rod 18, each of the two fixing blocks 15, which is close to the top, is provided with a limiting hole, inner cavities of the two limiting holes are provided with limiting rods 16 in a penetrating mode, one end of each of the two limiting rods 16, which is far away from the center of the top of the greenhouse body 1, is fixedly connected with a limiting block 17, one end of each limiting block 17, which is close to the center of the top of the greenhouse body 1, is fixedly connected with a water storage tank 22, the bottoms of the two water storage tanks 22 are mutually attached to the tops of the adjacent skylight bodies 7, one side of the two water storage tanks 22, which is far away from the center of the top of the greenhouse body 1, is fixedly connected with a scraping plate 28, and the bottoms of the adjacent skylight bodies 7 are mutually attached to clean the skylight, so as to clean the skylight;

fixing rods 23 are fixedly connected to the top and bottom sides of the inner cavities of the two water storage tanks 22 far away from the center of the top of the greenhouse body 1, round holes are formed in the positions, close to the center, of the two fixing rods 23, moving rods 24 penetrate through the inner cavities of the round holes, linkage blocks 25 are fixedly connected to the ends, close to the center of the top of the greenhouse body 1, of the two moving rods 24, arc blocks 26 are fixedly connected to the ends, far away from the center of the top of the greenhouse body 1, of the two moving rods 24, two linkage springs 27 are fixedly connected between the two arc blocks 26 and the adjacent fixing rods 23, through holes are formed in the positions, close to the center, of the two water storage tanks 22 far away from the center of the top of the greenhouse body 1, one ends, far away from the center, of the outer edges of the two arc blocks 26 penetrate through the adjacent through hole cavities of the skylight, and a connecting block 20 is fixedly connected to one side, close to the center, of the top of the two water storage tanks 7, two return springs 21 are fixedly connected between the two connecting blocks 20 and the adjacent fixing rods 23 together, and two functions of controlling the opening and closing of the through holes are achieved.

The working principle is as follows: the utility model firstly supplies power to the humidity sensor 14 through the power supply 13 when two skylight bodies 7 are opened, senses the humidity change in the air through the humidity sensor 14, when the weather is good, the humidity sensor 14 can sense the lower humidity in the air, thereby transmitting the signal of opening the skylight body 7 to the motor 19, the power output shaft of the motor 19 rotates to drive the rotating shaft to rotate, the driving bevel gear 9 rotates through the rotating shaft, the driven bevel gear 10 rotates through the driving bevel gear 9, the rotating rod rotates through the driven bevel gear 10, the disc 11 rotates through the rotating rod, the two linkage rods 12 are driven to move through the disc 11, the adjacent sliding blocks 5 are driven to move towards two sides through the two linkage rods 12, the adjacent connecting rods 6 are driven to move towards two sides through the two sliding blocks 5, the adjacent skylight bodies 7 are driven to be opened through the two connecting rods 6, the greenhouse can be ventilated, the growth of crops is facilitated, when the weather is bad, the humidity in the air is sensed by the humidity sensor 14 to be larger, the humidity sensor 14 transmits a signal for closing the skylight bodies 7 to the motor 19, the motor 19 rotates reversely, the two skylight bodies 7 can be closed, the skylight is not required to be jacked up by a manual pull rope or a wood roller, time and labor are saved, the working efficiency is improved, the problem that the influence on plants in the greenhouse is possibly caused due to untimely closing of the skylight, and economic loss is caused is solved, when the two skylight bodies 7 are closed, rainwater enters the two water storage tanks 22, when the rainwater is gathered to a certain weight, the two water storage tanks 22 move at the tops of the adjacent skylight bodies 7 under the action of gravity, the two water storage tanks 22 drive the adjacent reset springs 21 to be stretched through the two water storage tanks 22, and when the two water storage tanks 22 move to be mutually attached to the adjacent fixing blocks 15, the two round rods 18 penetrate through the adjacent perforation inner cavities, the adjacent arc-shaped blocks 26 are jacked up, the two arc-shaped blocks 26 are separated from the adjacent perforations, the adjacent linkage springs 27 are driven to be compressed, rainwater in the two water storage tanks 22 flows out through the perforations, the whole weight of the water storage tanks 22 is reduced, the adjacent water storage tanks 22 can be pulled to reset due to the elastic action of the adjacent reset springs 21, meanwhile, the adjacent arc-shaped blocks 26 can be driven to reset due to the elastic action of the adjacent linkage springs 27, so that the rainwater is continuously gathered in the water storage tanks 22 and moves back and forth, the adjacent scraping plates 28 are driven to move back and forth by the two water storage tanks 22, dust at the tops of the adjacent skylight bodies 7 can be cleaned, the skylight is made of glass, the problem that the outer side is full of dust for a long time and the sunlight shines into the greenhouse is avoided, the growth of crops is facilitated, the adjacent limiting rods 16 are driven to move by the two water storage tanks 22, the two storage tanks 22 can be limited.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (7)

1. The utility model provides a can be according to the big-arch shelter skylight jack-up mechanism that climate change adjusted, includes big-arch shelter body (1), its characterized in that: the greenhouse is characterized in that transverse plates (2) are fixedly connected to the left side and the right side of the inner cavity of the greenhouse body (1) close to the top, a power supply (13) is fixedly connected to the top of the transverse plates (2) close to the right side, a humidity sensor (14) is fixedly connected to the top of the transverse plates (2) close to the right side, the humidity sensor (14) is located on the right side of the power supply (13), two electric wires are inserted into one side of the humidity sensor (14) corresponding to the power supply (13), supporting plates (3) are fixedly connected to the top of the transverse plates (2) close to the left side and the right side, the two supporting plates (3) are arranged in a bilateral symmetry mode by taking the center of the top of the transverse plates (2) as a symmetry axis, sliding rods (4) are fixedly connected to one side of the two supporting plates (3) close to the top, two sliding blocks (5) are arranged between the two supporting plates (3), and through holes are formed in the two sliding blocks (5), the outer edge of the sliding rod (4) penetrates through two through hole inner cavities, a motor (19) is fixedly connected to the top of the transverse plate (2) close to the front side, a rotating shaft is fixedly connected to a power output shaft of the motor (19), a fixed plate (8) is fixedly connected to the top of the transverse plate (2) close to the center, a first bearing is fixedly connected to the fixed plate (8), the rear end of the rotating shaft penetrates through the inner cavity of the first bearing and is fixedly connected with a driving bevel gear (9), a second bearing is fixedly connected to the bottom of the sliding rod (4) close to the center, a rotating rod is inserted into the inner cavity of the second bearing, a driven bevel gear (10) is fixedly connected to the bottom end of the rotating rod, the driving bevel gear (9) and the driven bevel gear (10) are arranged in a mutually meshed mode, a disc (11) is sleeved to the outer edge of the rotating rod close to the center, and linkage rods (12) are hinged to the top of the disc (11) close to the front side and the back side, one ends of the two linkage rods (12) far away from the disc (11) are hinged with the adjacent sliding blocks (5).

2. The mechanism as claimed in claim 1, wherein the mechanism is adjustable according to the climate change, and comprises: the top of the greenhouse body (1) is close to the left side and the right side, rectangular openings are formed in the two sides, one side, close to the center of the top of the greenhouse body (1), of an inner cavity of each rectangular opening is hinged to a skylight body (7), the top of each sliding block (5) is hinged to a connecting rod (6), and the connecting rods (6) are arranged between one end, away from each sliding rod (4), of each connecting rod and the adjacent skylight body (7) in an intermeshing mode.

3. The mechanism as claimed in claim 2, wherein the mechanism is adjustable according to the climate change, and comprises: two equal fixedly connected with fixed block (15) in one side that big-arch shelter body (1) top center was kept away from at skylight body (7) top, two one side that fixed block (15) are close to big-arch shelter body (1) top center is close to equal fixedly connected with round bar (18) of center department.

4. The mechanism of claim 3, wherein the mechanism is adjustable according to the climate change, and comprises: two fixed block (15) are close to top department and all have seted up spacing hole, two spacing hole inner chamber all runs through and is equipped with gag lever post (16), two the equal fixedly connected with stopper (17) of one end at big-arch shelter body (1) top center is kept away from in gag lever post (16).

5. The mechanism of claim 4, wherein the mechanism is adjustable according to the climate change, and comprises: stopper (17) are close to equal fixedly connected with storage water tank (22) of one end at big-arch shelter body (1) top center, two storage water tank (22) bottom all sets up for laminating each other with adjacent skylight body (7) top one side that big-arch shelter body (1) top center was kept away from in storage water tank (22) is close to the equal fixedly connected with scraper blade (28) of bottom department, two scraper blade (28) bottom all sets up for laminating each other with adjacent skylight body (7) top.

6. The mechanism of claim 5, wherein the mechanism is adjustable according to the climate change, and comprises: two equal common fixedly connected with dead lever (23) in one side that big-arch shelter body (1) top center was kept away from to storage water tank (22) inner chamber top and bottom, two dead lever (23) are close to center department and have all seted up the round hole, two the round hole inner chamber all runs through and is equipped with carriage release lever (24), two carriage release lever (24) are close to the equal fixedly connected with interlock piece (25) of one end at big-arch shelter body (1) top center, two equal fixedly connected with arc piece (26) in one end that big-arch shelter body (1) top center was kept away from in carriage release lever (24), two common fixedly connected with two interlock springs (27) between arc piece (26) all and adjacent dead lever (23), two one side that big-arch shelter body (1) top center was kept away from in storage water tank (22) is close to center department and has all seted up the perforation, two the one end that big-arch piece (26) outside edge kept away from big-arch shelter body (1) top center all runs through adjacent perforation inner chamber.

7. The mechanism as claimed in claim 2, wherein the mechanism is adjustable according to the climate change, and comprises: two one side fixedly connected with connecting block (20) that skylight body (7) top is close to big-arch shelter body (1) top center, two common fixedly connected with two reset spring (21) between connecting block (20) and adjacent dead lever (23).

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