CN111869538A

CN111869538A - Electric transplanter

Info

Publication number: CN111869538A
Application number: CN202010835313.4A
Authority: CN
Inventors: 游登祥
Original assignee: Quanzhou Tongyi Product Design Co Ltd
Current assignee: Qingyang Yulin Machinery Manufacturing Co ltd
Priority date: 2020-08-19
Filing date: 2020-08-19
Publication date: 2020-11-03
Anticipated expiration: 2040-08-19
Also published as: CN111869538B

Abstract

The invention discloses an electric transplanter which structurally comprises a vibration mechanism, an oil storage port, a handle and a motor, wherein the vibration mechanism is fixedly embedded under the handle; vibration mechanism includes the fixed slot, first spring, the spiller, the transmission shaft, the outer terminal surface in the left side of spiller is installed to the fixed slot nestification, first spring inlays the left side of installing at the spiller, the right side of transmission shaft is located to the spiller, the laminating of the transmission shaft outside is wrapping up first spring, adjust through the position of the second fly leaf at both ends about changing, make the first angle of embedding not change, can effectively avoid equipment to change the angle of equipment front end embedding soil because of the vibration that produces in the course of the work, make equipment cause the rhizome to destroy to the plant easily.

Description

Electric transplanter

Technical Field

The invention belongs to the field of transplanting machines, and particularly relates to an electric transplanting machine.

Background

The electric transplanter is characterized in that a motor is connected to the tail end of a power shaft, a shovel blade arranged on the lower end face of the power shaft is driven by the power shaft, soil around a plant is shoveled by the shovel blade moving up and down, and then the plant roots are wrapped by a plastic packaging bag to be transported.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when the transplanter works on a hillside with a large inclination angle, the blade of the transplanter is designed to be flat in outer contour, so that the blade of the transplanter is easy to topple backwards due to the weight of the motor and the vibrator of the transplanter in the process of embedding the blade into soil by vibration, the blade of the transplanter is difficult to work stably, and the roots and stems of plants are easy to damage.

Therefore, it is necessary to provide an electric transplanter.

Disclosure of Invention

In order to solve the problems that when the transplanter works on a hillside with a large inclination angle by the aid of the technology, blades of the transplanter are easy to topple backwards due to the weight of an equipment motor and a vibrator in the process of embedding the blades into soil through vibration because the blades of the transplanter adopt a flat outer profile design, the blades of the equipment are difficult to work stably, and plant roots and stems are easy to damage.

The invention relates to an electric transplanter, which is achieved by the following specific technical means: the structure of the electric oil tank comprises a vibration mechanism, an oil storage port, a handle and a motor, wherein the vibration mechanism is fixedly embedded under the handle, the oil storage port is embedded and clamped on the left end face of the motor, the handle is welded on the right end face of the outer side of the motor, and the motor is positioned right above the vibration mechanism; the vibrating mechanism comprises a fixing groove, a first spring, a scraper knife and a transmission shaft, wherein the fixing groove is nested on the outer end face of the left side of the scraper knife, the first spring is fixedly embedded in the left side of the scraper knife, the scraper knife is arranged on the right side of the transmission shaft, and the first spring is wrapped on the outer side of the transmission shaft in a laminating mode.

Furthermore, the scraper knife comprises an eccentric wheel, a movable block, a balance mechanism, a movable plate, a rotating shaft and an adjusting mechanism, wherein the movable block is attached to the end face of the right side of the eccentric wheel, the movable block is fixedly embedded in the end face of the left side of the balance mechanism, the end face of the right side of the balance mechanism is attached to the adjusting mechanism through welding, the rotating shaft is connected to the end face of the right side of the movable plate in an embedded mode, the rotating shaft is movably mounted on the left side face of the lower end of the adjusting mechanism in an embedded mode, the adjusting mechanism is located on the right side of the eccentric wheel, the upper end of the movable plate is connected with.

Still further, guiding mechanism includes flexible piece, embedding head, second fly leaf, inlays the groove, the second fly leaf is being connected in the block is inlayed to the outside terminal surface of flexible piece, the block is inlayed to the embedding head and is installed the right side terminal surface at the second fly leaf, second fly leaf lower extreme left side is inlayed fixedly and is being connected and is inlaying the groove, it is located the left side below of flexible piece to inlay the groove, two-layer and right side terminal surface combination becomes the taper about the second fly leaf is equipped with.

Furthermore, the embedding head comprises a connecting block, an embedding block, a sliding groove and a pointed cone head, wherein the connecting block is symmetrically arranged at the upper end and the lower end of the embedding block, the embedding block is embedded and arranged at the inner side connecting end surface of the embedding head, the sliding groove is positioned at the left side of the pointed cone head, the pointed cone head is embedded and arranged at the right side end surface of the embedding head, and the inner end surface of the right side of the connecting block and the groove with the same diameter and radian as the inner end surface of the embedding head are formed.

Still further, the balance mechanism includes that the second inlays groove, conduction board, second spring, conduction pole, spliced pole, the spliced pole is being installed to the groove right side end face activity block is inlayed to the second, the conduction board inlays the solid left side terminal surface of installing at the conduction pole, the outside both ends at the conduction pole are installed to second spring symmetry, the spliced pole is inlayed to the conduction pole right side end face and is linked firmly, spliced pole 335 is located the right side of conduction board 332, the groove is inlayed to the second and is equipped with inside and outside two-layer and inlayer and is connected with the conduction pole.

Still further, the groove is inlayed to the second includes third spring, second pivot, loose axle, reference column, the inboard terminal surface at the reference column is installed to the block is inlayed to the third spring, the reference column is being connected to second pivot outside terminal surface activity block, the loose axle is inlayed and is installed the left side at the spliced pole, the upper and lower both ends at the loose axle are installed to the reference column symmetry, the mounting point and two of reference column are inlayed groove, loose axle and are formed triangle fixed relation.

Compared with the prior art, the invention has the following beneficial effects:

1. through mutually supporting of connecting block and sliding tray, can drive the connecting block through the second fly leaf and carry out the direction swing when the spiller loses balance, adjust through the position of the second fly leaf at both ends about changing, make the first angle of embedding not change, can effectively avoid equipment to change the angle of equipment front end embedding soil because of the vibration that produces in the course of the work, make equipment cause the destruction to the plant rhizome easily.

2. The elastic support of third spring offsets the inertial force of vibration when the groove is inlayed to the second and the land surface redirecting of spliced pole, makes the shaking force that the conduction board brought can not transversely change the angle of spliced pole, avoids equipment to conduct the land surface to soil because of the vibration at the in-process of excavation work, changes the angle of equipment embedding soil.

Drawings

Fig. 1 is a schematic view of the overall structure of an electric transplanter according to the present invention.

Fig. 2 is a schematic structural diagram of a vibration mechanism of the electric transplanter.

Fig. 3 is a schematic structural view of an electric transplanting machine shovel blade according to the present invention.

Fig. 4 is a schematic structural diagram of an adjusting mechanism of an electric transplanter according to the present invention.

Fig. 5 is a schematic structural view of an embedding head of the electric transplanter.

Fig. 6 is a schematic structural diagram of a balancing mechanism of an electric transplanter according to the present invention.

Fig. 7 is a schematic structural view of a second mosaic slot of an electric transplanter in accordance with the present invention.

In the figure: the device comprises a vibration mechanism-1, an oil storage port-2, a handle-3, a motor-4, a fixed groove-11, a first spring-12, a scraper-13, a transmission shaft-14, an eccentric wheel-131, a movable block-132, a balance mechanism-133, a movable plate-134, a rotating shaft-135, an adjusting mechanism-136, a flexible block-61, an embedding head-62, a second movable plate-63, an embedding groove-64, a connecting block-621, an embedding block-622, a sliding groove-623, a pointed cone head-624, a second embedding groove-331, a conducting plate-332, a second spring-333, a conducting rod-334, a connecting column-335, a third spring-311, a second rotating shaft-312 and a movable shaft-313.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides an electric transplanter which structurally comprises a vibration mechanism 1, an oil storage port 2, a handle 3 and a motor 4, wherein the vibration mechanism 1 is fixedly embedded under the handle 3, the oil storage port 2 is embedded and clamped on the left end face of the motor 4, the handle 3 is welded on the right end face of the outer side of the motor 4, and the motor 4 is positioned right above the vibration mechanism 1; vibration mechanism 1 includes fixed slot 11, first spring 12, spiller 13, transmission shaft 14, the outer terminal surface in the left side of spiller 13 is installed to fixed slot 11 nestification, first spring 12 is embedded and is installed the left side at spiller 13, the right side of transmission shaft 14 is located to spiller 13, first spring 12 is being wrapped up in the laminating in the 14 outside of transmission shaft.

The cutting blade 13 includes an eccentric wheel 131, a movable block 132, a balance mechanism 133, a movable plate 134, a rotating shaft 135, and an adjusting mechanism 136, the right end face of the eccentric wheel 131 is connected to the movable block 132 in a fitting manner, the movable block 132 is fixedly mounted on the left end face of the balance mechanism 133 in an embedded manner, the right end face of the balance mechanism 133 is connected to the adjusting mechanism 136 in a welding manner, the right end face of the movable plate 134 is connected to the rotating shaft 135 in an embedded manner, the rotating shaft 135 is movably mounted on the left side face of the lower end of the adjusting mechanism 136 in a snap-fit manner, the adjusting mechanism 136 is located on the right side of the eccentric wheel 131, the upper end of the movable plate 134 is connected to the adjusting mechanism 126 through an elastic strip, the two end faces are kept parallel, and the balance of the device.

Wherein, guiding mechanism 136 includes flexible piece 61, embedding head 62, second fly leaf 63, inlays groove 64, the block is inlayed to the outside terminal surface of flexible piece 61 and is being connected second fly leaf 63, the right side terminal surface at second fly leaf 63 is installed to the embedding head 62 inlaying block, second fly leaf 63 lower extreme left side is inlayed and is being connected and is inlaying groove 64, it is located the left side below of flexible piece 61 to inlay groove 64, second fly leaf 63 is equipped with upper and lower two-layer and right side terminal surface and makes up into the taper, still can make the front end of spiller 13 keep relative pressure and balance in the vibration through constantly.

The embedding head 62 comprises a connecting block 621, an embedding block 622, a sliding groove 623 and a pointed cone head 624, wherein the connecting block 621 is symmetrically arranged at the upper end and the lower end of the embedding block 622, the embedding block 622 is embedded in the inner side connecting end surface of the embedding head 62, the sliding groove 623 is positioned on the left side of the pointed cone head 624, the pointed cone head 624 is embedded in the right side end surface of the embedding head 62, the right inner end surface of the connecting block 621 and the inner side end surface of the embedding head 62 are provided with grooves with the same diameter and radian, and the embedding block 622 can be driven to continuously slide in the sliding groove 623 to adjust the position in the vibration process of the second movable plate 63.

The specific use mode and function of the embodiment are as follows:

in the invention, the motor 4 drives the transmission shaft 14 in the vibration mechanism 1 to work, and when the eccentric wheel 131 arranged at the tail end of the transmission shaft rotates, the adjusting mechanism 136 at the right side of the balancing mechanism 133 is driven to fluctuate and vibrate by the state that the convex end at the outer side of the eccentric wheel 131 is attached to the movable block 132, and then is embedded into soil through the pointed cone head 624 arranged at the front end of the adjusting mechanism 136, the vibration force provided by the eccentric wheel 131 makes the eccentric wheel continuously go deep into the soil to separate the soil around the plants, when the soil is embedded, since the movable plate 134 is parallel to the adjusting mechanism 136, and by the cooperation of the connecting block 621 and the sliding groove 623, when the scraper knife 13 is out of balance, the connecting block 621 can be driven by the second movable plate 63 to swing in direction, but the embedding direction of the pointed conical head 624 is not changed, so that the vibration of the equipment can be effectively ensured not to change the initial embedding direction to damage the roots and stems of the plants in the soil splitting process.

Example 2:

as shown in fig. 6 to 7: balance mechanism 133 includes that the second inlays groove 331, conduction board 332, second spring 333, conduction pole 334, spliced pole 335, the spliced pole 335 is being installed to the second inlays groove 331 right side terminal surface activity block, conduction board 332 inlays the left side terminal surface of installing at conduction pole 334, the outside both ends at conduction pole 334 are installed to second spring 333 symmetry, conduction pole 334 right side terminal surface is inlayed and is linked firmly spliced pole 335, spliced pole 335 is located the right side of conduction board 332, the groove 331 is inlayed to the second and is equipped with inside and outside two-layer and inlayer and is connected with conduction pole 334, can transmit the sense of earthquake to spliced pole 335 through conduction pole 334 through conduction board 332.

The second embedding groove 331 comprises a third spring 311, a second rotating shaft 312, a movable shaft 313 and a positioning column 314, the third spring 311 is embedded and clamped on the inner side end face of the positioning column 314, the outer side end face of the second rotating shaft 312 is movably clamped and connected with the positioning column 314, the movable shaft 313 is embedded and installed on the left side of the connecting column 335, the positioning column 314 is symmetrically installed at the upper end and the lower end of the movable shaft 313, the installation point of the positioning column 314 and the two embedding grooves 331 and the movable shaft 313 form a triangular fixed relation, and when the left side of the movable shaft 313 is pushed by force, the force can be transmitted to the lower side through the positioning position 324.

The specific use mode and function of the embodiment are as follows:

in the invention, when the conduction plate 332 is stressed to push the conduction rod 334 inwards, the conduction rod 334 can drive the second embedding groove 331 to push the movable shaft 313 to the right side, the force is transmitted to the lower part of the positioning column 314 while the movable shaft 313 is pushed through the triangular relation formed by the movable shaft 313, the positioning column 314 and the connecting column 335, so that the actual angle of the tail end of the connecting column 335 is unchanged, the vibration inertia force is counteracted while the direction of the connecting end surface of the second embedding groove 331 and the connecting column 335 is changed through the elastic force of the third spring 311, the vibration force brought by the conduction plate 332 cannot transversely change the angle of the connecting column 335, and the problems that the vibration is transmitted to the connecting end surface of soil in the excavation process of equipment and the angle of the equipment embedded into the soil is changed can be solved.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. An electric transplanter structurally comprises a vibration mechanism (1), an oil storage port (2), a handle (3) and a motor (4), wherein the vibration mechanism (1) is fixedly embedded under the handle (3), the oil storage port (2) is embedded and clamped on the left end face of the motor (4), the handle (3) is welded on the right end face of the outer side of the motor (4), and the motor (4) is positioned right above the vibration mechanism (1); the method is characterized in that:

vibration mechanism (1) is including fixed slot (11), first spring (12), spiller (13), transmission shaft (14), the outer terminal surface in the left side of spiller (13) is installed in fixed slot (11) nestification, first spring (12) are embedded and are installed in the left side of spiller (13), the right side of transmission shaft (14) is located to spiller (13), transmission shaft (14) outside laminating is wrapping up first spring (12).

2. The electric transplanter according to claim 1, wherein the scraper knife (13) comprises an eccentric wheel (131), a movable block (132), a balance mechanism (133), a movable plate (134), a rotating shaft (135), and an adjusting mechanism (136), the right end face of the eccentric wheel (131) is connected to the movable block (132) in a fitting manner, the movable block (132) is fixedly mounted on the left end face of the balance mechanism (133), the right end face of the balance mechanism (133) is connected to the adjusting mechanism (136) by welding, the right end face of the movable plate (134) is connected to the rotating shaft (135) in a fitting manner, the rotating shaft (135) is movably mounted on the left side face of the lower end of the adjusting mechanism (136), and the adjusting mechanism (136) is located on the right side of the eccentric wheel (131).

3. An electric transplanter according to claim 2, wherein the adjusting mechanism (136) comprises a flexible block (61), an embedding head (62), a second movable plate (63) and an embedding slot (64), the outer side end face of the flexible block (61) is embedded and clamped with the second movable plate (63), the embedding head (62) is embedded and clamped with the right side end face of the second movable plate (63), the lower end left side of the second movable plate (63) is embedded and clamped with the embedding slot (64), and the embedding slot (64) is located below the left side of the flexible block (61).

4. The electric transplanting machine of claim 3, wherein the embedding head (62) comprises a connecting block (621), an embedding block (622), a sliding groove (623) and a pointed cone head (624), the connecting block (621) is symmetrically arranged at the upper end and the lower end of the embedding block (622), the embedding block (622) is embedded and arranged at the inner connecting end face of the embedding head (62), the sliding groove (623) is positioned at the left side of the pointed cone head (624), and the pointed cone head (624) is embedded and arranged at the right end face of the embedding head (62).