CN115644061A - Novel high-efficient plant tissue culture system - Google Patents

Abstract

The invention discloses a novel high-efficiency plant tissue culture system which comprises a wiring support and a bearing base, wherein a guide groove is longitudinally formed in the wiring support, a limiting hole and a limiting sliding groove which are communicated are formed in the bearing base, a load-bearing platform used for placing a culture is fixedly installed on the wiring support and the bearing base through the guide groove and the limiting hole, a limiting mechanism is arranged between the load-bearing platform and the wiring support and between the load-bearing base and the load-bearing base, and a light control mechanism capable of adjusting the direction of a light source is arranged on the load-bearing platform. The invention utilizes the routing support to install the horizontally arranged load-bearing platform, so as to erect a plurality of layers of load-bearing platforms on the routing support and the load-bearing base; set up by rotatory transmission shaft of driving motor drive and ball on the load platform, utilize first gear and second gear, differential mechanism and the transmission track of meshing connection to make the light source board carry out vertical lift when horizontal deflection to conveniently get and use and place the culture on the load platform.

Description

Novel high-efficient plant tissue culture system

Technical Field

The invention relates to the technical field of plant culture, in particular to a novel efficient plant tissue culture system.

Background

The problems of insufficient space utilization, high energy consumption, potential safety hazards of electricity utilization and the like commonly existing in the traditional plant tissue culture chamber layered rack type culture mode.

The tradition is cultivateed the room and is adopted the layer posture and cultivate the mode, and the individual layer is high 32cm, because the difference in height, cultivates the frame and leans on several layers to place and remove the process comparatively difficult, influences work efficiency, because the great dismouting difficulty that leads to of volume quality moreover occupies more easily and wastes a large amount of space resources. The traditional culture rack generally adopts an iron material as a support, each layer is provided with an electric wire connector and a lamp tube connector, and in the actual use process, the electric leakage phenomenon caused by the untight wrapping of the line connectors often occurs, so that the traditional culture rack has great potential safety hazard; the culture frames are all provided with line connection, and in the process of laying the lines, the conditions of ground wire disconnection, zero-fire wire pair adjustment and the like often occur due to the complex lines, so that induced electricity occurs in the culture frames; although the LED lamp tube is a cold light source, when the power of the lamp tube is higher, the power of a single lamp bead is higher, and the heating phenomenon still occurs; although the LED lamp tube replaces a fluorescent lamp tube, the energy consumption can be effectively reduced, but the energy-saving effect is not obvious.

Disclosure of Invention

The invention aims to provide a novel efficient plant tissue culture system for solving the problem that the batch culture is difficult to be sufficiently illuminated in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

novel high-efficient plant tissue culture system, including walking line support and bearing base, vertically seted up the guide way in the line support, and seted up spacing hole and the spacing spout that is linked together in the bearing base, walk the load platform that line support and bearing base pass through guide way and spacing hole fixed mounting and are used for placing the culture, and the load platform with walk to be provided with stop gear between line support and the bearing base, the load bench is provided with the accuse light mechanism that can carry out the position adjustment to the illumination light source.

Preferably, the wiring support is of a vertical plate structure, the bearing base is of an L-shaped structure, the lower end of the L-shaped structure is connected with the wiring support in an assembling mode, and pulleys are arranged at the bottom ends of the wiring support and the bearing base.

Preferably, the limiting mechanism comprises a guide block integrally connected to one end of the load-bearing table, the guide block is detachably sleeved in the guide groove in a sliding manner, a telescopic cavity is formed in the other end of the load-bearing table, a first spring and a first limiting part which are fixedly connected are arranged in the telescopic cavity, and a second limiting part and a second spring which are connected are arranged in the limiting sliding groove.

Preferably, the first spring is horizontally welded in the inner end of the telescopic cavity, the first limiting member slidably sleeved in the telescopic cavity is slidably sleeved in the limiting hole, the second limiting member is slidably sleeved in the limiting chute, the second spring is fixedly sleeved on the second limiting member, and the first limiting member and the second limiting member can be correspondingly buckled in the limiting hole.

Preferably, light control mechanism includes fixed mounting in the driving motor on the load platform, and fixedly connected with plane carousel on the driving motor output, an organic whole is connected with hollow structure's stand pipe on the plane carousel, and rotates respectively in plane carousel and the stand pipe and install transmission shaft and the ball by driving motor transmission drive, the supporting nut of installing on the ball, and fixed mounting has the light source board on the nut, and the light source board is connected with the power end through the conductor wire, walk to be provided with the supply socket corresponding with the power end on the line support.

Preferably, the transmission shaft and the ball screw are both longitudinally arranged, and the output end of the driving motor and the transmission shaft are respectively in key connection with a first gear and a second gear which are in meshed connection.

Preferably, differentials are fixedly sleeved on the transmission shaft and the ball screw, and a transmission crawler is connected between the transmission shaft and the ball screw through the differentials.

Compared with the prior art, the invention has the following advantages:

1. the invention utilizes the wiring support to install the horizontally arranged load-bearing platform, the first limiting piece elastically supported by the first spring is arranged in the end part of the load-bearing platform, the second limiting piece elastically supported by the second spring is arranged in the limiting chute, so that the first limiting piece and the second limiting piece are buckled and connected in the limiting hole, and a plurality of layers of load-bearing platforms are conveniently erected on the wiring support and the load-bearing base.

2. According to the invention, the transmission shaft and the ball screw which are driven to rotate by the driving motor are arranged on the load-carrying platform, and the light source plate is vertically lifted while horizontally deflected by utilizing the first gear and the second gear which are connected in a meshed manner, the differential mechanism and the transmission crawler belt, so that a culture can be conveniently taken and placed on the load-carrying platform.

Drawings

FIG. 1 is a schematic structural diagram of a novel high-efficiency plant tissue culture system according to the present invention;

FIG. 2 is a schematic view of the transmission connection of the light control mechanism of the novel high-efficiency plant tissue culture system according to the present invention;

FIG. 3 is an enlarged schematic view of part A of the novel efficient plant tissue culture system provided by the present invention;

FIG. 4 is an enlarged schematic view of part B of the novel efficient plant tissue culture system provided by the present invention;

FIG. 5 is a schematic side view of the novel high efficiency plant tissue culture system of the present invention;

FIG. 6 is a schematic side sectional view of the novel high efficiency plant tissue culture system of the present invention.

In the figure: 1. a wiring bracket; 2. a load-bearing base; 3. a guide groove; 4. a limiting hole; 5. a limiting chute; 6. a guide block; 7. a load table; 8. a telescoping chamber; 9. a first spring; 10. a first limit piece; 11. a second limit piece; 12. a second spring; 13. a drive motor; 14. a planar turntable; 15. a guide tube; 16. a drive shaft; 17. a ball screw; 18. a first gear; 19. a second gear; 20. a differential mechanism; 21. a drive track; 22. a nut; 23. a light source board; 24. a power supply terminal; 25. an electric outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to the description drawings 1-6, a novel efficient plant tissue culture system comprises a wiring support 1 and a bearing base 2, wherein the wiring support 1 is of a vertical plate structure, the bearing base 2 is of an L-shaped structure with the lower end assembled with the wiring support 1, the wiring support 1 and the bearing base 2 are arranged at the same height, so that at least two side load bearing platforms 7 are arranged between the wiring support 1 and the bearing base 2, pulleys are arranged at the bottom ends of the wiring support 1 and the bearing base 2 and are provided with locking structures, so that the wiring support 1 and the bearing base 2 can move horizontally and are fixed in position, guide grooves 3 are longitudinally formed in the wiring support 1, limit holes 4 and limit sliding grooves 5 are formed in the bearing base 2 and are communicated with each other, the limit holes 4 and the limit sliding grooves 5 are set according to the height of the bearing base 2, so that multiple layers of the load bearing platforms 7 can be arranged, the wiring support 1 and the bearing base 2 are fixedly installed through the guide grooves 3 and the limit holes 4 and are used for placing a load bearing platform 7 for placing cultures, it is required to be explained that the wiring support 1 and the wiring support base 2 and the power supply independent light for setting the load bearing platform 7.

Further, the wiring support 1 and the bearing base 2 can be constructed at a high position, so that the erection quantity of the load bearing platforms 7 can be flexibly adjusted in the later use process, and the conventional laid lines do not conflict with the situation whether the conventional laid lines occupy too much space or not and the power resources.

Firstly, a limiting mechanism is arranged between the load platform 7 and the routing support 1 and the load-bearing base 2, the limiting mechanism comprises a guide block 6 integrally connected to one end of the load platform 7, the guide block 6 is detachably sleeved in the guide groove 3 in a sliding manner, the guide of the guide groove 3 on the guide block 6 is utilized for limiting, so as to ensure the stability of the up-and-down movement of the load platform 7, a telescopic cavity 8 is arranged in the other end of the load platform 7, a first spring 9 and a first limiting part 10 which are fixedly connected are arranged in the telescopic cavity 8, and a second limiting part 11 and a second spring 12 which are connected are arranged in the limiting sliding groove 5, as can be known by specifically referring to the attached drawings 1 and 3 in the specification, a through hole is arranged at one end position where the first limiting part 10 extends to the limiting hole 4, and a through hole is arranged at one end where the second limiting part 11 extends to the limiting hole 4, so as to realize a buckle connection, so that the routing of the load platform 7 can realize position fixation on the routing support 1 and the load-bearing base 2.

The first spring 9 is horizontally welded in the inner end of the telescopic cavity 8, and the first limiting part 10 slidably sleeved in the telescopic cavity 8 is slidably sleeved in the limiting hole 4, so that the first limiting part 10 can horizontally extend and retract in the telescopic cavity 8 under the elastic action of the first spring 9, and can extend into the limiting hole 4, so as to conveniently horizontally place the load-bearing platform 7 between the wire routing bracket 1 and the load-bearing base 2, the second limiting part 11 is slidably sleeved in the limiting sliding groove 5, and the second spring 12 is fixedly sleeved on the second limiting part 11, so that the second limiting part 11 can extend up and down under the elastic action of the second spring 12, and is connected with the first limiting part 10 in a buckling manner in a state of extending into the limiting hole 4, and the first limiting part 10 and the second limiting part 11 can be correspondingly buckled in the limiting hole 4.

Secondly, a light control mechanism capable of adjusting the direction of the illumination light source is arranged on the load-bearing table 7, the light control mechanism comprises a driving motor 13 fixedly installed on the load-bearing table 7, the driving motor 13 adopts a servo motor with the product model of HC-SFS203, the output end of the driving motor 13 is fixedly connected with a plane rotary table 14, the plane rotary table 14 can drive the light source plate 23 to horizontally deflect under the driving action of the driving motor 13, so that the light source plate 23 and the load-bearing table 7 are staggered, a culture is placed on the load-bearing table 7, a guide pipe 15 with a hollow structure is integrally connected onto the plane rotary table 14, a transmission shaft 16 and a ball screw 17 which are driven by the driving motor 13 are respectively rotatably installed in the plane rotary table 14 and the guide pipe 15, the ball screw 17 and the plane rotary table 14 are concentrically arranged, the transmission shaft 16 is positioned at one side of the ball screw 17, a nut 22 is installed on the ball screw 17, the nut 22 is fixedly installed on the nut 23, the light source plate 23 adopts a novel LED lamp, the low-power LED lamp is further adopted as a light source, the novel culture system, the heat productivity is effectively reduced by reducing the lamp bead power of a lamp bulb which is only 10% of a lamp panel in a constant temperature culture room; the novel culture system adopts a stacked culture mode, does not need to build culture racks and installation cost of related lines, and greatly reduces the construction cost of a culture room; because the low-voltage power supply is adopted, the requirement of the culture room on the stability of the power supply voltage is reduced, and the cost of related voltage stabilizing equipment is saved; the saved construction cost is used for increasing the number of novel LED lamp panels, and the capacity of the culture room is effectively improved. And the light source board 23 is connected with a power end 24 through a conducting wire, the wiring support 1 is provided with a power socket 25 corresponding to the power end 24, and the power socket 24 and the power socket 25 are connected to supply power to the driving motor 13 and the light source board 23, so that a novel Chinese herbal medicine efficient tissue culture system is established through technical innovation from the aspects of power input, light source efficiency improvement, space utilization and the like, and good effect is achieved in actual production.

Further, an independent power capacity supply point is provided for each layer of the loading platform 7, so that each layer of the loading platform 7 can provide illumination conditions for the culture room according to the requirement of the loading platform, and the use flexibility of the culture room is ensured.

The comparison of the experimental data shows that:

TABLE 1 comparison of major parameters for plant tissue culture Chamber operation

In the novel culture room actual operation process, can see from table 1 that under similar cost, novel culture room power consumption was 70% for traditional culture room, and culture room capacity was 215.6% for traditional culture room, when traditional culture room unit energy consumption 0.868 watt/bottle, when novel culture room unit cultivateed energy consumption 0.282 watt/bottle, only was 32.5% of traditional culture room unit energy consumption.

By using the culture chamber in the form, not only the hardware cost of line typesetting can be realized, but also the quantity of the load platforms 7 can be flexibly controlled according to the culture scale, thereby saving the electric energy resource.

After the novel culture system is practically popularized without a traditional culture shelf, the following conclusion can be obtained:

a. the space utilization rate is greatly improved, the capacity is improved by more than one time, the production capacity of the seedlings of enterprises can be greatly improved under the condition of not increasing the area of a culture room, and the application prospect is wide;

b. the tissue culture light source adopts a low-power cold light source, and the lamp panel basically does not generate heat, so that the energy consumption for maintaining constant temperature in the culture room is greatly reduced, the investment of cooling equipment in the culture room is effectively reduced, and the cost is saved;

c. the light source distance is closer, the light utilization rate is higher, the culture period is effectively shortened, the turnover rate of the enterprise culture room is improved, and the annual output of seedlings in the culture room is effectively improved;

d. the system is safer by adopting low-voltage direct current power supply, and the problem of induced electricity of the traditional culture rack is effectively solved;

e. the guide rail is adopted for supplying power, so that the power is used along with insertion, wiring is not needed, the operation is simpler and more convenient, the labor for installing and managing the culture room is effectively reduced, and the construction and operation cost of the culture room is effectively saved;

f. use the power supply guide rail to pile up as center and cultivate the basket, space utilization is high, and the culture room is succinct more pleasing to the eye

With specific reference to the accompanying figure 2 of the specification and the accompanying figure 4 of the specification:

further, the transmission shaft 16 and the ball screw 17 are both arranged longitudinally, the output end of the driving motor 13 and the transmission shaft 16 are respectively connected with a first gear 18 and a second gear 19 in a key joint manner, and the ball screw 17 can be further driven by the driving motor 13 through transmission between the first gear 18 and the second gear 19, so that the ball screw 17 performs rotation motion while performing revolution.

Furthermore, a differential 20 is fixedly sleeved on each of the transmission shaft 16 and the ball screw 17, and a transmission crawler 21 is connected between the transmission shaft 16 and the ball screw 17 through the differential 20, so that the ball screw 17 can continuously rotate for many times, and the height position of the nut 22 can be adjusted.

The invention can be illustrated by the following operating modes:

pressing the first limiting part 10 inwards, the first spring 9 is forced to contract, and the guide block 6 is sleeved with the guide groove 3 in a sliding manner, so that the load platform 7 is horizontally arranged between the wiring support 1 and the bearing base 2;

when the load table 7 moves downwards to a proper height, the first limiting piece 10 horizontally extends into the limiting hole 4 under the tension of the first spring 9;

the second limiting part 11 extends downwards into the limiting hole 4 under the action of the tension of the second spring 12 and is connected with the first limiting part 10 in a buckling mode so as to fixedly install the load-bearing table 7 on the wiring support 1 and the bearing base 2, and the load-bearing table 7 in a universal structural form is adopted so as to control the increase and decrease of the number on the wiring support 1 and the bearing base 2, realize batch-type cultivation, control the cultivation cost and facilitate manual management;

placing a culture on the load table 7, connecting the power end 24 with the power socket 25 to light the light source plate 23, and controlling the driving motor 13 to be started;

the output end of the driving motor 13 drives the light source plate 23 to horizontally deflect through the plane turntable 14, so that the light source plate 23 vertically corresponds to the culture on the load-bearing table 7;

the output end of the driving motor 13 drives the transmission shaft 16 to rotate through a first gear 18 and a second gear 19 which are connected in a meshed mode, and the transmission shaft 16 drives the ball screw 17 to rotate through a differential 20 and a transmission crawler 21;

the ball screw 17 drives the nut 22 to move downwards, and the nut 22 drives the light source plate 23 to move downwards so as to adjust the distance between the light source plate 23 and the culture and ensure sufficient illumination.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. Novel high-efficient plant tissue culture system, including walking line support (1) and bearing base (2), its characterized in that, vertically seted up guide way (3) in walking line support (1), and seted up spacing hole (4) and spacing spout (5) that are linked together in bearing base (2), walk load platform (7) that line support (1) and bearing base (2) are used for placing the culture through guide way (3) and spacing hole (4) fixed mounting, and load platform (7) and walk to be provided with stop gear between line support (1) and bearing base (2), it can carry out the light control mechanism of position adjustment to the illumination light source to be provided with on load platform (7).

2. The novel high-efficiency plant tissue culture system according to claim 1, wherein the wire support (1) is a vertical plate structure, and the bearing base (2) is an L-shaped structure with the lower end assembled with the wire support (1), and pulleys are disposed at the bottom ends of the wire support (1) and the bearing base (2).

3. The novel efficient plant tissue culture system according to claim 1, wherein the limiting mechanism comprises a guide block (6) integrally connected to one end of the load platform (7), the guide block (6) is detachably slidably sleeved in the guide groove (3), a telescopic cavity (8) is formed in the other end of the load platform (7), a first spring (9) and a first limiting member (10) which are fixedly connected are arranged in the telescopic cavity (8), and a second limiting member (11) and a second spring (12) which are connected are arranged in the limiting sliding groove (5).

4. The novel efficient plant tissue culture system according to claim 3, wherein the first spring (9) is horizontally welded in the inner end of the telescopic cavity (8), the first limiting member (10) slidably sleeved in the telescopic cavity (8) is slidably sleeved in the limiting hole (4), the second limiting member (11) is slidably sleeved in the limiting sliding groove (5), the second spring (12) is fixedly sleeved on the second limiting member (11), and the first limiting member (10) and the second limiting member (11) can be correspondingly buckled in the limiting hole (4).

5. The novel efficient plant tissue culture system according to claim 1, wherein the light control mechanism comprises a driving motor (13) fixedly mounted on the load table (7), a planar turntable (14) is fixedly connected to an output end of the driving motor (13), a hollow guide pipe (15) is integrally connected to the planar turntable (14), a transmission shaft (16) and a ball screw (17) which are driven by the driving motor (13) are respectively rotatably mounted in the planar turntable (14) and the guide pipe (15), a nut (22) is mounted on the ball screw (17) in a matching manner, a light source plate (23) is fixedly mounted on the nut (22), the light source plate (23) is connected with a power source end (24) through a conductive wire, and a power socket (25) corresponding to the power source end (24) is arranged on the wiring support (1).

6. The novel high-efficiency plant tissue culture system according to claim 5, wherein the transmission shaft (16) and the ball screw (17) are both arranged longitudinally, and the output end of the driving motor (13) and the transmission shaft (16) are respectively in key connection with a first gear (18) and a second gear (19) which are in meshed connection.

7. The novel efficient plant tissue culture system according to claim 5, wherein a differential (20) is fixedly sleeved on each of the transmission shaft (16) and the ball screw (17), and a transmission crawler (21) is connected between the transmission shaft (16) and the ball screw (17) through the differential (20).

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