CN116983896A - Auxiliary raw material adding device for feed production and application method thereof - Google Patents

Abstract

The invention relates to the field of feeding devices for feed production, in particular to a raw material auxiliary adding device for feed production, which comprises a stirring tank body, wherein five main positioning plates are fixedly connected to the top of the stirring tank body along the circumference at equal intervals, guide rods are symmetrically and fixedly connected to two sides of each main positioning plate, and auxiliary positioning plates are fixedly connected between one ends of the four guide rods. The auxiliary raw material adding device for feed production and the using method thereof consist of a material distributing mechanism and a transmission mechanism; the electric push rod is used for carrying the conical limiting plate and the T-shaped adjusting sleeve to move in the charging barrel, controlling the distance from the bottom of the T-shaped adjusting sleeve to the inner bottom surface of the charging barrel, adjusting the input amount of raw materials, then starting the electric telescopic rod to carry the piston plate to move downwards, enabling the distributing plate and the arc-shaped partition plate to be unfolded at the lower part of the T-shaped adjusting sleeve, separating the raw materials in the charging barrel, and accordingly accurately controlling the input amount of different raw materials according to the difference of feed proportions, and improving the feed production quality.

Description

Auxiliary raw material adding device for feed production and application method thereof

Technical Field

The invention relates to the field of feeding devices for feed production, in particular to a raw material auxiliary adding device for feed production and a using method thereof.

Background

When the feed is used for raising animals, the feed is mainly formed by mixing different cereal raw materials, and the production process of the feed is to mix the five different cereal raw materials together and then prepare granular materials through special treatment.

The prior patent (publication number: CN 113209901B) discloses a raw material variable adding and multi-shaft stirring device for feed production, which comprises a feed box, wherein a discharging plate is movably connected in the feed box, and a driving rotating rod is arranged in the feed box. The inventor finds that the following problems in the prior art are not solved well in the process of realizing the scheme: 1. because the feed has more auxiliary materials to be added in the production process and the proportion of each auxiliary material to be added is different, the raw material adding device is difficult to accurately add different raw materials in the use process, and the production quality of the feed is affected; 2. because feed addition needs to mix like inside the agitator tank after, the device is with multiple raw materials input to the agitator tank is inside simultaneously at the raw materials in-process of adding, and multiple raw materials can pile up together in-process of delivering simultaneously, influences mixing efficiency.

Disclosure of Invention

The invention aims to provide a raw material auxiliary adding device for feed production and a using method thereof, which are used for solving the problems in the background art: 1. the existing part of raw material adding devices are difficult to accurately add according to the proportions of different raw materials; 2. in the use process of the existing part of raw material adding device, various raw materials are simultaneously put into the stirring tank, so that the mixing efficiency is affected. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a supplementary interpolation device of raw materials for feed production, includes the agitator tank body, the top of agitator tank body is along circumference equidistance fixedly connected with five main locating plates, the both sides of main locating plate all symmetry fixedly connected with guide arm, four fixedly connected with is from the locating plate between the one end of guide arm, four be provided with the feed cylinder between the guide arm, the both sides of feed cylinder are respectively swing joint in the surface of two guide arms of homonymy;

a distributing mechanism is movably connected in the charging barrels, a transmission mechanism is movably connected between the middle position of the top of the stirring tank body and the five charging barrels, and through grooves matched with the transmission mechanism are formed in the middle positions of the side walls of the slave positioning plates;

the bottom of the charging barrel is fixedly connected with a conical discharging head, five L-shaped discharging grooves are formed in the top of the stirring tank body at equal intervals along the circumference, the bottoms of the five conical discharging heads are respectively overlapped with the inner walls of the five L-shaped discharging grooves, and a baffle plate matched with the L-shaped discharging grooves is movably connected to the inner top surface of the stirring tank body;

the side wall fixedly connected with glass display strip of feed cylinder, the scale mark has been seted up to the surface of glass display strip, the feed opening has been seted up on the upper portion of feed cylinder.

Preferably, the material distributing mechanism comprises a T-shaped adjusting sleeve, the T-shaped adjusting sleeve is movably inserted into the charging barrel, six material distributing plates are movably connected to two sides of the lower part of the T-shaped adjusting sleeve, a storage groove is formed in the material distributing plate and the side wall of the lower part of the T-shaped adjusting sleeve, the six material distributing plates are distributed in a stepped mode and extend outwards along the side wall of the lower part of the T-shaped adjusting sleeve, and the six material distributing plates are sequentially inserted into the adjacent storage grooves;

an arc-shaped partition plate is movably inserted into the material separating plate far away from one side of the T-shaped adjusting sleeve, sliding grooves are symmetrically formed in the inner wall of the accommodating groove, sliding blocks are fixedly connected to the two sides of the arc-shaped partition plate and the two sides of the material separating plate, and the sliding blocks are connected in the adjacent sliding grooves in a sliding manner;

the middle positions of the inner walls of the seven storage grooves are fixedly connected with sleeves, the seven sleeves are sequentially sleeved and mounted, and the sleeve on one side far away from the T-shaped adjusting sleeve is fixedly connected with the middle part of the side wall of the arc-shaped partition plate;

the T-shaped adjusting sleeve is internally provided with T-shaped adjusting grooves matched with two adjacent sleeves, the upper part of the inner wall of each T-shaped adjusting groove is connected with a piston plate in a sliding manner, hydraulic oil matched with each piston plate is arranged between the lower part of each T-shaped adjusting groove and seven sleeves, pull ropes are symmetrically and fixedly connected to the bottoms of the piston plates, and one ends of the pull ropes extend into seven sleeves on the same side and are fixedly connected with the inner wall of the sleeve far away from one side of each T-shaped adjusting sleeve;

the top of the piston plate is fixedly connected with an electric telescopic rod, the upper part of the electric telescopic rod is fixedly connected with the upper part of a T-shaped adjusting sleeve, and the upper part of the T-shaped adjusting sleeve penetrates through a charging barrel and is fixedly connected with a conical limiting plate;

the electric push rods are fixedly connected to the two sides of the upper portion of the charging barrel, and the tops of the two electric push rods are respectively overlapped on the two sides of the bottom of the conical limiting plate.

Preferably, both sides of the distributing plate are respectively provided with an arc surface, and six distributing plates and the arc partition plates are unfolded to be semicircular.

Preferably, a limiting ring is fixedly connected to the lower portion of the inner wall of the T-shaped adjusting groove, and an inner ring of the limiting ring is provided with an arc-shaped surface.

Preferably, the transmission mechanism comprises a mounting groove, the mounting groove is formed in the middle of the top of the stirring tank body, a motor is fixedly connected in the mounting groove, a backing plate is fixedly connected to the rotating end of the motor, and the bottom of the backing plate is lapped on the top of the stirring tank body;

the top of the backing plate is eccentrically provided with a transmission shaft, the top of the transmission shaft is fixedly connected with a cushion block, a support frame is fixedly connected between the opposite sides of the five slave positioning plates, and the top of the cushion block is rotationally connected with the bottom of the support frame;

the middle part of the transmission shaft is fixedly sleeved with a supporting bearing, the outer ring of the supporting bearing is fixedly connected with a pentagonal connecting plate, five connecting grooves are formed in the side wall of the pentagonal connecting plate at equal intervals along the circumference, pin shafts are rotationally connected in the connecting grooves, connecting rods are rotationally connected to the surfaces of the pin shafts, and one ends of the five connecting rods are respectively movably inserted in the five through grooves;

the lower parts of the outer walls of the five charging barrels are fixedly sleeved with supporting rings, the side walls of the supporting rings are fixedly connected with hinging blocks, and one ends of the five connecting rods are hinged with the side walls of the five hinging blocks respectively.

Preferably, the bottom of backing plate is rotated along circumference equidistance and is connected with four balls, the bottom overlap joint of ball is at the top surface of the agitator tank body.

Preferably, guide blocks are symmetrically and fixedly connected to two sides of the lower portion of the charging barrel, and four guide blocks are respectively and slidably connected to the surfaces of the adjacent four guide rods.

The application method of the auxiliary raw material adding device for feed production comprises the following steps:

s1, when the auxiliary raw material adding device is used, firstly, different raw materials of feed are respectively added into different feed barrels, then, an electric push rod is started to ascend, the electric push rod is propped against a conical limiting plate to drive a T-shaped adjusting sleeve to ascend in the feed barrels, at the moment, an operator observes scale marks of the positions of glass display strips, and after the amount of the raw materials from the bottom of the T-shaped adjusting sleeve to the bottom of the feed barrels is determined to be a required amount, the electric push rod is closed;

s2, starting the electric telescopic rod to move downwards, enabling the electric telescopic rod to press against a piston plate in the T-shaped adjusting sleeve, enabling hydraulic oil in the T-shaped adjusting sleeve to push seven sleeves to stretch out sequentially along with the downward movement of the piston plate, enabling the sleeves to sequentially stretch out at the lower part of the T-shaped adjusting sleeve with six distributing plates and arc-shaped partition plates, enabling the lower part of the T-shaped adjusting sleeve to be in a disc-shaped lap joint with the inner wall of a charging barrel after being stretched out, starting the electric push rod to shrink, releasing the support of the conical limiting plate, and controlling the baffle to move to release the sealing of the position of the L-shaped discharging groove;

s3, then restarting the motor, enabling the rotating end of the motor to rotate between the top of the stirring tank body and the bottom of the supporting frame with the backing plate and the cushion block, enabling the transmission shaft eccentrically arranged between the backing plate and the cushion block to rotate along with the rotation to form an annular rotating track, enabling a pentagonal connecting plate rotationally connected with the middle of the transmission shaft to move along the track, respectively pulling five charging barrels to slide back and forth at the top of the stirring tank body through five connecting rods in the moving process of the pentagonal connecting plate, enabling the raw materials at the lower part of the charging barrels to be thrown into the stirring tank body in a stepwise manner in the conical discharging head, and enabling the bottoms of the five charging barrels to be sequentially subjected to feeding operation due to the fact that the pentagonal connecting plate moves along the eccentric circular track;

s4, finally, when the feeding of the raw materials set in one of the feed barrels is finished, the T-shaped adjusting sleeve slides to the inner bottom surface of the feed barrel along with the sliding of the raw materials, the upper position of the conical discharging head is sealed, after the feed processing is finished, the electric telescopic rod is started again to lift up in the T-shaped adjusting sleeve along with the piston plate, at the moment, the piston plate pulls seven sleeves to be sequentially close and contracted through the pull rope, so that the arc-shaped partition plate and the six distributing plates are retracted into the side wall positions of the T-shaped adjusting sleeve, and then the electric push rod is used for moving and adjusting the amount of the fed materials next time along with the conical limiting plate and the T-shaped adjusting sleeve.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, through the matched use of the T-shaped adjusting sleeve, the distributing plate, the piston plate and other parts, the electric push rod moves in the charging barrel along with the conical limiting plate and the T-shaped adjusting sleeve, the distance between the bottom of the T-shaped adjusting sleeve and the inner bottom surface of the charging barrel is controlled, the amount of the fed raw materials is adjusted, the electric telescopic rod is started to move downwards along with the piston plate, the distributing plate and the arc-shaped partition plate are unfolded at the lower part of the T-shaped adjusting sleeve, and the raw materials in the charging barrel are separated, so that the amount of the fed raw materials is accurately controlled according to different feed proportions, and the feed production quality is improved.

According to the invention, through the matched use of the transmission mechanism, the charging barrels, the L-shaped discharging groove and other parts, the five charging barrels are driven to slide back and forth on the corresponding guide rod surfaces by starting the transmission mechanism, so that the five charging barrels sequentially and stepwise input the internal raw materials into the stirring tank body, different raw materials can be uniformly dispersed for charging and mixing, and the raw material mixing efficiency is improved.

According to the invention, through the matched use of the T-shaped adjusting sleeve, the charging barrel, the conical discharging head and other parts, as the side walls of the T-shaped adjusting sleeve, the distributing plate and the arc-shaped partition plate are overlapped with the inner wall of the charging barrel, after the raw materials quantitatively arranged at the lower part of the charging barrel are gradually put into the stirring tank body, the T-shaped adjusting sleeve moves downwards to the inner bottom surface of the charging barrel, the bottom surface of the T-shaped adjusting sleeve seals the upper part of the conical discharging head, so that the charging barrel can not be charged any more in the moving process along with other charging barrels after the charging of the charging barrel is finished, and the adding precision of the raw materials is improved.

Drawings

FIG. 1 is a top view in elevation of the cartridge and spacer positions of the present invention;

FIG. 2 is a front cross-sectional view of a partial location of a pad and block of the present invention;

FIG. 3 is a top view of the pentagonal connecting plate and the slave positioning plate of the present invention;

FIG. 4 is a side view of a partial position of the cartridge of the present invention;

FIG. 5 is a side cross-sectional view of a partial position of a cartridge and T-shaped adjustment sleeve of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5A in accordance with the present invention;

FIG. 7 is a top view in elevation of the T-shaped adjustment sleeve and stripper plate of the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 7B in accordance with the present invention;

FIG. 9 is a top view of a partial position of a feed divider and a receiving slot of the present invention;

FIG. 10 is an enlarged view of the structure of FIG. 9C in accordance with the present invention;

FIG. 11 is a perspective view of the location of the pad and block of the present invention.

In the figure: 1. a stirring tank body; 2. a main positioning plate; 3. a guide rod; 4. a slave positioning plate; 5. a charging barrel; 6. a material distributing mechanism; 601. t-shaped adjusting sleeve; 602. a material dividing plate; 603. a storage groove; 604. an arc-shaped partition plate; 605. a chute; 606. a slide block; 607. a sleeve; 608. a T-shaped adjusting groove; 609. a piston plate; 610. hydraulic oil; 611. a pull rope; 612. an electric telescopic rod; 613. a conical limiting plate; 614. an electric push rod; 7. a transmission mechanism; 701. a mounting groove; 702. a motor; 703. a backing plate; 704. a transmission shaft; 705. a cushion block; 706. a support frame; 707. a support bearing; 708. a pentagonal connecting plate; 709. a connecting groove; 710. a pin shaft; 712. a connecting rod; 713. a support ring; 714. a hinge block; 8. a through groove; 9. conical discharging head; 10. an L-shaped discharge groove; 11. a glass display strip; 12. scale marks; 13. a feeding port; 14. and a baffle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: the utility model provides a supplementary interpolation device of raw materials for feed production, includes agitator tank body 1, the top of agitator tank body 1 is along circumference equidistance fixedly connected with five main locating plates 2, the equal symmetrical fixedly connected with guide arm 3 in both sides of main locating plate 2, fixedly connected with is followed locating plate 4 between the one end of four guide arms 3, is provided with feed cylinder 5 between four guide arms 3, the both sides of feed cylinder 5 swing joint respectively at the surface of two guide arms 3 of homonymy. It should be noted that: the two guide rods 3 on the same side are arranged symmetrically up and down on one side of the main locating plate 2, so that two sides of the charging barrel 5 can be guided by the two guide rods 3, and the stability of the charging barrel 5 in the moving process of the top of the stirring tank body 1 is improved.

The inside swing joint of feed cylinder 5 has feed divider 6, and swing joint has drive mechanism 7 between the intermediate position at agitator tank body 1 top and five feed cylinders 5, and five follow the intermediate position of locating plate 4 lateral wall and offered the logical groove 8 that cooperatees with drive mechanism 7.

The bottom of the charging barrel 5 is fixedly connected with a conical discharging head 9. It should be noted that: the conical discharging head 9 can be provided with an adjustable electric valve to realize the adjustment of the single discharging amount, which is the prior art and will not be described in detail.

Five L-shaped discharge grooves 10 are formed in the top of the stirring tank body 1 at equal intervals along the circumference, the bottoms of the five conical discharge heads 9 are respectively overlapped with the inner walls of the five L-shaped discharge grooves 10, and a baffle 14 matched with the L-shaped discharge grooves 10 is movably connected to the inner top surface of the stirring tank body 1. It should be noted that: the length of the L-shaped discharge groove 10 is the same as the stroke length of the reciprocating movement of the charging barrel 5, when the charging barrel 5 moves to one side of the L-shaped discharge groove 10 with the conical discharging head 9, the charging barrel is discharged, and when the charging barrel moves to the other side of the L-shaped discharge groove 10, the charging barrel is sealed, so that the staged discharging is realized; one side of the baffle 14 is fixedly connected with a miniature electric push rod, and the position of the L-shaped discharge groove 10 is sealed by starting the miniature electric push rod to move along with the baffle 14.

The lateral wall fixedly connected with glass display strip 11 of feed cylinder 5, the scale mark 12 has been seted up on the surface of glass display strip 11, and feed opening 13 has been seted up on the upper portion of feed cylinder 5. It should be noted that: the glass display strip 11 is arranged to facilitate the observation of the positions of the raw materials and the T-shaped adjusting sleeve 601 in the charging barrel 5; the one-way valve is arranged in the feeding opening 13, so that the inside of the charging barrel 5 is prevented from being far away from overflowing.

In this embodiment, as shown in fig. 1 to 11, the material distributing mechanism 6 includes a T-shaped adjusting sleeve 601, the T-shaped adjusting sleeve 601 is movably inserted into the material cylinder 5, two sides of the lower portion of the T-shaped adjusting sleeve 601 are movably connected with six material distributing plates 602, the inner portions of the material distributing plates 602 and the side wall of the lower portion of the T-shaped adjusting sleeve 601 are respectively provided with a containing groove 603, the six material distributing plates 602 are distributed in a stepped manner and extend outwards along the side wall of the lower portion of the T-shaped adjusting sleeve 601, and the six material distributing plates 602 are sequentially inserted into the inner portions of adjacent containing grooves 603. It should be noted that: the six dividing plates 602 are identical in structure, but are successively decreasing in size.

The inside activity grafting of the branch flitch 602 that keeps away from T type adjusting collar 601 one side has arc baffle 604, and the spout 605 has been seted up to the inner wall symmetry of accomodating groove 603, and the equal fixedly connected with slider 606 in both sides of arc baffle 604 and branch flitch 602, slider 606 sliding connection is in the inside of adjacent spout 605. It should be noted that: the arc-shaped partition plate 604 and the six material dividing plates 602 are installed one by one, and when the arc-shaped partition plate 604 and the six material dividing plates 602 are contracted, the arc-shaped partition plate 604 can be stored into the storage groove 603 at the lower part of the T-shaped adjusting sleeve 601.

The middle positions of the inner walls of the seven storage grooves 603 are fixedly connected with sleeves 607, the seven sleeves 607 are sequentially sleeved and mounted, and the sleeve 607 on one side far away from the T-shaped adjusting sleeve 601 is fixedly connected with the middle part of the side wall of the arc-shaped partition plate 604.

T-shaped adjusting grooves 608 matched with two adjacent sleeves 607 are formed in the T-shaped adjusting sleeve 601, piston plates 609 are slidably connected to the upper portions of the inner walls of the T-shaped adjusting grooves 608, hydraulic oil 610 matched with the piston plates 609 is arranged between the lower portions of the T-shaped adjusting grooves 608 and the seven sleeves 607, pull ropes 611 are symmetrically and fixedly connected to the bottoms of the piston plates 609, one ends of the pull ropes 611 extend into the seven sleeves 607 on the same side, and are fixedly connected with the inner walls of the sleeves 607 on one side far away from the T-shaped adjusting sleeve 601. It should be noted that: the sizes of the seven sleeves 607 are sequentially decreased and sequentially sleeved, so that six sleeves 607 can be contained in the largest sleeve 607, a sealing ring is arranged between every two adjacent sleeves 607, and two sides of the T-shaped adjusting groove 608 are respectively arranged in a sealing mode with the corresponding seven sleeves 607; where the hydraulic oil 610 may be replaced by water.

The top of piston plate 609 is fixedly connected with electric telescopic rod 612, and electric telescopic rod 612's upper portion fixed connection is in the upper portion of T type adjusting collar 601, and the upper portion of T type adjusting collar 601 runs through feed cylinder 5 fixedly connected with toper limiting plate 613. It should be noted that: the bottom fixedly connected with of T type adjusting collar 601 and toper unloading head 9 matched with are sealed the pad, and after the inside raw materials of feed cylinder 5 were unloaded and are ended, seal the toper unloading head 9 position by sealed pad, toper unloading head 9 removes to L type discharge groove 10 position and also can not unload this feed cylinder 5 position this moment, promotes the precision of unloading.

The electric push rods 614 are fixedly connected to the two sides of the upper portion of the charging barrel 5, and the tops of the two electric push rods 614 are respectively overlapped on the two sides of the bottom of the conical limiting plate 613. It should be noted that: the electric push rod 614 is used for pushing the conical limiting plate 613 to move upwards, so that the position of the T-shaped adjusting sleeve 601 is adjusted.

In this embodiment, as shown in fig. 1 to 11, both sides of the material dividing plate 602 are arc surfaces, and the six material dividing plates 602 and the arc partition 604 are semicircular after being unfolded. It should be noted that: the side wall of the material distributing plate 602 can be stably attached to the inner wall of the charging barrel 5.

In this embodiment, as shown in fig. 1 to 11, a limiting ring is fixedly connected to the lower portion of the inner wall of the T-shaped adjusting groove 608, and the inner ring of the limiting ring is an arc surface. It should be noted that: the piston plate 609 in the downward moving process is limited by the limiting ring, when the piston plate 609 is propped against the top surface of the limiting ring, the material separating plates 602 and the arc-shaped partition plates 604 on the two sides of the T-shaped adjusting sleeve 601 are all unfolded to be circular and are lapped on the inner wall of the charging barrel 5, and raw materials in the charging barrel 5 are separated; the arced surface arrangement avoids snagging the pull rope 611.

In this embodiment, as shown in fig. 1 to 11, the transmission mechanism 7 includes a mounting groove 701, the mounting groove 701 is formed in a middle position of the top of the stirring tank 1, a motor 702 is fixedly connected to the inside of the mounting groove 701, a pad 703 is fixedly connected to a rotating end of the motor 702, and the bottom of the pad 703 is lapped on the top of the stirring tank 1. It should be noted that: the side wall of the stirring tank 1 is provided with a controller, and the electric telescopic rod 612, the electric push rod 614 and the motor 702 are all electrically connected with the controller, which is not described in detail herein.

The top of backing plate 703 is provided with transmission shaft 704 eccentrically, and transmission shaft 704's top fixedly connected with cushion 705, five follow fixed connection support frame 706 between the opposite one side of locating plate 4, the top of cushion 705 and the bottom of support frame 706 rotate to be connected. It should be noted that: the top fixedly connected with pivot of cushion 705, pivot and the coaxial setting of motor 702 rotation end, pivot top rotate connect in support frame 706 bottom, set up through support frame 706, promote cushion 705 and backing plate 703 pivoted stability.

The middle part of transmission shaft 704 has fixedly cup jointed support bearing 707, and support bearing 707's outer lane fixedly connected with pentagonal connecting plate 708, five spread grooves 709 have been seted up along circumference equidistance to pentagonal connecting plate 708 lateral wall, and the inside rotation of spread groove 709 is connected with round pin axle 710, and the surface rotation of round pin axle 710 is connected with connecting rod 712, and the one end of five connecting rods 712 respectively activity alternates in the inside of five logical grooves 8. It should be noted that: the base plate 703 is fixedly connected with the transmission shaft 704, and when the motor 702 rotates with the base plate 703, an eccentric transmission mode is formed among the base plate 703, the transmission shaft 704 and the cushion block 705, and the base plate moves in an annular track with the pentagonal connection plate 708.

The lower parts of the outer walls of the five charging barrels 5 are fixedly sleeved with supporting rings 713, the side walls of the supporting rings 713 are fixedly connected with hinging blocks 714, and one ends of the five connecting rods 712 are respectively hinged with the side walls of the five hinging blocks 714.

In this embodiment, as shown in fig. 1 to 11, four balls are rotatably connected to the bottom of the pad 703 at equal intervals along the circumference, and the bottoms of the balls overlap the top surface of the stirring tank 1. It should be noted that: the ball arrangement reduces frictional resistance between the pad 703 and the top surface of the tank 1 during rotation.

In this embodiment, as shown in fig. 1 to 11, guide blocks are symmetrically and fixedly connected to two sides of the lower portion of the charging barrel 5, and four guide blocks are respectively and slidably connected to the surfaces of the four adjacent guide rods 3.

In this embodiment, as shown in fig. 1 to 11, a method for using a raw material auxiliary adding device for feed production includes the steps of:

s1, when the auxiliary raw material adding device is used, firstly, different raw materials of feed are respectively added into different feed barrels 5, then, an electric push rod 614 is started to ascend, the electric push rod 614 is abutted against a conical limiting plate 613 to ascend in the feed barrels 5 with a T-shaped adjusting sleeve 601, at the moment, an operator observes scale marks 12 at the position of a glass display strip 11, and after determining that the amount of the raw materials from the bottom of the T-shaped adjusting sleeve 601 to the bottom of the feed barrels 5 is a required amount, the electric push rod 614 is closed;

s2, starting the electric telescopic rod 612 to move downwards, enabling the electric telescopic rod 612 to press against the piston plate 609 in the T-shaped adjusting sleeve 601, enabling the hydraulic oil 610 in the T-shaped adjusting sleeve 601 to push the seven sleeves 607 to extend out sequentially along with the downward movement of the piston plate 609, enabling the sleeves 607 to bring the six distributing plates 602 and the arc-shaped partition plates 604 to be sequentially unfolded at the lower part of the T-shaped adjusting sleeve 601, enabling the lower part of the T-shaped adjusting sleeve 601 to be in a disc-shaped and overlapped with the inner wall of the charging barrel 5, starting the electric push rod 614 to shrink, releasing the support on the conical limiting plate 613, and controlling the baffle 14 to move to release the sealing on the position of the L-shaped discharging groove 10;

s3, starting the motor 702 again, enabling the rotating end of the motor 702 to drive the base plate 703 and the cushion block 705 to rotate between the top of the stirring tank body 1 and the bottom of the supporting frame 706, enabling the transmission shaft 704 eccentrically arranged between the base plate 703 and the cushion block 705 to rotate along with rotation and form an annular rotating track, enabling the pentagonal connecting plate 708 rotationally connected with the middle of the transmission shaft 704 to move along the track, respectively pulling five charging barrels 5 to slide back and forth on the top of the stirring tank body 1 through five connecting rods 712 in the moving process of the pentagonal connecting plate 708, enabling the raw materials at the lower parts of the charging barrels 5 to be thrown into the stirring tank body 1 in a stepwise manner in the conical discharging head 9, and enabling the bottoms of the five charging barrels 5 to be sequentially subjected to charging operation due to the fact that the pentagonal connecting plate 708 moves along the eccentric circular track;

and S4, finally, after the raw material delivery set in one of the charging barrels 5 is finished, the T-shaped adjusting sleeve 601 slides to the inner bottom surface of the charging barrel 5, the upper position of the conical discharging head 9 is sealed, after the feed processing is finished, the electric telescopic rod 612 is started again to lift up in the T-shaped adjusting sleeve 601 with the piston plate 609, at the moment, the piston plate 609 pulls the seven sleeves 607 to be sequentially close and contracted through the pull rope 611, so that the arc-shaped partition plate 604 and the six distributing plates 602 are retracted into the side wall positions of the T-shaped adjusting sleeve 601, and then the electric push rod 614 moves with the conical limiting plate 613 and the T-shaped adjusting sleeve 601 to adjust the amount of the next feeding.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a supplementary interpolation device of raw materials for feed production, includes agitator tank body (1), its characterized in that: five main positioning plates (2) are fixedly connected to the top of the stirring tank body (1) along the circumference at equal intervals, guide rods (3) are symmetrically and fixedly connected to two sides of each main positioning plate (2), a slave positioning plate (4) is fixedly connected between one ends of four guide rods (3), a charging barrel (5) is arranged between the four guide rods (3), and two sides of each charging barrel (5) are respectively and movably connected to the surfaces of two guide rods (3) on the same side;

a distributing mechanism (6) is movably connected in the charging barrels (5), a transmission mechanism (7) is movably connected between the middle position of the top of the stirring tank body (1) and the five charging barrels (5), and a through groove (8) matched with the transmission mechanism (7) is formed in the middle position of the side wall of the slave positioning plate (4);

the bottom of the charging barrel (5) is fixedly connected with a conical discharging head (9), five L-shaped discharging grooves (10) are formed in the top of the stirring tank body (1) at equal intervals along the circumference, the bottoms of the five conical discharging heads (9) are respectively overlapped with the inner walls of the five L-shaped discharging grooves (10), and a baffle (14) matched with the L-shaped discharging grooves (10) is movably connected to the inner top surface of the stirring tank body (1);

the side wall of the charging barrel (5) is fixedly connected with a glass display strip (11), scale marks (12) are formed in the surface of the glass display strip (11), and a feeding opening (13) is formed in the upper portion of the charging barrel (5).

2. The feed-producing raw material auxiliary adding device according to claim 1, wherein: the material distributing mechanism (6) comprises a T-shaped adjusting sleeve (601), the T-shaped adjusting sleeve (601) is movably inserted into the charging barrel (5), six material distributing plates (602) are movably connected to two sides of the lower portion of the T-shaped adjusting sleeve (601), containing grooves (603) are formed in the material distributing plates (602) and the side wall of the lower portion of the T-shaped adjusting sleeve (601), the six material distributing plates (602) are distributed in a step mode and extend outwards along the side wall of the lower portion of the T-shaped adjusting sleeve (601), and the six material distributing plates (602) are sequentially inserted into the adjacent containing grooves (603);

an arc-shaped partition plate (604) is movably inserted into the material separating plate (602) at one side far away from the T-shaped adjusting sleeve (601), sliding grooves (605) are symmetrically formed in the inner wall of the accommodating groove (603), sliding blocks (606) are fixedly connected to the two sides of the arc-shaped partition plate (604) and the two sides of the material separating plate (602), and the sliding blocks (606) are connected to the inner parts of the adjacent sliding grooves (605) in a sliding mode;

the middle positions of the inner walls of the seven storage grooves (603) are fixedly connected with sleeves (607), the seven sleeves (607) are sequentially sleeved and mounted, and the sleeve (607) far away from one side of the T-shaped adjusting sleeve (601) is fixedly connected with the middle part of the side wall of the arc-shaped partition plate (604);

t-shaped adjusting grooves (608) matched with two adjacent sleeves (607) are formed in the T-shaped adjusting sleeve (601), piston plates (609) are slidably connected to the upper parts of the inner walls of the T-shaped adjusting grooves (608), hydraulic oil (610) matched with the piston plates (609) is arranged between the lower parts of the T-shaped adjusting grooves (608) and the seven sleeves (607), pull ropes (611) are symmetrically and fixedly connected to the bottoms of the piston plates (609), and one ends of the pull ropes (611) extend into the seven sleeves (607) on the same side and are fixedly connected with the inner walls of the sleeves (607) far away from one side of the T-shaped adjusting sleeve (601);

the top of the piston plate (609) is fixedly connected with an electric telescopic rod (612), the upper part of the electric telescopic rod (612) is fixedly connected with the upper part of a T-shaped adjusting sleeve (601), and the upper part of the T-shaped adjusting sleeve (601) penetrates through a charging barrel (5) and is fixedly connected with a conical limiting plate (613);

both sides of feed cylinder (5) upper portion are all fixedly connected with electric putter (614), and two the top of electric putter (614) overlap joint respectively in the both sides of toper limiting plate (613) bottom.

3. The feed-producing raw material auxiliary adding device according to claim 2, wherein: both sides of the distributing plate (602) are respectively provided with an arc surface, and six distributing plates (602) and arc partition plates (604) are unfolded to be semicircular.

4. The feed-producing raw material auxiliary adding device according to claim 2, wherein: the lower part of the inner wall of the T-shaped adjusting groove (608) is fixedly connected with a limiting ring, and the inner ring of the limiting ring is provided with an arc-shaped surface.

5. The feed-producing raw material auxiliary adding device according to claim 1, wherein: the transmission mechanism (7) comprises a mounting groove (701), the mounting groove (701) is formed in the middle of the top of the stirring tank body (1), a motor (702) is fixedly connected inside the mounting groove (701), a base plate (703) is fixedly connected with the rotating end of the motor (702), and the bottom of the base plate (703) is lapped on the top of the stirring tank body (1);

the top of the base plate (703) is eccentrically provided with a transmission shaft (704), the top of the transmission shaft (704) is fixedly connected with a cushion block (705), a support frame (706) is fixedly connected between the opposite sides of the five slave positioning plates (4), and the top of the cushion block (705) is rotationally connected with the bottom of the support frame (706);

the middle part of the transmission shaft (704) is fixedly sleeved with a support bearing (707), the outer ring of the support bearing (707) is fixedly connected with a pentagonal connecting plate (708), five connecting grooves (709) are formed in the side wall of the pentagonal connecting plate (708) at equal intervals along the circumference, a pin shaft (710) is rotationally connected to the inside of each connecting groove (709), a connecting rod (712) is rotationally connected to the surface of each pin shaft (710), and one end of each connecting rod (712) is movably inserted into the inside of each through groove (8);

the lower parts of the outer walls of the five charging barrels (5) are fixedly sleeved with supporting rings (713), the side walls of the supporting rings (713) are fixedly connected with hinge blocks (714), and one ends of the five connecting rods (712) are respectively hinged with the side walls of the five hinge blocks (714).

6. The feed-producing raw material auxiliary adding device according to claim 5, wherein: the bottom of backing plate (703) is connected with four balls along circumference equidistance rotation, the bottom overlap joint of ball is at the top surface of agitator tank body (1).

7. The feed-producing raw material auxiliary adding device according to claim 1, wherein: guide blocks are symmetrically and fixedly connected to two sides of the lower portion of the charging barrel (5), and four guide blocks are respectively and slidably connected to the surfaces of the adjacent four guide rods (3).

8. The application method of the auxiliary raw material adding device for feed production comprises the following steps:

s1, when the auxiliary raw material adding device is used, firstly, different raw materials of feed are respectively added into different feed barrels (5), then, an electric push rod (614) is started to ascend, the electric push rod (614) is pressed against a conical limiting plate (613) to ascend in the feed barrels (5) along with a T-shaped adjusting sleeve (601), at the moment, an operator observes scale marks (12) at the position of a glass display strip (11), and closes the electric push rod (614) after determining that the amount of the raw materials from the bottom of the T-shaped adjusting sleeve (601) to the bottom of the feed barrels (5) is required;

s2, starting an electric telescopic rod (612) to move downwards, enabling the electric telescopic rod (612) to press a piston plate (609) in a T-shaped adjusting sleeve (601), pushing seven sleeves (607) to extend sequentially by hydraulic oil (610) in the T-shaped adjusting sleeve (601) along with the piston plate (609) to move downwards, enabling the sleeves (607) to carry six distributing plates (602) and an arc-shaped baffle plate (604) to be sequentially unfolded at the lower part of the T-shaped adjusting sleeve (601), enabling the lower part of the T-shaped adjusting sleeve (601) to be unfolded and then to be in a disc-shaped lap joint with the inner wall of a charging barrel (5), then starting an electric push rod (614) to shrink, releasing the support on a conical limiting plate (613), and simultaneously controlling a baffle plate (14) to move to release the sealing of the position of an L-shaped discharging groove (10);

s3, starting the motor (702) again, enabling the rotating end of the motor (702) to drive the base plate (703) and the cushion block (705) to rotate between the top of the stirring tank body (1) and the bottom of the supporting frame (706), enabling a transmission shaft (704) eccentrically arranged between the base plate (703) and the cushion block (705) to rotate along with rotation to form an annular rotating track, enabling a pentagonal connecting plate (708) rotationally connected with the middle part of the transmission shaft (704) to move along the track, respectively pulling five charging barrels (5) to slide back and forth on the top of the stirring tank body (1) through five connecting rods (712) in the moving process of the pentagonal connecting plate (708), enabling raw materials at the lower part of the charging barrels (5) to be thrown into the stirring tank body (1) in a stepwise manner in the conical discharging head (9), and enabling the bottoms of the five charging barrels (5) to be sequentially subjected to charging operation due to the fact that the pentagonal connecting plate (708) moves along the eccentric circular track;

s4, finally, after the raw material delivery set in one of the feed barrels (5) is finished, the T-shaped adjusting sleeve (601) slides to the inner bottom surface of the feed barrel (5) along with the raw material, the upper position of the conical discharging head (9) is sealed, after the feed processing is finished, the electric telescopic rod (612) is started again to lift up in the T-shaped adjusting sleeve (601) along with the piston plate (609), at the moment, the piston plate (609) pulls the seven sleeves (607) to be sequentially close and contracted through the pull rope (611), so that the arc-shaped partition plate (604) and the six distributing plates (602) are retracted into the side wall position of the T-shaped adjusting sleeve (601), and then the electric push rod (614) is used for moving with the conical limiting plate (613) and the T-shaped adjusting sleeve (601) to adjust the amount of the next feeding.