CN214385045U - A fertilization earthing mechanism for beet planting - Google Patents

Abstract

The utility model provides a fertilization earthing mechanism for beet planting for it is poor to solve prior art agricultural machinery earthing effect, and intensity of labour is big, the low scheduling problem of work efficiency. The method comprises the following steps: the soil covering assembly is positioned at the front end of the second material conveying assembly; the second material conveying assembly comprises a second material conveying cylinder, a second transmission shaft and a second helical blade, the second helical blade is fixed on the second transmission shaft, the second transmission shaft and the second helical blade are both positioned in the second material conveying cylinder, and a second material inlet and a second material outlet are formed in the second material conveying cylinder; the soil covering assembly comprises a soil covering assembly which comprises a fourth bevel gear, a fifth bevel gear, a sixth bevel gear, two soil covering ploughs, two third transmission shafts and two fourth transmission shafts, namely, the output of the two bevel gears is realized by one bevel gear, and the output of two crossed shafts can be realized by only driving one shaft; has good soil covering effect.

Description

A fertilization earthing mechanism for beet planting

Technical Field

The utility model relates to an agro-farming machine field, concretely relates to fertilization earthing mechanism for beet planting.

Background

The existing agricultural machine is single in function, mostly only has a ditching function and lacks an earthing function, even if part of the agricultural machines have the earthing function, a pressing plate is added behind the agricultural machines mostly, earthing is carried out through movement of the pressing plate, the earthing effect is not well controlled, and the structural defect causes poor earthing effect and easily causes over-tight earthing, so that subsequent cultivation is influenced; because of the tight earthing, need increase a labourer after the earthing is accomplished and confirm and loosen the soil to the tight earth, increased labourer's working strength, greatly influenced work efficiency, along with the improvement of agricultural mechanized formation degree, the operation requirement and the effect of agricultural machinery are higher and higher to the agricultural production, and present agricultural machinery function has been unable to satisfy normal production demand.

Disclosure of Invention

In view of the above prior art's shortcoming, the utility model aims to provide a fertilization earthing mechanism for beet planting for it is poor to solve prior art agricultural machinery earthing effect, and intensity of labour is big, the low scheduling problem of work efficiency.

In order to achieve the above objects and other related objects, the present invention provides a fertilizing and earthing mechanism for beet planting, including:

the soil covering assembly is positioned at the front end of the second material conveying assembly;

the second material conveying assembly comprises a second material conveying cylinder, a second transmission shaft and a second helical blade, the second helical blade is fixed on the second transmission shaft, the second transmission shaft and the second helical blade are both positioned in the second material conveying cylinder, and a second material inlet and a second material outlet are formed in the second material conveying cylinder;

the second transmission shaft is also used for driving the soil covering assembly;

the soil covering component comprises a soil covering component which comprises a fourth bevel gear, a fifth bevel gear, a sixth bevel gear, two soil covering ploughing blades, two third transmission shafts and two fourth transmission shafts,

the fourth bevel gear is meshed with the fifth bevel gear, and the fifth bevel gear is meshed with the sixth bevel gear;

the fourth bevel gear is fixed at the lower end of the second transmission shaft;

the fifth bevel gear and the sixth bevel gear are symmetrically arranged, are engaged in a V-shaped structure, have a downward V-shaped opening, and are fixedly connected with one third transmission shaft respectively;

the two soil covering ploughing blades are symmetrically arranged and are of a V-shaped structure, the V-shaped opening direction faces downwards, the two soil covering ploughing blades are fixedly connected with one fourth transmission shaft respectively, and the third transmission shaft drives the fourth transmission shaft to synchronously rotate through belt transmission or gear transmission.

Optionally, the second discharge port is arranged in front of the soil covering assembly along the movement direction of the soil covering assembly.

Optionally, the second helical blade is made of metal, and the second helical blade is fixed on the second transmission shaft by welding.

Optionally, the second material conveying assembly can be used for conveying organic fertilizers or inorganic fertilizers.

Alternatively, the second transmission shaft may be driven by a drive means, which may be an oil engine.

Optionally, the driving device drives the second transmission shaft to rotate synchronously through belt transmission or gear transmission.

Optionally, bearings are arranged at two ends of the second transmission shaft and two ends of the fourth transmission shaft.

Optionally, a material storage box is arranged at the upper end of the second material conveying cylinder, and the material storage box is communicated with the second material inlet.

As mentioned above, the utility model discloses a fertilization earthing agricultural machinery has following beneficial effect at least:

functionally, the fertilizing and earthing mechanism for beet planting of the utility model comprises an earthing component and a second material conveying component, the fertilizing and earthing mechanism for beet planting can be used for sprinkling inorganic fertilizer, after fertilization, the earthing mechanism can carry out earthing, the efficiency is high, and the mechanism can be applied to most farming production; structurally, the utility model discloses a mechanism adopts gear drive, realizes two bevel gear's output by a bevel gear promptly, and is small, and the structure is retrencied, uses gear drive to construct, only needs an axle of drive, can realize the output of two cross axles, and the transmission is simple, and the earthing is effectual, can make operator efficiency higher, reduces intensity of labour. The utility model discloses effectively overcome prior art agricultural machinery function singleness, it is poor to lack earthing function or earthing effect, work efficiency low scheduling problem.

Drawings

FIG. 1 shows a schematic view of a ditching, fertilizing and earthing agricultural machine.

Fig. 2 is a schematic view of the ditching and fertilizing mechanism.

FIG. 3 is a schematic view of the opening assembly.

FIG. 4 is a schematic view of another perspective of the opening assembly.

Fig. 5 shows a schematic view of a fertilizing and earthing mechanism for beet planting.

Fig. 6 shows a schematic view of the casing assembly.

Description of the element reference numerals

1 ditching and fertilizing mechanism

11 ditching subassembly

111 first bevel gear

112 second bevel gear

113 third bevel gear

114 support shaft

115 ditching ploughing knife

12 first feeding assembly

121 first helical blade

122 first delivery cylinder

123 first transmission shaft

2 fertilizing and covering soil for planting beet

Mechanism

21 earthing subassembly

211 fourth bevel gear

212 fifth bevel gear

213 sixth bevel gear

214 third drive shaft

215 fourth drive shaft

216 covering soil tillage knife

22 second feeding assembly

221 second delivery cylinder

222 second helical blade

223 second drive shaft

3 drive mechanism

31 driving wheel

32 fifth transmission shaft

33 seventh bevel gear

34 eighth bevel gear

4 driving device

5 agricultural machinery main part

6 drive bevel gear

7 bearing

8 storage box

9 soil-proof cover

10 first discharge hole

11 first feed inlet

12 second discharge hole

13 second feed inlet

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

Please refer to fig. 1 to 6. It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

The following examples are for illustrative purposes only. The various embodiments may be combined, and are not limited to what is presented in the following single embodiment.

In a first embodiment, referring to fig. 1, an agricultural machine for ditching, fertilizing and covering soil comprises: the method comprises the following steps: the ditching and fertilizing mechanism 1, the fertilizing and soil covering mechanism 2 for planting the beets, the transmission mechanism 3, the driving device 4 and the agricultural machine main body 5, wherein the ditching and fertilizing mechanism 1 is positioned in front of the fertilizing and soil covering mechanism 2 for planting the beets, when the agricultural machine works, ditching and fertilizing for the first time are firstly carried out, and then fertilizing and soil covering for the second time are carried out, the functions are a complete working flow, and the required functions can be used according to actual cultivation needs; the ditching and fertilizing mechanism 1 comprises a ditching component 11 and a first material conveying component 12, wherein the ditching component 11 is positioned at the front end of the first material conveying component 12, and a first material feeding hole 11 and a first material discharging hole 10 are formed in a first material conveying cylinder 122; the first discharge hole 10 is arranged behind the ditching assembly 11 along the movement direction of the ditching assembly 11, so that the ditching operation is firstly carried out, and the function of fertilizing is carried out after ditching is finished; optionally, the first material conveying assembly 12 can be used for conveying organic fertilizer; the ditching and fertilizing mechanism 1, the fertilizing and earthing mechanism 2 for beet planting and the driving device 4 are all arranged on the agricultural machine main body 5, and the agricultural machine main body 5 further comprises a cab; the first feeding assembly 12 includes a first feeding cylinder 122, a first transmission shaft 123 and a first helical blade 121, the first helical blade 121 is fixed on the first transmission shaft 123, the fixing manner may be welding, and the first helical blade 121 is made of metal; the first transmission shaft 123 and the first helical blade 121 are both positioned in the first material conveying cylinder 122, and the first transmission shaft 123 is further used for driving the ditching assembly 11; the ditching assembly 11 and the first material conveying assembly 12 share the first transmission shaft 123, the first transmission shaft 123 can drive the ditching assembly 11 to rotate and simultaneously drive the first helical blade 121 fixed on the first transmission shaft 123 to synchronously rotate, fertilizer enters the first feed inlet 11 and is discharged from the first discharge outlet 10 under the rotation of the first helical blade 121, the whole structure is simple, the first transmission shaft 123 is multipurpose, and the efficiency is effectively improved;

the fertilizing and soil covering mechanism 2 for beet planting comprises a soil covering component 21 and a second material conveying component 22, the soil covering component 21 is located at the front end of the second material conveying component 22, a second feeding hole 13 and a second discharging hole 12 are formed in a second material conveying cylinder 221, the second discharging hole 12 is formed in front of the soil covering component 21 along the movement direction of the soil covering component 21, so that fertilizing operation is guaranteed, soil covering is performed after fertilizing, and optionally, the second material conveying component 22 can be used for conveying inorganic fertilizer; the second feeding assembly 22 comprises a second feeding cylinder 221, a second transmission shaft 223 and a second helical blade 222, the second helical blade 222 is fixed on the second transmission shaft 223 by welding, and the second helical blade 222 is made of metal; the second transmission shaft 223 and the second helical blade 222 are both located in the second material delivery cylinder 221; the second transmission shaft 223 is shared by the soil covering assembly 21 and the second material conveying assembly 22, the second transmission shaft 223 can drive the soil covering assembly 21 to rotate and simultaneously fix the second helical blade 222 on the second transmission shaft 223 to synchronously rotate, fertilizer enters the second feed port 13 and is discharged from the second discharge port 12 under the rotation of the second helical blade 222, the whole structure is simple, the second transmission shaft 223 is multipurpose, and the efficiency is effectively improved.

In the second embodiment, further optimization is performed on the basis of the first embodiment, specifically, referring to fig. 2, 3 and 4, the ditching assembly 11 comprises a first bevel gear 111, a second bevel gear 112, a third bevel gear 113 and two ditching ploughs 115, the first bevel gear 111 is engaged with the second bevel gear 112, and the second bevel gear 112 is engaged with the third bevel gear 113; the first bevel gear 111 is fixed at the lower end of the first transmission shaft 123; the second bevel gear 112 and the third bevel gear 113 are symmetrically arranged, the second bevel gear 112 and the third bevel gear 113 are engaged in a V-shaped structure, and the V-shaped opening direction faces upwards; the first bevel gear 111 is used as an input bevel gear, the second bevel gear 112 and the third bevel gear 113 are used as output bevel gears, transmission of crossed shafts in space is achieved, the ditching component 11 drives the first bevel gear 111 at the lower end to synchronously rotate through the first transmission shaft 123, the first bevel gear 111 drives the second bevel gear 112 and the third bevel gear 113 to synchronously rotate, gear transmission is applied to a mechanism, namely, the output of the two bevel gears is achieved through one bevel gear, the size is small, the structure is simple, and the output of the two crossed shafts can be achieved only by driving one shaft; two ditching ploughs 115 symmetry sets up, two ditching ploughs 115 through back shaft 114 respectively with second bevel gear 112 and third bevel gear 113 fixed connection are V type structure and V type opening up, can push away the earth of digging out when the ditching to the slot both sides when the V type ploughs the sword ditching, and be difficult to appear leaking ploughing, ditching effectual.

In a third embodiment, further optimization is performed on the basis of any one of the above embodiments and the combination embodiment, specifically, please refer to fig. 5 and 6. The soil covering assembly 21 comprises a fourth bevel gear 211, a fifth bevel gear 212, a sixth bevel gear 213, two soil covering blades 216, two third transmission shafts 214 and two fourth transmission shafts 215, wherein the fourth bevel gear 211 is meshed with the fifth bevel gear 212, and the fifth bevel gear 212 is meshed with the sixth bevel gear 213; the fourth bevel gear 211 is fixed at the lower end of the second transmission shaft 223; the fifth bevel gear 212 and the sixth bevel gear 213 are symmetrically arranged, the fifth bevel gear 212 and the sixth bevel gear 213 are engaged in a V-shaped structure, and the V-shaped opening direction faces downwards, the fourth bevel gear 211 is used as an input bevel gear, and the fifth bevel gear 212 and the sixth bevel gear 213 are used as output bevel gears, so that the transmission of crossed shafts in space is realized, the soil covering assembly 21 drives the fourth bevel gear 211 at the lower end to synchronously rotate through the second transmission shaft 223, the fourth bevel gear 211 drives the fifth bevel gear 212 and the sixth bevel gear 213 to synchronously rotate, gear transmission is applied to a mechanism, namely, one bevel gear realizes the output of two bevel gears, the volume is small, the structure is simple, only one shaft needs to be driven, the output of two crossed shafts can be realized, and the fifth bevel gear 212 and the sixth bevel gear 213 are respectively and fixedly connected with one third transmission shaft 214; two cover native ploughing sword 216 symmetry and set up and be V type structure and V type opening direction down, two cover native ploughing sword 216 respectively with one fourth transmission shaft is connected fixedly, third transmission shaft 214 passes through belt drive or gear drive fourth transmission shaft 215 synchronous revolution, whole earthing subassembly 21 is V type opening direction down structure, and during operation, the V type sets up cover native ploughing sword 216 can fill the ditch inslot with the earth of ditch both sides uniformly from the ditch both sides, reaches good earthing effect.

Fourth embodiment, further optimization is performed on the basis of any one of the above embodiments and the combined embodiment, specifically, referring to fig. 1, the transmission mechanism 3 includes a transmission wheel 31, a fifth transmission shaft 32, a seventh bevel gear 33 and an eighth bevel gear 34, the transmission wheel 31 is fixed on the fifth transmission shaft 32, the driving device 4 drives the transmission wheel 31 to rotate, the seventh bevel gear 33 and the eighth bevel gear 34 are respectively fixed at two ends of the fifth transmission shaft 32, the first transmission shaft 123 and the second transmission shaft 223 are respectively provided with a transmission bevel gear 6, the seventh bevel gear 33 drives the first transmission shaft 123 to rotate by meshing with the transmission bevel gear 6, the eighth bevel gear 34 drives the second transmission shaft 223 to rotate by meshing with the transmission bevel gear 6, the whole transmission mechanism 3 has a simple structure, and drives the other two transmission shafts to move by one transmission shaft, the efficiency is higher.

Fifth, further optimization is performed on the basis of any one of the above embodiments and the combination embodiment, specifically, referring to fig. 1, optionally, the driving device 4 drives the driving wheel 31 to rotate synchronously through belt transmission or gear transmission.

Sixth embodiment, further optimization is performed on the basis of any one of the above embodiments and the combination embodiment, specifically, referring to fig. 1, bearings 7 are disposed at two ends of the first transmission shaft 123, the second transmission shaft 223, and the fifth transmission shaft 32, a bearing 7 is disposed at a fixed position of the fourth transmission shaft 215, and the bearings 7 are disposed to support and fix the transmission shafts of the mechanism and reduce friction force when the transmission shafts rotate.

Seventhly, further optimization is performed on the basis of any one of the above embodiments and the combined embodiment, specifically, referring to fig. 1, optionally, the ditching and fertilizing mechanism 1 is disposed in front of the front wheels along the direction of the body of the agricultural machine body 5, and the soil covering and fertilizing mechanism is disposed between the front wheels and the rear wheels along the direction of the body of the agricultural machine body 5.

In an eighth embodiment, further optimization is performed on the basis of any one of the above embodiments and the combination embodiment, specifically, referring to fig. 1, a storage box 8 is respectively disposed at the upper ends of the first material conveying cylinder 122 and the second material conveying cylinder 221, the two storage boxes 8 are respectively communicated with the first feeding hole 11 and the second feeding hole 13, and the storage box 8 can be used for containing organic fertilizer or inorganic fertilizer.

Ninth, further optimization is performed on the basis of any one of the above embodiments and the combination embodiment, specifically, referring to fig. 1, optionally, the driving device 4 is driven by a diesel engine, and the driving force is stronger.

The tenth embodiment is further optimized on the basis of any one of the above embodiments and combined embodiments, specifically, referring to fig. 1, the agricultural machine main body 5 is driven by four wheels, and can adapt to severe farmland road conditions, the four wheels of the agricultural machine main body 5 are provided with soil-proof covers 9, and the soil-proof covers 9 can effectively isolate soil or weeds raised by the ditching assembly 11 or the soil covering assembly 21 during operation, so that the locked tires cannot move forward.

In summary, functionally, the fertilizer applying and soil covering mechanism for beet planting of the utility model comprises a soil covering component and a second material conveying component, the fertilizer applying and soil covering mechanism for beet planting can be used for applying inorganic fertilizer, after fertilizer application is completed, the soil covering mechanism can carry out soil covering, the efficiency is high, and the fertilizer applying and soil covering mechanism can be applied to most agricultural production; structurally, the utility model discloses a mechanism adopts gear drive, realizes two bevel gear's output by a bevel gear promptly, and is small, and the structure is retrencied, uses gear drive to construct, only needs an axle of drive, can realize the output of two cross axles, and the transmission is simple, and the earthing is effectual, can make operator efficiency higher, reduces intensity of labour. The utility model discloses effectively overcome prior art agricultural machinery function singleness, it is poor to lack earthing function or earthing effect, work efficiency low scheduling problem.

Claims (8)

1. The utility model provides a fertilization earthing mechanism for beet planting which characterized in that includes: the soil covering assembly is positioned at the front end of the second material conveying assembly;

the second material conveying assembly comprises a second material conveying cylinder, a second transmission shaft and a second helical blade, the second helical blade is fixed on the second transmission shaft, the second transmission shaft and the second helical blade are both positioned in the second material conveying cylinder, and a second material inlet and a second material outlet are formed in the second material conveying cylinder;

the second transmission shaft is also used for driving the soil covering assembly;

the soil covering component comprises a soil covering component which comprises a fourth bevel gear, a fifth bevel gear, a sixth bevel gear, two soil covering ploughing blades, two third transmission shafts and two fourth transmission shafts,

the fourth bevel gear is meshed with the fifth bevel gear, and the fifth bevel gear is meshed with the sixth bevel gear;

the fourth bevel gear is fixed at the lower end of the second transmission shaft;

the fifth bevel gear and the sixth bevel gear are symmetrically arranged, are engaged in a V-shaped structure, have a downward V-shaped opening, and are fixedly connected with one third transmission shaft respectively;

the two soil covering ploughing blades are symmetrically arranged and are of a V-shaped structure, the V-shaped opening direction faces downwards, the two soil covering ploughing blades are fixedly connected with one fourth transmission shaft respectively, and the third transmission shaft drives the fourth transmission shaft to synchronously rotate through belt transmission or gear transmission.

2. The fertilizing and soil covering mechanism for beet planting as claimed in claim 1, wherein: the second discharge port is arranged in front of the soil covering assembly along the movement direction of the soil covering assembly.

3. The fertilizing and soil covering mechanism for beet planting as claimed in claim 1, wherein: the second helical blade is made of metal and is fixed on the second transmission shaft through welding.

4. The fertilizing and soil covering mechanism for beet planting as claimed in claim 1, wherein: the second material conveying component can be used for conveying organic fertilizers or inorganic fertilizers.

5. The fertilizing and soil covering mechanism for beet planting as claimed in claim 1, wherein: the second transmission shaft may be driven by a drive device, which may be an oil-fired machine.

6. The fertilizing and soil covering mechanism for beet planting as claimed in claim 5, wherein: the driving device drives the second transmission shaft to synchronously rotate through belt transmission or gear transmission.

7. The fertilizing and soil covering mechanism for beet planting as claimed in claim 1, wherein: and bearings are arranged at two ends of the second transmission shaft and the fourth transmission shaft.

8. The fertilizing and soil covering mechanism for beet planting as claimed in claim 1, wherein: and a material storage box is arranged at the upper end of the second material conveying cylinder and communicated with the second feed port.

Images