CN216775446U - Perforating device that in-process used is transplanted to crops - Google Patents

Abstract

The utility model discloses a perforating device used in a crop transplanting process, belongs to the technical field of seedling transplanting, aims to solve the problems that in the existing crop transplanting process, hole planting soil is processed in a manual digging mode, the processing mode is time-consuming and labor-consuming, and affects the efficiency of the transplanting work, the utility model provides the perforating device used in the transplanting process of crops, the punching device comprises a supporting component, a longitudinal feeding component, a drilling component and a storage battery, wherein the longitudinal feeding component is arranged on the front side of the supporting component, the longitudinal feeding component is fixedly connected with the supporting component, the storage battery is arranged at the rear side of the supporting component, and the storage battery is fixedly connected with the supporting assembly, the drilling assembly is arranged on the longitudinal feeding assembly and is fixedly connected with the longitudinal feeding assembly, and the storage battery is connected with a power source of the longitudinal feeding assembly and a power source of the drilling assembly through a lead.

Description

Perforating device that in-process used is transplanted to crops

Technical Field

The utility model belongs to the technical field of seedling transplanting, and particularly relates to a punching device used in a crop transplanting process.

Background

The transplanting of crops is a common phenomenon in the planting process of crops, the survival rate of crops can be greatly increased after the seedlings of the crops are firstly subjected to nutrient cultivation and then transplanted into hole-planting soil, the yield of the crops in an area is ensured, the roots of the seedlings after cultivation grow to a certain scale during transplanting, the seedlings are transplanted with soil during the transplanting process, so that certain requirements are met for the transplanted holes, the outline of the inner cavity of each hole is matched with the outline of the root wrapped with the soil as much as possible, the seedlings and the inner cavity of the hole are usually placed in flowerpots or containers similar to flowerpots during cultivation, the outline of the root wrapped with the soil is similar to that of the container used for cultivation in a fixed mode, the manual digging is carried out during the existing hole-planting treatment, the outline of the hole is repaired by using a simple shovel back, the treatment mode is time-consuming and labor-consuming, the efficiency of work of transplanting has greatly been influenced, consequently, it is very accordant with actual need to solve above-mentioned problem to research and develop a perforating device that crops transplanting in-process used.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the hole planting soil is treated in the existing crop transplanting process in a manual digging mode, the treatment mode is time-consuming and labor-consuming, and the efficiency of transplanting work is greatly influenced, and further provides a punching device used in the crop transplanting process;

a punching device used in a crop transplanting process comprises a supporting assembly, a longitudinal feeding assembly, a drilling assembly and a storage battery, wherein the longitudinal feeding assembly is arranged on the front side of the supporting assembly and fixedly connected with the supporting assembly;

further: the supporting assembly comprises two supporting units and a supporting plate, the two supporting units are symmetrically arranged on two sides of the supporting plate along the central line of the width direction of the supporting plate, each supporting unit is fixedly connected with one side of the supporting plate, the longitudinal feeding assembly is arranged on the front side of the supporting plate and is fixedly connected with the supporting plate, the storage battery is arranged on the rear side of the supporting plate, and the storage battery is fixedly connected with the supporting plate;

further: the supporting unit comprises a supporting rod, a handle, a universal wheel and an auxiliary supporting rod, the supporting rod is arranged on one side of the supporting plate, the outer circular surface of the supporting rod is fixedly connected with one side of the supporting plate, the handle is arranged at the top end of the supporting rod and fixedly connected with the supporting rod, the universal wheel is arranged at the bottom end of the supporting rod, a connecting part in the universal wheel is fixedly connected with the supporting rod, the auxiliary supporting rod is arranged on the front side of the supporting rod, and the auxiliary supporting rod is fixedly connected with the supporting rod;

further: the auxiliary supporting rod is an L-shaped rod, one end of the L-shaped rod is fixedly connected with the front side of the supporting rod, and the other end of the L-shaped rod faces the ground;

further, the method comprises the following steps: the other end of the L-shaped rod is arranged in a conical shape;

further: the longitudinal feeding assembly comprises a motor mounting seat, a motor, a lead screw, two feed bars and a sliding block; the first motor mounting seat is arranged at the center of the top of the supporting plate and is fixedly connected with the supporting plate, the motor mounting groove in the first motor mounting seat is arranged towards the front of the supporting plate, the first motor is arranged on the first motor mounting seat, and the output shaft of the first motor is arranged towards the ground, the screw rod is arranged under the first motor along the vertical direction, and the screw rod is arranged on the supporting plate through two bearing seats with bearings, one end of the screw rod is connected with the output shaft of the motor of the first motor through a coupling, the two feed rods are oppositely arranged at the two sides of the screw rod along the vertical direction, each feed rod is fixedly connected with the supporting plate through two fixing blocks, the sliding block is arranged on the screw rod and the two feed rods, the sliding block can reciprocate along the length direction of the lead screw, and the power input end of the first motor is connected with the storage battery through a lead;

further: the drilling assembly comprises a fixing plate, a second motor mounting seat, a second motor, a connecting shaft and a rotary blade, wherein the fixing plate is arranged on the front side of the supporting plate, the back side of the fixing plate is fixedly connected with a sliding block of the longitudinal feeding assembly, the second motor mounting seat is arranged on the front side of the fixing plate and is fixedly connected with the fixing plate, a second motor mounting groove in the second motor mounting seat is arranged towards the front of the supporting plate, the second motor is arranged in the second motor mounting seat, a motor output shaft in the second motor is arranged towards the ground, the connecting shaft is arranged right below the second motor, one end of the connecting shaft is connected with a motor output shaft of the second motor through a coupler, the rotary blade is arranged on the outer circular surface of the other end of the connecting shaft, and the power input end of the second motor is connected with a storage battery through a wire;

further: the two handles are respectively provided with a control switch, one control switch is connected in series with a lead for connecting the first motor with the storage battery, and the other control switch is connected in series with a lead for connecting the second motor with the storage battery;

compared with the prior art, the utility model has the following beneficial effects:

1. according to the punching device used in the crop transplanting process, the motor drives the rotary blade to longitudinally feed, so that punching action is realized, the traditional manual hole digging and planting mode is replaced by an automatic mechanical punching mode, the hole planting treatment efficiency is greatly improved, and meanwhile, the work load of workers is reduced.

2. According to the punching device used in the crop transplanting process, the auxiliary supporting rod and the supporting rod are matched, so that the stability of the device in working is guaranteed, the rotary blade at the end part of the connecting shaft can be replaced according to the sizes of the profile surfaces of different plant roots, so that planting holes of various sizes can be machined, the universality of the device is improved, the mobility of the device is improved through the universal wheel at the bottom of the supporting rod, and the device is more convenient to move.

3. The punching device used in the crop transplanting process is low in cost, convenient to install and good in economical efficiency.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a side view of the present invention;

in the figure, a supporting rod 1, a handle 2, a universal wheel 3, an auxiliary supporting rod 4, a supporting plate 5, a motor mounting seat 6, a motor 7, a screw 8, a polishing rod 9, a fixing plate 10, a motor mounting seat 11, a motor 12, a motor 13, a connecting shaft 14, a rotary blade 15 and a power supply 15 are arranged.

Detailed Description

The first embodiment is as follows: the embodiment is described with reference to fig. 1 to 2, and provides a punching device used in a crop transplanting process, the punching device comprises a supporting assembly, a longitudinal feeding assembly, a drilling assembly and a storage battery 15, the longitudinal feeding assembly is arranged on the front side of the supporting assembly, the longitudinal feeding assembly is fixedly connected with the supporting assembly, the storage battery 15 is arranged on the rear side of the supporting assembly, the storage battery 15 is fixedly connected with the supporting assembly, the drilling assembly is arranged on the longitudinal feeding assembly, the drilling assembly is fixedly connected with the longitudinal feeding assembly, and the storage battery 15 is connected with a power source of the longitudinal feeding assembly and a power source of the drilling assembly through a lead.

The perforating device that in-process used is transplanted to crops that this embodiment provided drives the drilling subassembly through vertical feeding subassembly and carries out longitudinal movement and has realized the action of punching, adopts automatic mechanization's the mode of punching to replace traditional artifical excavation to plant the cave, very big improvement plant the cave treatment effeciency, also alleviateed worker work load simultaneously.

The second embodiment is as follows: the present embodiment is described with reference to fig. 1 and 2, and is further limited to the support assembly described in the first embodiment, in the present embodiment, the support assembly includes two support units and a support plate 5, the two support units are symmetrically disposed on both sides of the support plate 5 along a central line of a width direction of the support plate 5, and each support unit is fixedly connected to one side of the support plate 5, the longitudinal feeding assembly is disposed on a front side of the support plate 5, and the longitudinal feeding assembly is fixedly connected to the support plate 5, the storage battery 15 is disposed on a rear side of the support plate 5, and the storage battery 15 is fixedly connected to the support plate 5. Other components and connection modes are the same as those of the first embodiment.

The third concrete implementation mode: the present embodiment is described with reference to fig. 1 to 2, and is further limited to the support unit according to the first embodiment, in the present embodiment, the support unit includes a support rod 1, a handle 2, a universal wheel 3 and an auxiliary support rod 4, the support rod 1 is disposed on one side of a support plate 5, an outer circumferential surface of the support rod 1 is fixedly connected to one side of the support plate 5, the handle 2 is disposed on a top end of the support rod 1, the handle 2 is fixedly connected to the support rod 1, the universal wheel 3 is disposed on a bottom end of the support rod 1, a connecting portion of the universal wheel 3 is fixedly connected to the support rod 1, the auxiliary support rod 4 is disposed on a front side of the support rod 1, and the auxiliary support rod 4 is fixedly connected to the support rod 1. Other components and connection modes are the same as those of the first embodiment.

In this embodiment, bracing piece 1 is used as main bearing structure, and handle 2 and universal wheel 3 cooperation are convenient for remove the device, and supplementary branch 4 plays the effect of auxiliary stay, makes the device more stable at the during operation.

The fourth concrete implementation mode: the present embodiment is described with reference to fig. 1 to 2, and the present embodiment further defines the auxiliary pole 4 according to the first embodiment, in which the auxiliary pole 4 is an L-shaped pole, one end of the L-shaped pole is fixedly connected to the front side of the support pole 1, and the other end of the L-shaped pole is disposed toward the ground. Other components and connection modes are the same as those of the first embodiment.

So set up, auxiliary strut 4 is L type pole and the cooperation of bracing piece 1, makes this device form four supporting legss at the during operation, very big improvement stability in the course of the work.

The fifth concrete implementation mode: the present embodiment will be described with reference to fig. 1 to 2, and the present embodiment further defines the L-shaped rod according to the fourth embodiment, and in the present embodiment, the other end of the L-shaped rod is provided in a tapered shape. Other components and connection modes are the same as those of the first embodiment.

So set up, the other end of the auxiliary strut 4 of being convenient for can prick into in soil, pinpoints the operating position of device.

The sixth specific implementation mode: the present embodiment is described with reference to fig. 1 to 2, and is further limited to the longitudinal feeding assembly according to the first embodiment, and in the present embodiment, the longitudinal feeding assembly includes a motor mounting seat 6, a motor 7, a lead screw 8, two optical rods 9 and a sliding block; the first motor mounting seat 6 is arranged at the center of the top of the support plate 5, the first motor mounting seat 6 is fixedly connected with the support plate 5, a motor mounting groove in the first motor mounting seat 6 is arranged towards the front of the support plate 5, the first motor 7 is arranged on the first motor mounting seat 6, a motor output shaft of the first motor 7 is arranged towards the ground, the screw 8 is arranged under the first motor 7 along the vertical direction, the screw 8 is arranged on the support plate 5 through two bearing seats with bearings, one end of the screw 8 is connected with the motor output shaft of the first motor 7 through a coupling, the two optical bars 9 are oppositely arranged at two sides of the screw 8 along the vertical direction, each optical bar 9 is fixedly connected with the support plate 5 through two fixing blocks, sliding blocks are arranged on the screw 8 and the two optical bars 9, and the sliding blocks can reciprocate along the length direction of the screw 8, the power input end of the first motor 7 is connected with the storage battery 15 through a lead. Other components and connection modes are the same as those of the first embodiment.

In this embodiment, through the screw guide rail pair that lead screw 8 and feed rod 9 are constituteed, can drive the sliding block and carry out longitudinal movement at lead screw 8 and feed rod 9, drive simultaneously and lie in the sliding block and also carry out longitudinal feed, realized the action of punching downwards, motor 7 is the motor that is just reversing.

The seventh embodiment: referring to fig. 1 to 2, the present embodiment is described, and the present embodiment is further limited to the drilling assembly described in the second embodiment, and in the present embodiment, the drilling assembly includes a fixing plate 10, a second motor mounting seat 11, a second motor 12, a connecting shaft 13 and a rotary blade 14, the fixing plate 10 is disposed at the front side of the supporting plate 5, and the back side of the fixing plate 10 is fixedly connected to the sliding block of the longitudinal feeding assembly, the second motor mounting seat 11 is disposed at the front side of the fixing plate 10, and the second motor mounting seat 11 is fixedly connected to the fixing plate 10, the second motor mounting groove in the second motor mounting seat 11 is disposed toward the front of the supporting plate 5, the second motor 12 is mounted in the second motor mounting seat 11, and the motor output shaft in the second motor 12 is disposed toward the ground, the connecting shaft 13 is disposed directly below the second motor 12, and one end of the connecting shaft 13 is connected to the motor output shaft of the second motor 12 through a coupling, the rotary vane blade 14 is arranged on the outer circular surface at the other end of the connecting shaft 13, and the power input end of the second motor 12 is connected with the storage battery 15 through a lead. Other components and connection modes are the same as those of the first embodiment.

In this embodiment, No. two motors 12 drive connecting axle 13 and rotate, drive the rotation of rotary vane blade 14 simultaneously, through the high-speed rotation of rotary vane blade 14 and then dig the soil in the region, along with the longitudinal movement that the subassembly drove the drilling subassembly vertically feeds, accomplish two steps of digging downwards and cutter take out, No. two motors 12 rotate when digging downwards, after finishing punching, when upwards taking out the cutter, No. two motors 12 then can stop work, will partly deposit with the soil in the rotary vane blade 14 directly takes out the planting cave.

The specific implementation mode is eight: the present embodiment will be described with reference to fig. 1 to 2, and the present embodiment further defines the handle 2 according to the first embodiment, and in the present embodiment, one control switch is provided on each of the two handles 2, one control switch is connected in series to a lead wire connecting the first motor 7 and the battery 15, and the other control switch is connected in series to a lead wire connecting the second motor 12 and the battery 15. Other components and connection modes are the same as those of the first embodiment.

In this embodiment, the switch connected in series to the lead connecting the second motor 12 and the battery 15 is a start/stop switch mainly used for controlling the rotation and stop of the second motor 12, the switch connected in series to the lead connecting the first motor 7 and the battery 15 includes three stages, and is respectively used for controlling the three states of forward rotation, reverse rotation and stop rotation of the first motor 7, when the downward feeding is performed, the first motor 7 is forward rotated, when the cutter is reversely taken out, the first motor 7 is reverse rotated, and the first motor 7 is in a stop state in a normal state.

The present invention is not limited to the above embodiments, and any person skilled in the art can make many modifications and equivalent variations by using the above-described structures and technical contents without departing from the scope of the present invention.

Principle of operation

The device firstly assembles each part according to the connection relation of the first to eighth embodiments when in work, the size of the rotary blade 14 is selected according to the size of the outline surface of the root of the plant to be transplanted with soil, the device is moved to the area to be transplanted, the other end of the auxiliary supporting rod 4 is pricked into the soil, the device is supported by four feet, the stability of the device is ensured, the second motor 12 is controlled to rotate by a switch on one handle 2, the connecting shaft 13 and the rotary blade 14 positioned at the end part of the connecting shaft 13 are driven to rotate, the first motor 7 is controlled to rotate forwardly by a switch on the other handle 2, the screw rod 8 is driven to rotate forwardly, the sliding block positioned on the screw rod 8 drives the drilling component to move downwards, the drilling action is realized, the component to be drilled reaches the preset depth, the second motor 12 is controlled to stop rotating by a switch on one handle 2, simultaneously through the reverse rotation of No. 7 motors of another on-handle 2 on switch control, drive the reverse rotation of lead screw 8, make the sliding block that is located on the lead screw 8 drive drilling subassembly rebound, drive the cutter and shift out the plant cave of beating, treat that there is the take off blade 14 and ground a take the altitude, through the stop of No. 7 motors of another on-handle 2 on switch control, use the universal wheel 3 side with the device as the axle perk this moment, make two auxiliary strut 4 break away from soil to promote 2 drive arrangement removals of handle.

Claims (8)

1. The utility model provides a perforating device that in-process used is transplanted to crops which characterized in that: perforating device includes supporting component, vertically feeds subassembly, drilling subassembly and battery (15), vertically feed the front side that the subassembly set up at supporting component, and vertically feed subassembly and supporting component fixed connection, battery (15) set up the rear side at supporting component, and battery (15) and supporting component fixed connection, the drilling subassembly sets up on vertically feeding the subassembly, and the drilling subassembly with vertically feed subassembly fixed connection, battery (15) are continuous with the power supply of vertically feeding the power supply of subassembly and drilling subassembly through the wire.

2. The punching device used in the crop transplanting process according to claim 1, wherein: the supporting assembly comprises two supporting units and a supporting plate (5), the two supporting units are symmetrically arranged on two sides of the supporting plate (5) along the central line of the width direction of the supporting plate (5), one side of each supporting unit is fixedly connected with one side of the supporting plate (5), the longitudinal feeding assembly is arranged on the front side of the supporting plate (5), the longitudinal feeding assembly is fixedly connected with the supporting plate (5), the storage battery (15) is arranged on the rear side of the supporting plate (5), and the storage battery (15) is fixedly connected with the supporting plate (5).

3. The punching device used in the crop transplanting process according to claim 2, wherein: the supporting unit comprises a supporting rod (1), a handle (2), universal wheels (3) and auxiliary supporting rods (4), the supporting rod (1) is arranged on one side of a supporting plate (5), the outer circular surface of the supporting rod (1) is fixedly connected with one side of the supporting plate (5), the handle (2) is arranged on the top end of the supporting rod (1), the handle (2) is fixedly connected with the supporting rod (1), the universal wheels (3) are arranged at the bottom end of the supporting rod (1), connecting portions in the universal wheels (3) are fixedly connected with the supporting rod (1), the auxiliary supporting rods (4) are arranged on the front side of the supporting rod (1), and the auxiliary supporting rods (4) are fixedly connected with the supporting rod (1).

4. The punching device used in the crop transplanting process according to claim 3, wherein: auxiliary strut (4) are L type pole, the front side fixed connection of the one end of L type pole and bracing piece (1), and the other end of L type pole sets up towards ground.

5. The punching device used in the crop transplanting process according to claim 4, wherein: the other end of the L-shaped rod is arranged in a conical shape.

6. The punching device used in the crop transplanting process according to claim 5, wherein: the longitudinal feeding assembly comprises a first motor mounting seat (6), a first motor (7), a lead screw (8), two feed bars (9) and a sliding block; the first motor mounting seat (6) is arranged at the center of the top of the support plate (5), the first motor mounting seat (6) is fixedly connected with the support plate (5), a motor mounting groove in the first motor mounting seat (6) is arranged towards the front of the support plate (5), the first motor (7) is arranged on the first motor mounting seat (6), a motor output shaft of the first motor (7) is arranged towards the ground, the screw rod (8) is arranged under the first motor (7) along the vertical direction, the screw rod (8) is arranged on the support plate (5) through two bearing seats with bearings, one end of the screw rod (8) is connected with the motor output shaft of the first motor (7) through a shaft connector, the two light bars (9) are oppositely arranged on two sides of the screw rod (8) along the vertical direction, and each light bar (9) is fixedly connected with the support plate (5) through two fixing blocks, the sliding blocks are installed on the lead screw (8) and the two feed rods (9), the sliding blocks can move in a reciprocating mode along the length direction of the lead screw (8), and the power input end of the first motor (7) is connected with the storage battery (15) through a lead.

7. The perforating device used in the transplanting process of crops as claimed in claim 6, wherein: the drilling assembly comprises a fixing plate (10), a second motor mounting seat (11), a second motor (12), a connecting shaft (13) and a rotary blade (14), the fixing plate (10) is arranged on the front side of the supporting plate (5), the back side of the fixing plate (10) is fixedly connected with a sliding block of the longitudinal feeding assembly, the second motor mounting seat (11) is arranged on the front side of the fixing plate (10), the second motor mounting seat (11) is fixedly connected with the fixing plate (10), a second motor mounting groove in the second motor mounting seat (11) is arranged towards the front side of the supporting plate (5), the second motor (12) is arranged in the second motor mounting seat (11), a motor output shaft in the second motor (12) is arranged towards the ground, the connecting shaft (13) is arranged under the second motor (12), and one end of the second motor (13) is connected with the motor output shaft of the second motor (12) through a coupler, the rotary vane blade (14) is arranged on the outer circular surface at the other end of the connecting shaft (13), and the power input end of the second motor (12) is connected with the storage battery (15) through a wire.

8. The perforating device used in the transplanting process of crops as claimed in claim 7, wherein: and the two handles (2) are respectively provided with a control switch, one control switch is connected in series with a lead wire connecting the first motor (7) and the storage battery (15), and the other control switch is connected in series with a lead wire connecting the second motor (12) and the storage battery (15).

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