CN218173993U - Receive material and spill material feed all-in-one - Google Patents

Abstract

The utility model provides a receive material and spill material feed all-in-one, relates to and spills material device technical field, including the frame, the preceding tip of frame is equipped with receiving mechanism, the upper end rigid coupling of frame has the feed bin, the bottom of frame is equipped with and connects the workbin, receiving mechanism's discharge end with connect the workbin and be connected, connect the feed mechanism who is connected with vertical setting on the workbin, feed mechanism's discharge end is connected with the feed mechanism that the horizontal hunting set up, feed mechanism's discharge end is adjusted between the lateral part of top to frame along the feed bin and is set up. The utility model provides a device among the conventional art to material income back in the hopper, the material all is unordered spills the material, can't realize carrying out the feed to the material, has influenced the problem that the collection in later stage was used.

Description

Receive material and spill material feed all-in-one

Technical Field

The utility model relates to a spill material technical field, concretely relates to receive material and spill material feed all-in-one.

Background

After the corn plants are harvested by agricultural growers, the corn straws are usually recycled to be used as feed to feed animals such as cattle and sheep, but the straws need to be crushed and collected, and the platycodon grandiflorum is crushed in the soil by the conventional device after the straws are planted in the field.

The prior art discloses a publication number CN106489457B, which comprises a crushing device, a power transmission device and a traction bracket, wherein the power transmission device and the traction bracket are connected with a power driving device and a traction bracket of a power traction device; the speed reducer is connected with the power transmission device, the speed reducer drives the first group of knife roller devices through the primary belt transmission device, the front ends of the first group of knife roller devices are provided with grass blocking plates, and the upper ends of the first group of knife roller devices and the second group of knife roller devices are provided with guide devices; a crusher stripper plate which is inclined backwards is arranged between the first group of cutter roller devices and the second group of cutter roller devices; the front end of the auger of the square bundle baler is provided with the stripper of the square bundle baler which is inclined backwards, so that the working efficiency is greatly improved, the use cost is reduced, and the safety is improved.

The prior device gradually exposes the defects of the technology along with the use, and is mainly expressed in the following aspects:

first, current device is received the material and is spilled the material to the hopper in back, and the material is unordered, can't realize carrying out the feed to the material, has influenced the collection in later stage and has used.

Secondly, the current material device that spills is not convenient for receive material with fertilizer or material, and can't guarantee the homogeneity that fertilizer was shed.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a device among the conventional art to material income back in the hopper, the material all is unordered spills the material, can't realize carrying out the feed to the material, has influenced the problem that the collection in later stage was used.

In order to solve the above problem, the utility model provides a following technical scheme:

the utility model provides a receive material and spill material feed all-in-one, includes the frame, the preceding tip of frame is equipped with receiving mechanism, the upper end rigid coupling of frame has the feed bin, the bottom of frame is equipped with connects the workbin, receiving mechanism's discharge end with connect the workbin to be connected, connect the feed mechanism who is connected with vertical setting on the workbin, feed mechanism's discharge end is connected with the feed mechanism that the horizontal hunting set up, feed mechanism's discharge end is followed adjust the setting between the top of feed bin to the lateral part of frame.

As an optimized scheme, the frame below level is rotated side by side and is equipped with two and spills the material and get rid of the dish, the bottom of feed bin is equipped with the material discharge gate and the material loading discharge gate of spilling that set up relatively, two spill the material and get rid of the dish and be located spill the below of material discharge gate, connect the upper end opening setting of workbin, and be located the below of material loading discharge gate.

As an optimized scheme, the bottom surface of the material receiving box is obliquely arranged, and the feeding end of the feeding mechanism is communicated with the inner cavity of the end part of the material receiving box below.

As an optimized scheme, a support frame is fixedly connected to the frame, an electric rotating disc is fixedly connected to the upper portion of the support frame, the feeding mechanism is fixedly connected to the rotating end of the electric rotating disc, a material receiving hopper located above the electric rotating disc is arranged at the feeding end of the feeding mechanism, and the material discharging end of the feeding mechanism is located above the material receiving hopper.

As an optimized scheme, the receiving mechanism comprises a material guide platform, wherein a material guide inclined plane is obliquely arranged on the upper surface of the material guide platform, a feeding channel is arranged at the position, close to the upper end, of the material guide inclined plane, a rotating shaft is horizontally arranged in the feeding channel and rotates horizontally, two sections of auger blades which are opposite in rotating direction are fixedly connected to the rotating shaft side by side, the material conveying directions of the auger blades are oppositely arranged, two plate shifting wheels which are in surface friction contact with the auger blades are further arranged on the material guide inclined plane in a rotating mode, and the plate shifting wheels face one side of the feeding channel and are oppositely arranged in a rotating mode.

As an optimized scheme, the feeding channel comprises a discharging channel which is arranged on the material guide platform in a tapered mode from top to bottom, the arc-shaped material conveying channel matched with the auger blade is further arranged below the discharging channel, and the auger blade is rotatably arranged in the arc-shaped material conveying channel.

As an optimized scheme, the material guide platform is a hollow shell, the arc-shaped material conveying channels are arranged on the two lower surfaces between the opposite end parts of the auger blades, a feeding cylinder communicated with the inner cavity of the auger blades is fixedly connected to the outer wall of the material receiving box in an inclined mode, and the upper end part of the feeding cylinder is connected with the discharging cylinder through a hose.

As an optimized scheme, the shifting plate wheel comprises four shifting plates which are arranged in a centrosymmetric mode, and the lower surfaces of the shifting plates are in friction contact with the material guide inclined surfaces.

As an optimized scheme, one ends of the four material poking plates, which are positioned at the inner side, are fixedly connected to the rotating disc together.

As an optimized scheme, a lateral hydraulic motor for driving the rotating shaft to rotate is fixedly connected to the outer wall of the material guiding platform.

As an optimized scheme, an upper hydraulic motor for driving the shifting plate wheel to rotate is fixedly connected inside the material guide table.

As an optimized solution, the rotating disc is fixedly connected to the output shaft of the upper hydraulic motor.

As an optimized scheme, a plurality of scrapers are horizontally and rotatably arranged on the discharge port, and the two material scattering throwing discs are positioned below the tail end of the scraper in the running direction of the frame.

As an optimized scheme, the frame is in the position at scraper blade traffic direction both ends and rotates side by side and installs two pivots, every the rigid coupling has two sprockets side by side in the pivot, is in two of homonymy be equipped with the ring chain between the sprocket, the both ends of scraper blade correspond the rigid coupling in two on the relative inner wall of ring chain.

As an optimized scheme, a bearing plate is fixedly connected to the position of the discharge port horizontally, the bearing plate is located below the scraper, and the scraper is in friction contact with the upper surface of the bearing plate.

As an optimized scheme, a conveying hydraulic motor for driving the rotating shaft to rotate is further fixedly connected to the frame.

As an optimized scheme, a plurality of spreading blades are fixedly connected to the upper surface of the spreading throwing disc along the center.

As an optimized scheme, the positions of the frame, which are close to the front end and the rear end, are respectively and rotatably provided with movable wheels.

As an optimized scheme, the frame is further fixedly connected with a material scattering hydraulic motor for driving the material scattering throwing disc to rotate.

Compared with the prior art, the beneficial effects of the utility model are that:

the material receiving, scattering and feeding are combined, so that the material receiving, scattering and feeding are integrated, the fertilizer or the material is conveyed into the material receiving box by the vehicle through the material receiving mechanism, the material in the material receiving box is guided into the feeding mechanism by the feeding mechanism, when the discharge end of the feeding mechanism is positioned above the material bin, the material is put into the material bin, and when the discharge end of the feeding mechanism is positioned on one side of the vehicle body, the material is orderly guided into one side of the vehicle body for feeding;

the material scattering discharge port and the material loading discharge port are formed in the material bin, the materials are respectively controlled to be discharged from the material scattering discharge port and the material loading discharge port by controlling the moving direction of the scraper, the materials discharged from the material scattering discharge port are scattered by using two material scattering throwing disks, and synchronous work is realized;

the materials discharged from the feeding and discharging port enter a material receiving box for feeding or feeding operation;

by arranging the two auger blades, and arranging the rotation directions of the two auger blades in opposite directions, the materials are gathered towards the middle and are led out through the discharge barrel, so that the efficiency of leading out the materials is improved;

the material is gathered towards the middle by arranging the two shifting plate wheels above the auger blade in parallel, the material is guided into the blanking channel along the guide inclined plane and is guided into the arc-shaped conveying channel through the blanking channel, and the material is shifted into the discharging barrel by utilizing the auger blade, so that the uniformity of the material entering is ensured, and the conveying efficiency of the material is greatly improved;

the rotating speed of the rotating shaft and the material spreading throwing disc is stabilized by arranging the material spreading hydraulic motor and the conveying hydraulic motor, so that the size of the discharged material and the range of the width of the spread material are controlled more limitedly;

the parts are few, the working procedure is simple and convenient, and the failure rate is low; the structure is simple, and the service life is long; simple and convenient operation and control, easy large-scale manufacture and installation and wide application range.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the structure of the auger blade of the present invention

Fig. 3 is a schematic structural diagram of the storage bin of the present invention.

In the figure: 1-a material guide table; 2-guiding the material by a slope; 3-a kickoff plate; 4-a blanking channel; 5-arc-shaped material conveying channels; 6-a rotating shaft; 7-auger blade; 8-discharging barrel; 9-a feeding cylinder; 10-a rotating disc; 11-upper hydraulic motor; 12-side hydraulic motor; 13-material spreading throwing disc; 14-a frame; 15-delivery hydraulic motor; 16-a storage bin; 17-a carrier plate; 18-ring chains; 19-a scraper; 20-a sprocket; 21-spreading blades; 22-material spreading and discharging port; 23-a spreader hydraulic motor; 24-feeding and discharging; 25-material receiving box; 26-a feeding mechanism; 27-a feeding mechanism; 28-a receiving hopper; 29-a support frame; 30-electric rotating disc.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 3, the material receiving, scattering and feeding integrated machine comprises a frame 14, a material receiving mechanism is arranged at the front end of the frame 14, a bin 16 is fixedly connected to the upper end of the frame 14, a material receiving box 25 is arranged at the bottom of the frame 14, the discharge end of the material receiving mechanism is connected with the material receiving box 25, a vertically-arranged feeding mechanism 26 is connected to the material receiving box 25, a feeding mechanism 27 horizontally swinging and arranged is connected to the discharge end of the feeding mechanism 26, and the discharge end of the feeding mechanism 27 is adjusted and arranged between the upper part of the bin 16 and the side part of the frame 14.

Two material scattering and throwing discs 13 are horizontally arranged below the frame 14 in parallel in a rotating mode, a material scattering and discharging port 22 and a material loading and discharging port 24 which are arranged oppositely are arranged at the bottom of the storage bin 16, the two material scattering and throwing discs 13 are located below the material scattering and discharging port 22, and an upper end opening of the material receiving box 25 is arranged and located below the material loading and discharging port 24.

The bottom surface of the material receiving box 25 is obliquely arranged, and the feeding end of the feeding mechanism 26 is communicated with the inner cavity of the lower end part of the material receiving box 25.

A supporting frame 29 is fixedly connected to the frame 14, an electric rotating disc 30 is fixedly connected above the supporting frame 29, a feeding mechanism 27 is fixedly connected to the rotating end of the electric rotating disc 30, a receiving hopper 28 located above the electric rotating disc 30 is arranged at the feeding end of the feeding mechanism 27, and the discharging end of the feeding mechanism 26 is located above the receiving hopper 28.

The receiving agencies includes guide platform 1, the upper surface slope of guide platform 1 is equipped with guide inclined plane 2, the position that guide inclined plane 2 is close to the upper end is equipped with feedstock channel, the level is equipped with the horizontal rotation in the feedstock channel and is equipped with pivot 6, the rigid coupling has two sections auger blades 7 that revolve to opposite direction on the pivot 6 side by side, the defeated material direction of two auger blades 7 sets up in opposite directions, still rotate on the guide inclined plane 2 and be equipped with rather than two group's board wheel of surperficial friction contact, two group's board wheels rotate the setting towards opposite directions between one side of feedstock channel.

The feed channel comprises a feeding channel 4 which is arranged on the guide platform 1 in a tapered manner from top to bottom, an arc-shaped material conveying channel 5 matched with the auger blade 7 is further arranged below the feeding channel 4, and the auger blade 7 is rotatably arranged in the arc-shaped material conveying channel 5.

The material guide table 1 is a hollow shell, a material discharge barrel 8 is arranged on the lower surface of the arc-shaped material conveying channel 5 between the opposite end parts of the two auger blades, a material feeding barrel 9 communicated with the inner cavity of the material receiving box 25 is fixedly connected on the outer wall in an inclined mode, and the upper end part of the material feeding barrel 9 is connected with the material discharge barrel 8 through a hose.

The plate-shifting wheel comprises four material-shifting plates 3 which are arranged in a centrosymmetric manner, and the lower surfaces of the material-shifting plates 3 are in friction contact with the material guide inclined planes 2.

One ends of the four material poking plates 3 at the inner sides are fixedly connected to the rotating disc 10 together.

The outer wall of the material guiding platform 1 is fixedly connected with a side hydraulic motor 12 which drives the rotating shaft 6 to rotate.

An upper hydraulic motor 11 for driving the shifting plate wheel to rotate is fixedly connected inside the material guide table 1.

The rotary disc 10 is fixed to an output shaft of the upper hydraulic motor 11.

The discharge port is horizontally and rotatably provided with a plurality of scrapers 19, and the two material scattering throwing discs 13 are positioned below the tail ends of the scrapers 19 in the running direction of the frame 14.

Two rotating shafts 6 are rotatably mounted in parallel on the frame 14 at the two ends of the running direction of the scraper 19, two chain wheels 20 are fixedly connected in parallel on each rotating shaft 6, a ring chain 18 is arranged between the two chain wheels 20 at the same side, and the two ends of the scraper 19 are correspondingly fixedly connected to the opposite inner walls of the two ring chains 18.

A bearing plate 17 is horizontally and fixedly connected at the discharge port, the bearing plate 17 is positioned below the scraper 19, and the scraper 19 is in frictional contact with the upper surface of the bearing plate 17.

The frame 14 is also fixedly connected with a conveying hydraulic motor 15 for driving the rotating shaft 6 to rotate.

The upper surface of the material scattering throwing disc 13 is fixedly connected with a plurality of material scattering blades 21 along the center.

The frame 14 is provided with moving wheels near the front and rear ends.

The frame 14 is also fixedly connected with a material spreading hydraulic motor 23 for driving the material spreading throwing disc 13 to rotate.

The feeding mechanism 26 and the feeding mechanism 27 are both screw conveyors.

The drive of the carriage 14 may be four-wheeled or tracked.

The material guiding platform 1 is connected to the vehicle body through a lifting mechanism, so that lifting can be controlled, the lifting mechanism can refer to a lifting structure of a bucket of the forklift, and the material guiding platform is not innovative in the scheme, so that repeated description is omitted.

The working principle of the device is as follows:

the material receiving, material scattering and feeding are combined, so that the material receiving, material scattering and feeding are integrated, the fertilizer or the material is conveyed into the material receiving box 2525 by the material receiving mechanism of the vehicle, the material in the material receiving box 2525 is guided into the feeding mechanism 27 by the feeding mechanism 26, when the discharge end of the feeding mechanism 27 is positioned above the material bin 16, the material is put into the material bin 16, and when the discharge end of the feeding mechanism 27 is positioned on one side of the vehicle body, the material is orderly guided into one side of the vehicle body for feeding;

the material scattering discharge port 22 and the material loading discharge port 24 are formed in the material bin 16, the materials are respectively controlled to be discharged from the material scattering discharge port 22 and the material loading discharge port 24 by controlling the moving direction of the scraper 19, the materials discharged from the material scattering discharge port 22 are thrown by using the two material scattering throwing discs 13, and synchronous work is realized;

the material discharged from the feeding and discharging port 24 enters a material receiving box 2525 for feeding or feeding;

by arranging the two auger blades 7 and arranging the two auger blades 7 in opposite rotating directions, the materials are gathered towards the middle and are led out through the discharge barrel 8, so that the efficiency of leading out the materials is improved;

the material is gathered towards the middle by arranging the two shifting plate wheels above the auger blade 7 in parallel, the material is guided into the blanking channel 4 along the material guide inclined plane 2 and is guided into the arc-shaped conveying channel 5 through the blanking channel 4, and the auger blade 7 is utilized to shift the material into the discharging barrel 8, so that the uniformity of the material entering is ensured, and the conveying efficiency of the material is greatly improved;

through setting up and spilling material hydraulic motor 23 and carrying hydraulic motor 15, the purpose lets pivot 6 and spills the material rotational speed of getting rid of dish 13 stable to the size of more limited control discharge and the scope of the width of spilling the material.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. The utility model provides a receive material and spill material feed all-in-one which characterized in that: including frame (14), the preceding tip of frame (14) is equipped with receiving mechanism, the upper end rigid coupling of frame (14) has feed bin (16), the bottom of frame (14) is equipped with and connects workbin (25), receiving mechanism's discharge end with connect workbin (25) to be connected, connect feed mechanism (26) that are connected with vertical setting on workbin (25), the discharge end of feed mechanism (26) is connected with feed mechanism (27) that the horizontal hunting set up, the discharge end of feed mechanism (27) is followed adjust the setting between the lateral part of top to frame (14) of feed bin (16).

2. A receiving, spreading and feeding all-in-one machine as claimed in claim 1, which is characterized in that: frame (14) below level is rotated side by side and is equipped with two and spills the material and get rid of dish (13), the bottom of feed bin (16) is equipped with the material discharge gate (22) and material loading discharge gate (24) of spilling that set up relatively, two spill the material and get rid of dish (13) and be located spill the below of material discharge gate (22), connect the upper end opening setting of workbin (25), and be located the below of material loading discharge gate (24).

3. A material receiving, spreading and feeding all-in-one machine as claimed in claim 1, which is characterized in that: the bottom surface of the material receiving box (25) is obliquely arranged, and the feeding end of the feeding mechanism (26) is communicated with the inner cavity of the end part of the material receiving box (25) below.

4. A receiving, spreading and feeding all-in-one machine as claimed in claim 1, which is characterized in that: the fixed connection has support frame (29) on frame (14), the top fixed connection of support frame (29) has electric turntable (30), feed mechanism (27) fixed connection in the rotation of electric turntable (30) is served, the feed end of feed mechanism (27) is equipped with and is located connect hopper (28) of electric turntable (30) top, the discharge end of feed mechanism (26) is located connect the top of hopper (28).

5. A material receiving, spreading and feeding all-in-one machine as claimed in claim 1, which is characterized in that: receiving agencies includes guide platform (1), the upper surface slope of guide platform (1) is equipped with guide inclined plane (2), the position that guide inclined plane (2) are close to the upper end is equipped with feedstock channel, the level is equipped with the level and rotates and is equipped with pivot (6) in the feedstock channel, the rigid coupling has two sections auger blades (7) that revolve to opposite on pivot (6) side by side, two auger blade (7) defeated material direction sets up in opposite directions, still rotate on guide inclined plane (2) and be equipped with rather than two of surperficial friction contact dial the board wheel, two dial the board wheel orientation opposite rotation sets up between one side of feedstock channel.

6. A receiving, spreading and feeding all-in-one machine as claimed in claim 5, characterized in that: the feed channel is including seting up in unloading passageway (4) that are the gradual shrinkage formula setting from the top down on guide platform (1), the below of unloading passageway (4) still be equipped with auger blade (7) assorted arc material conveying passageway (5), auger blade (7) rotate set up in arc material conveying passageway (5).

7. A material receiving, spreading and feeding integrated machine as claimed in claim 6, characterized in that: the material guide platform (1) is a hollow shell, the arc-shaped material conveying channel (5) is arranged in two, a material discharging barrel (8) is arranged on the lower surface between the opposite end parts of the auger blade, a material feeding barrel (9) communicated with the inner cavity of the material conveying barrel is fixedly connected to the upper slope of the outer wall of the material receiving box (25), and the upper end part of the material feeding barrel (9) is connected with the material discharging barrel (8) through a hose.

8. A material receiving, spreading and feeding all-in-one machine as claimed in claim 7, characterized in that: the stirring plate wheel comprises four stirring plates (3) which are arranged in a centrosymmetric manner, and the lower surfaces of the stirring plates (3) are in friction contact with the guide inclined planes (2).

9. A material receiving, spreading and feeding all-in-one machine as claimed in claim 8, characterized in that: one ends of the four kick-out plates (3) at the inner sides are fixedly connected to the rotating disc (10) together.

10. The integrated material receiving, spreading and feeding machine as claimed in claim 9, wherein: and a lateral hydraulic motor (12) for driving the rotating shaft (6) to rotate is fixedly connected to the outer wall of the material guide table (1).

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