CN116753484A - Greenhouse growth lighting equipment for butterfly orchid growth and use method thereof - Google Patents

Abstract

The invention discloses greenhouse growth lighting equipment for butterfly orchid growth and a using method thereof, wherein a positioning and orientation device of a camera comprises a mounting frame, wherein the bottom end of the inner side of the mounting frame is rotationally connected with a plurality of connecting gears, one side of each connecting gear is meshed with a vortex rod structure, the bottom end of the mounting frame is fixedly connected with a light guide structure, the inside of the light guide structure is rotationally spliced with a plurality of irradiation structures, the top end of each irradiation structure is fixedly connected with the bottom end of a corresponding connecting gear, the top end of the mounting frame is fixedly provided with an ash removing structure, and the ash removing structure is matched with the vortex rod structure; the invention is provided with the light guide structure and the irradiation structure, and can scatter the light of the light supplementing lamp out of the eccentric light scattering covers when in use, so that the installation density of the lamp can be further reduced, the cost of the lamp is saved, and the concave lens plate is provided with the light guiding structure and the irradiation structure, so that the sunlight is prevented from being scattered below the device, and obvious shadows are prevented from being formed below the device due to the fact that the device shields natural light.

Description

Greenhouse growth lighting equipment for butterfly orchid growth and use method thereof

Technical Field

The invention belongs to the technical field of plant light supplementing lamps, and particularly relates to greenhouse growth lighting equipment for phalaenopsis and a using method thereof.

Background

In order to promote the growth of butterfly orchid, a light supplementing lamp is usually arranged in a greenhouse, and the requirement of greenhouse light supplementing on light intensity is higher, because only after the total light intensity is higher than the compensation point of net photosynthesis, plants can accumulate organic matters, and recent researches show that the light staggered according to a certain period of light and shade can not influence the growth of plants, but also has a certain promoting effect.

For example, chinese patent publication No. CN110388596a discloses a rotary crop light supplementing lamp, which cooperates a rotation mechanism with a light constraint mechanism, so as to enlarge the irradiation coverage area of a single lamp, i.e. reduce the installation density of the lamp, and reduce the shielding of the lamp to natural light while remarkably reducing the unit illumination cost.

However, the above patent still has room for improvement, which can further reduce the installation density of the lamp and reduce the cost of the device.

Disclosure of Invention

Aiming at the problem that the installation density of the lamp is still larger in the prior art, the invention provides the following technical scheme:

a greenhouse growth lighting device for butterfly orchid growth, comprising: the installation frame, the inboard bottom rotation of installation frame is connected with a plurality of connecting gear, and one side meshing of a plurality of connecting gear has the vortex rod structure, and the bottom fixedly connected with light guide structure of installation frame, the inside rotation grafting of light guide structure has a plurality of to shine the structure, shines the top of structure and corresponds connecting gear's bottom fixed connection, and the top fixed mounting of installation frame has the deashing structure, deashing structure and vortex rod structure assorted.

As the preference of above-mentioned technical scheme, the vortex rod structure includes the vortex rod body, and the both ends of grafting mounting bracket are rotated respectively at the both ends of vortex rod body, and the one end fixedly connected with driving motor of vortex rod body.

As the optimization of the technical scheme, the light guide structure comprises a light guide pipe, wherein a light supplementing lamp is fixedly arranged at one end of the light guide pipe, and the light supplementing lamp is a hernia lamp.

As the optimization of above-mentioned technical scheme, shine the structure and include ball lens, ball lens and light pipe assorted, the top fixedly connected with connecting seat of ball lens, the bottom fixed connection of connecting seat and connecting gear, the bottom fixedly connected with eccentric astigmatic cover of ball lens.

As the optimization of the technical scheme, the concave lens plates are obliquely and fixedly connected to the two sides of the mounting frame, and the concave lens plates are matched with the eccentric light-scattering cover.

As the preference of above-mentioned technical scheme, the deashing structure includes the deashing cover, and the inside rotation of deashing cover is pegged graft and is had the lead screw, has cup jointed the drive belt on the lead screw, and the one end and the vortex body of drive belt cup joint, and the last movable block that has rotated of lead screw cup jointed, the shape of movable block are the T font, and the bottom symmetry rotation of movable block both sides is connected with two triangle bull stick groups.

As the preference of above-mentioned technical scheme, two retaining bands of fixedly connected with between the both ends of deashing cover, retaining band and corresponding triangle bull stick group assorted, and two retaining bands flush with the both sides side of deashing cover respectively, the air pump is installed to the one end of deashing cover, the equal fixedly connected with deep bead in both sides side of deashing cover, deep bead and corresponding concave lens board assorted.

The method for using the greenhouse growth lighting device for the butterfly orchid growth comprises the following steps:

s1: the ash removing cover is arranged on the external frame, and the concave lens plate scatters sunlight below the device during daytime, so that the device is prevented from shielding natural light and forming obvious shadows below the device;

s2: when the light supplementing lamp is turned on at night, light rays are emitted from the eccentric light scattering cover through the light guide pipe and the ball lens;

s3: the driving motor is started to drive the vortex rod body to rotate, so that a plurality of connecting gears are driven to rotate, the connecting gears are driven to rotate, and then the ball lens and the eccentric light-scattering cover are sequentially driven to rotate, so that the illumination range changes along with the rotation of the eccentric light-scattering cover, and periodic illumination with staggered brightness is formed in the coverage area;

s4: the vortex rod body rotates to drive the screw rod to rotate through the transmission belt, so that the moving block moves along the screw rod, and when the moving block moves, the stop belt is pulled through the triangular rotating rod group, and a notch with a continuously moving position is formed in the stop belt;

s5: at this moment, the air pump is opened, the air pump blows into the ash removal cover, then the air blows out from the notch of the baffle belt, and the air blows to the concave lens plate after being blocked by the wind deflector, so that ash removal is carried out on the concave lens plate, and the influence on astigmatism of the concave lens plate due to ash accumulation on the concave lens plate after long-time use of the equipment is prevented.

The beneficial effects of the invention are as follows:

(1) The invention is provided with the light guide structure and the irradiation structure, and can scatter the light of the light supplementing lamp out of the eccentric light scattering covers when in use, thereby further reducing the installation density of the lamp and saving the cost of the lamp;

(2) The invention sets the concave lens plate to scatter sunlight below the device, thereby avoiding the influence of obvious shadow formed below the device due to the natural light shielding of the device, affecting the photosynthesis of plants, and sets the ash removing structure matched with the vortex rod structure to remove ash from the concave lens plate, preventing the dust from accumulating on the concave lens plate after the device is used for a long time, and affecting the astigmatism of the concave lens plate.

Drawings

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

FIG. 2 is a schematic view of a light guide structure of the present invention;

FIG. 3 is a schematic view of the illumination structure of the present invention;

FIG. 4 is a schematic view of the structure of the triangular turning bar set of the present invention;

fig. 5 shows a schematic view of the ash removal structure of the invention.

In the figure: 1. a mounting frame; 101. a concave lens plate; 2. a connecting gear; 3. a scroll bar structure; 301. a scroll body; 302. a driving motor; 4. a light guiding structure; 401. a light pipe; 402. a light supplementing lamp; 5. an illumination structure; 501. a ball lens; 502. a connecting seat; 503. an eccentric astigmatism mask; 6. an ash removal structure; 601. an ash removal cover; 602. a screw rod; 603. a transmission belt; 604. a moving block; 605. a triangular rotating rod group; 606. a baffle belt; 607. an air pump; 608. and a wind deflector.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the embodiments.

Example 1

A greenhouse growth lighting device for butterfly orchid growth, as shown in fig. 1 to 5, comprising: the installation frame 1, the inboard bottom rotation of installation frame 1 is connected with a plurality of connecting gear 2, one side meshing of a plurality of connecting gear 2 has vortex rod structure 3, the bottom fixedly connected with light guide structure 4 of installation frame 1, the inside rotation grafting of light guide structure 4 has a plurality of to shine structure 5, the top of shining structure 5 and the bottom fixed connection who corresponds connecting gear 2, the top fixed mounting of installation frame 1 has ash removal structure 6, ash removal structure 6 and vortex rod structure 3 assorted.

The invention is provided with the light guide structure 4 and the irradiation structure 5, and can scatter the light of the light supplementing lamp 402 from the eccentric light scattering covers 503 when in use, thereby further reducing the installation density of the lamp and saving the cost of the lamp.

Referring to fig. 1 and 4 of the specification, the scroll rod structure 3 includes a scroll rod body 301, two ends of the scroll rod body 301 are respectively rotated to be connected with two ends of the mounting frame 1, and one end of the scroll rod body 301 is fixedly connected with a driving motor 302.

Referring to fig. 1 to 2 of the specification, the light guide structure 4 includes a light guide 401, the light guide 401 has high reflectivity, one end of the light guide 401 is fixedly provided with a light supplementing lamp 402, the light supplementing lamp 402 is a hernia lamp, and the spectrum energy distribution characteristic of the hernia lamp is similar to that of solar spectrum energy, and can be used as a simulation light source of sunlight.

Referring to fig. 1 to 3 of the drawings, the illumination structure 5 includes a ball lens 501, the ball lens 501 is matched with the light pipe 401, a connection seat 502 is fixedly connected to the top end of the ball lens 501, the top end of the connection seat 502 is fixedly connected to the bottom end of the connection gear 2, and an eccentric light-scattering cover 503 is fixedly connected to the bottom end of the ball lens 501.

Referring to fig. 1 of the specification, concave lens plates 101 are obliquely and fixedly connected to two sides of a mounting frame 1, the concave lens plates 101 are matched with eccentric light-scattering covers 503, and the range of the light-scattering range of the concave lens plates 101 is covered by the eccentric light-scattering covers 503.

The concave lens plate 101 is arranged to scatter sunlight below the device, so that the phenomenon that obvious shadows are formed below the device to influence photosynthesis of plants due to the fact that the device shields natural light is avoided.

Referring to fig. 1, 4 and 5 of the specification, the ash removal structure 6 includes an ash removal cover 601, a screw rod 602 is rotatably inserted in the ash removal cover 601, a driving belt 603 is sleeved on the screw rod 602, one end of the driving belt 603 is sleeved with the vortex rod body 301, a moving block 604 is rotatably sleeved on the screw rod 602, the moving block 604 is in a T shape, two triangular rotating rod groups 605 are symmetrically rotatably connected to the bottoms of two sides of the moving block 604, two blocking belts 606 are fixedly connected between two ends of the ash removal cover 601, the blocking belts 606 are matched with the corresponding triangular rotating rod groups 605, the two blocking belts 606 are respectively flush with two sides of the ash removal cover 601, an air pump 607 is installed at one end of the ash removal cover 601, wind shields 608 are fixedly connected to two sides of the ash removal cover 601, and the wind shields 608 are matched with the corresponding concave lens plates 101.

The method for using the greenhouse growth lighting device for the butterfly orchid growth comprises the following steps:

s1: the ash removal cover 601 is arranged on the external frame, and the concave lens plate 101 scatters sunlight below the device during daytime, so that obvious shadows are prevented from being formed below the device due to the fact that the device shields natural light;

s2: at night, the light supplementing lamp 402 is turned on, and light rays are emitted from the eccentric light scattering cover 503 through the light guide tube 401 and the ball lens 501;

s3: the driving motor 302 is started to drive the vortex rod body 301 to rotate, then a plurality of connecting gears 2 are driven to rotate, the connecting gears 2 are driven to rotate to drive the connecting seat 502 to rotate, and then the ball lens 501 and the eccentric light-scattering cover 503 are sequentially driven to rotate, so that the illumination range changes along with the rotation of the eccentric light-scattering cover 503, and periodic illumination with staggered brightness is formed in the coverage area;

s4: the vortex rod body 301 rotates to drive the screw rod 602 to rotate through the transmission belt 603, so that the moving block 604 moves along the screw rod 602, and when the moving block 604 moves, the blocking belt 606 is pulled through the triangular rotating rod group 605, and a notch with a continuously moving position is formed in the blocking belt 606;

s5: at this time, the air pump 607 is opened, the air pump 607 blows air into the ash cleaning cover 601, then the air is blown out from the notch of the baffle 606, and then the air is blown to the concave lens plate 101 after being blocked by the wind shield 608, so as to clean the concave lens plate 101, and prevent the dust from being accumulated on the concave lens plate 101 after long-time use of the device, and influence the astigmatism of the concave lens plate 101.

Working principle: the invention is provided with the light guide structure 4 and the irradiation structure 5, and can scatter the light of the light supplementing lamp 402 from the eccentric light scattering covers 503 when in use, thereby further reducing the installation density of the lamp and saving the cost of the lamp.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting.

Claims (8)

1. A greenhouse growth lighting device for butterfly orchid growth, comprising: the novel dust removing device comprises a mounting frame (1), wherein a plurality of connecting gears (2) are rotatably connected to the inner bottom end of the mounting frame (1), vortex rod structures (3) are meshed to one sides of the plurality of connecting gears (2), a light guide structure (4) is fixedly connected to the bottom end of the mounting frame (1), a plurality of irradiation structures (5) are rotatably inserted into the light guide structure (4), the top ends of the irradiation structures (5) are fixedly connected with the bottom ends of the corresponding connecting gears (2), dust removing structures (6) are fixedly arranged on the top ends of the mounting frame (1), and the dust removing structures (6) are matched with the vortex rod structures (3).

2. Greenhouse growth lighting device for phalaenopsis growth according to claim 1, characterized in that the scroll bar structure (3) comprises a scroll bar body (301), two ends of the scroll bar body (301) are respectively rotated to be connected with two ends of the mounting frame (1), and one end of the scroll bar body (301) is fixedly connected with a driving motor (302).

3. The greenhouse growth lighting device for phalaenopsis growth according to claim 2, wherein the light guide structure (4) comprises a light guide tube (401), a light supplementing lamp (402) is fixedly arranged at one end of the light guide tube (401), and the light supplementing lamp (402) is a hernia lamp.

4. The greenhouse growth lighting device for phalaenopsis growth according to claim 2, wherein the irradiation structure (5) comprises a ball lens (501), the ball lens (501) is matched with the light pipe (401), a connecting seat (502) is fixedly connected to the top end of the ball lens (501), the top end of the connecting seat (502) is fixedly connected with the bottom end of the connecting gear (2), and an eccentric light diffusion cover (503) is fixedly connected to the bottom end of the ball lens (501).

5. A greenhouse growth lighting device for phalaenopsis growth according to claim 2, characterized in that both sides of the mounting frame (1) are obliquely and fixedly connected with a concave lens plate (101), and the concave lens plate (101) is matched with an eccentric light-scattering cover (503).

6. The greenhouse growth lighting device for phalaenopsis growth according to claim 2, wherein the ash removal structure (6) comprises an ash removal cover (601), a screw rod (602) is rotatably inserted in the ash removal cover (601), a transmission belt (603) is sleeved on the screw rod (602), one end of the transmission belt (603) is sleeved with the vortex rod body (301), a moving block (604) is rotatably sleeved on the screw rod (602), the moving block (604) is in a T-shaped shape, and two triangular rotating rod groups (605) are symmetrically rotatably connected to the bottoms of two sides of the moving block (604).

7. The greenhouse growth lighting device for phalaenopsis growth according to claim 2, wherein two blocking belts (606) are fixedly connected between two ends of the dust removal cover (601), the blocking belts (606) are matched with the corresponding triangular rotating rod groups (605), the two blocking belts (606) are respectively flush with two sides of the dust removal cover (601), an air pump (607) is installed at one end of the dust removal cover (601), wind shields (608) are fixedly connected to two sides of the dust removal cover (601), and the wind shields (608) are matched with the corresponding concave lens plates (101).

8. The method for using a greenhouse lighting device for the growth of phalaenopsis as defined in claims 1 to 7, comprising the steps of:

s1: the ash removing cover (601) is arranged on the external frame, and the concave lens plate (101) scatters sunlight below the device during daytime, so that the device is prevented from shielding natural light and forming obvious shadows below the device;

s2: at night, the light supplementing lamp (402) is turned on, and light rays are emitted from the eccentric light scattering cover (503) through the light guide tube (401) and the ball lens (501);

s3: starting a driving motor (302) to drive a vortex rod body (301) to rotate, further driving a plurality of connecting gears (2) to rotate, and driving a connecting seat (502) to rotate by the rotation of the connecting gears (2), further driving a ball lens (501) and an eccentric light-scattering cover (503) to rotate in sequence, so that the illumination range changes along with the rotation of the eccentric light-scattering cover (503), and a periodic illumination with staggered brightness is formed in a coverage area;

s4: the vortex rod body (301) rotates to drive the screw rod (602) to rotate through the transmission belt (603), so that the moving block (604) moves along the screw rod (602), the moving block (604) pulls the baffle belt (606) through the triangular rotating rod group (605) when moving, and a notch with continuously moving positions is manufactured on the baffle belt (606);

s5: at the moment, the air pump (607) is opened, the air pump (607) blows air into the ash removal cover (601), then the air is blown out from a notch of the baffle belt (606), and the air is blocked by the wind shield (608) and then blown to the concave lens plate (101), so that ash is removed from the concave lens plate (101), and dust is prevented from being accumulated on the concave lens plate (101) after the equipment is used for a long time, and the astigmatism of the concave lens plate (101) is influenced.