CN215301887U - Flower flowering phase regulation and control equipment - Google Patents

Abstract

The utility model discloses a flower flowering phase regulating and controlling device, which comprises a temperature sensor, a controller and a flower stand, and is characterized in that: the flower shelf is connected with a top plate, the top plate is connected with a left-right driving mechanism, a spraying mechanism, a camera and an LED plant lamp, the left-right driving mechanism is connected with a cloth blocking mechanism, the lower part of the flower shelf is connected with a bottom plate, and three sides of the flower shelf are connected with hollow coated glass; the flower stand is in a cuboid shape and comprises square pipes, the flower stand is formed by splicing the square pipes, notches are formed in the two ends of each square pipe, the notches between the square pipes are matched with each other, a guide post is arranged above the flower stand and connected with an upper cushion block, a limiting piece is arranged below the flower stand and connected with a lower cushion block, and the limiting piece is matched with the guide posts; the spraying mechanism comprises a plurality of atomizing nozzles, a water inlet pipe is connected between the atomizing nozzles, and the water inlet pipe is connected with an opening and closing main valve; the cloth blocking mechanism comprises an installation rod, the installation rod is fixedly connected with the flower stand, the installation rod is connected with a sliding ring, and the sliding ring is connected with shading cloth.

Description

Flower flowering phase regulation and control equipment

Technical Field

The utility model belongs to the technical field of flowering phase regulation and control, and particularly relates to flower flowering phase regulation and control equipment.

Background

The flower is promoted to grow in a moment, and the flower can grow out of time in the existing cultivation technology outside the natural florescence. The cultivation is promoted when flowering earlier than the natural flowering phase, and the cultivation is inhibited when flowering later than the natural flowering phase.

The flowering phase control technology can be divided into temperature treatment, medicament treatment, cultivation measure treatment, illumination treatment and the like. The light treatment technology is applied to regulate and control the flowering period of flowers, because the photoperiod is a leading factor for restricting certain flowering mechanisms of the flowers, light spectrums have direct influence on photosynthesis of plants, light with different wavelengths has different effects on the plants, blue light can accelerate the photosynthesis of the plants, promote the plants to grow stems and leaves, infrared light stimulates cell growth, flower formation and seed germination are influenced, and other light has the effect of inhibiting the plants from growing and flowering.

The existing regulating and controlling equipment for regulating and controlling the flowering phase by the photoperiod has the following defects:

1. due to structural limitation or production space limitation, the regulating and controlling equipment cannot be stacked, so that too much plane space is occupied, and the flower flowering phase can not be regulated and controlled in batches in the limited space;

2. the flowering phase regulating and controlling equipment has low structural strength, the service life cannot be guaranteed, the production and the assembly are difficult, the assembly precision is low, and the production cost of the equipment is increased;

3. the light utilization degree is low, the growth condition of flowers is inconvenient to observe, and the temperature is inconvenient to maintain.

SUMMERY OF THE UTILITY MODEL

In view of the problems raised by the above background art, the present invention is directed to: aims to provide a flower flowering phase regulating device.

In order to achieve the technical purpose, the technical scheme adopted by the utility model is as follows:

a flower flowering phase regulating device comprises a temperature sensor, a controller and a flower stand, wherein a top plate is connected above the flower stand, the top plate is connected with a left-right driving mechanism, a spraying mechanism, a camera and an LED plant lamp, the left-right driving mechanism is connected with a cloth blocking mechanism, a bottom plate is connected below the flower stand, and three sides of the flower stand are connected with hollow coated glass;

the flower stand is in a cuboid shape, the flower stand comprises square tubes, the flower stand is formed by splicing the square tubes, notches are formed in two ends of each square tube, the notches between the square tubes are matched with each other, a guide post is arranged above the flower stand, the guide post is connected with an upper cushion block, a limiting piece is arranged below the flower stand and connected with a lower cushion block, and the limiting piece is matched with the guide post;

the spraying mechanism comprises a plurality of atomizing nozzles, a water inlet pipe is connected between the atomizing nozzles, and the water inlet pipe is connected with an opening and closing main valve;

the cloth blocking mechanism comprises an installation rod, the installation rod is fixedly connected with the flower shelf, the installation rod is connected with a sliding ring, and the sliding ring is connected with shading cloth.

Further inject, the pergola is equipped with the bracing, the pergola is equipped with triangle-shaped stop block seat, triangle-shaped stop block seat is equipped with the screw hole, triangle-shaped stop block seat is connected with cavity coated glass, and structural design like this strengthens the structural strength of pergola through the bracing, provides cavity coated glass's mounted position through triangle-shaped stop block seat.

Further inject, the pergola is equipped with electronic tags, and such structural design stores the illumination information of flowers in the pergola, variety information etc. through electronic tags for the staff can be quick learn the information of flowers in the flowering phase regulation and control equipment.

Further limited, the bottom plate is provided with the separating strips, the air holes are formed in the bottom plate between the separating strips, the placing positions of the flowers are determined through the separating strips, the bottoms of the flowers are ventilated through the air holes, more oxygen is provided for the roots of the flowers, and the survival rate of the flowers is improved.

The left and right driving mechanism comprises a driving motor, the output end of the driving motor is connected with a screw rod, one end of the screw rod is connected with a bearing with a seat, the screw rod is connected with a nut seat, the nut seat is connected with a guide rod, the guide rod is connected with a sliding block, the sliding block is connected with a guide rail, the guide rail is fixedly connected with a top plate, the driving motor drives the screw rod to rotate, the screw rod drives the nut seat to translate through a screw rod and nut pair structure, and the guide rod translates under the driving of the nut seat and carries out direction specification through the sliding block and the guide rail.

The utility model has the beneficial effects that:

1. in a limited space, the devices are stacked, so that the florescence of flowers can be regulated in batches, and the space utilization rate is increased;

2. the flowering phase regulating and controlling equipment has the advantages of high structural strength, long service life, easiness in production and assembly, high assembly precision and reduction in equipment production cost;

3. the light utilization degree is high, the growth condition of flowers can be observed at any time, and the temperature can be maintained conveniently.

Drawings

The utility model is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic structural diagram of an embodiment of a flower flowering phase regulating apparatus according to the present invention;

FIG. 2 is a schematic illustration of a stack of an embodiment of a flowering time regulating apparatus of the present invention;

FIG. 3 is a schematic front view of an embodiment of a flower flowering stage regulating apparatus according to the present invention;

FIG. 4 is a schematic bottom structure diagram of an embodiment of a flower flowering time control apparatus according to the present invention;

FIG. 5 is a schematic view of a square tube connection in an embodiment of a flower flowering phase regulating apparatus of the present invention;

FIG. 6 is a schematic structural diagram of a flower shelf in an embodiment of a flower blooming period regulating apparatus of the present invention;

the main element symbols are as follows:

the flower shelf comprises a flower shelf 1, a square tube 11, a notch 111, an inclined strut 12, a triangular block seat 13, a limiting sheet 14, a lower cushion block 15, a guide post 16, an upper cushion block 17 and an electronic tag 18;

a bottom plate 2, air holes 21 and separating strips 22;

the left and right driving mechanism 3, the driving motor 31, the screw rod 32, the bearing with seat 33, the nut seat 34, the guide rail 35, the slide block 36 and the guide rod 37;

the spraying mechanism 4, the atomizing spray nozzle 41, the opening and closing main valve 42 and the water inlet pipe 43;

a camera 5;

an LED plant lamp 6;

a top plate 7;

the cloth blocking mechanism 8, the mounting rod 81 and the slip ring 82;

and (3) hollow coated glass 9.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in fig. 1-6, the flower flowering phase regulating and controlling equipment comprises a temperature sensor, a controller and a flower stand 1, wherein a top plate 7 is connected above the flower stand 1, the top plate 7 is connected with a left and right driving mechanism 3, a spraying mechanism 4, a camera 5 and an LED plant lamp 6, the left and right driving mechanism 3 is connected with a cloth blocking mechanism 8, a bottom plate 2 is connected below the flower stand 1, and three sides of the flower stand 1 are connected with hollow coated glass 9;

the flower stand 1 is in a cuboid shape, the flower stand 1 comprises square tubes 11, the flower stand 1 is formed by splicing the square tubes 11, notches 111 are formed in two ends of each square tube 11, the notches 111 between the square tubes 11 are matched with each other, guide posts 16 are arranged above the flower stand 1, the guide posts 16 are connected with upper cushion blocks 17, limiting pieces 14 are arranged below the flower stand 1, the limiting pieces 14 are connected with lower cushion blocks 15, and the limiting pieces 14 are matched with the guide posts 16;

the spraying mechanism 4 comprises a plurality of atomizing nozzles 41, a water inlet pipe 43 is connected between the atomizing nozzles 41, and the water inlet pipe 43 is connected with an opening and closing main valve 42;

the cloth blocking mechanism 8 comprises an installation rod 81, the installation rod 81 is fixedly connected with the flower stand 1, the installation rod 81 is connected with a sliding ring 82, and the sliding ring 82 is connected with shading cloth.

In the implementation of the scheme, a plurality of flower florescence regulation and control devices can be stacked and installed in the vertical direction (as shown in fig. 2), so that a large amount of flower florescence treatment can be carried out, and the production space is saved, in the stacking and installation process, the limiting pieces 14 are matched with the guide columns 16, the limiting pieces 14 positioned at four corners enable the flower florescence regulation and control devices on the upper side to be incapable of moving on the horizontal plane, so that the limiting effect is achieved, the guide columns 16 on the lower side mainly play a supporting role and bear the weight of the flower florescence regulation and control devices on the upper side, the two flower florescence regulation and control devices are fixedly connected through the upper cushion blocks 17 and the lower cushion blocks 15 in a bolt connection mode, welding mode and the like (determined according to the actual use environment and conditions), due to the stacking and placement, the flower stand 1 needs to have light weight and good structural strength, therefore, the flower stand 1 is formed by the square pipes 11, the square tube 11 is hollow, the weight of the flower stand 1 is effectively reduced, the square tube 11 is provided with the notch 111, the notch 111 adopts a laser cutting mode, shaping blanking is completed, the precision of the notch 111 is ensured, the splicing precision of the flower stand 1 is better controlled, the square tube 11 is clamped and positioned through the notch 111, the notch 111 determines the splicing shape and the splicing position between the square tubes 11, welding and curing are performed after splicing is completed, the clamping mode is higher in precision and better in structural strength compared with a traditional overlapping mode, manual measurement of the installation distance is not needed, when the installation position is completely blanked by laser, the position and the precision of the notch 111 are ensured, the clamping installation mode with better precision also enables upper and lower flowering phase regulating and controlling equipment to be easily matched with the guide column 16 when the upper and lower flowering phase regulating and controlling equipment are stacked and placed;

when the flower flowering phase regulating and controlling equipment operates, the LED plant lamp 6 is powered on and started, the LED plant lamp 6 is controlled by the controller to emit light rays with required wavelengths or composite light rays, in the process of a plant growth period, the light rays with different wavelengths have different effects on plant growth, infrared light plays a role in stimulating the growth of plant cells and influencing the effects of flowering and seed germination, blue light plays a role in promoting photosynthesis, and the flowering phase of flowers can be effectively regulated and controlled by regulating and controlling the light spectrum emitted by the LED plant lamp 6; the coating film of the hollow coated glass 9 can effectively reflect the light emitted by the LED plant lamp 6, so that the light utilization degree is higher, the hollow design of the hollow coated glass 9 enables the temperature in the flower flowering phase regulation and control equipment to be kept relatively constant, and a relatively stable temperature environment is provided for flowers, and in addition, the hollow coated glass 9 is transparent, so that workers can conveniently observe the growth condition of the internal flowers; the atomizing nozzle 41 in the spraying mechanism 4 can supplement water to flowers through the water inlet pipe 43, so that the labor intensity of workers is reduced; the camera 5 enables the worker to remotely monitor the flower condition in each flowering phase regulation and control device, and the worker is prevented from running back and forth; the left and right driving mechanism 3 can drive the shading cloth and the slip ring 82 to slide left and right on the mounting rod 81, so that the shading cloth is unfolded and folded, flowers are conveniently taken and placed, air in the flower blooming period regulating and controlling equipment is increased, and the environment temperature is maintained.

Preferably, the flower stand 1 is provided with the inclined strut 12, the flower stand 1 is provided with the triangular block seat 13, the triangular block seat 13 is provided with a threaded hole, the triangular block seat 13 is connected with the hollow coated glass 9, the structural design strengthens the structural strength of the flower stand 1 through the inclined strut 12, and the triangular block seat 13 provides the mounting position of the hollow coated glass 9. In fact, other structural designs for reinforcing the structural strength of the flower stand 1 and other mounting structures for the hollow coated glass 9 may be specifically contemplated according to the specific circumstances.

Preferably, pergola 1 is equipped with electronic tags 18, and such structural design stores the illumination information of flowers in pergola 1, variety information etc. through electronic tags 18 for the staff can be quick learn the information of flowers in the flowering phase regulation and control equipment. In fact, other structural designs which facilitate the staff to inquire the flower information in the flowering time regulating and controlling equipment can be specifically considered according to specific situations.

Preferably, the bottom plate 2 is provided with the separation strips 22, the air holes 21 are formed in the bottom plate 2 between the separation strips 22, the arrangement position of the flower is determined through the separation strips 22, the bottom of the flower is ventilated through the air holes 21, more oxygen is provided for the root of the flower, and the survival rate of the flower is improved. In practice, other structural shapes of the base plate 2 may also be specifically considered, depending on the specific situation.

Preferably, the left and right driving mechanism 3 comprises a driving motor 31, an output end of the driving motor 31 is connected with a screw rod 32, one end of the screw rod 32 is connected with a bearing 33 with a seat, the screw rod 32 is connected with a nut seat 34, the nut seat 34 is connected with a guide rod 37, the guide rod 37 is connected with a slide block 36, the slide block 36 is connected with a guide rail 35, and the guide rail 35 is fixedly connected with the top plate 7. In fact, other configurations of the left and right driving mechanisms 3 may be specifically considered according to the specific situation.

The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (5)

1. The utility model provides a flowers flowering phase regulation and control equipment, includes temperature sensor, controller and pergola (1), its characterized in that: a top plate (7) is connected above the flower stand (1), the top plate (7) is connected with a left-right driving mechanism (3), a spraying mechanism (4), a camera (5) and an LED plant lamp (6), the left-right driving mechanism (3) is connected with a cloth blocking mechanism (8), a bottom plate (2) is connected below the flower stand (1), and three sides of the flower stand (1) are connected with hollow coated glass (9);

the flower stand (1) is in a cuboid shape, the flower stand (1) comprises square tubes (11), the flower stand (1) is formed by splicing the square tubes (11), notches (111) are arranged at two ends of each square tube (11), the notches (111) between the square tubes (11) are matched with each other, guide columns (16) are arranged above the flower stand (1), the guide columns (16) are connected with upper cushion blocks (17), limiting pieces (14) are arranged below the flower stand (1), the limiting pieces (14) are connected with lower cushion blocks (15), and the limiting pieces (14) are matched with the guide columns (16);

the spraying mechanism (4) comprises a plurality of atomizing nozzles (41), a water inlet pipe (43) is connected between the atomizing nozzles (41), and the water inlet pipe (43) is connected with an opening and closing main valve (42);

the cloth blocking mechanism (8) comprises an installation rod (81), the installation rod (81) is fixedly connected with the flower stand (1), the installation rod (81) is connected with a sliding ring (82), and the sliding ring (82) is connected with shading cloth.

2. A flower flowering time regulating apparatus as claimed in claim 1, wherein: the flower shelf is characterized in that the flower shelf (1) is provided with an inclined strut (12), the flower shelf (1) is provided with a triangular block seat (13), the triangular block seat (13) is provided with a threaded hole, and the triangular block seat (13) is connected with the hollow coated glass (9).

3. A flower flowering time regulating apparatus as claimed in claim 2, wherein: the flower stand (1) is provided with an electronic tag (18).

4. A flower flowering time regulating apparatus according to claim 3, wherein: the bottom plate (2) is provided with separating strips (22), and air holes (21) are formed in the bottom plate (2) between the separating strips (22).

5. A flower flowering time regulating apparatus according to claim 4, wherein: left and right driving mechanism (3) includes driving motor (31), driving motor (31) output is connected with lead screw (32), lead screw (32) one end is connected with and takes seat bearing (33), lead screw (32) are connected with nut seat (34), nut seat (34) are connected with guide arm (37), guide arm (37) are connected with slider (36), slider (36) are connected with guide rail (35), guide rail (35) and roof (7) fixed connection.

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