CN111955080B - Cotton planting is with integrative device of fertilization of earthing up - Google Patents

Abstract

The invention provides a ridging and fertilizing integrated device for cotton planting, which comprises a main body and ridging wheels, wherein the main body is fixedly connected with a handle at one side of the top end to control the moving direction of the main body, and the middle part of the main body is fixedly connected with a motor to drive rollers and the ridging wheels to rotate. According to the invention, the surface formed by the combined blocks around the fertilizing mechanism can be extended and expanded to open a certain gap due to the joint friction of the two ends of the fertilizing mechanism when the hilling wheel rotates, the fertilizer stored in the hollow part in the middle of the fertilizing mechanism falls out through the gap, then the two ends of the fertilizing mechanism are separated from the two sides of the hilling wheel to reset and bunch due to the propping and extrusion of the separation arc grooves, so that the fertilizing mechanism can automatically fertilize the soil after hilling without a certain distance, the soil does not need to be fertilized again when cotton is planted after hilling, and the fertilizing mechanism can directly fertilize in the hilling process to make the cotton planting more convenient.

Description

Cotton planting is with integrative device of fertilization of earthing up

Technical Field

The invention relates to the technical field of agricultural planting, in particular to a ridging device for cotton planting.

Background

The planting is plant cultivation, including the cultivation of various crops, woods, fruit trees, flowers and plants, medicinal and ornamental plants and the like, and comprises grain crops, economic crops, vegetable crops, green manure crops, feed crops, pasture and the like. And wherein carry out ditching and the processing of loosening the soil through its device of earthing up when planting the cotton for the planting of its cotton is more convenient, but current cotton planting need have certain requirement just can plant good cotton to soil, consequently need carry out the composition that certain fertilization changed soil in soil after earthing up and let the growth that its cotton can be smooth when planting to the composition that carries out in soil, but current earthing up fertilization all separates twice going on, consequently make it still need fertilize comparatively trouble once more after earthing up.

Disclosure of Invention

The invention aims to solve the technical problem that the cotton planting is troublesome because the soil needs to be fertilized for the second time after the ridging device for the cotton planting is used for ridging the soil, so that the cotton planting is convenient.

The invention discloses a ridging and fertilizing integrated device for cotton planting, which aims and effects are achieved by the following specific technical means:

a ridging and fertilizing integrated device for cotton planting comprises a main body and ridging wheels, wherein the main body is fixedly connected with a handle at one side of the top end to control the moving direction of the main body, a motor is fixedly connected with the middle of the main body to drive a roller and the ridging wheels to rotate, and the rotation of the ridging wheels is embedded and arranged at the bottom end of the main body to dig soil for ridging;

And the fertilizing mechanism is arranged on the surface of the bearing which is connected between the two hilling wheels in a sleeved and embedded manner.

Further preferred embodiments: the hilling wheel comprises;

the ridging blade is a rectangular bump fixedly connected and bent in an arc shape on the peripheral surface of a ridging wheel.

Further preferred embodiments: the earthed leaf comprises;

the limiting extension groove is a rectangular groove which is formed by bending the middle part of the surface of one side of the ridging blade in an arc shape, and the surface of the inner wall of the middle part of the limiting extension groove is fixedly connected with a thread-shaped groove mark;

the separation arc groove is a groove which limits the middle top end of the groove of the extension groove to be in arc-shaped inclined extension.

Further preferred embodiments: the fertilizing mechanism comprises a fertilizer applying mechanism;

the combined block is a plurality of arc-shaped rectangular blocks which are spliced and combined with each other around the fertilizing mechanism to form a circular fertilizing mechanism;

the telescopic shaft is an elastic telescopic guide rod which is connected with a round shaft inside the fertilizing mechanism on one side inside the combination blocks around the fertilizing mechanism.

Further preferred embodiments: the fertilization mechanism is hollow around the middle part, the peripheral surface of the fertilization mechanism is composed of combination blocks, and disc bulges with larger diameters are arranged at the two ends of the fertilization mechanism.

Further preferred embodiments: the fertilization mechanism and the combination blocks are combined with each other, the length of the circular shaft is embedded in the limited extension grooves opposite to the ridging leaves on the two sides, and the width of the limited extension groove is larger than that of the circular ring of the circular shaft formed by combining the fertilization mechanism and the combination blocks.

Further preferred embodiments: the combination block also comprises;

the expansion shaft is a circular shaft which is formed by connecting the combination blocks, and two ends of the circular shaft of the expansion shaft are elastically connected with one side of the combination blocks through springs;

the expansion block is a circular ring rectangular square block with two ends of the combination block elastically connected in an embedded mode through a spring, and a groove mark embedded with the surface of the inner wall of the middle of the groove of the limited extension groove is formed in the surface of one side of the expansion block;

the deflection block is a rectangular pull-out part which is embedded and connected with the surface of one side of each combined block;

and the rotating shaft is a circular shaft which is formed by connecting the deflection blocks on the two sides of the combined block to the two sides of the combined block.

Has the advantages that:

(1) this kind of cotton planting is with integrative device of fertilization of earthing up is provided with fertilizing mechanism, can let fertilizing mechanism extend the extension because the laminating friction at its both ends makes it open certain gap around the fertilizing mechanism, let the fertilizer that fertilizing mechanism middle part hollow portion stored drop out through its gap in the wheel rotation of earthing up, then make it reset and bundle with earthing up wheel both sides separation because the counterbalance extrusion in separation arc groove lets fertilizing mechanism's both ends, make its fertilizing mechanism can not have the certain distance of interval to fertilize the soil after earthing up by oneself, make and need not fertilize soil once more when planting the cotton after earthing up, let its in-process that can directly fertilize and make its cotton planting more convenient at earthing up.

(2) The device is provided with the deflection block, can slide away along the inclined plane of its deflection block when fertilizer drops away through the gap through the deflection block and make it form certain movement track and let dropping of its fertilizer more even.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the hilling wheel of the present invention.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of the whole structure of the fertilizing mechanism of the invention.

Fig. 5 is an enlarged view of the structure at B in fig. 4 according to the present invention.

Fig. 6 is a schematic view of the overall structure of the deflection block of the present invention.

Fig. 7 is a side view overall section structure schematic diagram of the fertilizing mechanism of the invention.

In FIGS. 1-7: the device comprises a main body 1, a handle 101, a motor 102, a roller 103, a hilling wheel 2, a hilling blade 201, a limited extension groove 2011, a separation arc groove 2012, a fertilizing mechanism 3, a combination block 301, an extension shaft 3011, an extension block 3012, a deflection block 3013, a rotating shaft 3014 and a telescopic shaft 302.

Detailed Description

As shown in figures 1 to 7:

the invention provides a ridging and fertilizing integrated device for cotton planting, which comprises a main body 1 and a ridging wheel 2, wherein the main body 1 controls the moving direction of the main body 1 by fixedly connecting a handle 101 at one side of the top end of the main body 1, a motor 102 is fixedly connected to the middle of the main body 1 to drive a roller 103 and the ridging wheel 2 to rotate, and the ridging wheel 2 is embedded at the bottom end of the main body 1 to rotate so as to dig soil for ridging;

The fertilizing mechanism 3, the fertilizing mechanism 3 is set on the bearing surface of the mutual connection between the two hilling wheels 2 for the jogged joint.

Wherein, the hilling wheel 2 comprises;

the hilling blade 201 is a rectangular projection fixedly connected with the peripheral surface of the hilling wheel 2 in an arc-shaped bending manner.

Wherein, the hilling leaves 201 comprise;

a limited extension groove 2011, wherein the limited extension groove 2011 is a rectangular groove which is formed by bending the middle part of the surface of one side of the hilling blade 201 in an arc shape, and the surface of the inner wall of the middle part of the limited extension groove 2011 is fixedly connected with a thread-shaped groove mark; when the two ends of the extension groove 2011 attached to the fertilizing mechanism 3 are in friction rotation, the thread groove mark in the middle of the groove of the extension groove 2011 is embedded with the thread groove marks on one sides of the expansion blocks 3012 at the two ends of the combination block 301 around the fertilizing mechanism 3, so that when the hilling wheel 2 rotates, the groove mark on one side of the hilling blade 201 defining the inner wall of the groove in the middle of the extension groove 2011 can drive the combination block 301 to extend and expand around.

The separating arc groove 2012 is a groove defining the middle top end of the groove of the extending groove 2011 to extend in an arc-shaped inclined manner, when the combination block 301 extends and extends, the extending shaft 3011 on both sides of the combination block extends and extends, and when the combination block 301 extends to a certain diameter along the defining extending groove 2011, the extending blocks 3012 on both ends of the combination block can abut against the separating arc groove 2012, the arc-shaped groove of the separating arc groove 2012 can enable the extending block 3012 to abut against the surface of the combination block to extend and extend continuously and then to be squeezed and contracted into both ends of the combination block 301, and because the surface of the separating arc groove 2012 is not provided with a groove mark, the extending block 3012 and the defining extending groove 2011 are separated through the elasticity of springs on both ends of the extending shaft 3011 to enable the combination block 301 to perform resetting and bundling temporarily to close the gap between the extending groove 2011.

Wherein, the fertilizing mechanism 3 comprises;

the combined block 301 is a plurality of arc-shaped rectangular blocks which are spliced and combined with each other to form the circular ring fertilizing mechanism 3 around the fertilizing mechanism 3, and the combined block 301 is a combined block 301; when the combination block 301 extends and expands to the surrounding, the gap of the hollow part of the fertilizing mechanism 3 is opened to allow the fertilizer stored in the hollow part between the surrounding of the fertilizing mechanism 3 and the combination block 301 to fall from the gap to fertilize the soil after ridging.

The telescopic shaft 302, the telescopic shaft 302 is the flexible guide rod that inside one side of combination piece 301 is connected with the inside round axle of fertilizing mechanism 3 around the fertilizing mechanism 3, and combination piece 301 is connected through telescopic shaft 302 and the middle part of fertilizing mechanism 3 on one side surface when extending the extension simultaneously for combination piece 301 can be connected and can not cause the influence to its extension with fertilizing mechanism 3 all the time when extending.

Wherein, the fertilization mechanism 3 is that the middle part is set up its surface around for hollowing and is constituteed by combination piece 301, and the both ends of fertilization mechanism 3 are provided with the disc arch that the diameter is bigger.

Wherein, the fertilization mechanism 3 and the combination block 301 are mutually combined together and the length of the circular shaft is embedded and arranged in the limited extension grooves 2011 opposite to the ridging leaves 201 at the two sides, and the width of the groove of the limited extension grooves 2011 is larger than the width of the circular ring of the fertilization mechanism 3 and the combination block 301 which are mutually combined together.

Wherein, the combination block 301 further comprises;

the expansion shaft 3011 is a circular shaft formed by connecting the combination blocks 301, and two ends of the circular shaft of the expansion shaft 3011 are elastically connected with one side of the combination block 301 through springs;

the expansion block 2012 is an annular rectangular square block with two ends of the combined block 301 elastically connected by spring embedding, and a groove mark embedded with the surface of the inner wall in the middle of the groove of the limited extension groove 2011 is arranged on the surface of one side of the expansion block 2012;

a deflection block 3013, wherein the deflection block 3013 is a rectangular plug-out block with a surface of one opposite side of each combination block 301 being embedded and connected; when the fertilizer falls from the extending gaps among the combination blocks 301, the fertilizer can slide down along the surfaces of the deflection blocks 3013, a certain sliding track can be formed when the fertilizer falls out through the inclined arrangement of the deflection blocks 3013, the fertilizer can uniformly fall out to form a curtain for fertilization, and the deflection blocks 3013 can rotate to change the angle of the fertilizer due to gravity center offset when the fertilizer mechanism 3 is driven to rotate for a certain amount due to friction of the fertilizer mechanism 3 through the connection of the deflection blocks 3014, so that part of the fertilizer falling out from the gaps on the two sides of the fertilizer mechanism 3 can also slide down along the inclined plane formed by the deflection blocks 3013.

The rotation axis 3014, the rotation axis 3014 is a circular axis connecting the deflection blocks 3013 on both sides of the combination block 301 to the combination block 301.

The working principle is as follows:

the specific use mode and function of the embodiment are that firstly, the grip 101 of the main body 1 is manually held to control, then the motor 102 is turned on to drive the roller 103 and the hilling wheel 2 to rotate, the main body 1 can move on the ground through the rotation of the roller 103, when the hilling wheel 2 rotates, the hilling leaf 201 can be inserted into soil to dig the hilling soil through rotation when the main body 1 moves, when the hilling wheel 2 rotates, the fertilizing mechanism 3 is sleeved in the middle of the hilling wheel 2, and two ends of the fertilizing mechanism 3 are fitted and embedded in the grooves of the limited extension grooves 2011 on one side of the hilling leaf 201, so when the hilling wheel 2 rotates, the limited extension grooves 2011 can be fitted to two ends of the fertilizing mechanism 3 to perform friction rotation, when the limited extension grooves 2011 are fitted to two ends of the fertilizing mechanism 3 to perform friction rotation, the thread groove marks in the middle of the grooves of the limited extension grooves 2011 can be combined with the extension blocks 3012 at two ends of the peripheral blocks 301 of the fertilizing mechanism 3 The thread groove marks on one side are embedded, so that when the hilling wheel 2 rotates, the groove marks on the inner wall of the groove in the middle of the limited extension groove 2011 on one side of the hilling leaf 201 can drive the combined block 301 to extend and expand to the periphery, when the combined block 301 extends and expands to the periphery, the hollow part of the fertilizing mechanism 3 can be opened to form a gap, fertilizer stored in the hollow part between the periphery of the fertilizing mechanism 3 and the combined block 301 can fall from the gap to fertilize the earthed soil, when the combined block 301 extends and expands, the expansion shafts 3011 on the two sides of the combined block are used for extending and expanding, meanwhile, when the combined block 301 extends to a certain diameter along the limited extension groove 2011, the expansion blocks 3012 on the two ends of the combined block can abut against the separation arc groove 2012, the arc-shaped groove of the separation arc groove 2012 can allow the expansion block 3012 to continuously extend and expand to the surface of the two ends of the combined block 301 by being extruded and contracted into the two ends of the combined block 301, the surface of the separation arc groove 2012 is not provided with groove marks, the expansion block 3012 and the limited extension groove 2011 are separated temporarily through the elasticity of springs at two ends of the expansion shaft 3011 to enable the combination block 301 to restore and retract to close the gap between the combination block 301, the expansion block 3012 resets through the elasticity of one side spring after the combination block 301 retracts to abut against the surface of one side of the middle groove of the limited extension groove 2011 to extend and expand again, the main body 1 can be fertilized at intervals when ridging is carried out, finally, when fertilizer falls from the extension gap between the combination blocks 301, the fertilizer can slide down along the surface of the deflection block 3013, the inclination of the deflection block 3013 can enable the fertilizer to have a certain sliding track when falling out, the fertilizer can uniformly form a curtain to fall out for fertilization, and the deflection block 3013 can enable the deflection block 3013 to be fertilized when the fertilizer mechanism 3 is rubbed by the belt due to the friction of the deflection block 3013 through the connection of the rotation shaft 3014 of the deflection block 3013 When the fertilizer applicator rotates to a certain degree due to gravity center deviation, the fertilizer applicator rotates to change the angle, so that part of fertilizer falling from gaps on two sides of the fertilizer applicator 3 can slide out along an inclined plane formed by the deflection block 3013, and meanwhile, one side surface of the combination block 301 is connected with the middle part of the fertilizer applicator 3 through the telescopic shaft 302 during extension and expansion, so that the combination block 301 can be connected with the fertilizer applicator 3 all the time during extension and cannot influence the extension and expansion of the combination block.

Claims (1)

1. The utility model provides a cotton planting is with integrative device of fertilization of earthing up, includes main part (1) and earthing up wheel (2), main part (1) is controlled main part (1) moving direction through top one side fixed connection handle (101), main part (1) middle part fixed connection motor (102) drive gyro wheel (103) and earthing up wheel (2) rotate, the rotation that main part (1) bottom gomphosis set up earthing up wheel (2) digs soil and moves earthing up, its characterized in that:

a fertilizing mechanism (3), the fertilizing mechanism (3) is sleeved and embedded on the mutually connected bearing surface between the two hilling wheels (2),

the hilling wheel (2) comprises:

the hilling blade (201) is a fixedly connected rectangular lug which is formed by bending the peripheral surface of the hilling wheel (2) in an arc shape;

the hilling leaf (201) comprises:

the limiting extension groove (2011) is a rectangular groove which is formed by bending the middle part of the surface of one side of the hilling blade (201) in an arc shape, and the surface of the inner wall of the middle part of the groove of the limiting extension groove (2011) is fixedly connected with a thread-shaped groove mark;

the separation arc groove (2012) is a groove which limits the middle top end of the groove of the extension groove (2011) to obliquely extend in an arc shape;

The fertilizing mechanism (3) comprises:

the combined block (301) is an arc-shaped rectangular square block which is formed by mutually splicing and combining a plurality of blocks around the fertilizing mechanism (3) to form a circular fertilizing mechanism (3);

the telescopic shaft (302) is an elastic telescopic guide rod, one side of the inner part of the combination block (301) around the fertilizing mechanism (3) is connected with a circular shaft in the fertilizing mechanism (3);

the periphery of the middle part of the fertilizing mechanism (3) is hollow, the peripheral surface of the fertilizing mechanism consists of combined blocks (301), and disc bulges with larger diameters are arranged at two ends of the fertilizing mechanism (3);

the fertilization mechanism (3) and the combination block (301) are combined with each other, the length of a circular shaft is embedded in the limited extension grooves (2011) which are opposite to the ridging leaves (201) on the two sides, and the width of the grooves of the limited extension grooves (2011) is larger than the width of a circular ring of the circular shaft formed by combining the fertilization mechanism (3) and the combination block (301) with each other;

the combination block (301) further comprises:

the expansion shaft (3011) is a circular shaft which is connected among the combined blocks (301), and two ends of the circular shaft of the expansion shaft (3011) are elastically connected with one side of each combined block (301) through springs;

the expansion block (3012) is a circular ring rectangular square block with two ends of the combined block (301) elastically connected through a spring in an embedded mode, and a groove mark embedded with the surface of the inner wall of the middle of the groove of the limited extension groove (2011) is formed in the surface of one side of the expansion block (3012);

The deflection block (3013), the said deflection block (3013) is the rectangular shape that the relative side surface of each combination block (301) is connected to inlay and is pulled out;

and the rotating shaft (3014) is a circular shaft which is formed by connecting deflection blocks (3013) on two sides of the combined block (301) with the combined block (301).

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