CN219228679U - Electric cattle and sheep scattering vehicle capable of metering - Google Patents

Abstract

The utility model belongs to the field of cultivation equipment, and relates to a quantifiable electric cattle and sheep skip car; is a feed feeding device which can quantitatively feed and uniformly and controllably feed, and is suitable for walking in narrow places. The technical proposal comprises: the device comprises a running vehicle, a hopper, a lifter and a discharging pipe. The running vehicle comprises at least a bracket. The hopper is arranged on the bracket, and the lower end of the hopper is provided with a hopper outlet. The lifter is fixed mutually with the support, and the lifter includes entrance point and exit end, and entrance point and hopper export intercommunication, and the exit end sets up in the arbitrary one of the left and right sides of operation car along its direction of travel at least, and the exit end is higher than the hopper export at least, and the lifter is configured as: and lifting the material flowing out of the outlet of the hopper to the outlet end. The discharging pipe is fixed on the lifter, the discharging pipe is arranged obliquely downwards or vertically downwards, one end of the discharging pipe is communicated with the outlet end of the lifter, the other end of the discharging pipe faces the trough, and the discharging pipe is configured to restrict the running path of materials to enable the materials to be discharged into the trough.

Description

Electric cattle and sheep scattering vehicle capable of metering

Technical Field

The utility model belongs to the field of cultivation equipment, and relates to a quantifiable electric cattle and sheep skip car.

Background

In recent years, in addition to the grassland rotation grazing mode, a great part of cattle and sheep raising industry in China adopts a containment mode.

The cattle and sheep in the captivity need to feed at regular time, and the manpower input is very large. A small number of large farms can feed by using large-scale feed scattering trucks, and the large-scale feed scattering trucks in the prior art are only suitable for feeding by directly discharging feed tanks.

The U-shaped feed trough is integrally U-shaped, livestock such as cattle and sheep are raised to the inner side of the U-shaped feed trough, and in order to reduce the raising cost, a plurality of U-shaped feed troughs are compactly arranged in many small and medium-sized farms, and only 50-70 cm passages are reserved between two adjacent U-shaped feed troughs. Thus, the feeders currently existing on the market are not suitable for small and medium farms.

In addition, many feeders have the condition that the blanking process is thrown to the outside of a feed trough, so that the feed is seriously wasted, and the cattle and sheep can ingest unclean feed, so that the cattle and sheep are ill.

Disclosure of Invention

In order to overcome the defects in the related art, the utility model provides a quantifiable electric cattle and sheep skip car, which is automatic feed feeding equipment with quantitative discharging and uniform and controllable discharging quantity and suitable for walking in narrow places.

In order to achieve the technical purpose, the utility model provides the metering type electric cattle and sheep scattering vehicle. The metering type electric cattle and sheep scattering vehicle comprises: the device comprises a running vehicle, a hopper, a lifter and a discharging pipe. Wherein, the operation car includes the support at least. The hopper is arranged on the bracket, and the lower end of the hopper is provided with a hopper outlet. The lifter with the support is fixed mutually, the lifter includes entrance point and exit end, the entrance point with hopper export intercommunication, the exit end set up in arbitrary one of the left and right sides of operation car along its direction of travel, just the exit end is higher than at least the hopper export, the lifter is configured to: lifting material flowing from the hopper outlet to the outlet end. The discharging pipe is fixed on the lifter, the discharging pipe is arranged obliquely downwards or vertically downwards, one end of the discharging pipe is communicated with the outlet end of the lifter, the other end of the discharging pipe faces the trough, and the discharging pipe is configured to restrict the material running path so that the material is discharged into the trough.

Preferably, the quantifiable electric cattle and sheep scattering vehicle further comprises an electronic weighing mechanism, the electronic weighing mechanism comprises a plurality of pressure sensors, the pressure sensors are arranged on the support, a hopper is fixed on the pressure sensors, and the pressure sensors are configured to acquire the pressure of the hopper in the vertical direction.

Preferably, the lifter comprises a first linear auger, the first linear auger is obliquely arranged, one end of the first linear auger is an inlet end of the lifter, one end of the first linear auger is communicated with an outlet of the hopper, the other end of the first linear auger is an outlet end of the lifter, and the other end of the first linear auger is arranged on any one of the left side and the right side of the running vehicle along the running direction of the running vehicle.

The metering type electric cattle and sheep scattering vehicle further comprises a scattering driving mechanism, and the scattering driving mechanism comprises a first scattering motor. The axial direction of the output shaft of the first material scattering motor is consistent with the extending direction of the first linear auger, the first material scattering motor is connected with the first linear auger, and the first material scattering motor drives the first linear auger to operate.

Preferably, the lifter comprises a first linear auger, the first linear auger is obliquely arranged, one end of the first linear auger is an inlet end of the lifter, one end of the first linear auger is communicated with an outlet of the hopper, the other end of the first linear auger is an outlet end of the lifter, and the other end of the first linear auger is arranged on any one of the left side and the right side of the running vehicle along the running direction of the running vehicle.

The lifter further comprises a second linear auger, the second linear auger is obliquely arranged, one end of the second linear auger is the inlet end of the lifter, one end of the second linear auger is communicated with the hopper outlet, the other end of the second linear auger is the outlet end of the lifter, and the other end of the second linear auger is arranged on the left side and the right side of the travelling crane along the travelling direction of the travelling crane, except the side provided with the other end of the first linear auger.

The metering type electric cattle and sheep scattering vehicle further comprises a scattering driving mechanism, and the scattering driving mechanism comprises a first scattering motor. The axial direction of the output shaft of the first material scattering motor is consistent with the extending direction of the first linear auger or the second linear auger, the first material scattering motor is connected with the first linear auger and the second linear auger, and the first material scattering motor drives the first linear auger and the second linear auger to operate;

or, the material scattering driving mechanism comprises: a first material scattering motor and a second material scattering motor. The axial direction of the output shaft of the first material scattering motor is consistent with the extending direction of the first linear auger, the first material scattering motor is connected with the first linear auger, and the first material scattering motor drives the first linear auger to operate. The axial direction of the output shaft of the second material scattering motor is consistent with the extending direction of the second linear auger, the second material scattering motor is connected with the second linear auger, and the second material scattering motor drives the second linear auger to operate.

Preferably, the spreading driving mechanism further comprises a first driving sprocket and a first driven sprocket. The first driving sprocket is coaxially and fixedly connected with the output shaft of the first material scattering motor. The first driven sprocket is fixedly connected with the middle shaft of the first linear auger in a coaxial mode, and the first driven sprocket and the first driving sprocket are driven through a chain.

Preferably, the spreading driving mechanism further comprises: a second drive sprocket and a second driven sprocket. The second driving sprocket is connected with the first material scattering motor. The second driven sprocket is fixedly connected with the middle shaft of the second linear auger in a coaxial manner, and the second driven sprocket and the second driving sprocket are driven by a chain;

or, the spreading driving mechanism further comprises: a second drive sprocket and a second driven sprocket. The second driving sprocket is coaxially and fixedly connected with the output shaft of the second material scattering motor. The second driven sprocket is fixedly connected with the middle shaft of the second linear auger in a coaxial mode, and the second driven sprocket and the second driving sprocket are driven through a chain.

Preferably, the tapping pipe comprises a telescopic pipe, which has a tendency to telescope back and forth in its axial direction.

Preferably, the running vehicle comprises a steering wheel configured to: the vehicle provides steering while turning on an arcuate road.

Preferably, the quantifiable electric cattle and sheep scattering vehicle further comprises a motor control module, wherein the motor control module is fixed on the running vehicle and is configured to control the rotating speed of the first scattering motor and/or the second scattering motor.

The utility model has the beneficial effects that:

the first and the second elevator are arranged at the left side and the right side of the travelling crane along the travelling direction of the travelling crane, and have the advantages of compact structure and suitability for travelling in narrow aisles.

Secondly, the utility model adopts the electronic weighing mechanism, can quantitatively weigh materials, can acquire the blanking speed, and is convenient for manual control.

The discharging pipe comprises the telescopic pipe, and the length of the telescopic pipe can be adjusted according to the site condition, so that the discharging hole is matched with the height of the trough.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the related art, the drawings that are required to be used in the embodiments or the related technical descriptions will be briefly described, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the drawings without inventive effort for those skilled in the art.

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a block diagram of a hopper, riser and discharge tube of the present utility model;

FIG. 3 is a top view of the bracket of the present utility model;

FIG. 4 is a block diagram of a spreading drive mechanism according to the present utility model;

FIG. 5 is a block diagram of another feed dispensing drive mechanism of the present utility model;

fig. 6 is a structural view of still another spreading driving mechanism according to the present utility model;

FIG. 7 is a block diagram of a tapping pipe according to the present utility model.

Detailed Description

In order to make the above objects, features and advantages of the present utility model more comprehensible, the following description of the embodiments accompanied with the accompanying drawings will be given in detail. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

Example 1

In the prior art, the feeding machine has large volume, is not flexible and convenient to operate, has long wheelbase, causes inflexible turning, and has high cost, high energy consumption, high price, high noise and easy scaring to the livestock in the circle.

Moreover, the feeding machine has lower precision of the blanking amount, uneven throwing flow and easy formation of extrusion materials and dead angle storage in the trough. Generally, the feeding machine can adopt the auger horizontally arranged to discharge the feed in the hopper into the trough, so that the running speed of the auger can be controlled for controlling the feeding amount of the feed, and the feed is easy to be thrown out of the auger outlet at different distances, so that the feed is thrown out of the trough seriously.

Based on this, as shown in fig. 1 to 4, the present embodiment provides a quantifiable electric cattle and sheep spreader. The metering type electric cattle and sheep scattering vehicle comprises: the conveyor 1, the hopper 2, the lifter 3 and the discharge pipe 4. Wherein the vehicle 1 comprises at least a support 11. The hopper 2 is arranged on the bracket 11, and the lower end of the hopper 2 is provided with a hopper outlet. The lifter 3 is fixed with the support 11, the lifter 3 includes an inlet end and an outlet end, the inlet end with the hopper outlet communicates, the outlet end set up in arbitrary one of the left and right sides of the operation car 1 along its direction of travel, just the outlet end is higher than at least the hopper outlet, the lifter 3 is configured to: lifting material flowing from the hopper outlet to the outlet end. The discharging pipe 4 is fixed on the lifter, the discharging pipe 4 is arranged obliquely downwards or vertically downwards, one end of the discharging pipe 4 is communicated with the outlet end of the lifter 3, the other end of the discharging pipe 4 faces the trough, and the discharging pipe 4 is configured to restrict the material running path so that the material is discharged into the trough.

The electric cattle and sheep scattering vehicle capable of metering is used for connecting the hopper 2 with the lifter 3, and the lifter 3 can lift materials from the hopper outlet to the position of the outlet end, so that the lower end of the hopper can be lower, namely the capacity of the hopper is improved. The discharging pipe 4 can be arranged according to the concrete conditions of the farm, for example, according to the height of a trough of the farm, the downward inclination angle of the discharging pipe 4 can be adjusted, namely, the purpose that the other end of the discharging pipe 4 is aligned with the trough is met, and materials can be accurately thrown into the trough.

Preferably, the quantifiable electric cattle and sheep scattering vehicle further comprises an electronic weighing mechanism, the electronic weighing mechanism comprises a plurality of pressure sensors 5, the pressure sensors 5 are arranged on the bracket 11, a hopper 2 is fixed on the pressure sensors 5, and the pressure sensors 5 are configured to acquire the pressure of the hopper 2 in the vertical direction.

The hopper 2 may be a box body with an opening at the upper end and a quadrangular pyramid at the lower end. The outer side wall of the hopper 2 can be provided with a fixed plate which is matched with the bracket 11, and the lower end surfaces of the fixed plate are positioned in the same plane.

The support 11 is fixedly connected with the running vehicle 1, a square frame is arranged on the upper portion of the support 11, and the upper end face of the square frame is horizontal. The upper end face of the square frame can be fixed with a plurality of pressure sensors, in general, in order to improve measurement accuracy, a plurality of pressure sensors 5 can be uniformly arranged on the upper end face of the square frame, and the total weight sum of the materials in the hopper 2 and the hopper 2 is the total pressure value obtained by the plurality of pressure sensors 5.

It will be appreciated that the fixing plate on the outer side wall of the hopper may be disposed above the plurality of pressure sensors, that is, the gravity of the hopper may act on the plurality of pressure sensors through the fixing plate. To ensure the stability of the hopper on the support, a fixing plate may be provided at the upper portion of the hopper.

The electronic cattle and sheep of but measuring of this embodiment spill skip can realize weighing accurately the material in the hopper, consequently can realize accurate unloading according to the demand of waiting to raise cattle or sheep, for example, the different sheep of age is different to the demand of fodder volume, can make the staff in the in-process of throwing something and feeding fodder through electronic weighing mechanism, and to the fodder throwing something and feeding volume carry out quick, accurate control, can reduce the extravagant and prevent that the cattle and sheep from eating the emergence of propping etc..

In this embodiment, the electronic weighing mechanism may include, for example, four pressure sensors, where the four pressure sensors upload collected data to the control motherboard, and after the control motherboard receives the data, the total of the data collected by the four pressure sensors is analyzed and the weight of the hopper is removed, so as to obtain the weight of the material inside the hopper. The running vehicle is also provided with a display device, such as a liquid crystal display screen, which can be electrically connected with the control main board, and the display device can display the weight of the materials in the hopper in real time.

Preferably, the lifter 3 includes a first straight-line auger 7, the first straight-line auger 7 is obliquely arranged, one end of the first straight-line auger 7 is an inlet end of the lifter 3, one end of the first straight-line auger 7 is communicated with the hopper outlet, the other end of the first straight-line auger 7 is an outlet end of the lifter 3, and the other end of the first straight-line auger 7 is arranged on any one of the left side and the right side of the traveling vehicle 1 along the traveling direction thereof.

Preferably, the quantifiable electric cattle and sheep scattering vehicle further comprises a scattering driving mechanism, and the scattering driving mechanism comprises a first scattering motor 6. The axial direction of the output shaft of the first material scattering motor 6 is consistent with the extending direction of the first linear auger 7, the first material scattering motor is connected with the first linear auger, and the first material scattering motor drives the first linear auger to operate.

The material scattering driving mechanism further comprises: a first drive sprocket and a first driven sprocket. Wherein, first driving sprocket with the coaxial fixed connection of output shaft of first spill material motor 6. The first driven sprocket is fixedly connected with the middle shaft of the first linear auger 7 in a coaxial mode, and the first driven sprocket and the first driving sprocket are driven through a chain.

In this embodiment, the lower portion of the hopper is a quadrangular pyramid, that is, a blank area is formed in the bracket of the lower portion of the hopper, and the first linear auger 7 and the first material scattering motor 6 may be disposed, and meanwhile, the axial direction of the output shaft of the first material scattering motor 6 is consistent with the extending direction of the first linear auger 7, that is, the first material scattering motor 6 is obliquely disposed. The connection between the first material scattering motor 6 and the first linear auger 7 can be facilitated, so that the structure of the quantifiable electric cattle and sheep material scattering vehicle is compact, and the electric cattle and sheep material scattering vehicle can conveniently run in a narrow passageway.

Preferably, as shown in fig. 7, the tapping pipe 4 comprises a telescopic pipe, and the tapping pipe 4 has a tendency to telescope back and forth in its axial direction.

A structure of a possible telescopic pipe can comprise a plurality of straight pipes 41 with pipe diameters reduced in sequence and an electric push rod 42, wherein the plurality of straight pipes 41 are sequentially arranged according to the pipe diameters, and among two adjacent straight pipes 41, the straight pipe 41 with smaller pipe diameters is sleeved in the straight pipe 41 with larger pipe diameter. The shell of the electric push rod 42 can be fixed on the outer wall of the straight pipe 41 with the largest pipe diameter in the plurality of straight pipes 41, and the piston of the electric push rod 42 can be fixedly connected with the outer wall of the straight pipe 41 with the smallest pipe diameter in the plurality of straight pipes 41.

The discharge gate can be adjusted according to the silo height, and the discharging pipe can be towards the silo and can downwardly extending, and the fodder of being convenient for can accurately throw to in the silo.

Preferably, the running vehicle 1 comprises steering wheels configured to: the vehicle 1 provides steering when turning on an arcuate road.

The operation car can be the electric motor car, should be provided with the operation panel of staff on the operation car for be convenient for operation and management, and an operation car can set up the operation panel at the rear of hopper, and the operation panel includes cushion and hand (hold), and the steering wheel can be with hand (hold) fixed connection, and the hand (hold) can be T shape structure, and swing joint between hand (hold) and the support, the hand (hold) can rotate around self central line promptly.

The speed of the electric vehicle can be controlled through the handle speed regulator, the handle speed regulator is fixed on the handle, the electric vehicle can be controlled at high, medium and low speeds, and the advancing and retreating gears can be set to adjust the advancing direction, so that the electric vehicle is beneficial to narrow passages.

The motor of the running vehicle can be controlled by forward and reverse rotation, so that the running vehicle can run or reverse in the aisle, and the running vehicle is beneficial to application in a narrow space.

Meanwhile, the seat of the operation vehicle faces the hopper, namely, in the material scattering process, workers can face the position of the hopper, the workers can observe the feeding and discharging process conveniently, and the adjustment can be carried out rapidly according to the situation.

The vehicle may also include a rechargeable battery, such as a lead acid battery, that provides power for the operation of the overall device.

Preferably, the quantifiable electric cattle and sheep spreader further comprises a motor control module, wherein the motor control module is fixed on the running vehicle 1 and is configured to control the rotation speed of the first spreader motor 6.

The motor control module can be a rotating handle accelerator or a finger-operated accelerator, is fixed on the handle, can control the rotating speed of the first material scattering motor, realizes convenient control of the discharge amount, and can be used for scattering materials by a worker in a sitting manner, so that the motor control module has the advantages of flexible and convenient operation and safe and reliable work.

Example 2

As shown in fig. 5, in this embodiment, on the basis of the foregoing embodiment 1, the lifter of the quantifiable electric cattle and sheep scattering vehicle further includes a second linear auger 9, where the second linear auger 9 is obliquely disposed, one end of the second linear auger 9 is an inlet end of the lifter, one end of the second linear auger 9 is communicated with the hopper outlet, the other end of the second linear auger 9 is an outlet end of the lifter, and the other end of the second linear auger 9 is disposed on the left and right sides of the travelling vehicle along the travelling direction thereof, except for one side on which the other end of the first linear auger 7 is disposed.

It can be appreciated that the second straight-line auger 9 and the first straight-line auger 7 can be symmetrically arranged, so that materials can be conveniently thrown to two sides of the running vehicle according to requirements of a farm. For example, when the material grooves are formed in two sides of the passageway, and the distance between the material grooves is within the range of 50-70 cm, the travelling crane can pass through the passageway once and throw materials into the material grooves on two sides of the passageway.

The material scattering driving mechanism of the quantifiable electric cattle and sheep material scattering vehicle of the embodiment further comprises: a second drive sprocket and a second driven sprocket. Wherein the second driving sprocket is connected with the first spreading motor 7. The second driven sprocket is fixedly connected with the middle shaft of the second linear auger 9 in a coaxial mode, and the second driven sprocket and the second driving sprocket are driven through a chain.

In order to facilitate the connection of the first material spreading motor 6 with the second driving sprocket, a reverser 8 is also arranged between the first material spreading motor 6 and the second driving sprocket. That is, the output shaft of the first material scattering motor 6 is connected with the input shaft of the commutator 8, and the commutator 8 is connected with the second driving sprocket.

The embodiment can realize that the outlets at two sides scatter materials, is suitable for farms with the material grooves arranged at two sides of the corridor, can realize driving through only one motor, and has the advantages of low cost and high efficiency.

Example 3

As shown in fig. 6, the lifter of the electric cattle and sheep scattering vehicle according to the embodiment 1 further includes a second linear auger, the second linear auger is obliquely disposed, one end of the second linear auger is an inlet end of the lifter, one end of the second linear auger is communicated with the hopper outlet, the other end of the second linear auger is an outlet end of the lifter, and the other end of the second linear auger is disposed on the left and right sides of the travelling vehicle along the travelling direction thereof, except for one side on which the other end of the first linear auger is disposed.

It can be appreciated that the second straight-line auger 9 and the first straight-line auger 7 can be symmetrically arranged, so that materials can be conveniently thrown to two sides of the running vehicle according to requirements of a farm. For example, when the material grooves are formed in two sides of the passageway, and the distance between the material grooves is within the range of 50-70 cm, the travelling crane can pass through the passageway once and throw materials into the material grooves on two sides of the passageway.

The material scattering driving mechanism of the quantifiable electric cattle and sheep material scattering vehicle according to the embodiment further comprises a second material scattering motor 10. The axial direction of the output shaft of the second material scattering motor 10 is consistent with the extending direction of the second linear auger 9, the second material scattering motor 10 is connected with the second linear auger 9, and the second material scattering motor 10 drives the second linear auger 9 to operate.

The material scattering driving mechanism of the quantifiable electric cattle and sheep material scattering vehicle of the embodiment further comprises: a second drive sprocket and a second driven sprocket. Wherein, the second driving sprocket is coaxially and fixedly connected with the output shaft of the second material scattering motor 10. The second driven sprocket is fixedly connected with the middle shaft of the second linear auger 9 in a coaxial mode, and the second driven sprocket and the second driving sprocket are driven through a chain.

The embodiment can realize that the outlets at two sides scatter materials, and is suitable for farms with feed tanks arranged at two sides of the aisle.

In the description of the present specification, a particular feature, structure, material, or characteristic may be combined in any suitable manner in one or more embodiments or examples.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (9)

1. A quantifiable electric cattle and sheep skip car, comprising:

the running vehicle at least comprises a bracket;

the hopper is arranged on the bracket, and a hopper outlet is arranged at the lower end of the hopper;

the lifter, with the support is fixed mutually, the lifter includes entrance point and exit end, the entrance point with hopper export intercommunication, the exit end set up in arbitrary one of the left and right sides of operation car along its direction of travel, just the exit end is higher than at least the hopper export, the lifter is configured to: lifting material flowing from the hopper outlet to the outlet end;

the discharging pipe is fixed on the lifter, the discharging pipe is arranged obliquely downwards or vertically downwards, one end of the discharging pipe is communicated with the outlet end of the lifter, the other end of the discharging pipe faces the trough, and the discharging pipe is configured to restrict the material running path so that the material is discharged into the trough.

2. A quantifiable electric cattle and sheep skip as recited in claim 1 further comprising an electronic weighing mechanism including a plurality of pressure sensors disposed on the bracket with a hopper secured thereto, the plurality of pressure sensors being configured to acquire pressure of the hopper in a vertical direction.

3. The metering type electric cattle and sheep skip according to claim 2, wherein the lifter comprises a first linear auger, one end of the first linear auger is an inlet end of the lifter, one end of the first linear auger is communicated with the hopper outlet, the other end of the first linear auger is an outlet end of the lifter, and the other end of the first linear auger is arranged on any one of the left side and the right side of the running vehicle along the running direction of the running vehicle;

but electronic cattle and sheep of measurement spills skip still includes and spills material actuating mechanism, spill material actuating mechanism and include:

the first material motor that spills, the axial of the output shaft of first material motor that spills with the extending direction of first straight line auger is unanimous, first material motor that spills with first straight line auger is connected, first material motor that spills drives first straight line auger operation.

4. The metering type electric cattle and sheep skip according to claim 2, wherein the lifter comprises a first linear auger, one end of the first linear auger is an inlet end of the lifter, one end of the first linear auger is communicated with the hopper outlet, the other end of the first linear auger is an outlet end of the lifter, and the other end of the first linear auger is arranged on any one of the left side and the right side of the running vehicle along the running direction of the running vehicle;

the lifter further comprises a second linear auger, wherein the second linear auger is obliquely arranged, one end of the second linear auger is an inlet end of the lifter, one end of the second linear auger is communicated with the hopper outlet, the other end of the second linear auger is an outlet end of the lifter, and the other end of the second linear auger is arranged in the left side and the right side of the travelling crane along the travelling direction of the travelling crane and is arranged on the other side except one side provided with the other end of the first linear auger;

but electronic cattle and sheep of measurement spills skip still includes and spills material actuating mechanism, spill material actuating mechanism and include:

the axial direction of an output shaft of the first material scattering motor is consistent with the extending direction of the first linear auger or the second linear auger, the first material scattering motor is connected with the first linear auger and the second linear auger, and the first material scattering motor drives the first linear auger and the second linear auger to operate;

or, the material scattering driving mechanism comprises:

the axial direction of an output shaft of the first material scattering motor is consistent with the extending direction of the first straight-line auger, the first material scattering motor is connected with the first straight-line auger, and the first material scattering motor drives the first straight-line auger to operate;

the second spills the material motor, the second spill the axial of the output shaft of material motor with the extending direction of second sharp auger is unanimous, the second spill the material motor with the second sharp auger is connected, the second spills the material motor drive the operation of second sharp auger.

5. A quantifiable electric cattle and sheep skip as recited in claim 3 or 4 wherein said skip drive mechanism further comprises:

the first driving sprocket is coaxially and fixedly connected with the output shaft of the first material scattering motor;

the first driven sprocket is coaxially and fixedly connected with the middle shaft of the first linear auger, and the first driven sprocket and the first driving sprocket are driven by a chain.

6. The quantifiable electric cattle and sheep skip of claim 4 wherein the skip drive mechanism further comprises:

the second driving chain wheel is connected with the first material scattering motor;

the second driven sprocket is coaxially and fixedly connected with the middle shaft of the second linear auger, and the second driven sprocket and the second driving sprocket are driven by a chain;

or, the spreading driving mechanism further comprises:

the second driving sprocket is coaxially and fixedly connected with the output shaft of the second material scattering motor;

the second driven sprocket is coaxially and fixedly connected with the middle shaft of the second linear auger, and the second driven sprocket and the second driving sprocket are driven by a chain.

7. A quantifiable electric cattle and sheep skip as claimed in claim 1 wherein said discharge tube comprises a telescoping tube having a tendency to telescope back and forth along its axis.

8. A quantifiable electric cattle and sheep skip as recited in claim 1 wherein said vehicle includes steering wheels configured to: the vehicle provides steering while turning on an arcuate road.

9. The quantifiable electric cattle and sheep skip of claim 6 further comprising a motor control module fixed to the vehicle, the motor control module configured to control the rotational speed of the first and/or second skip motors.

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