CN112535084A

CN112535084A - Forestry transplanting device that grows seedlings

Info

Publication number: CN112535084A
Application number: CN202011457098.5A
Authority: CN
Inventors: 福升; 王云霓; 曹恭祥; 张南; 刘佳; 韩珊珊; 杨溢文; 张慧; 张海东
Original assignee: Management Center Of Forest Seedling Scientific Research And Education Demonstration Base In Inner Mongolia Autonomous Region
Current assignee: Management Center Of Forest Seedling Scientific Research And Education Demonstration Base In Inner Mongolia Autonomous Region
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-03-23
Anticipated expiration: 2040-12-10
Also published as: CN112535084B

Abstract

The invention discloses a seedling raising and transplanting device for forestry, which comprises a transplanting box, a base, rotating wheels, synchronous clamping assemblies and a transplanting tank, wherein the transplanting box is fixed on the base; a plurality of groups of transplanting tanks are arranged in the circumferential array in the transplanting box; the top space of each group of transplanting tanks is provided with a liquid supply tank fixed on the top wall in the transplanting box; one side of the transplanting tank close to the side wall of the transplanting box is provided with an adjusting claw fixed on the side wall of the transplanting box; a synchronous clamping assembly is also arranged at the middle position of the transplanting box; and according to the outer diameter of the transplanting tank, the distance between the transplanting tanks and the synchronous clamping assembly can be kept consistent by adjusting the length of the adjusting claw, so that the synchronous clamping of the synchronous clamping assembly is facilitated, the loading and unloading process of transplanting is reduced, and the adaptability of the device to the transplanting tanks is improved.

Description

Forestry transplanting device that grows seedlings

Technical Field

The invention relates to the technical field of seedling transplantation, in particular to a seedling transplantation device for forestry.

Background

The seedling raising means raising seedlings, the seedling raising is work with high labor intensity, time consumption and strong technical performance, and a special transplanting device is required to be used in the seedling raising and transplanting process.

In order to improve the stability of transplanting the process when transplanting device transplants growing seedlings, generally need to fix a section of thick bamboo of growing seedlings, and just need a lot of when the quantity of growing seedlings that needs transplant is more fix and dismantle a section of thick bamboo of growing seedlings, so reduced work efficiency repeatedly, be not convenient for when not of uniform size of a section of thick bamboo of growing seedlings simultaneously and fix fast.

Therefore, it is necessary to provide a seedling transplanting device for forestry to solve the above problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a seedling raising and transplanting device for forestry comprises a transplanting box, a base, rotating wheels, synchronous clamping assemblies and a transplanting tank, wherein the transplanting box is fixed on the base, the rotating wheels are arranged at four corner positions at the bottom of the base, and two opposite side surfaces of the transplanting box are also provided with vent holes;

a plurality of groups of transplanting tanks are arranged in the circumferential array in the transplanting box;

the top space of each group of transplanting tanks is provided with a liquid supply tank fixed on the top wall in the transplanting box;

one side of the transplanting tank close to the side wall of the transplanting box is provided with an adjusting claw fixed on the side wall of the transplanting box;

a synchronous clamping assembly is also arranged at the middle position of the transplanting box;

and according to the outer diameter of the transplanting tank, the length of the adjusting claw is adjusted to enable the distances between the transplanting tanks and the synchronous clamping assembly to be consistent.

Further, preferably, the transplanting tank comprises a tank body, a liquid receiving sealing cover and a transplanting net, wherein the transplanting net is used for bearing the tree seedlings, the opening of the transplanting net is locked at the opening of the tank body through the liquid receiving sealing cover, and the bottom of the transplanting net is in a suspended state;

the upper surface of the liquid receiving sealing cover is provided with an annular liquid receiving groove, and a plurality of groups of liquid guide holes inclined towards the transplanting net are formed in the liquid receiving groove in a circumferential array mode.

Preferably, a plurality of groups of liquid supply droppers which correspond to the liquid receiving tanks and are circumferentially arranged are fixed at the bottom of the liquid supply tank, and the circumference of the liquid supply droppers is coaxial with the transplanting tank.

Further, as preferred, the spacing groove has been seted up to the bottom of the jar body, the spacing inslot is embedded to have the breather pipe, the breather pipe is linked together with the screwed pipe, the screwed pipe screw is convoluteed the embedding in the inside of the jar body, and the end fixing intercommunication of screwed pipe has annular gas drainage hole seat, gas drainage hole seat is located the lower half of transplanting the net and vertical the placing.

Further, as preferred, the breather pipe is carried out the air feed by air feeder, air feeder includes miniature air pump and spacing gas holder, spacing gas holder is the L type, and the one end of its horizontal segment can be spacing to stretch into the spacing groove, and is linked together with the breather pipe, and its other end is carried out the air feed by miniature air pump, is fixed with the cushion on its vertical section.

Further, as preferred, the regulation claw includes the claw body, threaded rod and sleeve, wherein the sleeve level is fixed in on the lateral wall of transplanting box and towards the transplanting tank direction, threaded connection has the threaded rod in the sleeve, the other end of threaded rod is fixed with the V type claw body.

Further, as preferred, synchronous centre gripping subassembly includes footstock, guide holder, regulating arm, oblique side, mount pad and gripper jaw, wherein, the fixed embedding of footstock is at the top of transplanting the case, and its below is fixed with the guide holder, the bottom of guide holder is the oblique prism, and it has the oblique side the same with transplanting a jar quantity, every slide on the oblique side and be provided with the regulating arm, and when the regulating arm along oblique side downward slip, it still removes towards transplanting the jar, the below of regulating arm is fixed with the mount pad through locking bolt, detachable is fixed with V type gripper jaw in the mount pad.

Further, as preferred, it is a plurality of the removal action of regulating arm is driven by drive arrangement, drive arrangement includes base, screw rod, screw seat, linking arm and knob, wherein the below of oblique prism is fixed with the base, it is provided with the screw rod to rotate in the base, the screw rod upwards passes oblique prism, guide holder, footstock and knob and links to each other, just the screw rod still links to each other with the screw seat transmission, the screw seat is arranged in the cavity of seting up in oblique prism inside, and has seted up multiunit and the corresponding guide way of regulating arm around the cavity for the linking arm passes wherein, the one end of linking arm links to each other with the regulating arm, and its other end is connected to on the screw seat.

Further, preferably, the connecting arm is L-shaped, the horizontal section of the connecting arm is an expansion link, and when the screw rod rotates, the screw seat uses the inclined side surface and/or the guide groove as a screw seat rotation limitation.

Further, preferably, a temperature controller is arranged below the base.

Compared with the prior art, the invention provides a forestry seedling transplanting device, which has the following beneficial effects:

1. in the device, a plurality of groups of transplanting tanks are arranged on the inner circumference of the transplanting box, so that a plurality of groups of tree seedlings can be synchronously transplanted, the transplanting efficiency is improved, in addition, a liquid receiving sealing cover is arranged in the transplanting tanks, so that the convenience of fixing and taking the transplanting net is improved while the nutrient solution is fully supplied to the roots of the tree seedlings, and the transplanting net can be directly and synchronously transplanted during transplanting;

2. in the device, the adjusting claw is arranged, and the extending length of the adjusting claw is adjusted by rotating the threaded rod, so that the transplanting tank is pushed to slide on the limiting air seat, the distance between the transplanting tanks with different outer diameters and the synchronous clamping assembly is approximately the same, the synchronous clamping of the synchronous clamping assembly is facilitated, the loading and unloading process of transplanting is reduced, and the adaptability of the device to the transplanting tank is improved;

3. in this device to spacing gas holder restriction transplanting tank's axial displacement to the radial displacement of jar is transplanted in the restriction of regulation claw and synchronous centre gripping subassembly, can prevent to transplant the in-process, and the sapling produces to rock and emptys, has improved transplanting tank's stability.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic plan view of the present invention;

FIG. 3 is a schematic perspective view of the transplanting pot of the present invention;

FIG. 4 is a schematic plan view of the transplanting pot of the present invention;

FIG. 5 is a schematic view of the adjusting pawl according to the present invention;

FIG. 6 is a schematic view of the synchronous clamping assembly of the present invention;

in the figure: 1. transplanting boxes; 2. a base; 3. a rotating wheel; 4. a vent hole; 5. a synchronous clamping assembly; 6. a liquid supply tank; 7. a liquid supply dropper; 8. transplanting a pot; 9. an adjusting claw; 10. a micro air pump; 11. a limiting air seat; 12. an elastic pad; 81. a tank body; 82. liquid receiving and sealing; 83. a liquid receiving tank; 84. a drain hole; 85. transplanting a net; 86. a gas-dispersing hole seat; 87. a threaded pipe; 88. a limiting groove; 89. a breather pipe; 91. a claw body; 92. a threaded rod; 93. a sleeve; 51. a top seat; 52. a guide seat; 53. an adjusting arm; 54. a beveled side; 55. a mounting seat; 56. a gripper jaw; 57. locking the bolt; 58. a base; 59. a screw; 510. a nut seat; 511. a connecting arm; 513. a temperature controller; 514. a knob; 515. a guide groove.

Detailed Description

Referring to fig. 1 to 6, in an embodiment of the present invention, a seedling raising and transplanting device for forestry, includes a transplanting box 1, a base 2, rotating wheels 3, a synchronous clamping assembly 5 and a transplanting tank 8, wherein the transplanting box 1 is fixed on the base 2, the rotating wheels 3 are disposed at four corner positions at the bottom of the base 2, and two opposite side surfaces of the transplanting box 1 are further provided with ventilation holes 4;

a plurality of groups of transplanting tanks 8 are arranged in the transplanting box 1 in a circumferential array;

the top space of each group of transplanting tanks 8 is provided with a liquid supply tank 6 fixed on the inner top wall of the transplanting box 1;

an adjusting claw 9 fixed on the side wall of the transplanting box 1 is distributed on one side of the transplanting tank 8 close to the side wall of the transplanting box 1;

a synchronous clamping assembly 5 is also arranged in the middle of the transplanting box 1;

and according to the outer diameter of the transplanting tank 8, the distance between the transplanting tanks 8 and the synchronous clamping assembly 5 can be kept consistent by adjusting the length of the adjusting claw 9, so that synchronous clamping is realized through the synchronous clamping assembly 5, and subsequent transplanting is facilitated.

In this embodiment, as shown in fig. 3 and 4, the transplanting pot 8 includes a pot 81, a liquid receiving sealing cover 82 and a transplanting net 85, wherein the transplanting net 85 is used for bearing the tree seedling, the opening of the transplanting net 85 is locked at the opening of the pot 81 by the liquid receiving sealing cover 82, and the bottom of the transplanting net 85 is in a suspended state, so that the liquid receiving sealing cover and the pot can be directly separated when the tree seedling is transplanted subsequently, the liquid receiving sealing cover 82 can be clamped on the pot, and the transplanting net 85 is preferably made of a degradable material;

the upper surface of the liquid receiving sealing cover 82 is provided with an annular liquid receiving groove 83, a plurality of groups of liquid guide holes 84 inclined towards the transplanting net 85 are formed in the liquid receiving groove 83 in a circular array mode, the lower end of each liquid guide hole faces the middle bottom of the transplanting net 85, nutrient solution can permeate into soil inside the transplanting net 85 conveniently and uniformly, in addition, the bottom of the tank body 81 needs to be preset with a water body required by the tree seedling, and the root of the tree seedling penetrates through the transplanting net 85 and is immersed in the water body.

In this embodiment, a plurality of sets of liquid feeding droppers 7 corresponding to the liquid receiving tank 83 and arranged in a circle are fixed at the bottom of the liquid feeding tank 6, the circle is coaxial with the transplanting tank 8, and the dropping speed of the liquid feeding droppers 7 is controlled by a valve body.

As a preferred embodiment, a limiting groove 88 is formed in the bottom of the tank 81, a vent pipe 89 is embedded in the limiting groove 88, the vent pipe 89 is communicated with a threaded pipe 87, the threaded pipe 87 is spirally embedded in the tank 81, an annular gas-distributing hole seat 86 is fixedly communicated with the end of the threaded pipe 87, the gas-distributing hole seat 86 is located at the lower half part of the transplanting net 85 and is vertically placed, and it should be explained that the gas-distributing hole seat 86 is located above the water body and can be used for loosening soil in a blowing manner through the gas-distributing hole seat.

In this embodiment, breather pipe 89 is supplied air by gas supply unit, gas supply unit includes miniature air pump 10 and spacing gas holder 11, spacing gas holder 11 is the L type, and the one end of its horizontal segment can be spacing to stretch into spacing groove 88, and is linked together with breather pipe 89 to realize the location, its other end is supplied air by miniature air pump 10, is fixed with cushion 12 on its vertical section.

In this embodiment, as shown in fig. 5, the adjusting claw 9 includes a claw body 91, a threaded rod 92 and a sleeve 93, wherein the sleeve 93 is horizontally fixed on the side wall of the transplanting box 1 and faces the direction of the transplanting tank 8, the threaded rod 92 is connected to the sleeve 93 through a thread, the V-shaped claw body 91 is fixed at the other end of the threaded rod 92, and in specific implementation, the length of the extension is adjusted by rotating the threaded rod 92, so as to push the transplanting tank 8 to slide on the limiting air seat 11, so that the transplanting tanks 8 with different outer diameters are substantially the same as the distance between the synchronous clamping assemblies 5, and synchronous clamping of the synchronous clamping assemblies is facilitated.

In this embodiment, as shown in fig. 6, the synchronous clamping assembly 5 includes a top seat 51, a guide seat 52, an adjusting arm 53, an inclined side surface 54, a mounting seat 55 and a clamping claw 56, wherein the top seat 51 is fixedly embedded in the top of the transplanting box 1, the guide seat 52 is fixedly arranged below the top seat, the bottom of the guide seat 52 is a prism, and has the same number of inclined side surfaces 54 as the transplanting pots 8, each inclined side surface 54 is slidably provided with the adjusting arm 53, and when the adjusting arm 43 slides downwards along the inclined side surface 54, it also moves towards the transplanting pots 8, the mounting seat 55 is fixedly arranged below the adjusting arm 43 through a locking bolt 57, and the V-shaped clamping claw 56 is detachably fixed in the mounting seat 55.

In this embodiment, the moving actions of the plurality of adjusting arms 53 are driven by a driving device, the driving device includes a base 58, a screw 59, a nut seat 510, a connecting arm 511 and a knob 514, wherein the base 58 is fixed below the oblique prism, the screw 59 is rotatably disposed in the base 58, the screw 59 upwardly passes through the oblique prism, the guide seat 52 and the top seat 51 to be connected with the knob 514, the screw 59 is further connected with the nut seat 510 in a transmission manner, the nut seat 510 is located in a cavity formed inside the oblique prism, and a plurality of groups of guide grooves 515 corresponding to the adjusting arms 53 are formed around the cavity for the connecting arm 511 to pass through, one end of the connecting arm 511 is connected with the adjusting arm 53, and the other end of the connecting arm 511 is connected to the nut seat 510.

In a preferred embodiment, the connecting arm 511 is L-shaped, and the horizontal section thereof is a telescopic rod, and when the screw 59 rotates, the nut block 510 is limited in its rotation by the inclined side 54 and/or the guide groove 515, such as the inclined side 54, when the number of the inclined side surfaces 54 is small, the inner included angle between two adjacent groups of the inclined side surfaces 54 is small, and the adjusting arm 53 is not easy to rotate along the groups of the inclined side surfaces 54 of the oblique prism, so that the inclined side surfaces 54 can be used as the nut seats to limit the rotation, when the number of the inclined side surfaces 54 is large, the inner included angle between two adjacent groups of the inclined side surfaces 54 is large, the adjusting arm 53 is easy to rotate along the groups of the inclined side surfaces 54 of the inclined prism, so that the inclined side surfaces 54 can not be used as the nut seat to limit the rotation, in this case, the guide groove 515 may be used as a rotation restriction of the nut block, and when the guide groove 515 is used as a rotation restriction of the nut block, the notch of the guide groove 515 needs to be in contact with the connection arm.

In a preferred embodiment, a temperature controller 513 is disposed below the base 58.

When the transplanting net is specifically implemented, firstly, the tree seedlings to be transplanted are placed in the transplanting net 85, the tree roots penetrate through the transplanting net downwards, soil is added into the transplanting net later, the transplanting net is placed in the pot body 81 through the liquid receiving sealing cover 82, then the transplanting pot 8 is placed in the transplanting box 1, the limiting groove 88 slides along the limiting air seat 11, vertical positioning is achieved, the length of the extending part is adjusted by rotating the threaded rod 92, the transplanting pot 8 is pushed to slide on the limiting air seat 11, the distance between the transplanting pot 8 with different outer diameters and the synchronous clamping assembly 5 is approximately the same, synchronous clamping of the synchronous clamping assembly is facilitated, and finally, the transplanting box is moved to a transplanting position to be transplanted.

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 to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. A seedling raising and transplanting device for forestry comprises a transplanting box (1), a base (2), rotating wheels (3), a synchronous clamping assembly (5) and a transplanting tank (8), wherein the transplanting box (1) is fixed on the base (2), the rotating wheels (3) are arranged at four corner positions at the bottom of the base (2), and two opposite side surfaces of the transplanting box (1) are also provided with ventilation holes (4);

the method is characterized in that: a plurality of groups of transplanting tanks (8) are arranged in the transplanting box (1) in a circumferential array;

the top space of each group of transplanting tanks (8) is provided with a liquid supply tank (6) fixed on the inner top wall of the transplanting box (1);

an adjusting claw (9) fixed on the side wall of the transplanting box (1) is distributed on one side of the transplanting tank (8) close to the side wall of the transplanting box (1);

a synchronous clamping assembly (5) is also arranged in the middle of the transplanting box (1);

and the length of the adjusting claw (9) is adjusted according to the outer diameter of the transplanting tank (8), so that the distance between a plurality of transplanting tanks (8) and the synchronous clamping assembly (5) can be kept consistent.

2. A seedling transplanting device according to claim 1, characterized in that: the transplanting tank (8) comprises a tank body (81), a liquid receiving sealing cover (82) and a transplanting net (85), wherein the transplanting net (85) is used for bearing the tree seedlings, the opening of the transplanting net is locked at the opening of the tank body (81) through the liquid receiving sealing cover (82), and the bottom of the transplanting net (85) is in a suspended state;

the upper surface of the liquid receiving sealing cover (82) is provided with an annular liquid receiving groove (83), and a plurality of groups of liquid guide holes (84) inclined towards the transplanting net (85) are formed in the liquid receiving groove (83) in a circular array mode.

3. A seedling transplanting device according to claim 2, characterized in that: a plurality of groups of liquid supply droppers (7) which correspond to the liquid receiving tanks (83) and are arranged in a circle are fixed at the bottom of the liquid supply tank (6), and the circle is coaxial with the transplanting tank (8).

4. A seedling transplanting device according to claim 2, characterized in that: spacing groove (88) have been seted up to the bottom of the jar body (81), it has breather pipe (89) to embed in spacing groove (88), breather pipe (89) are linked together with screwed pipe (87), screwed pipe (87) screw thread is convoluteed and is embedded in the inside of the jar body (81), and the end fixing intercommunication of screwed pipe (87) has annular gas distribution hole seat (86), gas distribution hole seat (86) are located the lower half and the vertical placement of transplanting net (85).

5. A forestry seedling transplanting device according to claim 4, characterized in that: breather pipe (89) are carried out the air feed by air feeder, air feeder includes miniature air pump (10) and spacing gas holder (11), spacing gas holder (11) are the L type, and the one end of its horizontal segment can be spacing to stretch into spacing groove (88), and is linked together with breather pipe (89), and its other end is carried out the air feed by miniature air pump (10), is fixed with cushion (12) in its vertical section.

6. A seedling transplanting device according to claim 1, characterized in that: adjust claw (9) including the claw body (91), threaded rod (92) and sleeve (93), wherein sleeve (93) level is fixed in on the lateral wall of transplanting box (1) and towards transplanting jar (8) direction, threaded connection has threaded rod (92) in sleeve (93), the other end of threaded rod (92) is fixed with V type claw body (91).

7. A seedling transplanting device according to claim 1, characterized in that: synchronous centre gripping subassembly (5) are including footstock (51), guide holder (52), regulating arm (53), oblique side (54), mount pad (55) and gripper jaw (56), wherein, footstock (51) are fixed to be embedded in the top of transplanting case (1), and its below is fixed with guide holder (52), the bottom of guide holder (52) is the oblique prism, and it has oblique side (54) the same with transplanting tank (8) quantity, every it is provided with regulating arm (53) to slide on oblique side (54), and when regulating arm (43) slided down along oblique side (54), it still removes towards transplanting tank (8), the below of regulating arm (43) is fixed with mount pad (55) through locking bolt (57), detachable is fixed with V type gripper jaw (56) in mount pad (55).

8. A seedling transplanting device according to claim 7, characterized in that: the moving actions of the adjusting arms (53) are all driven by a driving device, the driving device comprises a base (58), a screw rod (59), a nut seat (510), a connecting arm (511) and a knob (514), wherein a base (58) is fixed below the oblique prism, a screw rod (59) is rotatably arranged in the base (58), the screw rod (59) upwards passes through the oblique prism, the guide seat (52) and the top seat (51) and is connected with the knob (514), the screw rod (59) is also in transmission connection with a nut seat (510), the nut seat (510) is positioned in a cavity formed in the oblique prism, and a plurality of groups of guide grooves (515) corresponding to the adjusting arms (53) are arranged around the cavity, the connecting arm (511) is used for being penetrated through, one end of the connecting arm (511) is connected with the adjusting arm (53), and the other end of the connecting arm is connected to the screw base (510).

9. A seedling transplanting device according to claim 8, characterized in that: the connecting arm (511) is L-shaped, the horizontal section of the connecting arm is an expansion link, and when the screw rod (59) rotates, the screw seat (510) takes the inclined side surface (54) and/or the guide groove (515) as the rotation limitation of the screw seat.

10. A seedling transplanting device according to claim 8, characterized in that: and a temperature controller (513) is arranged below the base (58).