CN213427304U

CN213427304U - Digital management's flowers cultivation big-arch shelter

Info

Publication number: CN213427304U
Application number: CN202022186273.3U
Authority: CN
Inventors: 曹荣根; 倪功
Original assignee: Yunnan Jinyuan Flower Industry Ltd By Share Ltd
Current assignee: Yunnan Jinyuan Flower Industry Ltd By Share Ltd
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-06-15
Anticipated expiration: 2030-09-29

Abstract

The utility model provides a digitally managed flower cultivation greenhouse, which comprises a greenhouse body, wherein a hanging rod is transversely arranged in the greenhouse body, a water collecting pipe is vertically arranged in the middle of the hanging rod, a water collecting tank is arranged at the lower end of the water collecting pipe, a guide plate is obliquely arranged outside the greenhouse body, the lower end of the guide plate penetrates through the side wall of the greenhouse body and is connected with the hanging rod, a rainwater drainage port is arranged in the guide plate, and the lower end of the rainwater drainage port is communicated with the water collecting pipe; the upper end on first shed roof and second shed roof all is equipped with solar cell panel, be connected with the light filling lamp on the peg, the inner wall of the canopy body is equipped with the control box, the box outside of control box is equipped with light sensor and humidity transducer, be equipped with controller and battery in the control box, solar cell panel, the water pump, the light filling lamp, light sensor, controller and humidity transducer all are connected with the battery electricity, light sensor and humidity transducer all are connected with the controller, when solving the flower cultivation to in the big-arch shelter, the water intaking is inconvenient, and need the manual problem of carrying out light filling and watering to flowers.

Description

Digital management's flowers cultivation big-arch shelter

Technical Field

The utility model relates to a flowers cultivation technical field, concretely relates to big-arch shelter is cultivated to flowers of digital management.

Background

With the production of high molecular polymers, polyvinyl chloride and polyethylene, plastic films are widely used in agriculture. The success of covering hotbeds with greenhouse films in Japan and European and American countries in the early 50 s was achieved, and good results were obtained by covering small sheds and greenhouses subsequently. The polyvinyl chloride agricultural film is introduced in autumn in 1955 in China, and is firstly used for covering vegetables in small sheds in Beijing to obtain the effect of precocity and yield increase. The greenhouse is special equipment for flower cultivation, and the application of the greenhouse is more extensive along with the development of production.

But when flowers in the greenhouse are cultivated, water is inconvenient to take, and the flowers need to be supplemented with light and watered manually by people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a big-arch shelter is cultivated to flowers of digital management, when solving and cultivating the flowers in the big-arch shelter, the water intaking is inconvenient, and needs the manual problem that carries out light filling and watering to flowers.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a digitally-managed flower cultivation greenhouse comprises a greenhouse body, wherein a bearing rod is transversely arranged at the top of the greenhouse body, a first shed roof and a second shed roof are arranged above the bearing rod, the upper end of the first shed roof is connected with the upper end of the second shed roof, the lower end of the first shed roof and the lower end of the second shed roof are respectively connected with two ends of the bearing rod, support columns are arranged at the lower ends of the first shed roof and the second shed roof, a hanging rod is transversely arranged in the greenhouse body, a water collecting pipe is vertically arranged in the middle of the hanging rod, a water collecting pool is arranged at the lower end of the water collecting pipe, a guide plate is obliquely arranged on the outer side of the greenhouse body, the lower end of the guide plate penetrates through the side wall of the greenhouse body and is connected with the hanging rod, a rainwater drainage port is formed in the guide plate, and the lower end of the rainwater drainage port is communicated; flower cultivation frames are arranged between the supporting columns and the inner walls of the adjacent shed bodies, water pumps are arranged on the supporting columns, the water inlet ends of the water pumps are communicated with the water collecting pool, and the water outlet ends of the water pumps are connected with spraying devices; the upper end on first shed roof and second shed roof all is equipped with solar cell panel, be connected with the light filling lamp on the peg, the inner wall of the canopy body is equipped with the control box, the box outside of control box is equipped with light sensor and humidity transducer, be equipped with controller and battery in the control box, solar cell panel, water pump, light filling lamp, light sensor, controller and humidity transducer all are connected with the battery electricity, light sensor and humidity transducer all are connected with the controller.

The rainwater drainage port comprises a rainwater inlet and a rainwater diversion port, the rainwater inlet is arranged at the upper end of the guide plate, the rainwater diversion port is arranged in the guide plate, the upper end of the rainwater diversion port is communicated with the rainwater inlet, and the lower end of the rainwater diversion port is communicated with the water collection pipe.

The flower cultivation frame comprises a first upright post, a second upright post, a climbing frame and a cultivation frame, wherein the climbing frame and the cultivation frame are arranged between the first upright post and the second upright post, and the climbing frame is arranged above the cultivation frame; cultivate the both sides of frame and all be equipped with the connection piece, the connection piece includes first horizontal plate, riser and second horizontal plate, one side of first horizontal plate passes through bolted connection with cultivating the frame, and the opposite side is connected with the upside of riser, and the downside of riser is connected with one side of second horizontal plate, and the opposite side of second horizontal plate is equipped with a plurality of spacing holes, all transversely be equipped with a plurality of mounting grooves on first stand and the second stand, all transversely be equipped with on first stand and the second stand with the communicating horizontal groove of mounting groove, the tank bottom department of mounting groove is vertical to be equipped with a plurality of spacing posts, spacing post card is established at spacing downthehole.

A further technical scheme is, the climbing frame includes frame, a plurality of horizontal pole and a plurality of montant, the middle part cavity of frame sets up, the vertical first through-hole that is equipped with in top of frame, the vertical mounting hole that is equipped with in bottom upper end of frame, the lower extreme of montant passes first through-hole and installs in the mounting hole, one side of frame is equipped with first recess, the vertical second recess that communicates with each other with first recess that is equipped with of opposite side of frame, the one end of montant slides in first recess to the card is established in the second recess.

According to a further technical scheme, a plurality of second through holes are formed in the cross rod, and the vertical rod penetrates through the second through holes.

A further technical scheme is, cultivate the vertical standing groove that is equipped with of up end of frame, the tank bottom of standing groove is equipped with a plurality of flowerpot grooves, and spray set includes main water pipe and shower head, main water pipe sets up the bottom at the frame, the both sides switch-on of main water pipe has a plurality of shunt tubes, be equipped with the shower head on the shunt tube.

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

the outer side of the shed body is obliquely provided with a guide plate, the lower end of the guide plate penetrates through the side wall of the shed body and is connected with a hanging rod, a rainwater drainage port is arranged in the guide plate, the lower end of the rainwater drainage port is communicated with a water collecting pipe, rainwater is collected in the water collecting tank and is convenient to use when flowers are cultivated without externally connecting a water source, the rainwater is fully utilized for cultivating the flowers, meanwhile, solar cell panels are arranged at the upper ends of the first shed top and the second shed top respectively, the solar cell panels convert solar energy into electric energy and store the electric energy in the storage battery, the light supplementing lamp is used when the light is dim or the light is used at night, the illumination time of the flowers is prolonged, the illumination sensor is used for detecting the illumination intensity, the humidity sensor is used for detecting the indoor humidity, when the detected illumination intensity is low, the controller controls the light supplementing lamp to illuminate, when the humidity sensor is used for, increase humidity, make whole device have digital intellectuality, also can maintain the interior flowers normal growth of big-arch shelter under the operation that does not need the manual, the personnel of being convenient for carry out flowers and cultivate.

Drawings

Fig. 1 is a schematic structural view of the digitally managed flower cultivation greenhouse of the present invention.

Fig. 2 is a partial sectional view of the middle deflector of the present invention.

Fig. 3 is a schematic structural view of the cultivation frame used in the flower cultivation greenhouse of the present invention.

Fig. 4 is a schematic view of the connection between the middle connection piece and the first upright of the present invention.

Fig. 5 is a schematic view of the structure of the middle mounting groove and the horizontal groove of the present invention.

Fig. 6 is a schematic view of the structure of the second groove and the first groove of the present invention.

Fig. 7 is a top view of the main water pipe of the present invention.

Icon: 1-a first upright post, 2-a second upright post, 3-a climbing frame, 4-a cultivation frame, 5-a first horizontal plate, 6-a vertical plate, 7-a second horizontal plate, 8-a mounting groove, 9-a horizontal groove, 10-a spacing post, 12-a cross bar, 13-a vertical bar, 14-an outer frame, 15-a second groove, 16-a first groove, 17-a flowerpot groove, 18-a main water pipe, 19-a shunt pipe, 20-a spray header, 21-a shed body, 22-a bearing bar, 23-a first shed roof, 24-a second shed roof, 25-a support post, 26-a hanging bar, 27-a water collecting pipe, 28-a water collecting tank, 29-a guide plate, 30-a water pump, 31-a light supplement lamp, 32-a control box and 33-a rainwater inlet, 34-a rainwater diversion port and 35-a flower cultivation frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example (b):

fig. 1 to 7 show a preferred embodiment of a digitally managed flower cultivation greenhouse of the present invention, the flower cultivation greenhouse of the present invention specifically includes a greenhouse body 21, a bearing rod 22 is transversely disposed on the top of the greenhouse body 21, a first roof 23 and a second roof 24 are disposed above the bearing rod 22, the upper end of the first roof 23 is connected to the upper end of the second roof 24, the lower end of the first roof 23 and the lower end of the second roof 24 are respectively connected to two ends of the bearing rod 22, the lower ends of the first roof 23 and the second roof 24 are respectively provided with a support column 25, a hanging rod 26 is transversely disposed in the greenhouse body 21, a water collecting pipe 27 is vertically disposed in the middle of the hanging rod 26, a water collecting tank 28 is disposed at the lower end of the water collecting pipe 27, a guide plate 29 is obliquely disposed outside the greenhouse body 21, the lower end of the guide plate 29 passes through the side wall of the greenhouse body 21 and is connected to the hanging rod 26, a rainwater drainage port is arranged in the guide plate 29, and the lower end of the rainwater drainage port is communicated with the water collecting pipe 27; flower cultivation frames 35 are arranged between the supporting columns 25 and the inner walls of the adjacent shed bodies 21, water pumps 30 are arranged on the supporting columns 25, the water inlet ends of the water pumps 30 are communicated with the water collecting tank 28, and the water outlet ends are connected with spraying devices; the upper end of first shed roof 23 and second shed roof 24 all is equipped with solar cell panel, be connected with light filling lamp 31 on the peg 26, the inner wall of the canopy body 21 is equipped with control box 32, the box outside of control box 32 is equipped with light sensor and humidity transducer, be equipped with controller and battery in the control box 32, solar cell panel, water pump 30, light filling lamp 31, light sensor, controller and humidity transducer all are connected with the battery electricity, light sensor and humidity transducer all are connected with the controller.

The utility model discloses a theory of operation is: the guide plate 29 is obliquely arranged on the outer side of the shed body 21, the lower end of the guide plate 29 penetrates through the side wall of the shed body 21 and is connected with the hanging rod 26, a rainwater drainage port is arranged in the guide plate 29, the lower end of the rainwater drainage port is communicated with the water collecting pipe 27 to collect rainwater in the water collecting tank 28, the rainwater is convenient to use during flower cultivation, an external water source is not needed, the rainwater is fully utilized to cultivate flowers, meanwhile, solar cell panels are arranged at the upper ends of the first shed roof 23 and the second shed roof 24 and convert solar energy into electric energy to be stored in the storage battery, the light supplementing lamp 31 is used when the light is dim or at night, the illumination time of the flowers is prolonged, the illumination sensor is used for detecting the illumination intensity, the humidity sensor is used for detecting indoor humidity, when the detected illumination intensity is low, the controller controls the light supplementing lamp 31 to illuminate, when the humidity sensor is used for detecting the indoor, control pump 30 drives spray set and sprays, increases humidity, makes whole device have digital intellectuality, also can maintain the interior flowers normal growth of big-arch shelter under the operation that does not need the manual work, and the personnel of being convenient for carry out flowers and cultivate.

Preferably, the rainwater drainage port comprises a rainwater inlet 33 and a rainwater diversion port 34, the rainwater inlet 33 is arranged at the upper end of the guide plate 29, the rainwater diversion port 34 is arranged in the guide plate 29, the upper end of the rainwater diversion port 34 is communicated with the rainwater inlet 33, the lower end of the rainwater diversion port 34 is communicated with the water collection pipe 27, and rainwater flows into the rainwater diversion port 34 from the rainwater inlet 33 and flows into the water collection tank 28 through the water collection pipe 27.

Preferably, the flower cultivation frame comprises a first upright post 1, a second upright post 2, a climbing frame 3 and a cultivation frame 4 of the flower cultivation frame 35, wherein the climbing frame 3 and the cultivation frame 4 are arranged between the first upright post 1 and the second upright post 2, and the climbing frame 3 is arranged above the cultivation frame 4; cultivate the both sides of frame 4 and all be equipped with the connection piece, the connection piece includes first horizontal plate 5, riser 6 and second horizontal plate 7, one side of first horizontal plate 5 with cultivate frame 4 and pass through bolted connection, the opposite side is connected with the upside of riser 6, the downside of riser 6 is connected with one side of second horizontal plate 7, the opposite side of second horizontal plate 7 is equipped with a plurality of spacing holes, all transversely be equipped with a plurality of mounting grooves 8 on first stand 1 and the second stand 2, all transversely be equipped with on first stand 1 and the second stand 2 with the communicating horizontal groove 9 of mounting groove 8, the tank bottom department of mounting groove 8 is vertical to be equipped with a plurality of spacing posts 10, spacing post 10 card is established at spacing downthehole. Cultivate frame 4 and be connected with first horizontal plate 5 through the bolt, first horizontal plate 5 sets up in one side of riser 6, and second horizontal plate 7 sets up the opposite side at riser 6, all transversely is equipped with a plurality of mounting grooves 8 on first stand 1 and the second stand 2, and the tank bottom department of mounting groove 8 is vertical to be equipped with a plurality of spacing posts 10, is equipped with a plurality of spacing holes on the second horizontal plate 7, spacing post 10 card is established in spacing downthehole, when needs are to the culture rack height-adjusting, lifts up second horizontal plate 7 earlier, makes spacing post 10 break away from spacing hole, makes the spacing piece of second follow horizontal groove 9 roll-off, according to concrete position again, places the spacing piece of second in mounting groove 8 of co-altitude, just accomplishes the adjustment to the position height of cultivating frame 4.

Preferably, the climbing frame 3 comprises an outer frame 14, a plurality of cross bars 12 and a plurality of vertical bars 13, the middle of the outer frame 14 is hollow, a first through hole is vertically arranged at the top of the outer frame 14, a mounting hole is vertically arranged at the upper end of the bottom of the outer frame 14, the lower ends of the vertical bars 13 penetrate through the first through hole and are mounted in the mounting hole, a first groove 16 is arranged at one side of the outer frame 14, a second groove 15 communicated with the first groove 16 is vertically arranged at the other side of the outer frame 14, one end of each vertical bar 13 slides into the first groove 16 and is clamped in the second groove 15, a plurality of second through holes are arranged on the cross bars 12, the vertical bars 13 penetrate through the second through holes, when the sliding bars 22 and the vertical bars 13 are mounted, the two ends of the cross bars 12 respectively slide into the first grooves 16, then the cross bars 12 slide downwards, the cross bars 12 are clamped in the second grooves 15, and then the vertical bars 13 respectively penetrate through the first through holes and the second through, the lower ends of the vertical rods 13 are placed in the mounting holes, so that the vertical rods 13 and the cross rods 12 are connected tightly, the stability of the whole outer frame 14 is improved, and different flower seedlings can crawl on the vertical rods 13 which are not used.

Preferably, cultivate the vertical standing groove that is equipped with of up end of frame 4, the tank bottom of standing groove is equipped with a plurality of flowerpot grooves 17, and flowerpot groove 17 is used for placing the used flowerpot of flowers.

Preferably, cultivate the vertical standing groove that is equipped with of up end of frame 4, the tank bottom of standing groove is equipped with a plurality of flowerpot grooves 17, and spray set includes main water pipe 18 and shower head 20, main water pipe 18 sets up the bottom at frame 14, the both sides switch-on of main water pipe 18 has a plurality of shunt tubes 19, be equipped with shower head 20 on the shunt tubes 19 for irrigate the flower seedling of cultivating in the frame 4.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims

1. The utility model provides a big-arch shelter is cultivated to flowers of digital management which characterized in that: comprises a shed body (21), the top of the shed body (21) is transversely provided with a bearing rod (22), the bearing rod (22) is arranged above a first shed roof (23) and a second shed roof (24), the upper end of the first shed roof (23) is connected with the upper end of the second shed roof (24), the lower end of the first shed roof (23) and the lower end of the second shed roof (24) are respectively connected with the two ends of the bearing rod (22), the lower ends of the first shed roof (23) and the second shed roof (24) are respectively provided with a support column (25), a hanging rod (26) is transversely arranged in the shed body (21), the middle part of the hanging rod (26) is vertically provided with a water collecting pipe (27), the lower end of the water collecting pipe (27) is provided with a water collecting tank (28), the outer side of the shed body (21) is obliquely provided with a guide plate (29), and the lower end of the guide plate (29) passes through the side wall of the shed body (21) and is connected with the hanging rod (26), a rainwater drainage port is arranged in the guide plate (29), and the lower end of the rainwater drainage port is communicated with the water collecting pipe (27); flower cultivation frames (35) are arranged between the supporting columns (25) and the inner walls of the adjacent shed bodies (21), water pumps (30) are arranged on the supporting columns (25), the water inlet ends of the water pumps (30) are communicated with the water collecting pool (28), and the water outlet ends are connected with spraying devices; the upper end of first shed roof (23) and second shed roof (24) all is equipped with solar cell panel, be connected with light filling lamp (31) on peg (26), the inner wall of the canopy body (21) is equipped with control box (32), the box outside of control box (32) is equipped with illumination sensor and humidity transducer, be equipped with controller and battery in control box (32), solar cell panel, water pump (30), light filling lamp (31), illumination sensor, controller and humidity transducer all are connected with the battery electricity, illumination sensor and humidity transducer all are connected with the controller.

2. A digitally managed flower growing greenhouse as claimed in claim 1, wherein: the rainwater drainage port comprises a rainwater inlet (33) and a rainwater diversion port (34), the rainwater inlet (33) is arranged at the upper end of the guide plate (29), the rainwater diversion port (34) is arranged in the guide plate (29), the upper end of the rainwater diversion port (34) is communicated with the rainwater inlet (33), and the lower end of the rainwater diversion port (34) is communicated with the water collection pipe (27).

3. A digitally managed flower growing greenhouse as claimed in claim 1, wherein: the flower cultivation frame (35) comprises a first upright post (1), a second upright post (2), a climbing frame (3) and a cultivation frame (4), wherein the climbing frame (3) and the cultivation frame (4) are arranged between the first upright post (1) and the second upright post (2), and the climbing frame (3) is arranged above the cultivation frame (4); cultivate the both sides of frame (4) and all be equipped with the connection piece, the connection piece includes first horizontal plate (5), riser (6) and second horizontal plate (7), one side of first horizontal plate (5) is passed through the bolt and is connected with cultivation frame (4), and the opposite side is connected with the upside of riser (6), and the downside and the one side of second horizontal plate (7) of riser (6) are connected, and the opposite side of second horizontal plate (7) is equipped with a plurality of spacing holes, all transversely be equipped with a plurality of mounting grooves (8) on first stand (1) and second stand (2), all transversely be equipped with communicating horizontal groove (9) with mounting groove (8) on first stand (1) and second stand (2), the tank bottom department of mounting groove (8) is vertical to be equipped with a plurality of spacing post (10), spacing post (10) card is established in spacing hole.

4. A digitally managed flower growing greenhouse as claimed in claim 3, wherein: climbing frame (3) include frame (14), a plurality of horizontal pole (12) and a plurality of montant (13), the middle part cavity of frame (14) sets up, the vertical first through-hole that is equipped with in top of frame (14), the vertical mounting hole that is equipped with in bottom upper end of frame (14), the lower extreme of montant (13) passes first through-hole and installs in the mounting hole, one side of frame (14) is equipped with first recess (16), the vertical second recess (15) that communicate with first recess (16) that are equipped with of opposite side of frame (14), the one end of montant (13) slips into first recess (16) to the card is established in second recess (15).

5. A digitally managed flower growing greenhouse as claimed in claim 4, wherein: the transverse rod (12) is provided with a plurality of second through holes, and the vertical rod (13) penetrates through the second through holes.

6. A digitally managed flower growing greenhouse as claimed in claim 5, wherein: cultivate the vertical standing groove that is equipped with of up end of frame (4), the tank bottom of standing groove is equipped with a plurality of flowerpot grooves (17), and spray set includes main water pipe (18) and shower head (20), main water pipe (18) set up the bottom at frame (14), the both sides switch-on of main water pipe (18) has a plurality of shunt tubes (19), be equipped with shower head (20) on shunt tubes (19).