CN206517746U

CN206517746U - Manual efficiently ridge buster

Info

Publication number: CN206517746U
Application number: CN201720037776.XU
Authority: CN
Inventors: 周萌
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-01-13
Filing date: 2017-01-13
Publication date: 2017-09-26
Anticipated expiration: 2027-01-13

Abstract

The utility model discloses a kind of ridge buster efficient manually, belong to agricultural equipment technical field.Efficiently ridge buster includes excavating bar manually for this, with excavating the excavation component that bar is fixedly connected, the shredder assemblies being flexibly connected by rotary components with excavation component, and is fixedly connected with shredder assemblies positioned at the support component for excavating bar bottom.Excavation component excavates bar provided with multiple tips be arrangeding in parallel, in order to be successfully inserted in soil.Shredder assemblies are provided with multiple crushing bars be arrangeding in parallel.Excavate bar and crush bar axially staggered setting, can under the drive of rotary components rotary cross.The utility model is using double-deck fork design, the pointed digging fork in head is inserted into soil digging soil, and the crushing fork being staggered with digging fork is when can work as soil and digging, pass through the staggeredly crushing soil with digging fork, so as to avoid the work for again breaking soil block into pieces after excavation, scarifying efficiency is improved, labor intensity is reduced again.

Description

Manual efficiently ridge buster

Technical field

The utility model is related to a kind of ridge buster efficient manually, belongs to agricultural equipment technical field.

Background technology

Arable land needs to carry out scarifying processing to soil prior to seeding, can be carried out for sheet arable land using special farm machinery Operation, but for fritter experimental plot or vegetable garden, often do not apply to large farm machinery.It is existing that spade often is utilized to scarifying processing Or iron fork carries out artificial scarifying, it is relatively low to there is operating efficiency, the problem of the amount of labour and larger labor intensity.Especially some ground Step on or press and must compare real, artificial scarifying difficulty is larger, even digs, in addition it is also necessary to struck the soil block dug using instrument It is broken, cause operating efficiency very low.

Utility model content

To improve the efficiency in artificial scarifying arable land, labor intensity is reduced, the utility model provides a kind of manual efficiently pine Earthenware, the technical scheme taken is as follows：

A kind of ridge buster efficient manually, efficiently ridge buster includes tedding rod 1, the digging being fixedly connected with tedding rod 1 manually for this Component 2, the shredder assemblies 3 being flexibly connected by rotary components 5 with excavation component 2 are dug, and position is fixedly connected with shredder assemblies 3 Support component 4 in the bottom of tedding rod 1；

The excavation component 2 excavates bar 22 provided with multiple tips be arrangeding in parallel, in order to be successfully inserted in soil；

The shredder assemblies 3 are provided with multiple crushing bars 31 be arrangeding in parallel；

It is described excavate bar 22 and crush bar 31 axially staggered setting, can under the drive of rotary components 5 rotary cross.

Preferably, the tedding rod 1 includes holding rod 11 and at least one ripping bar 12, and holding rod 11 and ripping bar 12 are vertical, The one end of ripping bar 12 in the middle part of the side of holding rod 11 with being fixedly connected, and the other end is fixedly connected with excavation component 2.

It is highly preferred that 12 points of the ripping bar is long straight bar section, short straight rod section and the long straight bar section of connection and short straight rod section Fillet section.

It is highly preferred that the extended line of the long straight bar section and the extended line angulation of short straight rod section are 10~45 degree.

It is highly preferred that the extended line of the long straight bar section and the extended line angulation of short straight rod section are 30 degree.

Preferably, the excavation component 2 includes the excavation bar 22 that section is the fixture 21 of L-shaped and one end is tip, digs The non-tip of pick bar 22 is fixedly connected with the vertical plane of fixture 21.

Preferably, the shredder assemblies 3 include crushing bar 31 and for the fixed connector 32 for crushing bar 31.

It is highly preferred that support member 41 is fixedly connected with connector 32, and it is fixed on the heteropleural for crushing bar 31.

It is highly preferred that the section of the support member 41 is L-shaped, one end is connected with connector 32, and the other end sticks up provided with arc Rise；The projection of the ripping bar 12 of the horizontal plane of support member 41 and tedding rod 1 in the horizontal plane is overlapped.

Preferably, the rotary components 5 can act on down the conjunction for promoting excavation component 2 and shredder assemblies 3 to rotate outside Page, rotating shaft or torsionspring.

The rotary components 5 are can to rotate excavation component 2 and shredder assemblies 3, so that being mined in soil After component 2 is dug, the digging that larger soil block can be staggered when passing through the gap between excavation component 2 and the bar of shredder assemblies 3 Pick bar and crushing bar squeeze broken.All torsions for being that by above-mentioned spinfunction or rotary part can be used as rotary components 5 It is applied in the application.

Compared to prior art, the beneficial effect that the utility model is obtained is：

The utility model is using double-deck fork design, and the pointed digging fork in head is inserted into soil digging soil, and with Crushing that digging fork is staggered fork can work as soil when digging, by staggeredly crushing soil with digging fork, so as to avoid The work for again breaking soil block into pieces after excavation, that is, improve scarifying efficiency, labor intensity reduced again.

Meanwhile, digging fork of the present utility model and the settable width than iron fork and spade of crushing fork are longer, can once turn over The greater area of soil of pine, operating efficiency is higher.

The excavation component and shredder assemblies connected by rotary components is detachably separated, should not shredder assemblies when, can be by Excavate bar and excavation component is used separately as common fork.

Brief description of the drawings

Fig. 1 is the positive structure diagram of manual efficiently ridge buster in a kind of preferred scheme of the utility model.

Fig. 2 is the overlooking the structure diagram of manual efficiently ridge buster in a kind of preferred scheme of the utility model.

Fig. 3 is the side structure schematic view of manual efficiently ridge buster in a kind of preferred scheme of the utility model.

Fig. 4 is the dimensional structure diagram of manual efficiently ridge buster in a kind of preferred scheme of the utility model.

Fig. 5 is another dimensional structure diagram of manual efficiently ridge buster in a kind of preferred scheme of the utility model.

In figure：1, tedding rod；2, excavation component；3, shredder assemblies；4, support component；5, rotary components；11, holding rod； 12, ripping bar；21, fixture；22, excavate bar；31, crush bar；32, connector；41, support member.

Embodiment

The utility model is described in further details below in conjunction with the accompanying drawings, but described further below is not intended as to this practicality New restriction.

The preferred scheme that efficiently manual ridge buster of the present utility model can be shown using Fig. 1~5.Wherein, Fig. 1 is manual The positive structure diagram of efficient ridge buster.Fig. 2 is the overlooking the structure diagram of efficient ridge buster manually.Fig. 3 is efficient manually The side structure schematic view of ridge buster.Fig. 4 is the dimensional structure diagram of efficient ridge buster manually.Fig. 5 is efficiently to loosen the soil manually The dimensional structure diagram of another angle of device.

It was found from Fig. 1~5, the ridge buster is by tedding rod 1, excavation component 2, shredder assemblies 3, support component 4 and rotation Turn component 5 to constitute.Wherein, tedding rod 1 includes a holding rod 11 and two ripping bars 12.Excavation component 2 includes a fixture 21 and 7 excavation bars 22.Shredder assemblies 3 include a connector 32 and 6 crushing bars 31.Support component 4 includes two supports Part 41.

Wherein, the holding rod 11 of tedding rod 1 is cylindrical straight-bar, and two ripping bars 12 are fixed with its external side parallel.Ripping bar 12 points are long straight bar section, short straight rod section and the long straight bar section of connection and the fillet section of short straight rod section.The free end of long straight bar section with Holding rod 11 is fixedly connected, and the free end of short straight rod section is fixedly connected with the fixture 21 of excavation component 2.Fixture 21 is angle For the L-shaped angle steel at right angle, the short straight rod section free end of ripping bar 12 is fixed on the outside of the vertical plane of fixture 21, and excavation component 2 7 excavation bars 22 be fixedly connected on along the linear array parallel to horizontal plane on the inside of the vertical plane of fixture 21.Wherein, it is short The angle that straight bar section is formed with the respective extended line of long straight bar section is 30 degree.Bar 22 is excavated to be made up of cylinder and cone, The bottom surface of cone is fixedly connected with cylinder round sides, and cone is used as the tip that bottom surface is inserted when excavating, circle Another round sides of cylinder are fixed on the inside of the vertical plane of fixture 21, so as to form fork structure.

Similarly, it is connected with another fork knot by two rotary components 5 below excavation component 2 and tedding rod 1 Structure.The fork structure is made up of shredder assemblies 3 and support component 4.The connector 32 of shredder assemblies 3 is rectangular slat steel plate, The side of steel plate is fixed with crushing bar 31 along the linear array parallel to horizontal plane.It is cylinder to crush bar 31.Crush bar 31 with Bar 22 is excavated to be staggered.It is identical with the length for excavating bar 22 to crush bar 31.Two are fixed with the opposite side of connector 32 Individual rotary components 5 and two support members 41.Wherein, rotary components 5 are hinge, between two support members 41.Support member 41 It is corresponding with ripping bar 12, it is arranged on the bottom of ripping bar 12.The projection of ripping bar 12 in the horizontal plane and the horizontal plane weight of support member 41 Close, so that during scarifying is excavated, when pulling ripping bar 12, support member 41 can provide a rigid support for ripping bar 12 Face.Support bar 41 is also the angle steel similar to fixture 21, unlike, one end is normal end face, and the other end is to be upturned Curved end.Normal end face is fixed on connector 32, and the curved end with tilting is free end.

When in use, operating personnel can first pass through rotary components 5 and hold up excavation component 2, will excavate bar 22 and are inserted into soil In ground, shredder assemblies 3 and support component 4 are placed on the ground, holding rod 11 is pulled with water, makes excavation group by lever principle The excavation bar 22 of part 2 is earthward upper to be rotated, in rotation process, and the soil block of bulk can be between excavating bar 22 and crushing bar 31 It is squeezed broken between gap, so as to save the operation for breaking soil block into pieces again after digging, greatly increases operating efficiency.

Bar 22 is excavated in the utility model and the quantity of bar 31, the length of fixture 21 and connector 32 and short straight is crushed The parameters such as the angle of bar segment and long straight bar section extended line can be set according to actual conditions.

Although the utility model is disclosed as above with preferred embodiment, it is not limited to the utility model, appoints What person skilled in the art, is not departing from spirit and scope of the present utility model, can do various changes and modification, therefore What protection domain of the present utility model should be defined by claims is defined.

Claims

1. a kind of ridge buster efficient manually, it is characterised in that including tedding rod (1), the excavation group being fixedly connected with tedding rod (1) Part (2), the shredder assemblies (3) being flexibly connected by rotary components (5) with excavation component (2), and it is fixed with shredder assemblies (3) Connection, and positioned at the support component (4) of tedding rod (1) bottom；

The excavation component (2) excavates bar (22) provided with multiple tips be arrangeding in parallel；

The shredder assemblies (3) are provided with multiple crushing bars (31) be arrangeding in parallel；

It is described excavate bar (22) and crushing bar (31) axially staggered setting, can under the drive of rotary components (5) rotary cross.

2. ridge buster efficient manually according to claim 1, it is characterised in that the tedding rod (1) includes holding rod (11) and at least one ripping bar (12), holding rod (11) and ripping bar (12) vertically, ripping bar (12) one end and the side of holding rod (11) Middle face is fixedly connected, and the other end is fixedly connected with excavation component (2).

3. it is according to claim 2 manually efficiently ridge buster, it is characterised in that the ripping bar (12) be divided into long straight bar section, The fillet section of short straight rod section and the long straight bar section of connection and short straight rod section.

4. efficient ridge buster manually according to claim 3, it is characterised in that the extended line of the long straight bar section with it is short straight The extended line angulation of bar segment is 10~45 degree.

5. efficient ridge buster manually according to claim 4, it is characterised in that the extended line of the long straight bar section with it is short straight The extended line angulation of bar segment is 30 degree.

6. ridge buster efficient manually according to claim 1, it is characterised in that it is L that the excavation component (2), which includes section, The fixture (21) of shape and one end are the excavation bar (22) at tip, the non-sophisticated vertical plane with fixture (21) of excavation bar (22) It is fixedly connected.

7. ridge buster efficient manually according to claim 1, it is characterised in that the shredder assemblies (3) include crushing bar (31) and for the fixed connector (32) for crushing bar (31).

8. ridge buster efficient manually according to claim 7, it is characterised in that support member (41) is fixed with connector (32) Connection, and it is fixed on the heteropleural for crushing bar (31).

9. ridge buster efficient manually according to claim 8, it is characterised in that the section of the support member (41) is L-shaped, One end is connected with connector (32), and the other end is tilted provided with arc；The horizontal plane of support member (41) and the ripping bar of tedding rod (1) (12) projection in the horizontal plane is overlapped.

10. ridge buster efficient manually according to claim 1, it is characterised in that the rotary components (5) can act on outside Under promote hinge, rotating shaft or the torsionspring that excavation component (2) and shredder assemblies (3) are rotated.