CN112400516A

CN112400516A - Forestry nursery divides fence device fast

Info

Publication number: CN112400516A
Application number: CN202011368117.7A
Authority: CN
Inventors: 卢翠; 宋刚勇; 刘小娟; 马青华; 霍贺; 钱赞美; 付俊霞; 钟业琳; 韩建功; 连富强; 闵卫芳; 胡心伟; 刘海艳
Original assignee: Queshan County Forestry Technology Extension Station
Current assignee: Queshan County Forestry Technology Extension Station
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-02-26

Abstract

The invention discloses a forestry nursery rapid fence dividing device, which comprises a base; the base is provided with a mounting frame; the mounting frame is provided with a PLC control panel and a fixing plate; a top seat is arranged between the mounting frames; an environment simulation detection mechanism is arranged on the top seat; a placing table is arranged on the fixing plate; a weighing meter is arranged on the placing table; the mounting rack is provided with an adjustable clamping moving mechanism and a selective placement mechanism corresponding to the nursery container; the base is provided with a transmission mechanism; the transmission mechanism is a conventional transmission belt roller mechanism; and a driving moving mechanism is arranged at the bottom of the base. The invention has the advantages of convenient use, accurate detection and high column separation efficiency.

Description

Forestry nursery divides fence device fast

Technical Field

The invention relates to the technical field of nursery partition, in particular to a forestry nursery rapid partition device.

Background

The conventional nursery container is in a cylindrical shape with a fixed pattern, when the container needs to be transplanted, the nursery needs to be separated according to the nursery growth condition in the container, and qualified nursery and unqualified nursery are determined.

Therefore, in view of the above situation, there is an urgent need to develop a fast fence dividing device for forestry nursery.

Disclosure of Invention

The invention aims to provide a forestry nursery rapid column dividing device to solve the problems in the background technology.

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

a forestry nursery fast fence dividing device comprises a base; the base is provided with a mounting frame; the mounting frame is provided with a PLC control panel and a fixing plate; a top seat is arranged between the mounting frames; an environment simulation detection mechanism is arranged on the top seat; a placing table is arranged on the fixing plate; a weighing meter is arranged on the placing table; the mounting rack is provided with an adjustable clamping moving mechanism and a selective placement mechanism corresponding to the nursery container; the base is provided with a transmission mechanism; and a driving moving mechanism is arranged at the bottom of the base.

As a further scheme of the invention: the environment simulation detection mechanism comprises an environment simulation detector; the environment simulation detector is communicated with the gas storage tank through a pipeline; an oxygen tank and a carbon dioxide tank are arranged in the gas storage tank; the pipeline comprises an oxygen transmission pipeline and a carbon dioxide transmission pipeline; the oxygen transmission pipeline and the carbon dioxide transmission pipeline are both provided with electromagnetic valves; the top of the environment simulation detector is connected with a left-right adjusting mechanism through a first hydraulic rod.

As a further scheme of the invention: the environment simulation detector comprises a cover body; an illumination intensity sensor, an oxygen concentration sensor and a carbon dioxide concentration sensor are arranged in the cover body; a light illuminator is arranged at the top end inside the cover body; a contrast detection mechanism is arranged on one side of the cover body; the contrast detection mechanism comprises a first slide rail; a first threaded rod is arranged inside the first sliding rail; the first threaded rod is connected with the first guide sliding block through threads; one side of the first guide sliding block is fixedly provided with an ultra-high-definition camera; the bottom end of the first threaded rod is connected with a micro servo motor through a coupler; a graduated scale is arranged on the cover body; the ultra-high-definition camera is electrically connected with the PLC control panel; a PCB circuit board is arranged inside the PLC control panel; the PCB is provided with a nursery plant growth data module, a photosynthesis and respiration intensity data module and a control comparison module.

As a further scheme of the invention: the left and right adjusting mechanism comprises a first rail; the first rail is arranged at the bottom of the top seat; a second threaded rod is arranged inside the first rail; the second threaded rod is connected with a first servo motor through a coupler; the second threaded rod is connected with a third guide sliding block through threads; and the bottom of the third guide sliding block is fixedly connected with a first hydraulic rod.

As a further scheme of the invention: the adjustable clamping movement mechanism comprises a rotating disc; a rotating cylinder is fixedly sleeved on the outer circumference side of the rotating disc; the rotating disc is arranged on the mounting frame; the center of the rotating disc is connected with a rotating motor through a transmission shaft; a mounting plate is fixedly mounted on one side of the rotary cylinder; the bottom of the mounting plate is connected with a lifting connecting frame through an adjusting mechanism; a second clamping fixer is arranged on the side surface of the lifting connecting frame; the selective placement mechanism comprises a connecting frame and a first clamping fixer; the connecting frame comprises a first plate; a third hydraulic rod is arranged on the back of the first plate; the third hydraulic rod is connected with the mounting frame through a connecting plate; the bottom of the first plate is connected with the second plate through a second hydraulic rod; and a first clamping fixer is arranged on one side of the second plate.

As a further scheme of the invention: the first clamping fixer and the second clamping fixer both comprise arc-shaped clamping plates; anti-skid pads are arranged on the sides, close to each other, of the arc-shaped clamping plates; the bottom of the arc-shaped clamping plate is provided with a second guide sliding block; the second guide sliding block is connected with the limiting rail in a sliding manner; the limiting rail is arranged at the top of the adjusting box; the second guide sliding blocks are connected through buffer springs; the bottom of the second guide sliding block is fixedly connected with a threaded sleeve through a connecting rod; the threaded sleeve is connected with the threaded rod through threads; a fixed nut sleeve is fixedly arranged in the center of the threaded rod; the fixed nut sleeve is connected with the bearing seat through a rotary bearing; the fixed nut sleeve is sleeved with a driven wheel; the driven wheel is meshed with the driving wheel; the driving wheel is connected with the micro motor through a coupler; one side of the connecting rod is provided with a steel cable seat; the steel cable seat is connected with a steel cable; the steel cable is wound on the fixed pulley and is wound on a steel cable winding pipe connected with the fixed nut sleeve; the steel cable winding pipe is fixedly sleeved on the fixed nut sleeve.

As a further scheme of the invention: the adjustment mechanism comprises a sliding rail; the sliding rail is arranged at the bottom of the mounting plate; a threaded screw rod is arranged inside the sliding rail; the threaded lead screw is connected with the limiting sliding block through threads; the limiting sliding block is connected with the sliding rail in a sliding manner; one end of the threaded lead screw is connected with a second servo motor through a coupler.

Compared with the prior art, the invention has the beneficial effects that: placing the nursery garden on a placing table through an adjustable clamping moving mechanism for weighing, and detecting the growth condition and the growth height by an environment simulation detector; adjusting the position of the ultra-high-definition camera through the first threaded rod, shooting a photo of the nursery plant, and comparing the photo of the control comparison module with the photo of the nursery plant growth data module to determine whether the nursery plant is in a transplantable state; a specific environment is provided for the nursery plants through the arrangement of the illuminating lamps, the gas storage tank and the pipeline, the changes of the oxygen concentration and the carbon dioxide concentration within a certain time are detected under the conditions of the illumination intensity, the oxygen concentration and the carbon dioxide concentration, and then the changes are compared with the data in the photosynthesis and respiration intensity data module to determine the growth condition of the nursery plants; through the arrangement of the graduated scale and the weighing meter, the growth height and the growth quality are detected and compared with relevant data in the nursery plant growth data module; after the condition is not met, the adjustable clamping moving mechanism is placed at the original position; after the conditions are met, the nursery garden is placed on the transmission mechanism through the selective placement mechanism, and the transmission mechanism transmits the nursery garden to the designated position. In conclusion, the invention has the advantages of convenient use, accurate detection and high column dividing efficiency.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the environmental simulation detector according to the present invention.

Fig. 3 is a schematic view of the structure of the clamping fixture of the present invention.

Fig. 4 is a schematic structural view of the connecting frame of the present invention.

In the figure: 1-mounting frame, 2-PLC control panel, 3-top seat, 4-gas storage box, 5-environment simulation detector, 6-first hydraulic rod, 7-fixing plate, 8-placing table, 9-first clamping fixer, 10-connecting frame, 11-base, 12-rotary cylinder, 13-mounting plate, 14-adjusting mechanism, 15-lifting connecting frame, 16-second clamping fixer, 17-transmission mechanism, 18-illuminator, 19-first slide rail, 20-ultra-high definition camera, 21-graduated scale, 22-arc clamping plate, 23-second guide slide block, 24-buffer spring, 25-connecting rod, 26-threaded rod, 27-fixing nut sleeve, 28-steel cable, 29-first plate, 30-second hydraulic rod, 31-second plate.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

Example 1

Referring to fig. 1 to 4, in an embodiment of the present invention, a fast dividing device for a forestry nursery includes a base 11; the base 11 is provided with an installation frame 1; the mounting rack 1 is provided with a PLC control panel 2 and a fixing plate 7; a top seat 3 is arranged between the mounting frames 1; an environment simulation detection mechanism is arranged on the top seat 3; a placing table 8 is arranged on the fixing plate 7; a weighing meter is arranged on the placing table 8; an adjustable clamping moving mechanism and a selective placement mechanism are arranged on the mounting rack 1 corresponding to the nursery container; the base 11 is provided with a transmission mechanism 17; the transmission mechanism 17 is a conventional transmission belt roller mechanism; and a driving moving mechanism is arranged at the bottom of the base 11.

Further, the environment simulation detecting mechanism includes an environment simulation detector 5; the environment simulation detector 5 is communicated with the gas storage tank 4 through a pipeline; an oxygen tank and a carbon dioxide tank are arranged in the gas storage tank 4; the pipeline comprises an oxygen transmission pipeline and a carbon dioxide transmission pipeline; the oxygen transmission pipeline and the carbon dioxide transmission pipeline are both provided with electromagnetic valves; the top of the environment simulation detector 5 is connected with a left-right adjusting mechanism through a first hydraulic rod 6.

Further, the environment simulation detector 5 includes a housing; an illumination intensity sensor, an oxygen concentration sensor and a carbon dioxide concentration sensor are arranged in the cover body; a light 18 is arranged at the top end inside the cover body; a contrast detection mechanism is arranged on one side of the cover body; the contrast detection mechanism comprises a first slide rail 19; a first threaded rod is arranged inside the first slide rail 19; the first threaded rod is connected with the first guide sliding block through threads; an ultra-high-definition camera 20 is fixedly mounted on one side of the first guide slide block; the bottom end of the first threaded rod is connected with a micro servo motor through a coupler; a graduated scale 21 is arranged on the cover body; the ultra-high definition camera 20 is electrically connected with the PLC control panel 2; a PCB circuit board is arranged inside the PLC control panel 2; the PCB is provided with a nursery plant growth data module, a photosynthesis and respiration intensity data module and a control comparison module; adjusting the position of the ultra-high-definition camera 20 through the first threaded rod, shooting a photo of the nursery plant, and comparing the photo of the control comparison module with the photo of the nursery plant growth data module to determine whether the nursery plant is in a transplantable state; a specific environment is provided for the nursery plants through the arrangement of the illuminating lamp 18, the gas storage tank 4 and the pipeline, the changes of the oxygen concentration and the carbon dioxide concentration within a certain time under the conditions of the illumination intensity, the oxygen concentration and the carbon dioxide concentration are detected, and then the changes are compared with the data in the photosynthesis and respiration intensity data module to determine the growth condition of the nursery plants; through the arrangement of the graduated scale 21 and the weighing meter, the growth height and the growth quality are detected and compared with relevant data in the nursery plant growth data module.

Further, the left-right adjusting mechanism comprises a first rail; the first rail is arranged at the bottom of the top seat 3; a second threaded rod is arranged inside the first rail; the second threaded rod is connected with a first servo motor through a coupler; the second threaded rod is connected with a third guide sliding block through threads; the bottom of the third guide sliding block is fixedly connected with a first hydraulic rod 6.

Further, the adjustable clamp movement mechanism comprises a rotating disc; a rotating cylinder 12 is fixedly sleeved on the outer circumferential side of the rotating disc; the rotating disc is arranged on the mounting frame 1; the center of the rotating disc is connected with a rotating motor through a transmission shaft; a mounting plate 13 is fixedly mounted on one side of the rotary cylinder 12; the bottom of the mounting plate 13 is connected with a lifting connecting frame 15 through an adjusting mechanism 14; a second clamping fixer 16 is arranged on the side surface of the lifting connecting frame 15; the selective placement mechanism comprises a connecting frame 10 and a first clamping and fixing device 9; the connecting frame 10 comprises a number plate 29; a third hydraulic rod is arranged on the back of the first plate 29; the third hydraulic rod is connected with the mounting frame 1 through a connecting plate; the bottom of the first plate 29 is connected with a second plate 31 through a second hydraulic rod 30; a first clamping holder 9 is mounted on one side of the second plate 31.

Further, the first and

second clamping holders

9, 16 each comprise an arc-shaped clamping plate 22; anti-skid pads are arranged on the sides, close to each other, of the arc-shaped clamping plates 22; a second guide sliding block 23 is arranged at the bottom of the arc-shaped clamping plate 22; the second guide sliding block 23 is connected with a limit rail in a sliding manner; the limiting rail is arranged at the top of the adjusting box; the second guide sliding blocks 23 are connected through buffer springs 24; the bottom of the second guide sliding block 23 is fixedly connected with a threaded sleeve through a connecting rod 25; the threaded sleeve is connected with a threaded rod 26 through threads; a fixed nut sleeve 27 is fixedly arranged at the center of the threaded rod 26; the fixed nut sleeve 27 is connected with a bearing seat through a rotating bearing; a driven wheel is sleeved on the fixed nut sleeve 27; the driven wheel is meshed with the driving wheel; the driving wheel is connected with the micro motor through a coupler; one side of the connecting rod 25 is provided with a steel cable seat; the wire rope seat is connected with a wire rope 28; the steel cable 28 is wound on the fixed pulley and wound on a steel cable winding pipe connected with the fixed nut sleeve 27; the steel cable winding pipe is fixedly sleeved on the fixed nut sleeve 27; the driving wheel is driven by the micro motor to rotate, the driven wheel rotates, the threaded rod 26 rotates, the steel cable 28 is wound around the steel cable, the threaded sleeve drives the top seat 3 to slide, the distance between the arc-shaped clamping plates 22 is changed, and therefore the nursery container is conveniently clamped and fixed, and the nursery can be conveniently moved.

Example 2

Referring to fig. 1, the adjusting mechanism 14 includes a sliding rail; the sliding rail is arranged at the bottom of the mounting plate 13; a threaded screw rod is arranged inside the sliding rail; the threaded lead screw is connected with the limiting sliding block through threads; the limiting sliding block is connected with the sliding rail in a sliding manner; one end of the threaded lead screw is connected with a second servo motor through a coupler; the arrangement of the adjusting mechanism 14 facilitates the clamping of the second clamping fixture 16 to the nursery in different positions for detection.

The working principle of the invention is as follows: the nursery garden is placed on a placing table 8 through an adjustable clamping moving mechanism for weighing, and a growth condition and a growth height are detected by an environment simulation detector 5; adjusting the position of the ultra-high-definition camera 20 through the first threaded rod, shooting a photo of the nursery plant, and comparing the photo of the control comparison module with the photo of the nursery plant growth data module to determine whether the nursery plant is in a transplantable state; a specific environment is provided for the nursery plants through the arrangement of the illuminating lamp 18, the gas storage tank 4 and the pipeline, the changes of the oxygen concentration and the carbon dioxide concentration within a certain time under the conditions of the illumination intensity, the oxygen concentration and the carbon dioxide concentration are detected, and then the changes are compared with the data in the photosynthesis and respiration intensity data module to determine the growth condition of the nursery plants; through the arrangement of the graduated scale 21 and the weighing meter, the growth height and the growth quality are detected and compared with relevant data in the nursery plant growth data module; after the condition is not met, the adjustable clamping moving mechanism is placed at the original position; after the condition is satisfied, the nursery garden is placed on the transmission mechanism 17 through the selective placement mechanism, and the transmission mechanism 17 transmits the nursery garden to a designated position. In conclusion, the invention has the advantages of convenient use, accurate detection and high column dividing efficiency.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A forestry nursery fast fence separating device comprises a base (11); the device is characterized in that the base (11) is provided with an installation frame (1); a PLC control panel (2) and a fixing plate (7) are arranged on the mounting rack (1); a top seat (3) is arranged between the mounting frames (1); an environment simulation detection mechanism is arranged on the top seat (3); a placing table (8) is arranged on the fixing plate (7); a weighing meter is arranged on the placing table (8); an adjustable clamping moving mechanism and a selective placement mechanism are arranged on the mounting rack (1) corresponding to the nursery container; the base (11) is provided with a transmission mechanism (17); and a driving moving mechanism is arranged at the bottom of the base (11).

2. A forestry nursery quick-divide apparatus as claimed in claim 1, wherein the environment simulation detecting mechanism comprises an environment simulation detector (5); the environment simulation detector (5) is communicated with the gas storage tank (4) through a pipeline; an oxygen tank and a carbon dioxide tank are arranged in the gas storage tank (4); the pipeline comprises an oxygen transmission pipeline and a carbon dioxide transmission pipeline; the oxygen transmission pipeline and the carbon dioxide transmission pipeline are both provided with electromagnetic valves; the top of the environment simulation detector (5) is connected with a left-right adjusting mechanism through a first hydraulic rod (6).

3. A forestry nursery quick-divide apparatus as claimed in claim 2, wherein the environment simulation detector (5) comprises a housing; an illumination intensity sensor, an oxygen concentration sensor and a carbon dioxide concentration sensor are arranged in the cover body; a light (18) is arranged at the top end inside the cover body; a contrast detection mechanism is arranged on one side of the cover body; the contrast detection mechanism comprises a first slide rail (19); a first threaded rod is arranged inside the first sliding rail (19); the first threaded rod is connected with the first guide sliding block through threads; one side of the first guide sliding block is fixedly provided with an ultra-high-definition camera (20); the bottom end of the first threaded rod is connected with a micro servo motor through a coupler; a graduated scale (21) is arranged on the cover body; the ultra-high-definition camera (20) is electrically connected with the PLC control panel (2); a PCB circuit board is arranged inside the PLC control panel (2); the PCB is provided with a nursery plant growth data module, a photosynthesis and respiration intensity data module and a control comparison module.

4. A forestry nursery quick-divide apparatus as claimed in claim 2, wherein the left-right adjustment mechanism comprises a first rail; the first rail is arranged at the bottom of the top seat (3); a second threaded rod is arranged inside the first rail; the second threaded rod is connected with a first servo motor through a coupler; the second threaded rod is connected with a third guide sliding block through threads; the bottom of the third guide sliding block is fixedly connected with a first hydraulic rod (6).

5. A forestry nursery quick-divide apparatus as claimed in claim 1, wherein the adjustable clamp movement mechanism comprises a rotary disc; a rotary cylinder (12) is fixedly sleeved on the outer circumferential side of the rotary disc; the rotating disc is arranged on the mounting frame (1); the center of the rotating disc is connected with a rotating motor through a transmission shaft; a mounting plate (13) is fixedly mounted on one side of the rotary cylinder (12); the bottom of the mounting plate (13) is connected with a lifting connecting frame (15) through an adjusting mechanism (14); a second clamping fixer (16) is arranged on the side surface of the lifting connecting frame (15); the selective placement mechanism comprises a connecting frame (10) and a first clamping fixer (9); the connecting frame (10) comprises a number plate (29); a third hydraulic rod is arranged on the back of the first plate (29); the third hydraulic rod is connected with the mounting frame (1) through a connecting plate; the bottom of the first plate (29) is connected with a second plate (31) through a second hydraulic rod (30); and a first clamping fixer (9) is arranged on one side of the second plate (31).

6. A forestry nursery quick-divide apparatus as claimed in claim 5, wherein the first and second clamp holders (9, 16) each comprise an arc-shaped clamp plate (22); anti-skid pads are arranged on the sides, close to each other, of the arc-shaped clamping plates (22); a second guide sliding block (23) is arranged at the bottom of the arc-shaped clamping plate (22); the second guide sliding block (23) is connected with the limit rail in a sliding manner; the limiting rail is arranged at the top of the adjusting box; the second guide sliding blocks (23) are connected through buffer springs (24); the bottom of the second guide sliding block (23) is fixedly connected with a threaded sleeve through a connecting rod (25); the threaded sleeve is connected with a threaded rod (26) through threads; a fixed nut sleeve (27) is fixedly arranged at the center of the threaded rod (26); the fixed nut sleeve (27) is connected with the bearing seat through a rotating bearing; a driven wheel is sleeved on the fixed nut sleeve (27); the driven wheel is meshed with the driving wheel; the driving wheel is connected with the micro motor through a coupler; one side of the connecting rod (25) is provided with a steel cable seat; the steel cable seat is connected with a steel cable (28); the steel cable (28) is wound on the fixed pulley and wound on a steel cable winding pipe connected with the fixed nut sleeve (27); the steel cable winding pipe is fixedly sleeved on the fixed nut sleeve (27).

7. A forestry nursery quick-divide apparatus as claimed in claim 5, wherein the adjustment mechanism (14) comprises a sliding rail; the sliding rail is arranged at the bottom of the mounting plate (13); a threaded screw rod is arranged inside the sliding rail; the threaded lead screw is connected with the limiting sliding block through threads; the limiting sliding block is connected with the sliding rail in a sliding manner; one end of the threaded lead screw is connected with a second servo motor through a coupler.