CN209931046U - Complementary organic farm system of farming light - Google Patents

Complementary organic farm system of farming light Download PDF

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Publication number
CN209931046U
CN209931046U CN201920107412.3U CN201920107412U CN209931046U CN 209931046 U CN209931046 U CN 209931046U CN 201920107412 U CN201920107412 U CN 201920107412U CN 209931046 U CN209931046 U CN 209931046U
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track
transmission track
motor
rod
transmission
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洪光益
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洪光益
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/25Greenhouse technology, e.g. cooling systems therefor

Abstract

The utility model discloses a complementary organic farm system of farming light, the steerable crane of control mechanism is on vertical do ascending or descending motion for the big-arch shelter base, and solar cell panel sets up in the surface of filter screen, and with the crane is connected, and solar cell panel still is connected with outside electric energy collection device. In addition, solar cell panel can collect the electric energy, still can increase income for peasant after merging into the electric wire netting, and another output port connection grid subassembly that charges simultaneously for charge chargeable call, solved the difficult problem of charging, not only the environmental protection can also form by-pass effect, and the practicality strengthens greatly, and this system technology is development on the spot, uses on the spot, and the electric energy merges into the electric wire netting process simultaneously and can reduce the loss, then increases peasant's economic income effect, is favorable to promoting new energy automobile's popularization.

Description

Complementary organic farm system of farming light
Technical Field
The utility model relates to an agricultural equipment technical field especially relates to a complementary organic farm system of farming light.
Background
With the development of economic society and the continuous improvement of technical level, the greenhouse planting technology can be popularized and applied on a large scale, so that the influence of weather on vegetables can be reduced to the minimum, green vegetables can be eaten even in cold winter, and the life of people is greatly improved.
However, with the large-scale application of greenhouse technology, the problems therewith are gradually highlighted, most of greenhouses in the prior art adopt fixed integral structures, and the greenhouses can be easily blown to be damaged due to the fact that the greenhouses can not be freely lifted in typhoon. In addition, the existing greenhouse also has the defects of poor rainwater drainage effect and poor mosquito prevention effect.
In addition, due to the development of the technology and the improvement of the requirements on energy conservation and environmental protection, the single greenhouse technology has more and more defects and disadvantages at present, the systematic development is more and more important, and particularly, the greenhouse technology and the power generation technology are organically combined, so that not only can the income be effectively created for farmers, but also the redundant electric energy can be reasonably utilized.
In view of the above-mentioned problems and disadvantages, there is a need for new improvements to existing greenhouse designs, especially for systematization.
SUMMERY OF THE UTILITY MODEL
To the problem, the utility model provides a complementary organic farm system of farming light.
The utility model discloses a solve the technical scheme that its technical problem adopted and be:
an agricultural light complementary organic farm system, comprising:
a greenhouse base; the lifting frame is arranged on the greenhouse base; the control mechanism can control the lifting frame to do ascending or descending motion relative to the greenhouse base in the longitudinal direction; the filter screen is arranged outside the greenhouse base and the lifting frame and integrally covers the greenhouse base and the lifting frame to form a closed space, and an openable access is formed in the filter screen; the solar cell panel is arranged on the outer surface of the filter screen and is connected with the lifting frame;
the solar cell panel is further connected with an external electric energy collecting device, the external electric energy collecting device is provided with two output ports, one output port is connected into the power grid, and the other output port is connected with the charging grid assembly and used for charging the rechargeable automobile.
As a further improvement to the proposal, the lifting frame comprises a supporting upright post, a connecting horizontal pipe, a first sliding sleeve and a movable inclined pipe, the movable inclined tubes on the two sides of the connecting transverse tube are respectively provided with a transverse reinforcing rib, the top of the lifting frame is provided with a lightning rod, a fixed cross bar is arranged at the upper part of the supporting upright posts in a penetrating way, a plurality of the supporting upright posts are vertically and sequentially arranged on the central axis of the greenhouse base, each supporting upright post is sleeved with a first sliding sleeve, a connecting transverse pipe is arranged between every two adjacent first sliding sleeves, the left side and the right side of the connecting horizontal pipe are respectively provided with a movable inclined pipe oppositely, one end of the movable inclined pipe is fixedly arranged on the periphery of the greenhouse base, and a second sliding sleeve penetrates through the movable inclined tube and is further connected to the connecting transverse tube.
Further, the control mechanism comprises a forward and reverse rotating motor, a steel wire rope and a pulley block, the forward and reverse rotating motor is arranged on the base of the greenhouse, the pulley block is composed of a plurality of pulley units, each pulley unit is correspondingly arranged on the top of the supporting upright post, the steel wire rope is arranged on a rotating shaft of the forward and reverse rotating motor in a forward and reverse connection mode, one end of the first sliding sleeve is connected with the first sliding sleeve after sequentially passing around at least one pulley unit on one side of the supporting upright post, the other end of the first sliding sleeve is connected with the first sliding sleeve after sequentially passing through at least one pulley unit on the opposite side of the supporting upright post, the top of the supporting upright post is provided with a positioning piece, the first sliding sleeve can do lifting motion within the height range limited by the positioning piece and the greenhouse base, wherein the movable inclined pipes which are arranged oppositely do lifting motion within the angle range of 0-90 degrees.
Further, the grid subassembly that charges includes the net electric wire netting as anodal, the conducting film as the negative pole and links female end, the net electric wire netting with the conducting film is connected, link female end with the net electric wire netting is connected, wherein, can charge and install detachable public end of linking on the car, during charging, link public end with link female end and be connected, with the net electric wire netting with the conducting film constitutes a charging circuit jointly.
Further, the solar cell panel is connected with the external electric energy collecting device through a solar power generation multistage power amplification assembly, the solar power generation multistage power amplification assembly comprises a support frame, and a longitudinal shaft is arranged in the middle of the support frame; the upper part of the generator is electrically connected with a speed increaser in an operable way, the lower part of the generator is electrically connected with an electric storage device in an operable way, and the speed increaser, the generator and the electric storage device are sequentially arranged on the longitudinal shaft from top to bottom and are positioned in the support frame; the transmission track system is arranged on the longitudinal shaft and is positioned at the upper part of the support frame; the solar photovoltaic power generation system comprises a transmission track system, a transmission track system and a generator, wherein a solar cell panel is connected to the outside of the transmission track system, a track motor is further arranged on the transmission track system, the track motor can drive the transmission track system to rotate so as to convert electric energy collected by the solar cell panel into mechanical energy, and the mechanical energy further drives the generator to generate electricity so as to achieve power amplification.
Further, the transmission track system is a two-stage transmission track, the transmission track system comprises a first transmission track and a second transmission track, a first track motor and a second track motor are respectively arranged on the first transmission track and the second transmission track, a first rail motor is fixedly connected with a first cross rod, the other end of the first cross rod penetrates through the longitudinal shaft, a second rail motor is fixedly connected with a second cross rod, the other end of the second cross rod penetrates through the longitudinal shaft, and the first transmission track and the second transmission track are sequentially stacked.
Further, the conveying track system is a three-level conveying track, the conveying track system comprises a first conveying track and a second conveying track, the first transmission track and the second transmission track are respectively provided with a first track motor and a second track motor, the first track motor is fixedly connected with a first cross rod, the other end of the first cross rod penetrates through the longitudinal shaft, the second track motor is fixedly connected with a second cross rod, the other end of the second cross rod penetrates through the longitudinal shaft, the transmission track system also comprises a third transmission track, a third track motor is arranged on the third transmission track, the third track motor is fixedly connected with a third cross bar, the other end of the third cross bar penetrates through the longitudinal shaft, the first conveying track, the second conveying track and the third conveying track are sequentially arranged in a stacked mode.
Further, the first transmission track, the second transmission track and the third transmission track are all annular tracks arranged around the longitudinal axis, wherein the first transmission track, the second transmission track and the third transmission track move clockwise around the longitudinal axis in the same direction.
Furthermore, the solar power generation multistage power amplification assembly is arranged beside a roof or a greenhouse.
The utility model has the advantages that: the utility model relates to a complementary organic farm system of farming light, including big-arch shelter base, crane, control mechanism, filter screen and solar cell panel, the steerable crane of control mechanism is on vertical for the big-arch shelter base do the ascending or descending motion, the filter screen sets up in the outside of big-arch shelter base and crane to wholly go up the cladding and live both, form an enclosure space, solar cell panel set up in the surface of filter screen, and with the crane is connected, and solar cell panel still is connected with outside electric energy collection device. The utility model can lift the lifting frame in the cultivation season, thereby being convenient for farmers to cultivate, simultaneously achieving the ventilation effect and being beneficial to the growth of certain crops; if typhoon weather occurs, the lifting frame can be lowered to prevent the damage of typhoon to the greenhouse, the loss is reduced to the minimum, and the inclined plane formed by the inclined tube and the filter screen can be adjusted, so that a good rainwater drainage effect can be achieved; in addition, the solar cell panel can collect electric energy, can increase income for farmers after being incorporated into a power grid, is environment-friendly and can form side effect, the practicability is greatly enhanced, and meanwhile, the other output port is connected with the charging grid assembly and is used for charging a chargeable automobile, so that the problem of difficult charging is solved; therefore, the method has good application prospect.
Drawings
The invention will be further explained with reference to the following figures and examples:
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic sectional view of the present invention;
fig. 3 is a schematic view of an assembly structure of the greenhouse base, the lifting frame and the control mechanism of the present invention, wherein the movable inclined tube arranged oppositely is at an angle of 0 °;
fig. 4 is a schematic diagram of an assembly structure of the greenhouse base, the lifting frame and the control mechanism of the present invention, wherein the movable inclined tube arranged oppositely is at an angle of 45 degrees;
fig. 5 is a third schematic view of an assembly structure of the base, the crane and the control mechanism of the greenhouse of the present invention, wherein the movable inclined tube arranged oppositely is at an angle of 90 degrees;
fig. 6 is a schematic structural diagram of the charging grid assembly according to the present invention;
fig. 7 is a schematic view of the overall structure of the solar power generation multistage power amplification module.
Fig. 8 is a schematic view of the overall structure of the solar power generation multistage power amplification module of the present invention.
Fig. 9 is a schematic view of the structure of the solar power generation multistage power amplification module.
Detailed Description
Referring to fig. 1 to 5, an agricultural light complementary organic farm system includes: a greenhouse base 1; the lifting frame 2 is arranged on the greenhouse base 1; the control mechanism 3 can control the lifting frame 2 to do ascending or descending motion relative to the greenhouse base 1 in the longitudinal direction; the filter screen 4 is arranged outside the greenhouse base 1 and the lifting frame 2 and integrally covers the greenhouse base 1 and the lifting frame to form a closed space, and the filter screen 4 is provided with an openable access 41; the solar cell panel 5 is arranged on the outer surface of the filter screen 4 and is connected with the lifting frame 2, the solar cell panel 5 is arranged on two oblique outer surfaces of the filter screen 4, and each oblique outer surface is provided with 5 solar cell panels; the solar cell panel 5 is further connected with an external electric energy collecting device, the external electric energy collecting device is provided with two output ports, one output port is merged into the power grid, according to the national policy, the power grid is merged into to directly sell the collected electric energy to a power grid company, the income of farmers can be increased after the power grid is merged into, the environment is protected, the side effect can be formed, the application range of the solar cell panel is greatly expanded, and the other output port is connected with the charging grid assembly 6 and is used for charging the chargeable automobile. Of course, various forms of photovoltaic power generation, wind power generation, thermal power generation, kinetic power generation and the like can be adopted.
The lifting frame 2 comprises a supporting upright post 21, a connecting transverse tube 22, a first sliding sleeve 23 and a movable inclined tube 24, the movable inclined pipes 24 connected with both sides of the transverse pipe 22 are respectively provided with a transverse reinforcing rib 27, the top of the lifting frame 2 is provided with a lightning rod 28, the upper part of the supporting upright posts 21 is penetrated with a fixed cross rod 26, a plurality of the supporting upright posts 21 are vertically and sequentially arranged on the central axis of the greenhouse base 1, each supporting upright post 21 is sleeved with a first sliding sleeve 23, a connecting transverse pipe 22 is arranged between two adjacent first sliding sleeves 23, the left side and the right side of the connecting transverse pipe 22 are respectively provided with a movable inclined pipe 24 oppositely, one end of the movable inclined pipe 24 is fixedly arranged on the periphery of the greenhouse base 1, and a second sliding sleeve 25 is arranged on the movable inclined tube 24 in a penetrating manner, and the second sliding sleeve 25 is further connected to the connecting transverse tube 22.
The control mechanism 3 comprises a forward and reverse rotating motor 31, a steel wire rope 32 and a pulley block, the forward and reverse rotating motor 31 is arranged on the greenhouse base 1, the pulley block is composed of a plurality of pulley units 33, each pulley unit 33 is correspondingly arranged on the top of the supporting upright post 21, the wire rope 32 is arranged on the rotating shaft of the forward and reverse rotating motor 31 in a forward and reverse connection mode, one end of which is connected to the first sliding sleeve 23 after sequentially passing around at least one of the pulley units 33 on one side of the support column 21, the other end of which is connected to said first sliding sleeve 23 passing in sequence around at least one of said pulley units 33 on the opposite side of the supporting upright 21, the top of the supporting upright post 21 is provided with a positioning piece, the first sliding sleeve 23 can do lifting movement within the height range limited by the positioning piece and the greenhouse base 1, wherein the movable inclined tube 24 arranged oppositely does lifting motion within the angle range of 0-90 degrees.
Referring to fig. 3-5, specifically, the wire ropes 32 are respectively connected to the rotating shafts of the forward and reverse rotating motors 31 from the left and right sides, the whole system is connected through the wire ropes 32 and connected to each component through the pulley block, and then the forward and reverse rotating motors 31 control the operation, when the forward and reverse rotating motors 31 receive wires inwards (contract the wire ropes 32), the wire ropes 32 on the left side contract towards the forward and reverse rotating motors 31, the wire ropes 32 on the right side contract towards the forward and reverse rotating motors 31, the wire ropes 32 on all parts contract integrally, and the lifting frames 2 of the greenhouse are lifted through the first sliding sleeves 23; on the contrary, when the forward and reverse rotation motor 31 is paying off (the steel wire rope 32 is extended), the steel wire rope 32 on the left side is loosened outward from the forward direction of the forward and reverse rotation motor 31, the steel wire rope 32 on the right side is loosened outward from the reverse direction of the forward and reverse rotation motor 31, and the lifting frame 2 of the greenhouse is lowered through the first sliding sleeve 23. The top of the supporting upright post 21 is provided with a positioning member, and the first sliding sleeve 23 can perform lifting movement within the height range defined by the positioning member and the greenhouse base 1. The movable inclined tube 24 arranged oppositely does lifting motion within the angle range of 0-90 degrees. When the movable inclined tube 24 arranged oppositely forms an angle of 90 degrees, rainwater can be effectively discharged through the inclined plane in thunderstorm days; when the movable inclined tube 24 is arranged oppositely and has an angle of 0 degree, the effect of preventing typhoon can be achieved, and the wind resistance of the greenhouse can be greatly improved in strong wind weather. The lightning rod 6 is installed at the top of crane 2, can avoid the threat and the influence of thunderstorm weather lightning to the big-arch shelter after the installation lightning rod 6. But seted up open-close type access & exit 41 on the filter screen 4, the utility model discloses adopt filter screen 4 to seal up on the whole, filter screen 4 can be the gauze, can play mosquito-proof worm's effect. A fixed cross bar 26 is arranged on the upper part of the supporting upright 21. The movable inclined pipes 24 connected with the two sides of the transverse pipe 22 are respectively provided with a transverse reinforcing rib 27. Can be right the utility model discloses an overall structure plays the effect of strengthening.
Referring to fig. 6, specifically, the other output port of the external power collecting apparatus provided with two output ports is connected to the charging grid assembly 6 for charging the rechargeable automobile. The charging grid assembly 6 comprises a grid power grid 61 serving as a positive electrode, a conductive film 62 serving as a negative electrode and a linking female end, the grid power grid 61 is connected with the conductive film 62, the linking female end is connected with the grid power grid 61, a detachable linking male end is mounted on the rechargeable automobile, and during charging, the linking male end is connected with the linking female end and forms a charging loop together with the grid power grid 61 and the conductive film 62. The grid power grid 61 is erected above a highway, a highway and a provincial road and used as a positive electrode of a charging device, the conducting film 62 is laid on the ground and used as a negative electrode of the charging device, compared with a power rail train running on the road, the structure mainly solves the problem that a charging automobile is difficult to charge, and the automobile is connected with the grid power grid 61 and the conducting film 62 through a connecting device to form a charging loop and can be charged while running. Meanwhile, the charging vehicles are charged by a charging and charging system.
Referring to fig. 7-9, in particular, the solar cell panel 5 is connected to the external electric energy collecting device through a solar power generation multistage power amplification assembly, the solar power generation multistage power amplification assembly is arranged beside a roof or a greenhouse, the solar power generation multistage power amplification assembly comprises a support frame 71, and a longitudinal shaft 72 is arranged in the middle of the support frame 71; the generator 73, the upper part of the generator 73 is electrically connected with the speed increaser 74 in an operable manner, the lower part of the generator 73 is electrically connected with the electric storage device 75 in an operable manner, the speed increaser 74, the generator 73 and the electric storage device 75 are sequentially arranged on the longitudinal shaft 72 up and down and are positioned in the support frame 71, the generator 73 at the bottom converts the mechanical energy generated by the motion of the transmission rods into electric energy, and the generator at each stage of transmission rods is used for driving the transmission rods to rotate through the electric energy to generate mechanical energy, and the mechanical energy is converted into electric energy through the generator at the bottom; a conveying track system 76, wherein the conveying track system 76 is arranged on the longitudinal shaft 72 and is positioned at the upper part of the supporting frame 71; the solar panel is connected to the outside of the transmission track system 76, a track motor is further arranged on the transmission track system 76, the track motor can drive the transmission track system 76 to rotate so as to convert the electric energy collected by the solar panel into mechanical energy, and the mechanical energy further drives the generator 73 to generate electricity so as to amplify the power. The device is second grade or tertiary transmission power equipment, and it utilizes solar energy power generation, through second grade or tertiary transmission's motor electricity generation, power amplification, output electric quantity stores the electric quantity part that will produce in the storage battery, supplies equipment normal operating, and all the other electric quantities then can incorporate the electric wire netting, can supply with electric wire netting company. The transmission track system 76 is a two-stage transmission track, the transmission track system 76 includes a first transmission track 761 and a second transmission track 762, a first track motor 763 and a second track motor 764 are respectively disposed on the first transmission track 761 and the second transmission track 762, the first track motor 763 is fixedly connected with a first cross bar 765, the other end of the first cross bar 765 is disposed on the longitudinal shaft 72, the second track motor 764 is fixedly connected with a second cross bar 766, the other end of the second cross bar 766 is disposed on the longitudinal shaft 72, wherein the first transmission track 761 and the second transmission track 762 are sequentially stacked. Or, the preferred transmission track system 76 is a three-stage transmission track, the transmission track system 76 includes a first transmission track 761 and a second transmission track 762, the first transmission track 761 and the second transmission track 762 are respectively provided with a first track motor 763 and a second track motor 764, the first track motor 763 is fixedly connected with a first cross bar 765, the other end of the first cross bar 765 is inserted into the longitudinal shaft 72, the second track motor 764 is fixedly connected with a second cross bar 766, the other end of the second cross bar 766 is inserted into the longitudinal shaft 72, the transmission track system 76 further includes a third transmission track 767, the third transmission track 767 is provided with a third track motor 768, the third track motor 768 is fixedly connected with a third cross bar 769, the other end of the third cross bar 769 is inserted into the longitudinal shaft 72, wherein, the first transfer rail 761, the second transfer rail 762 and the third transfer rail 767 are sequentially stacked. The first, second and third transfer rails 761, 762, 767 are all endless tracks disposed about the longitudinal axis 72, wherein the first, second and third transfer rails 761, 762, 767 move in the same direction clockwise about the longitudinal axis 72.
Solar energy power generation multistage power amplification power storage device mainly applies to big-arch shelter or house that have solar panel. For example: the device is arranged in the center of a roof, the solar panels are arranged on the periphery of the house, the power of the electric quantity can be effectively amplified through a two-stage or three-stage transmission amplification process, and the radius can be designed according to actual requirements to meet different requirements; the field plate is arranged beside the outdoor greenhouse; mainly through the solar energy version on the big-arch shelter.
While the preferred embodiments of the present invention have been described, it is to be understood that the present invention may be embodied in other forms and applications without departing from the spirit and scope of the invention.

Claims (8)

1. An agricultural light complementary organic farm system, comprising:
a greenhouse base (1); the lifting frame (2) is arranged on the greenhouse base (1); the control mechanism (3) can control the lifting frame (2) to do ascending or descending motion relative to the greenhouse base (1) in the longitudinal direction; the filter screen (4) is arranged outside the greenhouse base (1) and the lifting frame (2) and integrally covers the greenhouse base (1) and the lifting frame to form a closed space, and the filter screen (4) is provided with an openable access (41); the solar cell panel (5) is arranged on the outer surface of the filter screen (4) and is connected with the lifting frame (2);
the solar cell panel (5) is also connected with an external electric energy collecting device, the external electric energy collecting device is provided with two output ports, one output port is connected to a power grid, and the other output port is connected with a charging grid assembly (6) and used for charging a chargeable automobile; the charging grid assembly (6) comprises a grid power grid (61) serving as a positive electrode, a conductive film (62) serving as a negative electrode and a linking female end, the grid power grid (61) is connected with the conductive film (62), the linking female end is connected with the grid power grid (61), a detachable linking male end is installed on the rechargeable automobile, and during charging, the linking male end is connected with the linking female end to form a charging loop together with the grid power grid (61) and the conductive film (62).
2. An agricultural light complementary organic farm system according to claim 1, wherein: the lifting frame (2) comprises supporting upright posts (21), connecting transverse pipes (22), first sliding sleeves (23) and movable inclined pipes (24), transverse reinforcing ribs (27) are uniformly distributed on the movable inclined pipes (24) on two sides of each connecting transverse pipe (22), lightning rods (28) are installed at the top of the lifting frame (2), a fixed cross rod (26) penetrates through the upper portions of the supporting upright posts (21), the supporting upright posts (21) are vertically and sequentially distributed on the central axis of the greenhouse base (1), each supporting upright post (21) is sleeved with the first sliding sleeve (23), the connecting transverse pipes (22) are arranged between every two adjacent first sliding sleeves (23), the left side and the right side of each connecting transverse pipe (22) are respectively and oppositely provided with the movable inclined pipes (24), one end of each movable inclined pipe (24) is fixedly arranged on the periphery of the greenhouse base (1), and a second sliding sleeve (25) penetrates through the movable inclined tube (24), and the second sliding sleeve (25) is further connected to the connecting transverse tube (22).
3. An agricultural light complementary organic farm system according to claim 2, wherein: the control mechanism (3) comprises a forward and reverse rotation motor (31), a steel wire rope (32) and a pulley block, the forward and reverse rotation motor (31) is installed on the greenhouse base (1), the pulley block is composed of a plurality of pulley units (33), each pulley unit (33) is correspondingly installed at the top of the supporting upright post (21), the steel wire rope (32) is arranged on a rotating shaft of the forward and reverse rotation motor (31) in a forward and reverse connection mode, one end of the steel wire rope is sequentially wound around at least one pulley unit (33) on one side of the supporting upright post (21) and then connected with the first sliding sleeve (23), the other end of the steel wire rope is sequentially wound around at least one pulley unit (33) on the opposite side of the supporting upright post (21) and then connected with the first sliding sleeve (23), a positioning piece is arranged at the top of the supporting upright post (21), and the first sliding sleeve (23) can do lifting motion within a height range limited by the greenhouse base (1), wherein the movable inclined tube (24) arranged oppositely does lifting motion within the angle range of 0-90 degrees.
4. An agricultural light complementary organic farm system according to claim 1, wherein: the solar cell panel (5) is connected with the external electric energy collecting device through a solar power generation multistage power amplification assembly, the solar power generation multistage power amplification assembly comprises a support frame (71), and a longitudinal shaft (72) is arranged in the middle of the support frame (71); a generator (73), wherein the upper part of the generator (73) is electrically connected with a speed increaser (74) in an operable way, the lower part of the generator (73) is electrically connected with an electric storage device (75) in an operable way, and the speed increaser (74), the generator (73) and the electric storage device (75) are sequentially arranged on the longitudinal shaft (72) from top to bottom and are positioned in the supporting frame (71); a transport rail system (76), said transport rail system (76) being mounted on said longitudinal shaft (72) and located above said support frame (71); the solar cell panel is connected to the outside of the transmission track system (76), a track motor is further arranged on the transmission track system (76), the track motor can drive the transmission track system (76) to rotate so as to convert electric energy collected by the solar cell panel into mechanical energy, and the mechanical energy further drives the generator (73) to generate electricity so as to achieve power amplification.
5. An agricultural light complementary organic farm system according to claim 4, wherein: the transmission track system (76) is a two-stage transmission track, the transmission track system (76) comprises a first transmission track (761) and a second transmission track (762), the first transmission track (761) and the second transmission track (762) are respectively provided with a first track motor (763) and a second track motor (764), the first track motor (763) is fixedly connected with a first cross rod (765), the other end of the first cross rod (765) penetrates through the longitudinal shaft (72), the second track motor (764) is fixedly connected with a second cross rod (766), the other end of the second cross rod (766) penetrates through the longitudinal shaft (72), and the first transmission track (761) and the second transmission track (762) are sequentially stacked.
6. An agricultural light complementary organic farm system according to claim 5, wherein: the transmission track system (76) is a three-level transmission track, the transmission track system (76) comprises a first transmission track (761) and a second transmission track (762), the first transmission track (761) and the second transmission track (762) are respectively provided with a first track motor (763) and a second track motor (764), the first track motor (763) is fixedly connected with a first cross rod (765), the other end of the first cross rod (765) is arranged on the longitudinal shaft (72) in a penetrating manner, the second track motor (764) is fixedly connected with a second cross rod (766), the other end of the second cross rod (766) is arranged on the longitudinal shaft (72) in a penetrating manner, the transmission track system (76) further comprises a third transmission track (767), the third transmission track (767) is provided with a third track motor (768), and the third track motor (768) is fixedly connected with a third cross rod (769), the other end of the third cross rod (769) penetrates through the longitudinal shaft (72), wherein the first transmission track (761), the second transmission track (762) and the third transmission track (767) are sequentially arranged in a stacked mode.
7. An agricultural complementary organic farm system according to claim 5 or 6, wherein: the first transfer track (761), the second transfer track (762) and the third transfer track (767) are all annular tracks arranged around the longitudinal axis (72), wherein the first transfer track (761), the second transfer track (762) and the third transfer track (767) move clockwise around the longitudinal axis (72) in the same direction.
8. An agricultural light complementary organic farm system according to claim 5, wherein: the solar power generation multistage power amplification assembly is arranged on a roof or beside a greenhouse.
CN201920107412.3U 2019-01-23 2019-01-23 Complementary organic farm system of farming light Active CN209931046U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920107412.3U CN209931046U (en) 2019-01-23 2019-01-23 Complementary organic farm system of farming light

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920107412.3U CN209931046U (en) 2019-01-23 2019-01-23 Complementary organic farm system of farming light

Publications (1)

Publication Number Publication Date
CN209931046U true CN209931046U (en) 2020-01-14

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Application Number Title Priority Date Filing Date
CN201920107412.3U Active CN209931046U (en) 2019-01-23 2019-01-23 Complementary organic farm system of farming light

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Country Link
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