CN110959338A - Plant is grown seedlings and is cultivated with getting hole device - Google Patents
Plant is grown seedlings and is cultivated with getting hole device Download PDFInfo
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- CN110959338A CN110959338A CN201911305174.8A CN201911305174A CN110959338A CN 110959338 A CN110959338 A CN 110959338A CN 201911305174 A CN201911305174 A CN 201911305174A CN 110959338 A CN110959338 A CN 110959338A
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- rotating state
- telescopic rotating
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01C—PLANTING; SOWING; FERTILISING
- A01C5/00—Making or covering furrows or holes for sowing, planting or manuring
- A01C5/04—Machines for making or covering holes for sowing or planting
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Abstract
The invention discloses a pit taking device for plant seedling cultivation, which comprises a main hollow shell. The invention can utilize the rotation function of the motor, the movement function of the thread structure and the gravity of the human body, can utilize the driving motor and the thread structure to automatically dig pits and arrange soil on the ground under the action of the self gravity of the human body, so that the working efficiency is improved, simultaneously, the quality of the dug pits is improved, the labor intensity is reduced, simultaneously, the device has the control performance, the maximum digging intensity of the device during digging is controlled, the protection capability of the components is improved, in addition, the device is provided with the spiral spring telescopic rotating component connecting and transmitting mechanism, can have the flexibility, has the transmitting function to the rotating state, in addition, the device is provided with the thread structure type rotating state converting mechanism, and can convert the rotating state into the kinetic energy of moving up and down, thereby realizing the telescopic digging work.
Description
Technical Field
The invention relates to the technical field of plant seedling culture, in particular to a pit taking device for plant seedling culture.
Background
At present, at plant cultivation of growing seedlings place, need get the hole with ground earlier, then plant the plant, current mode utilizes the spade to dig the hole, but because the difference in area for the work degree of difficulty is powerful, and wastes time and energy.
Disclosure of Invention
The invention aims to provide a pit taking device for plant seedling cultivation, which aims to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a pit taking device for plant seedling culture comprises a main hollow shell, wherein a holding rod structure of an integrated structure is arranged at the top of the main hollow shell, a main hollow structure is arranged in the main hollow shell, two pedals are arranged at the bottom of the side surface of the main hollow shell, a driving motor installation shell is installed at the top of the main hollow shell, a driving motor is installed in the driving motor installation shell, a motor main shaft in the driving motor penetrates through the center of the top of the main hollow shell and is installed between the penetration parts through a main bearing, a spiral spring telescopic rotating part is installed at the bottom end of the motor main shaft through a main connecting plate and is connected with a transmission mechanism, a top rotating plate is installed at the bottom of the transmission mechanism and is connected with the spiral spring telescopic rotating part, and a thread structural type rotating state conversion mechanism is installed at the center in the main hollow shell through the main, the thread structure type rotating state conversion mechanism is characterized in that a bottom rotating plate is installed at the top of the thread structure type rotating state conversion mechanism, a main hemispherical groove structure and an auxiliary hemispherical groove structure are respectively arranged at the edge positions of the bottom surface of the top rotating plate and the upper surface of the bottom rotating plate, balls are installed inside the main hemispherical groove structure and the auxiliary hemispherical groove structure, a bottom installing block is installed at the bottom of the thread structure type rotating state conversion mechanism, a hollow cutting piece is installed at the bottom of the bottom installing block, a tip structure is arranged at the bottom of the hollow cutting piece, two opposite moving groove structures are arranged on the side face of the hollow cutting piece, a moving groove inserting rod structure of two integrated structures is arranged on the inner side of the bottom of a main hollow shell, and a main limiting plate is installed in the hollow structure inside the hollow cutting piece through the.
Further, the coil spring telescopic rotary member connection transmission mechanism includes a hollow rod body for the telescopic rotary state transmission connection mechanism, a hollow structure for the telescopic rotary state transmission connection mechanism, a strip-shaped semicircular groove structure for the telescopic rotary state transmission connection mechanism, a moving plate for the telescopic rotary state transmission connection mechanism, a hemispheroid structure for the telescopic rotary state transmission connection mechanism, a connecting rod for the telescopic rotary state transmission connection mechanism, a first connecting plate for the telescopic rotary state transmission connection mechanism, a second connecting plate for the telescopic rotary state transmission connection mechanism, a first bolt hole for the telescopic rotary state transmission connection mechanism, a second connecting plate for the telescopic rotary state transmission connection mechanism, and a coil spring for the telescopic rotary state transmission connection mechanism.
Furthermore, the hollow rod body for the telescopic rotating state transmission connecting mechanism is internally provided with a telescopic rotating state transmission connecting mechanism hollow structure at the center, the side surface of the telescopic rotating state transmission connecting mechanism hollow structure is provided with a plurality of strip-shaped semicircular groove structures for the telescopic rotating state transmission connecting mechanism which are arranged in an annular array, a telescopic rotating state transmission connecting mechanism moving plate is placed in the telescopic rotating state transmission connecting mechanism hollow structure, the side surface of the telescopic rotating state transmission connecting mechanism moving plate is provided with a plurality of hemispheroid structures which are integrated with the telescopic rotating state transmission connecting mechanism moving plate, and each of the telescopic rotating state transmission connecting mechanism hemispheroid structures is correspondingly inserted into each strip-shaped semicircular groove structure for the telescopic rotating state transmission connecting mechanism, a telescopic connecting rod for rotation state transmission connecting mechanism is installed at the center of one end face of the movable plate for the telescopic rotation state transmission connecting mechanism, a compressed spiral spring for telescopic rotation state transmission connecting mechanism is installed at the center of the other end face of the movable plate for the telescopic rotation state transmission connecting mechanism, the rod body of the connecting rod for the telescopic rotation state transmission connecting mechanism penetrates through the center of one end of the hollow rod body for the telescopic rotation state transmission connecting mechanism, the first connecting plate for the telescopic rotation state transmission connecting mechanism and the second connecting plate for the telescopic rotation state transmission connecting mechanism are installed at the other end of the hollow rod body for the telescopic rotation state transmission connecting mechanism and the end of the connecting rod for the telescopic rotation state transmission connecting mechanism respectively, and a plurality of telescopic rotation state transmission connecting mechanisms are arranged inside the first connecting plate for the telescopic rotation state transmission connecting mechanism and the second connecting plate for the telescopic rotation state transmission connecting mechanism respectively A first bolt hole for a state transmission connection mechanism and a second connection plate for a telescopic rotation state transmission connection mechanism.
Further, the second connecting plate for the telescopic rotating state transmission connecting mechanism is attached to the upper surface of the top rotating plate by a bolt inserted into the second connecting plate for the telescopic rotating state transmission connecting mechanism.
Further, the first link plate for the telescopic rotating state transmitting link mechanism is attached to the bottom of the main link plate by a bolt inserted into the first bolt hole for the telescopic rotating state transmitting link mechanism.
Further, the screw-threaded structural rotation state conversion mechanism includes a hollow rod body for the screw-threaded structural rotation state conversion mechanism, an insertion hole for the screw-threaded structural rotation state conversion mechanism, a screw-threaded structure for the screw-threaded structural rotation state conversion mechanism, a threaded rod for the screw-threaded structural rotation state conversion mechanism, a first connection plate for the screw-threaded structural rotation state conversion mechanism, a second connection plate for the screw-threaded structural rotation state conversion mechanism, a first bolt hole for the screw-threaded structural rotation state conversion mechanism, and a second bolt hole for the screw-threaded structural rotation state conversion mechanism.
Further, the hollow rod body for the screw-threaded structural type rotation state conversion mechanism is provided with an insertion hole at the center inside thereof, the hollow rod body for the screw-threaded structural type rotation state conversion mechanism is connected with a threaded rod for the screw-threaded structural type rotation state conversion mechanism through a screw-threaded structure for the screw-threaded structural type rotation state conversion mechanism inside the insertion hole for the screw-threaded structural type rotation state conversion mechanism, a first connecting plate for the screw-threaded structural type rotation state conversion mechanism and a second connecting plate for the screw-threaded structural type rotation state conversion mechanism are respectively mounted at one end of the hollow rod body for the screw-threaded structural type rotation state conversion mechanism and one end of the threaded rod for the screw-threaded structural type rotation state conversion mechanism, and the first connecting plate for the screw-threaded structural type rotation state conversion mechanism and the second connecting plate for the screw-threaded structural type rotation state conversion mechanism are respectively provided inside thereof A bolt hole and a second bolt hole for a thread structure type rotation state conversion mechanism.
Furthermore, the thread structure for the thread structure type rotation state conversion mechanism comprises an internal thread structure arranged on the inner wall of the insertion hole for the thread structure type rotation state conversion mechanism and an external thread structure arranged on a threaded rod body for the thread structure type rotation state conversion mechanism.
Further, the screw-thread structural type rotation state conversion mechanism and the screw-thread structural type rotation state conversion mechanism are respectively arranged at the bottom of the bottom rotating plate and on the upper surface of the bottom mounting block through a first connecting plate and a second connecting plate.
Compared with the prior art, the invention has the beneficial effects that: the invention can utilize the rotation function of the motor, the movement function of the thread structure and the gravity of the human body, can utilize the driving motor and the thread structure to automatically dig pits and arrange soil on the ground under the action of the self gravity of the human body, so that the working efficiency is improved, simultaneously, the quality of the dug pits is improved, the labor intensity is reduced, simultaneously, the device has the control performance, the maximum digging intensity of the device during digging is controlled, the protection capability of the components is improved, in addition, the device is provided with the spiral spring telescopic rotating component connecting and transmitting mechanism, can have the flexibility, has the transmitting function to the rotating state, in addition, the device is provided with the thread structure type rotating state converting mechanism, and can convert the rotating state into the kinetic energy of moving up and down, thereby realizing the telescopic digging work.
Drawings
FIG. 1 is a schematic diagram of a full-section structure of a pit taking device for plant seedling cultivation according to the present invention;
FIG. 2 is a schematic structural diagram of a spiral spring telescopic rotating component connecting and transferring mechanism in the pit taking device for plant seedling cultivation according to the invention;
FIG. 3 is a schematic structural diagram of a thread structure type rotating state conversion mechanism in the pit taking device for plant seedling cultivation according to the present invention;
in the figure: 1, a main hollow housing, 2, a hand-held lever structure, 3, a main hollow structure, 4, a drive motor mounting housing, 5, a drive motor, 6, a motor spindle, 7, a main connecting plate, 8, a coil spring telescopic rotary member connection transmission mechanism, 81, a telescopic rotary state transmission connecting mechanism hollow rod body, 82, a telescopic rotary state transmission connecting mechanism hollow structure, 83, a telescopic rotary state transmission connecting mechanism strip semicircular groove structure, 84, a telescopic rotary state transmission connecting mechanism moving plate, 85, a telescopic rotary state transmission connecting mechanism hemispherical structure, 86, a telescopic rotary state transmission connecting mechanism connecting rod, 87, a telescopic rotary state transmission connecting mechanism first connecting plate, 88, a telescopic rotary state transmission connecting mechanism second connecting plate, 89, a telescopic rotary state transmission connecting mechanism first bolt hole, 810, a second connecting plate for a telescopic rotation state transmitting connecting mechanism, 811, a coil spring for a telescopic rotation state transmitting connecting mechanism, 9, a top rotating plate, 10, a main bearing, 11, a bottom mounting block, 12, a bottom rotating plate, 13, a main hemispherical recess structure, 14, a sub hemispherical recess structure, 15, a screw structure rotation state converting mechanism, 151, a hollow rod body for a screw structure rotation state converting mechanism, 152, an insertion hole, 153 for a screw structure rotation state converting mechanism, a screw structure for a screw structure rotation state converting mechanism, 154, a threaded rod, 155, a first connecting plate for a screw structure rotation state converting mechanism, 156, a second connecting plate for a screw structure rotation state converting mechanism, 157, a first bolt hole for a screw structure rotation state converting mechanism, 158, screw thread structural formula rotation state conversion mechanism is with second bolt hole, 16, ball, 17, hollow cutting piece, 18, remove recess structure, 19, remove recess insert rod structure, 20, main limiting plate, 21, point structure, 22, running-board.
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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the hand-held rod type electric hand-held power tool comprises a main hollow shell 1, wherein a hand-held rod structure 2 of an integrated structure is arranged at the top of the main hollow shell 1, a main hollow structure 3 is arranged in the main hollow shell 1, two foot pedals 22 are arranged at the bottom of the side surface of the main hollow shell 1, a driving motor installation shell 4 is arranged at the top of the main hollow shell 1, a driving motor 5 is arranged in the driving motor installation shell 4, a motor spindle 6 in the driving motor 5 penetrates through the center of the top of the main hollow shell 1 and is installed between the penetrating parts through a main bearing, a spiral spring telescopic rotating part connected with a transmission mechanism 8 is installed at the bottom end of the motor spindle 6 through a main connecting plate 7, a top rotating plate 9 is installed at the bottom of the spiral spring telescopic rotating part connected with the transmission mechanism 8, and a thread structure type rotating state conversion mechanism 15 is installed at the center, the top of the thread structural type rotating state conversion mechanism 15 is provided with a bottom rotating plate 12, the bottom surface of the top rotating plate 9 and the upper surface of the bottom rotating plate 12 are respectively provided with a main hemispherical groove structure 13 and an auxiliary hemispherical groove structure 14 at the edge parts, the primary and secondary hemispherical grooved structures 13 and 14 house a ball 16, the bottom of the thread structural type rotating state conversion mechanism 15 is provided with a bottom mounting block 11, the bottom of the bottom mounting block 11 is provided with a hollow cutting blade 17, the bottom of the hollow cutting blade 17 is provided with a tip structure 21, the side of the hollow cutting blade 17 is provided with two opposite moving groove structures 18, the inner side of the bottom of the main hollow shell 1 is provided with two movable groove inserting rod structures 19 in an integrated structure, and two main limiting plates 20 are arranged in the hollow structures inside the hollow cutting blades 17 of the movable groove inserting rod structures 19.
Referring to fig. 2, the coil spring telescopic rotating member connecting and transmitting mechanism 8 includes a hollow rod 81 for the telescopic rotating state transmitting and connecting mechanism, a hollow structure 82 for the telescopic rotating state transmitting and connecting mechanism, a strip-shaped semicircular groove structure 83 for the telescopic rotating state transmitting and connecting mechanism, a moving plate 84 for the telescopic rotating state transmitting and connecting mechanism, a hemisphere structure 85 for the telescopic rotating state transmitting and connecting mechanism, a connecting rod 86 for a telescopic rotation state transmission connecting mechanism, a first connecting plate 87 for a telescopic rotation state transmission connecting mechanism, a second connecting plate 88 for a telescopic rotation state transmission connecting mechanism, a first bolt hole 89 for a telescopic rotation state transmission connecting mechanism, a second connecting plate 810 for a telescopic rotation state transmission connecting mechanism, and a coil spring 811 for a telescopic rotation state transmission connecting mechanism; the telescopic rotating state transmission connecting mechanism is characterized in that a telescopic rotating state transmission connecting mechanism hollow structure 82 is arranged at the center inside a hollow rod body 81 for the telescopic rotating state transmission connecting mechanism, a plurality of strip-shaped semicircular groove structures 83 which are arranged in an annular array mode and used for the telescopic rotating state transmission connecting mechanism are arranged on the side face of the telescopic rotating state transmission connecting mechanism hollow structure 82, a telescopic rotating state transmission connecting mechanism moving plate 84 is arranged inside the telescopic rotating state transmission connecting mechanism hollow structure 82, a plurality of hemispherical structures 85 which are integrated with the telescopic rotating state transmission connecting mechanism moving plate 84 are arranged on the side face of the telescopic rotating state transmission connecting mechanism moving plate 84, and each telescopic rotating state transmission connecting mechanism hemispherical structure 85 is correspondingly inserted into each strip-shaped semicircular groove structure 83 for the telescopic rotating state transmission connecting mechanism Inside, a telescopic rotating state transmission connecting mechanism connecting rod 86 is installed at one end face center of the movable plate 84 for the telescopic rotating state transmission connecting mechanism, a compressed telescopic rotating state transmission connecting mechanism coil spring 811 is installed at the other end face center of the movable plate 84 for the telescopic rotating state transmission connecting mechanism, a rod body of the telescopic rotating state transmission connecting mechanism connecting rod 86 penetrates through one end center of the telescopic rotating state transmission connecting mechanism hollow rod body 81, a telescopic rotating state transmission connecting mechanism first connecting plate 87 and a telescopic rotating state transmission connecting mechanism second connecting plate 88 are installed at the other end of the telescopic rotating state transmission connecting mechanism hollow rod body 81 and the end of the telescopic rotating state transmission connecting mechanism connecting rod 86, respectively, and the telescopic rotating state transmission connecting mechanism first connecting plate 87 and the telescopic rotating state transmission connecting mechanism second connecting plate 88 are installed at the other end of the telescopic rotating state transmission connecting mechanism hollow rod body 81 and the end of the telescopic rotating state transmission connecting A plurality of first bolt holes 89 for a telescopic rotation state transmission connection mechanism and a second connection plate 810 for a telescopic rotation state transmission connection mechanism are respectively provided inside; the second connecting plate 88 for a telescopic rotating state transmission connecting mechanism is attached to the upper surface of the top rotating plate 9 by a bolt inserted into the second connecting plate 810 for a telescopic rotating state transmission connecting mechanism; the first connecting plate 87 for the telescopic rotating state transmission connecting mechanism is mounted on the bottom of the main connecting plate 7 by a bolt inserted into the first bolt hole 89 for the telescopic rotating state transmission connecting mechanism, and mainly functions as: can realize telescopic connection effect, simultaneously, can realize the transmission effect of rotation state again.
Referring to fig. 3, the screw-type rotation state converting mechanism 15 includes a hollow rod body 151 for a screw-type rotation state converting mechanism, an insertion hole 152 for a screw-type rotation state converting mechanism, a screw structure 153 for a screw-type rotation state converting mechanism, a threaded rod 154 for a screw-type rotation state converting mechanism, a first connecting plate 155 for a screw-type rotation state converting mechanism, a second connecting plate 156 for a screw-type rotation state converting mechanism, a first bolt hole 157 for a screw-type rotation state converting mechanism, and a second bolt hole 158 for a screw-type rotation state converting mechanism, the screw-type rotation state converting mechanism having the insertion hole 152 for a screw-type rotation state converting mechanism provided at the center of the inside of the hollow rod body 151, the hollow rod body 151 for a screw-type rotation state converting mechanism being positioned inside the insertion hole 152 for a screw-type rotation state converting mechanism through a screw structure The state conversion mechanism is connected with a threaded rod 154 for a threaded structural type rotation state conversion mechanism by a threaded structure 153, a first connecting plate 155 for a threaded structural type rotation state conversion mechanism and a second connecting plate 156 for a threaded structural type rotation state conversion mechanism are respectively installed at one end of the hollow rod body 151 for the threaded structural type rotation state conversion mechanism and one end of the threaded rod 154 for the threaded structural type rotation state conversion mechanism, and a first bolt hole 157 for a threaded structural type rotation state conversion mechanism and a second bolt hole 158 for a threaded structural type rotation state conversion mechanism are respectively arranged inside the first connecting plate 155 for the threaded structural type rotation state conversion mechanism and the second connecting plate 156 for the threaded structural type rotation state conversion mechanism; the thread structure 153 for the thread structure type rotation state conversion mechanism includes an internal thread structure provided on an inner wall of the insertion hole 152 for the thread structure type rotation state conversion mechanism and an external thread structure provided on a rod body of the threaded rod 154 for the thread structure type rotation state conversion mechanism; the first connecting plate 155 for the screw-threaded rotating state converting mechanism and the second connecting plate 156 for the screw-threaded rotating state converting mechanism are respectively installed at the bottom of the bottom rotating plate 12 and the upper surface of the bottom installation block 11, and mainly function as: after the connection, the movable connection device has mobility by utilizing a thread structure.
The specific use mode is as follows: in the work of the invention, a mobile power supply is used, the current output end of the power supply is connected with the current input end of a driving motor 5 through a lead, the driving motor 5 is opened, the driving motor 5 works, the thread structural type rotation state conversion mechanism 15 realizes the extension work under the linkage action of the components, simultaneously, a pedal plate 22 is placed on the ground, then a person steps on the upper surface of the pedal plate 22, when the hollow cutting piece 17 generates the cutting and digging effect on the ground during the work, when the distance resistance between an internal limiting plate 20 and a bottom mounting block 11 is larger than the elasticity of a spiral spring in a spiral spring telescopic rotating component connecting and transmitting mechanism 8, a ball 16 can be separated from a top hemispherical groove structure 13 and a bottom hemispherical groove structure 14, the top rotating plate 9 and a bottom rotating plate 12 generate relative rotation, the device can be pulled out, and then the driving motor 5 is enabled to, the screw thread structure type rotating state conversion mechanism 15 realizes shortening, and pushes out soil dug out from the inside, so that next bitter digging work can be carried out.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (9)
1. The utility model provides a plant is grown seedlings and is cultivated with getting hole device, includes main hollow shell (1), its characterized in that: the hand-held rod structure (2) with an integrated structure is arranged at the top of the main hollow shell (1), the main hollow structure (3) is arranged in the main hollow shell (1), two foot pedals (22) are installed at the bottom of the side surface of the main hollow shell (1), a driving motor installation shell (4) is installed at the top of the main hollow shell (1), a driving motor (5) is installed inside the driving motor installation shell (4), a motor spindle (6) in the driving motor (5) penetrates through the center of the top of the main hollow shell (1), the motor spindle and the driving motor are installed between the penetrating parts through main bearings, a spiral spring telescopic rotating part connected with the transmission mechanism (8) is installed at the bottom end of the motor spindle (6) through a main connecting plate (7), a top rotating plate (9) is installed at the bottom of the spiral spring telescopic rotating part connected with the transmission mechanism (8), the structure is characterized in that a thread structural type rotating state conversion mechanism (15) is arranged in the center of the interior of the main hollow shell (1) through a main bearing (10), a bottom rotating plate (12) is arranged at the top of the thread structural type rotating state conversion mechanism (15), a main hemispherical groove structure (13) and an auxiliary hemispherical groove structure (14) are respectively arranged at the edge positions of the bottom surface of the top rotating plate (9) and the upper surface of the bottom rotating plate (12), a ball (16) is arranged in the main hemispherical groove structure (13) and the auxiliary hemispherical groove structure (14), a bottom mounting block (11) is arranged at the bottom of the thread structural type rotating state conversion mechanism (15), a hollow cutting blade (17) is arranged at the bottom of the bottom mounting block (11), a tip structure (21) is arranged at the bottom of the hollow cutting blade (17), two opposite moving groove structures (18) are arranged on the side surface of the hollow cutting blade (17, main hollow shell (1) bottom inboard is provided with the removal recess of two integral type structures and inserts pole structure (19), two remove recess and insert pole structure (19) and be located a main limiting plate (20) of installation in the hollow structure of hollow cutting piece (17) inside.
2. The pit taking device for plant seedling cultivation according to claim 1, characterized in that: the spiral spring telescopic rotating part connecting and transmitting mechanism (8) comprises a hollow rod body (81) for a telescopic rotating state transmitting and connecting mechanism, a hollow structure (82) for a telescopic rotating state transmitting and connecting mechanism, a strip-shaped semicircular groove structure (83) for a telescopic rotating state transmitting and connecting mechanism, a moving plate (84) for a telescopic rotating state transmitting and connecting mechanism and a hemispheroid structure (85) for a telescopic rotating state transmitting and connecting mechanism, a connecting rod (86) for a telescopic rotating state transmission connecting mechanism, a first connecting plate (87) for a telescopic rotating state transmission connecting mechanism, a second connecting plate (88) for a telescopic rotating state transmission connecting mechanism, a first bolt hole (89) for a telescopic rotating state transmission connecting mechanism, a second connecting plate (810) for a telescopic rotating state transmission connecting mechanism and a coil spring (811) for a telescopic rotating state transmission connecting mechanism.
3. The pit taking device for plant seedling cultivation according to claim 2, characterized in that: the telescopic rotating state transmission connecting mechanism is characterized in that a hollow structure (82) for the telescopic rotating state transmission connecting mechanism is arranged at the center inside a hollow rod body (81) for the telescopic rotating state transmission connecting mechanism, the hollow rod body (81) for the telescopic rotating state transmission connecting mechanism is located on the side face of the hollow structure (82) for the telescopic rotating state transmission connecting mechanism, a strip-shaped semicircular groove structure (83) for the telescopic rotating state transmission connecting mechanism is arranged in a plurality of annular arrays, a movable plate (84) for the telescopic rotating state transmission connecting mechanism is placed inside the hollow structure (82) for the telescopic rotating state transmission connecting mechanism, a plurality of hemispherical structures (85) for the telescopic rotating state transmission connecting mechanism and an integrated structure of the hemispherical structures are arranged on the side face of the movable plate (84) for the telescopic rotating state transmission connecting mechanism, and each telescopic rotating state transmission connecting mechanism hemispherical structure (85) is correspondingly inserted into each telescopic rotating state transmission connecting mechanism A telescopic rotating state transmission connecting mechanism connecting rod (86) is arranged at the center of one end surface of a movable plate (84) for the telescopic rotating state transmission connecting mechanism, a compressed telescopic rotating state transmission connecting mechanism spiral spring (811) is arranged at the center of the other end surface of the movable plate (84) for the telescopic rotating state transmission connecting mechanism, the rod body of the telescopic rotating state transmission connecting mechanism connecting rod (86) penetrates through the center of one end of a telescopic rotating state transmission connecting mechanism hollow rod body (81), a telescopic rotating state transmission connecting mechanism first connecting plate (87) and a telescopic rotating state transmission connecting mechanism second connecting plate (88) are respectively arranged at the other end of the telescopic rotating state transmission connecting mechanism hollow rod body (81) and the end of the telescopic rotating state transmission connecting mechanism connecting rod (86), a plurality of first bolt holes (89) for the telescopic rotating state transmission connecting mechanism and a plurality of second connecting plates (810) for the telescopic rotating state transmission connecting mechanism are respectively arranged in the first connecting plate (87) for the telescopic rotating state transmission connecting mechanism and the second connecting plate (88) for the telescopic rotating state transmission connecting mechanism.
4. The pit taking device for plant seedling cultivation according to claim 3, characterized in that: the second connecting plate (88) for the telescopic rotating state transmitting/connecting mechanism is attached to the upper surface of the top rotating plate (9) by a bolt inserted into the second connecting plate (810) for the telescopic rotating state transmitting/connecting mechanism.
5. The pit taking device for plant seedling cultivation according to claim 3, characterized in that: the first connection plate (87) for the telescopic rotating state transmission connection mechanism is attached to the bottom of the main connection plate (7) by a bolt inserted into the first bolt hole (89) for the telescopic rotating state transmission connection mechanism.
6. The pit taking device for plant seedling cultivation according to claim 1, characterized in that: the screw-threaded-structure-type rotation state conversion mechanism (15) comprises a hollow rod body (151) for a screw-threaded-structure-type rotation state conversion mechanism, an insertion hole (152) for the screw-threaded-structure-type rotation state conversion mechanism, a threaded structure (153) for the screw-threaded-structure-type rotation state conversion mechanism, a threaded rod (154) for the screw-threaded-structure-type rotation state conversion mechanism, a first connecting plate (155) for the screw-threaded-structure-type rotation state conversion mechanism, a second connecting plate (156) for the screw-threaded-structure-type rotation state conversion mechanism, a first bolt hole (157) for the screw-threaded-structure-type rotation state conversion mechanism, and.
7. The pit taking device for plant seedling cultivation according to claim 5, characterized in that: the thread structure type rotating state conversion mechanism is characterized in that an insertion hole (152) for a thread structure type rotating state conversion mechanism is formed in the center of the inner portion of a hollow rod body (151) for the thread structure type rotating state conversion mechanism, the hollow rod body (151) for the thread structure type rotating state conversion mechanism is connected with a threaded rod (154) for the thread structure type rotating state conversion mechanism through a thread structure (153) for the thread structure type rotating state conversion mechanism in the insertion hole (152) for the thread structure type rotating state conversion mechanism, a first connecting plate (155) for the thread structure type rotating state conversion mechanism and a second connecting plate (156) for the thread structure type rotating state conversion mechanism are respectively installed at one end of the hollow rod body (151) for the thread structure type rotating state conversion mechanism and one end of the threaded rod (154) for the thread structure type rotating state conversion mechanism, and the first connecting plate (155) for the thread structure type rotating state conversion A first bolt hole (157) for a screw-type rotation state conversion mechanism and a second bolt hole (158) for a screw-type rotation state conversion mechanism are provided in the second connecting plate (156), respectively.
8. The pit taking device for plant seedling cultivation according to claim 7, characterized in that: the thread structure (153) for the thread structure type rotation state conversion mechanism comprises an internal thread structure arranged on the inner wall of the insertion hole (152) for the thread structure type rotation state conversion mechanism and an external thread structure arranged on the rod body of the threaded rod (154) for the thread structure type rotation state conversion mechanism.
9. The pit taking device for plant seedling cultivation according to claim 7, characterized in that: the first connecting plate (155) for the screw-thread structural type rotating state converting mechanism and the second connecting plate (156) for the screw-thread structural type rotating state converting mechanism are respectively arranged at the bottom of the bottom rotating plate (12) and on the upper surface of the bottom mounting block (11).
Priority Applications (1)
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CN201911305174.8A CN110959338A (en) | 2019-12-17 | 2019-12-17 | Plant is grown seedlings and is cultivated with getting hole device |
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CN201911305174.8A CN110959338A (en) | 2019-12-17 | 2019-12-17 | Plant is grown seedlings and is cultivated with getting hole device |
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CN201911305174.8A Withdrawn CN110959338A (en) | 2019-12-17 | 2019-12-17 | Plant is grown seedlings and is cultivated with getting hole device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111442057A (en) * | 2020-04-16 | 2020-07-24 | 谢绪碧 | Buffer type component mounting base for damping mechanism |
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Application publication date: 20200407 |