CN111485561A - Land is tilled with dividing ridge device - Google Patents

Abstract

The invention discloses a ridge dividing device for soil cultivation, which comprises a main protective shell. The invention can fill cement and other raw materials in the groove part of the field peduncle after digging the groove, thereby forming a dividing interface at the ridge part, blocking the problems of crop streaming between two mu of fields and the like, the device can form accumulation at the division part, has simple structure and high automation degree, and moreover, the device is provided with a coil spring telescopic pulley clamping control mechanism which can be clamped on a track and form certain resistance movement, and has the function of self-pushing after forming stress on deposits, the device is provided with an annular array elastic contact type maximum rotation strength control mechanism which can control the maximum rotation strength and prevent the occurrence of equipment damage caused by overlarge resistance, in addition, the device has a pulley clamping type track guide mechanism and can guide and move main components.

Description

Land is tilled with dividing ridge device

Technical Field

The invention relates to the technical field of land equipment, in particular to a ridge dividing device for soil cultivation.

Background

At present, after field acre is divided, independent peduncles can be divided into good fields per acre, the existing peduncle dividing mode is manual division, the quality of the divided peduncles is poor, the blocking capability is poor, and the limitation is large.

Disclosure of Invention

The invention aims to provide a ridge dividing device for soil cultivation, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a ridge separating device for soil cultivation comprises a main protective shell, wherein the main protective shell is of an n-shaped structure, a forming space is arranged in the main protective shell, the bottom and one end face of the forming space are of a cover-free structure, the other end face of the main protective shell is of a solid structure, a main component mounting base plate of an integrated structure is arranged in the middle of the end face of the main protective shell, a raw material feeding groove structure is arranged in the center of the upper surface of the main protective shell, a raw material falling space is arranged at the bottom of one side of the raw material feeding groove structure, a raw material conveying space is arranged at the bottom of the raw material falling space, one end of the raw material conveying space is communicated with the top of one side of the forming space, a driving motor mounting plate is arranged on one side of the upper surface of the main component mounting base plate, a driving motor is arranged on the surface of the driving motor mounting plate, and an annular array elastic contact type, annular array elasticity is supported and is touched the biggest rotation intensity control mechanism's of formula a terminal surface center and install a main rotation axis, main rotation axis's spindle nose runs through a main protective housing terminal surface, just main rotation axis installs main helical blade on being located the inside axis body in raw materials transport space, horizontal telescopic link, two are installed through the main connecting plate respectively in the both sides middle part of main part mounting substrate the telescopic pulley joint control mechanism of a coil spring, two is installed respectively to the tip of horizontal telescopic link the telescopic pulley joint control mechanism's of coil spring bottom joint is in the inside of a pulley joint formula track guiding mechanism.

Further, the coil spring telescopic pulley clamping control mechanism comprises a hollow shell for the coil spring telescopic pulley clamping control mechanism, a hollow structure for the coil spring telescopic pulley clamping control mechanism, a component mounting groove structure for the coil spring telescopic pulley clamping control mechanism, a movable plate for the coil spring telescopic pulley clamping control mechanism, a telescopic rod for the coil spring telescopic pulley clamping control mechanism, a coil spring for the coil spring telescopic pulley clamping control mechanism, a mounting plate for the coil spring telescopic pulley clamping control mechanism, a transverse connecting shaft for the coil spring telescopic pulley clamping control mechanism and a pulley for the coil spring telescopic pulley clamping control mechanism; the telescopic pulley of coil spring joint control mechanism is provided with the telescopic pulley of coil spring hollow structure for joint control mechanism at the center of the inside of hollow shell, the telescopic pulley of coil spring joint control mechanism is provided with the telescopic pulley of coil spring joint control mechanism and constructs with part mounting groove structure with hollow shell's outside one end, the telescopic pulley of coil spring joint control mechanism is with a movable plate for telescopic pulley joint control mechanism of coil spring's internally mounted of hollow structure, a telescopic link for telescopic pulley joint control mechanism of coil spring is installed at a terminal surface center of the movable plate for telescopic pulley joint control mechanism of coil spring, cup joint a compressed telescopic coil spring for telescopic pulley joint control mechanism of coil spring on the body of rod of telescopic link for telescopic pulley joint control mechanism of coil spring, the telescopic body of rod for the pulley joint control mechanism of coil spring runs through the body of rod for the telescopic link of coil spring Formula pulley joint is hollow shell terminal surface center for control mechanism, the telescopic pulley joint for control mechanism of coil spring is at the one end installation mounting panel for the telescopic pulley joint control mechanism of coil spring that is located outside, the terminal surface center of the telescopic pulley joint for control mechanism of coil spring mounting panel is through the horizontal connecting axle for the telescopic pulley joint control mechanism of main bearing installation coil spring, the telescopic pulley joint for control mechanism of coil spring is installed the pulley for the telescopic pulley joint control mechanism of coil spring with the one end of horizontal connecting axle.

Furthermore, the inside of the component mounting groove structure for the coil spring telescopic pulley clamping control mechanism is provided with one end rod body of a transverse telescopic rod.

Furthermore, the pulley for the coil spring telescopic pulley clamping control mechanism is clamped in the pulley clamping type track guide mechanism.

Further, the annular array elastic contact type maximum rotation strength control mechanism comprises a main hollow shell for the annular array elastic contact type maximum rotation strength control mechanism, a main hollow section for the annular array elastic contact type maximum rotation strength control mechanism, a rotary column for the annular array elastic contact type maximum rotation strength control mechanism, a semicircular groove structure for the annular array elastic contact type maximum rotation strength control mechanism, an auxiliary hollow section for the annular array elastic contact type maximum rotation strength control mechanism, a movable plate for the annular array elastic contact type maximum rotation strength control mechanism, a spiral spring for the annular array elastic contact type maximum rotation strength control mechanism and a push rod for the annular array elastic contact type maximum rotation strength control mechanism; the center of one end face of a main hollow shell for the annular array elastic contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle, the center of the inside of the main hollow shell for the annular array elastic contact type maximum rotation strength control mechanism is a main hollow section for the annular array elastic contact type maximum rotation strength control mechanism, a rotary column for the annular array elastic contact type maximum rotation strength control mechanism is sleeved inside the main hollow section for the annular array elastic contact type maximum rotation strength control mechanism, the inside of the main hollow shell for the annular array elastic contact type maximum rotation strength control mechanism is an auxiliary hollow section for the annular array elastic contact type maximum rotation strength control mechanism, and the inside of the auxiliary hollow section for the annular array elastic contact type maximum rotation strength control mechanism is positioned inside the annular hollow section for the annular array elastic contact type maximum rotation strength control mechanism A movable plate for the annular array elastic contact type maximum rotation strength control mechanism is arranged on one end face of the main hollow section for the array elastic contact type maximum rotation strength control mechanism, a spiral spring for the annular array elastic contact type maximum rotation strength control mechanism is fixed between one ends of the movable plates for the annular array elastic contact type maximum rotation strength control mechanism by the auxiliary hollow section for the annular array elastic contact type maximum rotation strength control mechanism, a push rod for the annular array elastic contact type maximum rotation strength control mechanism is arranged on one end face of the movable plate for the annular array elastic contact type maximum rotation strength control mechanism and is of an integrated structure with the movable plate, and the push rod for the annular array elastic contact type maximum rotation strength control mechanism penetrates through the main hollow shell for the annular array elastic contact type maximum rotation strength control mechanism, the annular array elastic contact type maximum rotation strength control mechanism is located in the main hollow section for the annular array elastic contact type maximum rotation strength control mechanism, one end, located in the main hollow section for the annular array elastic contact type maximum rotation strength control mechanism, of the push rod for the annular array elastic contact type maximum rotation strength control mechanism is of a semicircular structure, a semicircular groove structure for the annular array elastic contact type maximum rotation strength control mechanism is arranged on the side face of the rotary column for the annular array elastic contact type maximum rotation strength control mechanism and used for placing the end portion of the push rod for the annular array elastic contact type maximum rotation strength control mechanism, and one end of the rotary column for the annular array elastic contact type maximum rotation strength control mechanism is fixed with the end portion of the main rotary shaft.

Further, the initial length of the coil spring for the annular array elastic contact type maximum rotation strength control mechanism is greater than the length of the auxiliary hollow section for the annular array elastic contact type maximum rotation strength control mechanism.

Furthermore, the structural shape of the end part of the push rod for the annular array elastic contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure for the annular array elastic contact type maximum rotation strength control mechanism.

Furthermore, the pulley clamping type track guide mechanism comprises a guide rail body for the pulley clamping type track guide mechanism, a clamping groove structure for the pulley clamping type track guide mechanism, a fixed plate structure for the pulley clamping type track guide mechanism and a fixed rod inserting hole for the pulley clamping type track guide mechanism; pulley joint formula track is joint groove structure for guide mechanism is provided with inside one side of the guide rail body for guide mechanism of pulley joint formula track, pulley joint formula track is provided with the pulley joint formula fixed plate structure for guide mechanism of integral type structure bottom the other side of the guide rail body for guide mechanism of pulley joint formula track, the inside of pulley joint formula fixed plate structure for guide mechanism of track is provided with a plurality of pulley joint formula dead lever patchholes for guide mechanism of track.

Further, the pulley clamping type track is connected with the pulley for the pulley clamping control mechanism in a clamping groove structure in a clamping mode through a spiral spring.

Furthermore, a fixing rod is inserted into the fixing rod insertion hole for the pulley clamping type rail guide mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention can fill cement and other raw materials in the groove part of the field peduncle after digging the groove, thereby forming a dividing interface at the ridge part, blocking the problems of crop streaming between two mu of fields and the like, the device can form accumulation at the division part, has simple structure and high automation degree, and moreover, the device is provided with a coil spring telescopic pulley clamping control mechanism which can be clamped on a track and form certain resistance movement, and has the function of self-pushing after forming stress on deposits, the device is provided with an annular array elastic contact type maximum rotation strength control mechanism which can control the maximum rotation strength and prevent the occurrence of equipment damage caused by overlarge resistance, in addition, the device has a pulley clamping type track guide mechanism and can guide and move main components.

Drawings

FIG. 1 is a schematic view of a full-section structure of a ridge dividing device for soil cultivation of the invention;

FIG. 2 is a schematic structural view of a spiral spring telescopic pulley clamping control mechanism in the ridge dividing device for soil cultivation;

FIG. 3 is a schematic structural view of an annular array elastic contact type maximum rotation strength control mechanism in the ridge dividing device for soil cultivation of the invention;

FIG. 4 is a schematic structural view of a pulley clamping type track guide mechanism in the ridge dividing device for soil cultivation;

in the figure: 1, a main protective housing, 2, a main part mounting base plate, 3, a forming space, 4, a raw material input groove structure, 5, a raw material falling space, 6, a raw material conveying space, 7, a driving motor mounting plate, 8, a driving motor, 9, a motor spindle, 10, a main rotating shaft, 11, a main helical blade, 12, a main connecting plate, 13, a transverse telescopic rod, 14, a coil spring telescopic pulley clamping control mechanism, 141, a hollow housing for the coil spring telescopic pulley clamping control mechanism, 142, a hollow structure for the coil spring telescopic pulley clamping control mechanism, 143, a part mounting groove structure for the coil spring telescopic pulley clamping control mechanism, 144, a coil spring telescopic pulley clamping control mechanism, 145, a telescopic rod for the coil spring telescopic pulley clamping control mechanism, a moving plate 146, a coil spring for the coil spring telescopic pulley clamping control mechanism, 147, a mounting plate for a coil spring telescopic pulley clamping control mechanism, 148, a transverse connecting shaft for a coil spring telescopic pulley clamping control mechanism, 149, pulleys for a coil spring telescopic pulley clamping control mechanism, 15, a ring array elastic contact type maximum rotation strength control mechanism, 151, a main hollow shell for a ring array elastic contact type maximum rotation strength control mechanism, 152, a main hollow section for a ring array elastic contact type maximum rotation strength control mechanism, 153, a rotary column for a ring array elastic contact type maximum rotation strength control mechanism, 154, a semicircular groove structure for a ring array elastic contact type maximum rotation strength control mechanism, 155, an auxiliary hollow section for a ring array elastic contact type maximum rotation strength control mechanism, 156, a movable plate for a ring array elastic contact type maximum rotation strength control mechanism, 157, the annular array elastic contact type maximum rotation strength control mechanism comprises a spiral spring 158, a push rod 16, a pulley clamping type track guide mechanism 161, a guide rail body 162 for the pulley clamping type track guide mechanism, a clamping groove structure 163 for the pulley clamping type track guide mechanism, a fixing plate structure 164 for the pulley clamping type track guide mechanism and a fixing rod inserting hole for the pulley clamping type track guide mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the protective device comprises a main protective shell 1, wherein the main protective shell 1 is of an n-shaped structure, a forming space 3 is arranged in the main protective shell 1, the bottom and one end face of the forming space 3 are of a cover-free structure, the other end face of the main protective shell 1 is of a solid structure, a main component mounting substrate 2 of an integrated structure is arranged in the middle of the end face of the main protective shell 1, a raw material feeding groove structure 4 is arranged in the center of the upper surface of the main protective shell 1, a raw material falling space 5 is arranged at the bottom of one side of the raw material feeding groove structure 4, a raw material conveying space 6 is arranged at the bottom of the raw material falling space 5, one end of the raw material conveying space 6 is communicated with the top of one side of the forming space 3, a driving motor mounting plate 7 is arranged on one side of the upper surface of the main component mounting, an annular array elasticity abutting type maximum rotation strength control mechanism 15 is installed at the end portion of a motor spindle 9 of a driving motor 8, a main rotation shaft 10 is installed at the center of one end face of the annular array elasticity abutting type maximum rotation strength control mechanism 15, a spindle head of the main rotation shaft 10 penetrates through one end face of a main protective shell 1, a main spiral blade 11 is installed on a spindle body located inside a raw material conveying space 6 through the main connection plate 12 in the middle of the two sides of a main part installation substrate 2, a transverse telescopic rod 13 and two are installed at the middle of the two sides of the main part installation substrate 2, a spiral spring telescopic pulley clamping control mechanism 14 and two are installed at the end portion of the transverse telescopic rod 13 respectively, and the bottom clamping of the spiral spring telescopic pulley clamping control mechanism 14 is located inside a pulley clamping type track guiding mechanism 16.

Referring to fig. 2, the coil spring telescopic pulley clamping control mechanism 14 includes a hollow housing 141 for the coil spring telescopic pulley clamping control mechanism, a hollow structure 142 for the coil spring telescopic pulley clamping control mechanism, a component mounting groove structure 143 for the coil spring telescopic pulley clamping control mechanism, a moving plate 144 for the coil spring telescopic pulley clamping control mechanism, a telescopic rod 145 for the coil spring telescopic pulley clamping control mechanism, a coil spring 146 for the coil spring telescopic pulley clamping control mechanism, a mounting plate 147 for the coil spring telescopic pulley clamping control mechanism, a transverse connecting shaft 148 for the coil spring telescopic pulley clamping control mechanism, and a pulley 149 for the coil spring telescopic pulley clamping control mechanism; the hollow shell 141 for the coil spring telescopic pulley clamping control mechanism is internally provided with a hollow structure 142 for the coil spring telescopic pulley clamping control mechanism at the center, one end of the outer side of the hollow shell 141 for the coil spring telescopic pulley clamping control mechanism is provided with a component mounting groove structure 143 for the coil spring telescopic pulley clamping control mechanism, a movable plate 144 for the coil spring telescopic pulley clamping control mechanism is mounted inside the hollow structure 142 for the coil spring telescopic pulley clamping control mechanism, a telescopic rod 145 for the coil spring telescopic pulley clamping control mechanism is mounted at the center of one end face of the movable plate 144 for the coil spring telescopic pulley clamping control mechanism, and a compressed coil spring 146 for the coil spring telescopic pulley clamping control mechanism is sleeved on a rod body of the telescopic rod 145 for the coil spring telescopic pulley clamping control mechanism, the rod body of the telescopic rod 145 for the coil spring telescopic pulley clamping control mechanism penetrates through the center of one end face of the hollow shell 141 for the coil spring telescopic pulley clamping control mechanism, the telescopic rod 145 for the coil spring telescopic pulley clamping control mechanism is provided with a mounting plate 147 for the coil spring telescopic pulley clamping control mechanism at one end positioned outside, the center of one end face of the mounting plate 147 for the coil spring telescopic pulley clamping control mechanism is provided with a transverse connecting shaft 148 for the coil spring telescopic pulley clamping control mechanism through a main bearing, and one end of the transverse connecting shaft 148 for the coil spring telescopic pulley clamping control mechanism is provided with a pulley 149 for the coil spring telescopic pulley clamping control mechanism; the part mounting groove structure 143 for the coil spring telescopic pulley clamping control mechanism is internally provided with one end rod body of the transverse telescopic rod 13; the coil spring telescopic pulley clamping control mechanism is clamped inside the pulley clamping type rail guide mechanism 16 by a pulley 149.

Referring to fig. 3, the annular array elastic contact type maximum rotation strength control mechanism 15 includes a main hollow housing 151 for the annular array elastic contact type maximum rotation strength control mechanism, a main hollow section 152 for the annular array elastic contact type maximum rotation strength control mechanism, a rotary column 153 for the annular array elastic contact type maximum rotation strength control mechanism, a semicircular groove structure 154 for the annular array elastic contact type maximum rotation strength control mechanism, a sub hollow section 155 for the annular array elastic contact type maximum rotation strength control mechanism, a movable plate 156 for the annular array elastic contact type maximum rotation strength control mechanism, a coil spring 157 for the annular array elastic contact type maximum rotation strength control mechanism, and a push rod 158 for the annular array elastic contact type maximum rotation strength control mechanism; the center of one end face of the main hollow shell 151 for the annular array elastic contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle 9, the center of the inside of the main hollow shell 151 for the annular array elastic contact type maximum rotation strength control mechanism is a main hollow section 152 for the annular array elastic contact type maximum rotation strength control mechanism, a rotating column 153 for the annular array elastic contact type maximum rotation strength control mechanism is sleeved inside the main hollow shell 151 for the annular array elastic contact type maximum rotation strength control mechanism, the inside of the main hollow shell 151 for the annular array elastic contact type maximum rotation strength control mechanism is an auxiliary hollow section 155 for the annular array elastic contact type maximum rotation strength control mechanism, a movable plate 156 for the annular array elastic contact maximum rotation strength control mechanism is disposed inside the auxiliary hollow section 155 for the annular array elastic contact maximum rotation strength control mechanism at one end face of the main hollow section 152 for the annular array elastic contact maximum rotation strength control mechanism, a coil spring 157 for the annular array elastic contact maximum rotation strength control mechanism is fixed between the auxiliary hollow section 155 for the annular array elastic contact maximum rotation strength control mechanism and one end of the movable plate 156 for the annular array elastic contact maximum rotation strength control mechanism, a push rod 158 for the annular array elastic contact maximum rotation strength control mechanism of an integral structure with the movable plate 156 is disposed at one end face of the movable plate 156 for the annular array elastic contact maximum rotation strength control mechanism, and the push rod 158 for the annular array elastic contact maximum rotation strength control mechanism penetrates through the annular array elastic contact maximum rotation strength control mechanism A main hollow housing 151 for a maximum rotation strength control mechanism, which is located inside the main hollow section 152 for the annular array elastic contact type maximum rotation strength control mechanism, wherein one end of the push rod 158 for the annular array elastic contact type maximum rotation strength control mechanism, which is located in the main hollow section 152 for the annular array elastic contact type maximum rotation strength control mechanism, is a semicircular structure, a semicircular groove structure 154 for the annular array elastic contact type maximum rotation strength control mechanism, which is used for placing the end of the push rod 158 for the annular array elastic contact type maximum rotation strength control mechanism, is arranged on the side surface of the rotary column 153 for the annular array elastic contact type maximum rotation strength control mechanism, and one end of the rotary column 153 for the annular array elastic contact type maximum rotation strength control mechanism is fixed to the end of the main rotary shaft 10; the initial length of the coil spring 157 for the annular array elastic contact type maximum rotation strength control mechanism is greater than the length of the auxiliary hollow section 155 for the annular array elastic contact type maximum rotation strength control mechanism; the structural shape of the end of the push rod 158 for the annular array elastic contact type maximum rotation strength control mechanism is identical to the structural shape of the semicircular groove structure 154 for the annular array elastic contact type maximum rotation strength control mechanism.

Referring to fig. 4, the pulley clamping type rail guide mechanism 16 includes a rail body 161 for the pulley clamping type rail guide mechanism, a clamping groove structure 162 for the pulley clamping type rail guide mechanism, a fixing plate structure 163 for the pulley clamping type rail guide mechanism, and a fixing rod insertion hole 164 for the pulley clamping type rail guide mechanism; a clamping groove structure 162 for the pulley clamping type rail guide mechanism is arranged inside one side of the guide rail body 161 for the pulley clamping type rail guide mechanism, a fixing plate structure 163 for the pulley clamping type rail guide mechanism is arranged at the bottom of the other side of the guide rail body 161 for the pulley clamping type rail guide mechanism, and a plurality of fixing rod inserting holes 164 for the pulley clamping type rail guide mechanism are arranged inside the fixing plate structure 163 for the pulley clamping type rail guide mechanism; a pulley 149 for a coil spring telescopic pulley clamping control mechanism is clamped in the clamping groove structure 162 for the pulley clamping type track guide mechanism; a fixing rod is inserted into the fixing rod insertion hole 164 for the pulley clamping type rail guide mechanism.

The specific use mode is as follows: during the operation of the invention, firstly, a groove is dug by a groover at the dividing boundary, then pulley clamping type track guide mechanisms 16 are laid at the two sides of the groove, when the groove is laid, the pulley clamping type track guide mechanisms 16 at the two sides are symmetrically arranged about the central line of the groove, the clamping groove structure in the pulley clamping type track guide mechanisms 16 faces outwards, then a pulley in a spiral spring telescopic pulley clamping control mechanism 14 is clamped in the clamping groove structure, at the moment, the bottom of a main protective shell 1 is clamped in the groove, a driving motor 8 is opened, then deposits are thrown into the groove structure 4, the deposits are continuously poured into a forming space 3 under the action of a main spiral blade 11, and the deposits are continuously increased and continuously move according to the pulley clamping type track guide mechanisms 14 due to the reaction force after reaching a certain degree, realizing the function of stem separation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a land farming is with dividing ridge device, includes main protective housing (1), its characterized in that: the main protective shell (1) is of an n-shaped structure, a forming space (3) is arranged in the main protective shell, the bottom and one end face of the forming space (3) are of a cover-free structure, the other end face of the main protective shell (1) is of a solid structure, a main component mounting substrate (2) of an integrated structure is arranged in the middle of the end face of the main protective shell (1), a raw material feeding groove structure (4) is arranged in the center of the upper surface of the main protective shell (1), a raw material falling space (5) is arranged at the bottom of one side of the raw material feeding groove structure (4), a raw material conveying space (6) is arranged at the bottom of the raw material falling space (5), one end of the raw material conveying space (6) is communicated with the top of one side of the forming space (3), and a driving motor mounting plate (7) is arranged on one side of the, a surface mounting driving motor (8) of driving motor mounting panel (7), a motor spindle (9) tip installation annular array elasticity of driving motor (8) is to the biggest rotation intensity control mechanism of formula (15), an end face center installation main rotation axle (10) of the biggest rotation intensity control mechanism of formula (15) is supported in the annular array elasticity, the spindle nose of main rotation axle (10) runs through main protective housing (1) a terminal surface, just main rotation axle (10) install main helical blade (11) on lieing in the inside axis body in raw materials transportation space (6), horizontal telescopic link (13) are installed respectively through main connecting plate (12) in the middle part of the both sides of main part mounting substrate (2), two telescopic coil spring pulley joint control mechanism (14) are installed respectively to the tip of horizontal telescopic link (13), two the bottom joint of telescopic coil spring pulley joint control mechanism (14) is at a pulley joint formula An inner part of the rail guide mechanism (16).

2. The ridge dividing device for soil cultivation according to claim 1, wherein: the coil spring telescopic pulley clamping control mechanism (14) comprises a hollow shell (141) for the coil spring telescopic pulley clamping control mechanism, a hollow structure (142) for the coil spring telescopic pulley clamping control mechanism, a component mounting groove structure (143) for the coil spring telescopic pulley clamping control mechanism, a movable plate (144) for the coil spring telescopic pulley clamping control mechanism, a telescopic rod (145) for the coil spring telescopic pulley clamping control mechanism, a coil spring (146) for the coil spring telescopic pulley clamping control mechanism, a mounting plate (147) for the coil spring telescopic pulley clamping control mechanism, a transverse connecting shaft (148) for the coil spring telescopic pulley clamping control mechanism and a pulley (149) for the coil spring telescopic pulley clamping control mechanism; the hollow structure (142) for the coil spring telescopic pulley clamping control mechanism is arranged at the center inside the hollow shell (141) for the coil spring telescopic pulley clamping control mechanism, a component mounting groove structure (143) for the coil spring telescopic pulley clamping control mechanism is arranged at one end outside the hollow shell (141) for the coil spring telescopic pulley clamping control mechanism, a movable plate (144) for the coil spring telescopic pulley clamping control mechanism is mounted inside the hollow structure (142) for the coil spring telescopic pulley clamping control mechanism, a telescopic rod (145) for the coil spring telescopic pulley clamping control mechanism is mounted at the center of one end face of the movable plate (144) for the coil spring telescopic pulley clamping control mechanism, and a compressed coil spring (146) for the coil spring telescopic pulley clamping control mechanism is sleeved on a rod body of the telescopic rod (145) for the coil spring telescopic pulley clamping control mechanism, the body of rod of telescopic link (145) for the telescopic pulley joint control mechanism of coil spring runs through the telescopic pulley joint control mechanism of coil spring is with hollow shell (141) a terminal surface center, the telescopic pulley joint control mechanism of coil spring is with telescopic link (145) at the outside one end installation mounting panel (147) for the telescopic pulley joint control mechanism of coil spring, a terminal surface center of the telescopic pulley joint control mechanism of coil spring is through a horizontal connecting axle (148) for the telescopic pulley joint control mechanism of coil spring of base bearing installation mounting panel (147), the telescopic pulley joint control mechanism of coil spring is with pulley (149) for the telescopic pulley joint control mechanism of coil spring of one end installation of horizontal connecting axle (148).

3. The ridge dividing device for soil cultivation according to claim 2, wherein: the inside of the part mounting groove structure (143) for the coil spring telescopic pulley clamping control mechanism is provided with one end rod body of a transverse telescopic rod (13).

4. The ridge dividing device for soil cultivation according to claim 2, wherein: the pulley (149) for the coil spring telescopic pulley clamping control mechanism is clamped in the pulley clamping type track guide mechanism (16).

5. The ridge dividing device for soil cultivation according to claim 1, wherein: the annular array elastic contact type maximum rotation strength control mechanism (15) comprises a main hollow shell (151) for the annular array elastic contact type maximum rotation strength control mechanism, a main hollow section (152) for the annular array elastic contact type maximum rotation strength control mechanism, a rotary column (153) for the annular array elastic contact type maximum rotation strength control mechanism, a semicircular groove structure (154) for the annular array elastic contact type maximum rotation strength control mechanism, an auxiliary hollow section (155) for the annular array elastic contact type maximum rotation strength control mechanism, a movable plate (156) for the annular array elastic contact type maximum rotation strength control mechanism, a spiral spring (157) for the annular array elastic contact type maximum rotation strength control mechanism and a push rod (158) for the annular array elastic contact type maximum rotation strength control mechanism; the center of one end face of the main hollow shell (151) for the annular array elastic contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle (9), the center of the inner part of the main hollow shell (151) for the annular array elastic contact type maximum rotation strength control mechanism is a main hollow section (152) for the annular array elastic contact type maximum rotation strength control mechanism, a rotary column (153) for the annular array elastic contact type maximum rotation strength control mechanism is sleeved in the main hollow shell (151) for the annular array elastic contact type maximum rotation strength control mechanism positioned in the main hollow section (152) for the annular array elastic contact type maximum rotation strength control mechanism, an auxiliary hollow section (155) for the annular array elastic contact type maximum rotation strength control mechanism is arranged in the main hollow shell (151) for the annular array elastic contact type maximum rotation strength control mechanism, a movable plate (156) for the annular array elastic contact type maximum rotation strength control mechanism is arranged in an auxiliary hollow area (155) for the annular array elastic contact type maximum rotation strength control mechanism on one end surface of a main hollow area (152) for the annular array elastic contact type maximum rotation strength control mechanism, a spiral spring (157) for the annular array elastic contact type maximum rotation strength control mechanism is fixed between the auxiliary hollow area (155) for the annular array elastic contact type maximum rotation strength control mechanism and one end of the movable plate (156) for the annular array elastic contact type maximum rotation strength control mechanism, a push rod (158) for the annular array elastic contact type maximum rotation strength control mechanism is arranged on one end surface of the movable plate (156) for the annular array elastic contact type maximum rotation strength control mechanism and is of an integrated structure with the movable plate, and the annular array elastic contact type maximum rotation strength control mechanism push rod (158) penetrates the annular array elastic contact type maximum rotation strength control mechanism main hollow shell (151) and is positioned in the annular array elastic contact type maximum rotation strength control mechanism main hollow section (152), the annular array elastic contact type maximum rotation strength control mechanism push rod (158) is in a semicircular structure at one end of the annular array elastic contact type maximum rotation strength control mechanism main hollow section (152), a semicircular groove structure (154) for placing the annular array elastic contact type maximum rotation strength control mechanism push rod (158) end part is arranged on the side surface of the annular array elastic contact type maximum rotation strength control mechanism rotary column (153), one end of the annular array elastic contact type maximum rotation strength control mechanism is fixed with the end part of the main rotating shaft (10) through one end of a rotating column (153).

6. The ridge dividing device for soil cultivation according to claim 5, wherein: the initial length of the spiral spring (157) for the annular array elastic contact type maximum rotation strength control mechanism is larger than the length of the auxiliary hollow section (155) for the annular array elastic contact type maximum rotation strength control mechanism.

7. The ridge dividing device for soil cultivation according to claim 5, wherein: the structural shape of the end part of the push rod (158) for the annular array elastic contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure (154) for the annular array elastic contact type maximum rotation strength control mechanism.

8. The ridge dividing device for soil cultivation according to claim 1, wherein: the pulley clamping type track guiding mechanism (16) comprises a guide rail body (161) for the pulley clamping type track guiding mechanism, a clamping groove structure (162) for the pulley clamping type track guiding mechanism, a fixing plate structure (163) for the pulley clamping type track guiding mechanism and a fixing rod inserting hole (164) for the pulley clamping type track guiding mechanism; pulley joint formula track is inside to be provided with pulley joint formula track clamping groove structure (162) for guide mechanism of one side of the guide rail body (161) for guide mechanism of pulley joint formula track, pulley joint formula track is provided with pulley joint formula fixed plate structure (163) for guide mechanism of integral type structure with the opposite side bottom of the guide rail body (161) of guide rail body (163) for guide mechanism of pulley joint formula track, the inside of pulley joint formula fixed plate structure (163) for guide mechanism of track is provided with dead lever patchhole (164) for guide mechanism of a plurality of pulley joint formula tracks.

9. The ridge dividing device for soil cultivation according to claim 8, wherein: pulley joint formula track for guiding mechanism joint groove structure (162)'s inside joint has the telescopic pulley for control mechanism of coil spring joint pulley (149).

10. The ridge dividing device for soil cultivation according to claim 8, wherein: a fixing rod is inserted into the fixing rod insertion hole (164) for the pulley clamping type rail guide mechanism.

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