CN117053157B - Greenhouse plant lamp structure with intelligent switch - Google Patents

Abstract

The invention relates to the technical field of plant lamp control, in particular to a greenhouse plant lamp structure with an intelligent switch, which comprises an LED lamp panel and a first shaft, wherein the first shaft is provided with two shafts and is symmetrically distributed on one side of the LED lamp panel; a spool disposed at one end of the shaft; the driving assembly is utilized to drive a plurality of shafts to rotate so as to drive the reel to rotate and wind the pull rope, thereby driving the LED lamp panel to move upwards to adapt to plants growing gradually, and simultaneously utilizing the linkage assembly to sequentially drive a plurality of metal contacts to move, so that a plurality of circles of LED lamp beads outside the LED lamp panel are sequentially lightened, thereby improving the irradiation range, further achieving the purpose of automatically adapting to the transverse growth of plants, reducing the probability of uneven irradiation of the whole plant by the lamp, and utilizing the linkage assembly to cooperate with the driving assembly to form a switch structure for automatically controlling the opening of the LED lamp panel, so that the LED lamp panel is more intelligent.

Description

Greenhouse plant lamp structure with intelligent switch

Technical Field

The invention relates to the technical field of plant lamp control, in particular to a greenhouse plant lamp structure with an intelligent switch.

Background

Greenhouse plant lamps generally consist of LED lamp sets, wherein LEDs are used as emerging light sources in the 21 st century and are mainly used for agricultural production, when the greenhouse plant lamps are installed, in order to output PPFD (power distribution) to plants as high as possible at all times in a short distance according to the growth height of the plants, a hanging mode is designed to be adjustable in height by using LEDs with higher power or an installation scheme, but in the actual use process of the LED lamp sets, when the heights of the LED lamp sets are synchronously adjusted by following the change of the growth heights of the plants, the plants are also transversely grown, so that when the initially designed lamp sets are larger, the initially designed lamp sets can adapt to the transverse growth of the plants, but can cause energy waste, and the designed smaller lamp sets probably do not meet the whole volume of the plants, so that the plants can be unevenly illuminated, further the positions of the plant parts can not be illuminated, and the whole growth of the plants can be influenced, and therefore, the greenhouse plant lamp structure with the intelligent switch is provided.

Disclosure of Invention

One technical problem to be solved by the present application is: how to control and adjust the irradiation range of the LED lamp group in real time according to the elevation of the LED lamp group.

In order to solve the technical problems, the embodiment of the application provides a greenhouse plant lamp structure with an intelligent switch, which comprises an LED lamp panel and a first shaft, wherein the first shaft is provided with two shafts and is symmetrically distributed on one side of the LED lamp panel;

a spool disposed at one end of the shaft;

the stay cord is wound on the scroll, and one end of the stay cord is fixed with the factory roof;

the driving assembly is arranged on the LED lamp panel, and the driving assembly is used for driving the first shaft to rotate so as to enable the reel to wind the pull rope and drive the LED lamp panel to rise;

the metal sheets are provided with a plurality of groups and are uniformly distributed on the LED lamp panels at equal intervals, the LED lamp panels are uniformly provided with a plurality of circles of LED lamp beads at equal intervals, and the plurality of groups of metal sheets are correspondingly and electrically connected with the plurality of circles of LED lamp beads;

the metal contacts are also provided with a plurality of metal sheets and correspond to the metal sheets one by one, and are electrically connected with external power supply equipment, and the metal contacts are moved to contact the metal sheets so as to enable the single-circle LED lamp beads to be lightened;

the linkage assembly is arranged on the LED lamp panel, and the movable LED lamp panel sequentially drives the plurality of metal contacts to move by utilizing the linkage assembly, so that a plurality of rings of LED lamp beads outside the LED lamp panel are sequentially lightened.

In some embodiments, the driving assembly includes a plurality of mounting frames disposed on the LED lamp panel, the first shafts are connected with the mounting frames, and synchronous pulleys are disposed on the first shafts, and the two synchronous pulleys are connected by a synchronous belt, and rotate the first shaft to enable the two shafts to rotate synchronously;

be provided with driving motor on the mounting bracket, be provided with the fluted disc on one axle one, just driving motor's output shaft is last to be provided with the fluted disc equally, meshes between two fluted discs, starts driving motor and drives two axle one and rotate.

In some embodiments, the linkage assembly comprises a mounting plate arranged on the LED lamp panel, a plurality of groups of metal sheets are uniformly distributed on the mounting plate at equal intervals, a connecting plate is arranged on the mounting plate, a sliding rod is arranged on the connecting plate, the metal contact is fixed with the sliding rod, and the metal contact is driven to move by the moving sliding rod to contact with the metal sheets;

one side of the mounting plate is provided with a limiting component, and the sliding rod is moved and locked by the limiting component;

one side of the mounting plate is provided with a right trapezoid block I, one shaft I is provided with an auxiliary assembly, and the shaft I rotates to drive the right trapezoid block I to move and contact with and push the sliding rod to move by using the auxiliary assembly.

In some embodiments, the auxiliary assembly comprises a screw rod arranged on a first shaft, a guide rod is arranged on one side of the first shaft, two ends of the guide rod are connected with the mounting frame, a sliding block is arranged on the screw rod, the guide rod penetrates through the sliding block, a triangular plate is arranged between the sliding block and the first right trapezoid block, and the first right trapezoid block is driven to move by the first rotating shaft.

In some embodiments, the limiting component comprises a guiding inclined surface block arranged at one side of the mounting plate, one end of the sliding rod is provided with an L-shaped plate, the L-shaped plate is provided with a round rod, one end of the round rod passes through the L-shaped plate and contacts and abuts against the inclined surface of the guiding inclined surface block, and the round rod is sleeved with a first spring, one end of which contacts and abuts against the L-shaped plate, so that the sliding rod is pushed to move, the guiding inclined surface block presses the round rod, and meanwhile, the first spring is compressed and contracted to provide self-resetting capability for the round rod;

the limiting groove is formed in the top end of the guide inclined surface block, the limiting groove is in a V-shaped design, and the sliding rod is pushed to enable one end of the round rod to be embedded into the limiting groove to lock the sliding rod.

In some embodiments, the metal sheets in one group are two, the single-sheet metal sheet in one group is electrically connected with one half of the LED lamp beads in the single-turn LED lamp beads, the other single-sheet metal sheet in one group is electrically connected with the other half of the LED lamp beads in the single-turn LED lamp beads, and the two half of the LED lamp beads are placed in a staggered manner;

the two metal contacts on the sliding rod are arranged, and the sliding rod is moved to enable the two metal contacts to respectively contact the two metal sheets, so that a single-circle LED lamp bead is lightened;

rectangular blocks are arranged on one side of the right trapezoid blocks, right trapezoid blocks II are arranged on one side of the rectangular blocks, the right trapezoid blocks II are fixed with a triangular plate, and the triangular plate is moved to drive the right trapezoid blocks I and the right trapezoid blocks II to jack up the sliding rod in sequence, so that two half LED lamp beads in a single circle are lighted alternately.

In some embodiments, the sliding rod is provided with a guide wheel at one end and the round rod is also provided with a guide wheel at one end.

In some embodiments, the sliding rod is provided with a circular protrusion, and the circular protrusion is pulled to drive the sliding rod to move.

In some embodiments, a sliding sleeve is arranged on the mounting plate, an L-shaped sliding rod is arranged on one side of the mounting plate and penetrates through the sliding sleeve, a plurality of right trapezoid blocks III are arranged on one side of the L-shaped sliding rod, and the right trapezoid blocks II are moved to move the L-shaped sliding rod in a pushing mode, so that the three top ends of the right trapezoid blocks are moved in a circular convex mode.

In some embodiments, a second spring is provided at one end of the L-shaped slide bar, and moving the L-shaped slide bar while compressing the second spring provides self-restoring capability thereto.

The invention has at least the following beneficial effects:

the driving assembly is utilized to drive the plurality of shafts to rotate so as to drive the reel to rotate and wind the pull rope, thereby driving the LED lamp panel to move upwards to adapt to plants growing gradually, and simultaneously utilizing the linkage assembly to sequentially drive the plurality of metal contacts to move, so that a plurality of circles of LED lamp beads on the outer side of the LED lamp panel are sequentially lightened, thereby improving the irradiation range, further achieving the purpose of automatically adapting to the transverse growth of the plants, further reducing the probability of uneven irradiation of the whole plants by the lamps, and forming a switch structure for automatically controlling the opening of the LED lamp panel by utilizing the cooperation of the linkage assembly and the driving assembly, and being more intelligent;

meanwhile, the design of a group of metal sheets and two metal contacts is utilized, so that the process of switching from one single-turn LED lamp bead to the next single-turn LED lamp bead is smoother in the process of improving the LED lamp panel, meanwhile, the electric quantity is saved, and the LED lamp beads in the single turn are alternately lighted, so that the irradiation of the device is more uniform.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1 of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in another orientation in accordance with the present invention;

FIG. 3 is a schematic view of the structure of the area A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the partial cross-section of FIG. 2 in accordance with the present invention;

FIG. 5 is a schematic view of the structure of the area B in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of the partial cross-section of FIG. 4 in accordance with the present invention;

FIG. 7 is a schematic view of the structure of the region C in FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the structure of the region D in FIG. 6 according to the present invention;

FIG. 9 is a schematic diagram of the structure of embodiment 2 of the present invention;

FIG. 10 is a schematic view of the structure of the E area in FIG. 9 according to the present invention.

In the figure: 1-an LED lamp panel; 2-axis one; 3-a reel; 4-pulling ropes; a 5-drive assembly; 6-metal sheets; 7-metal contacts; 8-linkage assembly; 51-mounting rack; 52-synchronous pulleys; 53-driving a motor; 54-fluted disc; 81-mounting plates; 82-connecting plates; 83-a sliding rod; 84-a limiting assembly; 85-right trapezoid block I; 86-auxiliary component; 87-screw; 88-a guide rod; 89-a slider; 91-triangle; 92-a guide ramp block; 93-L-shaped plate; 94-round bar; 95-spring one; 96-limit grooves; 97-rectangular blocks; 98-right trapezoid block II; 99-guide wheels; 101-circular convex; 102-sliding sleeve; a 103-L-shaped slide bar; 104-right trapezoid block III; 105-spring two.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-8, the present invention provides a technical solution: the greenhouse plant lamp structure with the intelligent switch comprises an LED lamp panel 1, wherein the LED lamp panel 1 is in a circular design, and the greenhouse plant lamp structure also comprises a first shaft 2, wherein the first shaft 2 is provided with two shafts and is symmetrically distributed on one side of the LED lamp panel 1;

the reel 3 is fixedly connected with the end part of the first shaft 2;

the pull rope 4 is wound on the scroll 3 and fixedly connected with the scroll 3, and one end of the pull rope 4 is fixedly connected with the factory roof;

the driving assembly 5 is arranged on the LED lamp panel 1, the driving assembly 5 is used for driving the first shafts 2 to rotate so as to enable the scroll 3 to wind the pull ropes 4 and drive the LED lamp panel 1 to rise, specifically, the driving assembly 5 is used for driving the first shafts 2 to rotate so as to drive the scroll 3 to wind the pull ropes 4, and therefore the LED lamp panel 1 is driven to move upwards to adapt to plants growing gradually;

the metal sheets 6 are provided with a plurality of groups and are uniformly distributed on the LED lamp panel 1 at equal intervals, the LED lamp panel 1 is uniformly provided with a plurality of circles of LED lamp beads at equal intervals, and the plurality of groups of metal sheets 6 are correspondingly and electrically connected with the plurality of circles of LED lamp beads through wires;

the metal contacts 7 are also arranged in a plurality of ways and correspond to the metal sheets 6 one by one, the metal contacts 7 are electrically connected with external power supply equipment through wires, and the metal contacts 7 are moved to contact the metal sheets 6 so as to enable the single-circle LED lamp beads to be lightened;

linkage subassembly 8, linkage subassembly 8 set up on LED lamp plate 1, and the removal LED lamp plate 1 utilizes linkage subassembly 8 to drive a plurality of metal contacts 7 in proper order and remove to the multiturn LED lamp pearl in the outside of messenger LED lamp plate 1 is bright in proper order, thereby improves the irradiation range, and then reaches the lateral growth of automatic adaptation plant, thereby reduces the whole inhomogeneous probability of lamp irradiation that receives of plant, comparatively intelligent.

The driving assembly 5 comprises a plurality of mounting frames 51 fixedly connected with the top end of the LED lamp panel 1, the first shafts 2 are rotatably connected with the mounting frames 51 through bearings, synchronous pulleys 52 are fixedly connected to the first shafts 2, the two synchronous pulleys 52 are connected through synchronous belts, and one first shaft 2 is rotated to be matched with the synchronous belts through the synchronous pulleys 52 so that the first shafts 2 can rotate synchronously;

the LED lamp panel 1 is fixedly connected with a driving motor 53, one shaft one 2 is fixedly connected with a fluted disc 54, the output shaft of the driving motor 53 is also fixedly connected with the fluted disc 54, the two fluted discs 54 are meshed, and the driving motor 53 is started to drive the fluted disc 54 to rotate through program control, so that the two shafts one 2 are driven to rotate.

The linkage assembly 8 comprises a mounting plate 81 fixedly connected with the LED lamp panel 1, a plurality of groups of metal sheets 6 are uniformly distributed on the mounting plate 81 at equal intervals, a connecting plate 82 is fixedly connected to the mounting plate 81, a sliding rod 83 is connected to the connecting plate 82 in a sliding manner, the sliding rod 83 penetrates through the connecting plate 82 in a sliding manner, the metal contacts 7 are fixedly connected with the sliding rod 83, and the sliding rod 83 is moved to drive the metal contacts 7 to move to contact with the metal sheets 6, so that the LED lamp beads are connected with external power supply equipment and conduct electricity, and the LED lamp beads are lightened;

a limit component 84 is arranged on one side of the mounting plate 81, and the slide rod 83 is moved and locked by the limit component 84;

one side of the mounting plate 81 is provided with a right trapezoid block I85, an auxiliary assembly 86 is arranged on one shaft I2, and the rotating shaft I2 drives the right trapezoid block I85 to move and contact and push the sliding rod 83 to move by using the auxiliary assembly 86.

The auxiliary assembly 86 comprises a screw rod 87 fixedly connected with a shaft I2, a guide rod 88 is arranged on one side of the shaft I2, two ends of the guide rod 88 are fixedly connected with the mounting frame 51, a slide block 89 is arranged on the screw rod 87 through threaded connection, the guide rod 88 slides through the slide block 89 and is used for guiding and limiting the movement of the slide block 89, a triangle 91 is arranged between the slide block 89 and the right trapezoid block I85, the triangle 91 is fixedly connected with the slide block 89, the screw rod 87 is driven to rotate by the rotating shaft I2, and the slide block 89 is driven to move, so that the right trapezoid block I85 is driven to move.

The limiting component 84 comprises a guide inclined surface block 92 arranged on one side of the mounting plate 81, the guide inclined surface block 92 is fixedly connected with the LED lamp panel 1, one end of the sliding rod 83 is fixedly connected with an L-shaped plate 93, a round rod 94 is arranged on the L-shaped plate 93, one end of the round rod 94 slides through the L-shaped plate 93 and contacts and abuts against the inclined surface of the guide inclined surface block 92, a first spring 95 with one end in contact with and abuts against the L-shaped plate 93 is sleeved on the round rod 94, two ends of the first spring 95 are respectively fixedly connected with the round rod 94 and the L-shaped plate 93, the sliding rod 83 is pushed to move, the round rod 94 connected with the L-shaped plate 93 is synchronously driven to move, so that the guide inclined surface block 92 presses the round rod 94, meanwhile, the first spring 95 is pressed and contracted to provide self-resetting capability for the sliding rod 83, and when one end of the round rod 94 is still positioned on the inclined surface of the guide inclined surface block 92, the first spring 95 can be reset at the moment;

the top end of the guiding inclined plane block 92 is provided with a limit groove 96, the limit groove 96 adopts a V-shaped design, the sliding rod 83 is pushed to enable one end of the round rod 94 to pass through the inclined plane of the guiding inclined plane block 92, and then the round rod 94 is embedded into the limit groove 96 to lock the sliding rod 83, so that the sliding rod 83 is locked, and meanwhile, the metal contact 7 always contacts the metal sheet 6 to conduct electricity.

The metal sheets 6 in one group are two, the single metal sheet 6 in one group is electrically connected with one half of the LED lamp beads in the single-circle LED lamp beads, the other single metal sheet 6 in one group is electrically connected with the other half of the LED lamp beads in the single-circle LED lamp beads, and the two half of the LED lamp beads are placed in a staggered manner;

the number of the metal contacts 7 on the sliding rod 83 is two, and the sliding rod 83 is moved so that the two metal contacts 7 respectively contact the two metal sheets 6 at the same time, so that all the single-circle LED lamp beads are lighted;

rectangular block 97 is fixedly connected to one side of rectangular block I85, rectangular block 97 is fixedly connected with rectangular block II 98, rectangular block II 98 and triangular plate 91 are fixedly connected, move triangular plate 91 and drive rectangular block I85 and rectangular block II 98 jack-up slide bar 83 in proper order, so that two halves LED lamp pearl in the single circle are lighted alternately, specifically speaking, move up LED lamp plate 1, move triangular plate 91 and drive rectangular block I85 earlier with slide bar 83 one end contact and top move it, thereby make one metal contact 7 on the slide bar 83 successively contact with two metal sheets 6 in a set of metal sheets, concretely show on the LED lamp pearl, be that two halves lamp pearls of single circle LED lamp pearl are lighted alternately at one time, then continue to move triangular plate 91 so that slide bar 83 breaks away from rectangular block I85, and contact with rectangular block 97, concretely show on the LED lamp pearl, just be that single circle LED lamp pearl is just, then continue to move triangular plate 91, drive the inclined plane contact of rectangular block II 98 and move and top move slide bar I85 first with slide bar 83 one end contact and top move it, thereby make the single circle LED lamp pearl in order to make the single circle of LED lamp pearl be more evenly, thereby make the single circle LED lamp pearl in the single circle of LED lamp pearl is lighted with the single circle, and the single circle of metal sheet 6 contact with LED lamp pearl in order to make the single circle LED lamp pearl continuous, thereby make the single circle LED lamp pearl continuous smooth and smooth LED lamp bead is lighted alternately.

One end of the sliding rod 83 is rotatably connected with a guide wheel 99 through a rotating shaft, so that the guide wheel 99 is utilized to replace a part of the sliding rod 83 contacting the device, the smoothness of the device body during operation is improved, one end of the round rod 94 is also rotatably connected with the guide wheel 99 through the rotating shaft, and the smoothness of the device body during operation is also improved.

The round protrusion 101 is fixedly connected to the sliding rod 83, and the sliding rod 83 is driven to move by pulling the round protrusion 101, so that when the LED lamp panel 1 is placed down and reused, the sliding rod 83 can be reset by pulling the round protrusion 101, and the LED lamp panel is convenient and practical;

fixedly connected with protecting crust on the LED lamp plate 1, mounting panel 81 and install the structure on mounting panel 81 and all be located the protecting crust and protect it, improve device life.

Example 2

Referring to fig. 1-10, the present invention provides a technical solution: a greenhouse plant lamp structure with intelligent switches, example 2 was optimized on the basis of example 1;

the sliding sleeve 102 is fixedly connected to the mounting plate 81, the L-shaped sliding rod 103 is arranged on one side of the mounting plate 81 and penetrates through the sliding sleeve 102 in a sliding mode, a plurality of right trapezoid blocks III 104 are fixedly connected to one side of the L-shaped sliding rod 103, the second right trapezoid block 98 is moved to reset, meanwhile, the L-shaped sliding rod 103 is jacked to enable the round boss 101 at the top end of the third right trapezoid block 104 to move, and therefore when the driving motor 53 is started to enable the LED lamp panel 1 to be placed down, the third right trapezoid block 104 is utilized to move and jacked to enable the sliding rod 83 to automatically reset, and the LED lamp panel is convenient and practical and does not need manual reset of operators.

One end of the L-shaped slide bar 103 is sleeved with a second spring 105, two ends of the second spring 105 are fixedly connected with the L-shaped slide bar 103 and the sliding sleeve 102 respectively, and the second spring 105 is compressed to provide self-resetting capability for the L-shaped slide bar 103 when the L-shaped slide bar 103 is moved, so that the L-shaped slide bar 103 has the resetting capability and the smoothness of the device body in operation is improved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Greenhouse plant lamp structure with intelligent switch, including LED lamp plate (1), its characterized in that: the LED lamp panel also comprises a first shaft (2), wherein the first shaft (2) is provided with two LED lamp panels which are symmetrically distributed at one side of the LED lamp panel (1);

a reel (3), wherein the reel (3) is arranged at the end part of the first shaft (2);

the stay cord (4), the said stay cord (4) twines on reel (3), and one end of the stay cord (4) is fixed with factory roof;

the driving assembly (5) is arranged on the LED lamp panel (1), and the driving assembly (5) is used for driving the first shaft (2) to rotate so as to enable the reel (3) to wind the pull rope (4) and drive the LED lamp panel (1) to rise;

the driving assembly (5) comprises a plurality of mounting frames (51) arranged on the LED lamp panel (1), the first shafts (2) are connected with the mounting frames (51), synchronous pulleys (52) are arranged on the two first shafts (2), the two synchronous pulleys (52) are connected through a synchronous belt, and one first shaft (2) is rotated to enable the two first shafts (2) to synchronously rotate;

a driving motor (53) is arranged on the mounting frame (51), a fluted disc (54) is arranged on one shaft I (2), the fluted disc (54) is also arranged on the output shaft of the driving motor (53), the two fluted discs (54) are meshed, and the driving motor (53) is started to drive the two shaft I (2) to rotate;

the metal sheets (6) are provided with a plurality of groups and are uniformly distributed on the LED lamp panel (1) at equal intervals, the LED lamp panel (1) is uniformly provided with a plurality of rings of LED lamp beads at equal intervals, and the plurality of groups of metal sheets (6) are correspondingly and electrically connected with the plurality of rings of LED lamp beads;

the metal contacts (7) are also arranged in a plurality of ways and correspond to the metal sheets (6) in a one-to-one mode, the metal contacts (7) are electrically connected with external power supply equipment, and the metal contacts (7) are moved to contact the metal sheets (6) so as to enable single-circle LED lamp beads to be lightened;

the linkage assembly (8), the linkage assembly (8) is arranged on the LED lamp panel (1), and the movable LED lamp panel (1) sequentially drives the plurality of metal contacts (7) to move by utilizing the linkage assembly (8), so that a plurality of circles of LED lamp beads outside the LED lamp panel (1) are sequentially lightened;

the linkage assembly (8) comprises a mounting plate (81) arranged on the LED lamp panel (1), a plurality of groups of metal sheets (6) are uniformly distributed on the mounting plate (81) at equal intervals, a connecting plate (82) is arranged on the mounting plate (81), a sliding rod (83) is arranged on the connecting plate (82), the metal contact (7) is fixed with the sliding rod (83), and the moving sliding rod (83) drives the metal contact (7) to move to contact the metal sheets (6);

a limiting component (84) is arranged on one side of the mounting plate (81), and the sliding rod (83) is moved and locked by the limiting component (84);

one side of the mounting plate (81) is provided with a right trapezoid block I (85), one shaft I (2) is provided with an auxiliary assembly (86), and the shaft I (2) is rotated to drive the right trapezoid block I (85) to move and contact and push the sliding rod (83) to move by using the auxiliary assembly (86);

the auxiliary assembly (86) comprises a screw rod (87) arranged on a first shaft (2), a guide rod (88) is arranged on one side of the first shaft (2), two ends of the guide rod (88) are connected with the mounting frame (51), a sliding block (89) is arranged on the screw rod (87), the guide rod (88) penetrates through the sliding block (89), a triangular plate (91) is arranged between the sliding block (89) and the first right trapezoid block (85), and the first right trapezoid block (85) is driven to move by the first rotating shaft (2);

the limiting assembly (84) comprises a guide inclined surface block (92) arranged on one side of the mounting plate (81), one end of the sliding rod (83) is provided with an L-shaped plate (93), a round rod (94) is arranged on the L-shaped plate (93), one end of the round rod (94) penetrates through the L-shaped plate (93) and contacts and props against the inclined surface of the guide inclined surface block (92), a first spring (95) with one end in contact with the L-shaped plate (93) is sleeved on the round rod (94), and the sliding rod (83) is pushed to move so that the guide inclined surface block (92) extrudes the round rod (94), and meanwhile the first spring (95) is compressed and contracted to provide self-resetting capacity for the round rod;

a limit groove (96) is formed in the top end of the guide inclined surface block (92), the limit groove (96) is of a V-shaped design, and the sliding rod (83) is pushed so that one end of the round rod (94) is embedded into the limit groove (96) to lock the sliding rod (83);

the metal sheets (6) in one group are two, the single-sheet metal sheets (6) in one group are electrically connected with one half of the LED lamp beads in the single-circle LED lamp beads, the other single-sheet metal sheets (6) in one group are electrically connected with the other half of the LED lamp beads in the single-circle LED lamp beads, and the two half of the LED lamp beads are placed in a staggered mode;

the two metal contacts (7) on the sliding rod (83) are arranged, and the sliding rod (83) is moved to enable the two metal contacts (7) to be respectively contacted with the two metal sheets (6), so that a single-circle LED lamp bead is lightened;

rectangular blocks (97) are arranged on one side of the first right-angle trapezoidal block (85), second right-angle trapezoidal blocks (98) are arranged on one side of the rectangular blocks (97), the second right-angle trapezoidal blocks (98) are fixed with a triangular plate (91), the triangular plate (91) is moved to drive the first right-angle trapezoidal blocks (85) and the second right-angle trapezoidal blocks (98) to jack up the sliding rod (83) in sequence, and therefore two half LED lamp beads in a single circle are lighted alternately.

2. The greenhouse plant lamp structure with intelligent switch as claimed in claim 1, wherein: one end of the sliding rod (83) is provided with a guide wheel (99), and one end of the round rod (94) is also provided with the guide wheel (99).

3. The greenhouse plant lamp structure with intelligent switch as claimed in claim 2, wherein: the sliding rod (83) is provided with a circular protrusion (101), and the circular protrusion (101) is pulled to drive the sliding rod (83) to move.

4. A greenhouse plant light structure with intelligent switch as claimed in claim 3, characterized in that: be provided with sliding sleeve (102) on mounting panel (81), and mounting panel (81) one side is provided with L shape slide bar (103), and L shape slide bar (103) pass sliding sleeve (102), L shape slide bar (103) one side is provided with a plurality of right trapezoid piece III (104), removes right trapezoid piece II (98) top moves L shape slide bar (103) to make right trapezoid piece III (104) top circular protrusion (101) remove.

5. The greenhouse plant lamp structure with intelligent switch as claimed in claim 4, wherein: one end of the L-shaped sliding rod (103) is provided with a second spring (105), and the second spring (105) is compressed to provide self-resetting capability for the L-shaped sliding rod (103) when the L-shaped sliding rod is moved.