CN112616368B

CN112616368B - Earthing device for strawberry planting

Info

Publication number: CN112616368B
Application number: CN202011540184.2A
Authority: CN
Inventors: 刘文福; 孙礼; 张源; 王士华; 刘艳
Original assignee: Fuyang Hongfu Agricultural Technology Co ltd
Current assignee: Fuyang Hongfu Agricultural Technology Co ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-11-30
Anticipated expiration: 2040-12-23
Also published as: CN112616368A

Abstract

The invention provides an earthing device for strawberry planting, which comprises a rack, a crushing unit and a paving and filling unit, and is characterized in that: the upper end of the frame is provided with a feeding hole, the crushing unit is arranged on the inner wall of the frame, and the paving and filling unit is arranged on the outer wall of the right end of the frame; the method can solve the problems that most of the existing strawberry seedlings are paved and filled with soil in a manual soil covering mode, but the manual soil covering mode cannot completely crush the blocky soil in the soil, so that a better covering effect cannot be achieved, the utilization rate of the soil is reduced, the strawberry seedlings are easily broken by the blocky soil during paving and filling, and the cost is wasted; and the uniformity of the soil paved and filled cannot be effectively controlled by manual operation, so that the survival rate of strawberry seedlings is easily reduced, the seedlings are required to be replenished, the workload is increased, the labor cost is wasted, and the like.

Description

Earthing device for strawberry planting

Technical Field

The invention relates to the technical field of strawberry planting, in particular to an earthing device for strawberry planting.

Background

Strawberry is one of the favorite fruits in daily life of people, is known as 'fruit queen', is a photophobic plant, and has strong shade tolerance. When the light intensity is strong, the plant is short, the fruit is small, the color is deep and the quality is good. Medium illumination, large fruit, light color, low sugar content and long harvesting period; the strawberry growth is not favorable due to the weak illumination; the strawberry is generally divided into two categories of seeding and seedling raising and plant division propagation during planting, wherein the seeding and seedling raising are mostly carried out in next spring, proper thinning is needed after seedling emergence, and the strawberry is transplanted in a small flowerpot with soil when 3-4 true leaves grow out from the seedling. After adapting for a period of time, transplanting the seedlings with soil to a breeding nursery; after the strawberry seedlings are transplanted to the nursery, soil needs to be paved and filled at the roots of the strawberry seedlings to ensure the continuous growth of the strawberry seedlings in the later period.

However, the following problems exist when the strawberry is planted and covered with soil at present: most of the existing strawberry seedlings are paved and filled with soil in a manual soil covering mode, however, the manual soil covering mode cannot completely crush the massive soil in the soil, so that a better covering effect cannot be achieved, the utilization rate of the soil is reduced, and the strawberry seedlings are easily broken by the massive soil during paving and filling, and the cost is wasted; and the uniformity of the soil paved and filled cannot be effectively controlled by manual operation, so that the survival rate of strawberry seedlings is easily reduced, the seedlings are required to be replenished, the workload is increased, and the labor cost is wasted.

Disclosure of Invention

The technical problem to be solved

The earthing device for strawberry planting provided by the invention can solve the problems pointed out in the background technology.

Two technical schemes

In order to achieve the above purpose, the invention adopts the following technical scheme that the earthing device for strawberry planting comprises a rack, a crushing unit and a paving and filling unit, wherein a feeding hole is formed in the upper end of the rack, the crushing unit is installed on the inner wall of the rack, and the paving and filling unit is arranged on the outer wall of the right end of the rack, wherein:

the frame is including processing shell, backup pad, driving motor, pivot, back shaft and removal roller, wherein: the feed inlet has been seted up to processing shell upper end, and processing shell right-hand member downside has seted up the material passing hole, the symmetry sets up on processing shell right-hand member outer wall around the backup pad, driving motor sets up on processing shell front end outer wall, the pivot both ends are passed through the bearing setting and are being processed on the shell front and back end inner wall, and the pivot front end is connected with the driving motor output shaft, the back shaft both ends are passed through the bearing setting and are in the backup pad inside wall, be connected through the belt drive along the back shaft rear end with the pivot, and the symmetrical cover is equipped with the removal roller around pivot and the back shaft outer wall.

The crushing unit comprises a transmission motor, a transmission shaft, a linkage shaft, a transmission gear, an execution gear, a crushing cutter, a linkage cutter and a guide block, wherein: the transmission shaft and the linkage shaft are symmetrically arranged on the inner walls of the left end and the right end of the processing shell in a front-back mode through bearings, the right ends of the transmission shaft and the linkage shaft are respectively sleeved with a transmission gear and an execution gear which are meshed with each other, a transmission motor is installed on the outer wall of the left end of the processing shell through a motor base, the tail end of an output shaft of the transmission motor is connected with the transmission shaft, crushing cutters are evenly arranged along the outer wall of the transmission shaft in a left-right mode and in an up-down staggered mode, linkage cutters matched with the crushing cutters are arranged on the outer wall of the linkage shaft, and guide blocks are symmetrically arranged on the inner wall of the processing shell along the lower sides of the transmission shaft and the linkage shaft.

Fill out the unit including carrying out axle, location axle, transmission band, a bearing block, a baffle, a connecting pipe, a drainage tube and auxiliary assembly, wherein: the bearing setting is passed through on processing shell inner wall at the execution axle both ends, location axle both ends are passed through the bearing setting on the backup pad inside wall, location axle front end is connected through the belt drive with the back shaft, and execution axle and location off-axial wall are connected through the transmission band, a bearing piece is installed on location axle downside backup pad inside wall, a blanking hole has been seted up along a bearing piece upper end downwardly extending, install the baffle No. one along a bearing piece upper end right side, and a bearing piece lower extreme install the connecting pipe that is linked together with a blanking hole No. one, and a connecting pipe lower extreme installs the drainage tube No. one, auxiliary component sets up on backup pad left side inside wall.

As a preferred technical scheme of the invention, the auxiliary assembly comprises a limiting shaft, a conveying belt, a second bearing block, a second baffle, a second connecting pipe and a second drainage pipe, wherein: spacing axle both ends are passed through the bearing setting on backup pad left side inside wall, symmetrical cover is equipped with the conveyer belt of being connected with the executive spindle around spacing outer wall, the conveyer belt inside wall is laminated with the transmission band front and back end, and the conveyer belt lateral wall with cross material mouthful sliding connection, No. two bearing blocks set up on spacing axle downside backup pad inside wall, No. two blanking holes have been seted up along the symmetry around No. two bearing block upper ends downwardly extending, and No. two bearing block upper end longitudinal symmetry is provided with No. two baffles, No. two connecting pipes that are linked together with No. two blanking holes are installed to No. two bearing block lower extremes, and No. two connecting pipe lower extremes is connected with the drainage tube No. two that is linked together rather than.

As a preferable technical solution of the present invention, the guide block is a triangular structure plate for guiding soil to fall on the conveyor belt and the conveyor belt.

As a preferred technical scheme of the invention, the inner walls of the left end and the right end of the first connecting pipe are provided with inverted V-shaped flow distribution plates for distributing soil.

As a preferable technical scheme of the invention, the first drainage tube is an inverted V-shaped structure tube for guiding soil to two sides, and the tail end of the first drainage tube is of an oblique incision structure convenient for soil paving and filling.

As a preferable technical scheme of the invention, the second drainage tube has an inclined structure which is convenient for guiding soil outwards, and the tail end of the second drainage tube has an inclined cut structure which is convenient for paving and filling soil.

Three beneficial effects

1. The soil covering of the strawberries during planting is greatly improved, and the problems that most of the existing strawberry seedlings are paved and filled with soil in an artificial soil covering mode during planting, however, the massive soil in the soil cannot be completely crushed by the artificial soil covering, and therefore a better covering effect cannot be achieved, the utilization rate of the soil is reduced, and the strawberry seedlings are easily broken by the massive soil during paving and filling, and the cost is wasted can be solved; and the uniformity of the soil paved and filled cannot be effectively controlled by manual operation, so that the survival rate of strawberry seedlings is easily reduced, the seedlings are required to be replenished, the workload is increased, the labor cost is wasted, and the like.

2. The crushing unit is arranged, and can crush blocky soil in the device, so that the utilization rate of the soil can be effectively improved, the strawberries can be prevented from being broken by the blocky soil, and the cost is reduced.

3. The movable type soil covering device is provided with the paving and filling unit and can be matched with the crushing unit to carry out movable type soil covering treatment on the crushed soil, so that manual operation can be effectively replaced, the uniformity of soil covering can be ensured, the survival rate of strawberry seedlings can be effectively improved, unnecessary workload is reduced, and the labor cost is reduced.

4. The auxiliary assembly can assist the assembly and can be matched with the paving and filling unit to carry out multi-stage soil covering treatment on the strawberry seedlings, so that uniform soil covering of the strawberry seedlings can be ensured.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a front sectional view of the present invention.

Fig. 2 is a top cross-sectional view of the present invention.

Figure 3 is a top cross-sectional view of the pulverizing unit of the present invention.

Fig. 4 is a schematic partial perspective view of the paving unit of the present invention.

FIG. 5 is a partial structure diagram of the first support block, the first connecting pipe and the first drainage tube of the present invention.

Fig. 6 is a partial structural view of the auxiliary assembly of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 6 a earthing device for strawberry cultivation, including frame 1, crushing unit 2 and fill unit 3 with spreading, feed inlet 111 has been seted up to frame 1 upper end, and crushing unit 2 installs on 1 inner wall of frame, and fill unit 3 sets up on 1 right-hand member outer wall of frame, wherein:

the frame 1 includes a processing shell 11, a support plate 12, a driving motor 13, a rotating shaft 14, a support shaft 15 and a moving roller 16, wherein: feed inlet 111 has been seted up to processing shell 11 upper end, and processing shell 11 right-hand member downside has seted up material passing hole 112, backup pad 12 longitudinal symmetry sets up on processing shell 11 right-hand member outer wall, driving motor 13 sets up on processing shell 11 front end outer wall, 14 both ends of pivot are passed through the bearing setting and are being processed on shell 11 front and back end inner wall, and 14 front ends of pivot are connected with driving motor 13 output shaft, 15 both ends of back shaft pass through the bearing setting in backup pad 12 inside wall, be connected through the belt drive along 15 rear ends of back shaft with 14 pivot, and the symmetrical cover is equipped with removal roller 16 around 14 and the 15 outer walls of back shaft.

During specific work, the driving motor 13 is turned on, the driving motor 13 drives the moving roller 16 to rotate clockwise through the rotating shaft 14 and the supporting shaft 15, and therefore the crushing unit 2 and the paving and filling unit 3 can be matched to complete moving and paving and filling.

The crushing unit 2 comprises a transmission motor 21, a transmission shaft 22, a linkage shaft 23, a transmission gear 24, an execution gear 25, a crushing knife 26, a linkage knife 27 and a guide block 28, wherein: the transmission shaft 22 and the linkage shaft 23 are symmetrically arranged on the inner wall of the left end and the right end of the processing shell 11 in a front-back manner through a bearing, the right ends of the transmission shaft 22 and the linkage shaft 23 are respectively provided with a transmission gear 24 and an execution gear 25 which are meshed with each other in a sleeved manner, the transmission motor 21 is arranged on the outer wall of the left end of the processing shell 11 through a motor base, the tail end of an output shaft of the transmission motor 21 is connected with the transmission shaft 22, crushing knives 26 are uniformly arranged along the outer wall of the transmission shaft 22 in a left-right and up-down staggered manner, linkage knives 27 matched with the crushing knives 26 are arranged on the outer wall of the linkage shaft 23, guide blocks 28 are symmetrically arranged on the inner wall of the processing shell 11 along the lower sides of the transmission shaft 22 and the linkage shaft 23 in a left-right manner, and the guide blocks 28 are triangular structural plates for guiding the flowing direction of soil.

During operation, open drive motor 21, drive motor 21 drives transmission shaft 22 and carries out clockwise rotation, transmission shaft 22 drives universal driving shaft 23 through drive gear 24 cooperation execution gear and carries out anticlockwise rotation, thereby make transmission shaft 22 drive smash sword 26 and universal driving shaft 23 drive the linkage sword 27 and rotate in opposite directions, thereby will process massive soil in the shell 11 and smash, thereby can improve the utilization ratio of soil, and can prevent that the strawberry from being pounded by massive soil, the soil of smashing the completion falls to filling unit 3 in the guide effect of guide block 28.

The paving and filling unit 3 comprises an execution shaft 31, a positioning shaft 32, a conveying belt 33, a first supporting block 34, a first baffle 35, a first connecting pipe 36, a first drainage pipe 37 and an auxiliary component 38, wherein: the two ends of an execution shaft 31 are arranged on the inner wall of a processing shell 11 through bearings, the two ends of a positioning shaft 32 are arranged on the inner side wall of a supporting plate 12 through bearings, the front end of the positioning shaft 32 is connected with a supporting shaft 15 through belt transmission, the outer walls of the execution shaft 31 and the positioning shaft 32 are connected through a transmission belt 33, a first bearing block 34 is arranged on the inner side wall of the supporting plate 12 on the lower side of the positioning shaft 32, a first blanking hole 341 is formed in the lower end of the first bearing block 34 in a downward extending mode, a first baffle 35 is arranged on the right side of the upper end of the first bearing block 34, a first connecting pipe 36 communicated with the first blanking hole 341 is arranged at the lower end of the first bearing block 34, and an inverted V-shaped flow distribution plate 361 used for distributing soil is arranged on the inner wall of the left end and the right end of the first connecting pipe 36; a first drainage tube 37 is installed at the lower end of the first connecting tube 36, the first drainage tube 37 is an inverted V-shaped structure tube for guiding soil to two sides, and the tail end of the first drainage tube 37 is of an inclined cut structure convenient for paving and filling soil; the auxiliary component 38 is disposed on the left inner side wall of the support plate 12.

During operation, the soil of smashing the completion falls to transmission band 33 on, location axle 32 carries out clockwise rotation under the effect of back shaft 15 this moment, and then location axle 32 cooperation is carried out axle 31 and is driven transmission band 33 and carry out clockwise circumferential direction, thereby transmission band 33 carries soil to the right side, and cooperate No. one baffle 35 to carry soil to No. one blanking hole 341 in, soil is in the same direction as No. one blanking hole 341 and falls to No. one connecting pipe 36 in, and under the effect of flow distribution plate 361 to both sides reposition of redundant personnel and fall to No. one drainage tube 37 in, soil carries out earthing processing to potted strawberry under the effect of a drainage tube 37.

The auxiliary assembly 38 comprises a limiting shaft 381, a conveying belt 382, a second supporting block 383, a second baffle 384, a second connecting pipe 385 and a second drainage pipe 386, wherein: two ends of the limit shaft 381 are arranged on the inner side wall of the left side of the supporting plate 12 through bearings, a conveying belt 382 connected with the execution shaft 31 is symmetrically sleeved along the outer wall of the limit shaft 381 in a front-back mode, the inner side wall of the conveying belt 382 is attached to the front end and the back end of the conveying belt 33, the outer side wall of the conveyor belt 382 is connected with the material passing port 112 in a sliding manner, a second bearing block 383 is arranged on the inner side wall of the supporting plate 12 at the lower side of the limiting shaft 381, a second blanking hole 3831 is symmetrically arranged in a front-back manner along the downward extension of the upper end of the second bearing block 383, and a second baffle plate 384 is symmetrically arranged at the front and back of the upper end of the second bearing block 383, a second connecting pipe 385 communicated with the second blanking hole 3831 is arranged at the lower end of the second bearing block 383, and the lower end of the second connecting pipe 385 is connected with a second drainage pipe 386 communicated with the second connecting pipe, the second drainage pipe 386 has an inclined structure which is convenient for guiding soil outwards, and the tail end of the second drainage pipe 386 has an inclined notch structure which is convenient for paving and filling soil.

During specific work, the soil that the completion was smashed falls to conveyer belt 382 on the guide effect of guide block 28, spacing axle 381 drives conveyer belt 382 through carrying out axle 31 and carries out clockwise circumferential direction this moment to conveyer belt 382 is carried soil to the right side, and cooperates No. two baffles 384 to carry soil to No. two blanking holes 3831 in, soil passes through No. two connecting pipes 385 at this moment and falls to No. two drainage tubes 386 in, carries out secondary earthing processing to potted strawberry under the effect of No. two drainage tubes 386 simultaneously.

During operation

The first step is as follows: and (3) opening the driving motor 13, driving the driving motor 13 to drive the moving roller 16 to rotate clockwise through the rotating shaft 14 and the supporting shaft 15, so that the device is moved to a specified place, the moving and paving can be completed, and the soil is filled in the device.

The second step is that: open drive motor 21, drive motor 21 drives transmission shaft 22 and carries out clockwise rotation, and transmission shaft 22 drives universal driving shaft 23 through drive gear 24 cooperation execution gear 25 and carries out anticlockwise rotation to transmission shaft 22 drives crushing sword 26 and universal driving shaft 23 and drives linkage sword 27 and rotate in opposite directions, thereby smashes blocky soil in will processing shell 11, thereby can improve the utilization ratio of soil, and can prevent that the strawberry from being pounded bad by blocky soil.

The third step: the crushed soil falls onto a conveying belt 33, at the moment, a positioning shaft 32 rotates clockwise under the action of a supporting shaft 15, the positioning shaft 32 is matched with an execution shaft 31 to drive the conveying belt 33 to rotate clockwise and circumferentially, the conveying belt 33 conveys the soil to the right side, the soil is conveyed into a first blanking hole 341 through a first baffle 35, the soil falls into a first connecting pipe 36 along the first blanking hole 341, the soil is shunted to two sides and falls into a first drainage pipe 37 under the action of a shunt plate 361, and the soil covers the potted strawberries under the action of the first drainage pipe 37; simultaneously, the soil after the smashing falls onto the conveyor belt 382 under the guiding action of the guide block 28, at the moment, the limiting shaft 381 drives the conveyor belt 382 to rotate clockwise and circumferentially through the execution shaft 31, the conveyor belt 382 conveys the soil to the right side, the soil is conveyed into a second blanking hole 3831 by matching with a second baffle 384, the soil falls into a second drainage tube 386 through a second connecting tube 385 at the moment, and meanwhile, secondary soil covering treatment is carried out on potted strawberries under the action of the second drainage tube 386.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a earthing device for strawberry cultivation, includes frame (1), crushing unit (2) and fills unit (3) with spreading, its characterized in that: frame (1) upper end has been seted up feed inlet (111), and crushing unit (2) are installed on frame (1) inner wall, and fill out unit (3) and set up on frame (1) right-hand member outer wall, wherein:

frame (1) is including processing shell (11), backup pad (12), driving motor (13), pivot (14), back shaft (15) and removal roller (16), wherein: the feeding hole (111) is formed in the upper end of the processing shell (11), the material passing hole (112) is formed in the lower side of the right end of the processing shell (11), the supporting plate (12) is symmetrically arranged on the outer wall of the right end of the processing shell (11) in the front-back direction, the driving motor (13) is arranged on the outer wall of the front end of the processing shell (11), two ends of the rotating shaft (14) are arranged on the inner walls of the front end and the rear end of the processing shell (11) through bearings, the front end of the rotating shaft (14) is connected with an output shaft of the driving motor (13), two ends of the supporting shaft (15) are arranged on the inner side wall of the supporting plate (12) through bearings, the rear end of the supporting shaft (15) is connected with the rotating shaft (14) through belt transmission, and the outer walls of the rotating shaft (14) and the supporting shaft (15) are symmetrically sleeved with the moving roller (16) in the front-back direction;

the crushing unit (2) comprises a transmission motor (21), a transmission shaft (22), a linkage shaft (23), a transmission gear (24), an execution gear (25), a crushing knife (26), a linkage knife (27) and a guide block (28), wherein: the two ends of the transmission shaft (22) and the linkage shaft (23) are symmetrically arranged on the inner walls of the left end and the right end of the processing shell (11) in a front-back mode through bearings, the right ends of the transmission shaft (22) and the linkage shaft (23) are respectively sleeved with a transmission gear (24) and an execution gear (25) which are meshed with each other, the transmission motor (21) is installed on the outer wall of the left end of the processing shell (11) through a motor base, the tail end of an output shaft of the transmission motor (21) is connected with the transmission shaft (22), crushing cutters (26) are uniformly arranged along the outer wall of the transmission shaft (22) from left to right in a staggered mode from top to bottom, linkage cutters (27) matched with the crushing cutters (26) are arranged on the outer wall of the linkage shaft (23), and guide blocks (28) are symmetrically installed on the inner wall of the processing shell (11) on the lower side of the transmission shaft (22) and the linkage shaft (23);

fill out unit (3) including carrying out axle (31), location axle (32), transmission band (33), a bearing block (34), No. one baffle (35), a connecting pipe (36), a drainage tube (37) and auxiliary assembly (38), wherein: two ends of the execution shaft (31) are arranged on the inner wall of the processing shell (11) through bearings, two ends of the positioning shaft (32) are arranged on the inner side wall of the supporting plate (12) through bearings, the front end of the positioning shaft (32) is connected with the supporting shaft (15) through belt transmission, the outer walls of the execution shaft (31) and the positioning shaft (32) are connected through a transmission belt (33), a first bearing block (34) is arranged on the inner side wall of the lower side supporting plate (12) of the positioning shaft (32), a first blanking hole (341) is formed in a downward extending mode along the upper end of the first bearing block (34), a first baffle plate (35) is arranged on the right side of the upper end of the first bearing block (34), and the lower end of the first bearing block (34) is provided with a first connecting pipe (36) communicated with the first blanking hole (341), a first drainage tube (37) is arranged at the lower end of the first connecting tube (36), and an auxiliary component (38) is arranged on the inner side wall of the left side of the supporting plate (12);

the auxiliary assembly (38) includes spacing axle (381), conveyer belt (382), No. two support block (383), No. two baffles (384), No. two connecting pipes (385) and No. two drainage tubes (386), wherein: two ends of the limit shaft (381) are arranged on the inner side wall of the left side of the supporting plate (12) through bearings, a conveying belt (382) connected with the execution shaft (31) is symmetrically sleeved along the front and the back of the outer wall of the limit shaft (381), the inner side wall of the conveying belt (382) is attached to the front end and the back end of the conveying belt (33), the outer side wall of the conveyer belt (382) is connected with the material passing port (112) in a sliding way, a second bearing block (383) is arranged on the inner side wall of the lower side supporting plate (12) of the limiting shaft (381), second blanking holes (3831) are symmetrically arranged in front and at the back of the upper end of the second bearing block (383) in a downward extending way, a second baffle (384) is symmetrically arranged at the front and the back of the upper end of the second bearing block (383), a second connecting pipe (385) communicated with the second blanking hole (3831) is arranged at the lower end of the second bearing block (383), and the lower end of the second connecting pipe (385) is connected with a second drainage pipe (386) communicated with the second connecting pipe.

2. The earthing device for strawberry cultivation of claim 1, characterized in that: the guide block (28) is a triangular structure plate for guiding soil to fall on the conveying belt (33) and the conveying belt (382).

3. The earthing device for strawberry cultivation of claim 1, characterized in that: an inverted V-shaped flow distribution plate (361) for distributing soil is mounted on the inner wall of the left end and the right end of the first connecting pipe (36).

4. The earthing device for strawberry cultivation of claim 1, characterized in that: the first drainage tube (37) is an inverted V-shaped structure tube for guiding soil to two sides, and the tail end of the first drainage tube (37) is of an inclined cut structure convenient for paving and filling soil.

5. The earthing device for strawberry cultivation of claim 1, characterized in that: no. two drainage tubes (386) are the inclined structure who is convenient for guide soil to the outside, and No. two drainage tube (386) terminal is the bevel connection structure who fills up soil for the paving conveniently.