CN112897103A - Pig feed output method capable of reducing feeding impact - Google Patents

Abstract

The invention relates to a pig feed output method capable of reducing feeding impact, wherein a feeding energy reducer is arranged below a discharge hole of a bin body, the feeding energy reducer comprises an outer vertical pipe and a material supporting plate, a discharge hole of the outer vertical pipe, which is butted with an inlet end of a discharge hopper, is formed in the right side wall of the outer vertical pipe, the material supporting plate is supported in the outer vertical pipe through a pressure spring and separates a variable volume cavity, a positioning stop block is arranged at the right end of the material supporting plate, a discharge sliding plate capable of being folded into the outer vertical pipe is hinged to the material supporting plate through a horizontal hinge shaft extending in the front-back direction, a discharge sliding plate reset spring for driving the discharge sliding plate to rotate by taking the horizontal hinge shaft as a shaft to abut against the positioning stop block is arranged between the material supporting plate and the discharge sliding plate, and the discharge sliding plate is in an inclined state and extends into the feeding. The blanking device has the advantage of reducing the impact force of blanking, and solves the problem of large impact force generated when the existing storage bin outputs materials with high drop height.

Description

Pig feed output method capable of reducing feeding impact

Technical Field

The invention relates to the technical field of pig feed processing, in particular to a pig feed output method capable of reducing blanking impact.

Background

In the production process of pig feed, a bin body is required to be arranged to store raw materials (corn, soybean, rice and other grains) or finished products of the pig feed (the raw materials and the finished products are collectively referred to as materials hereinafter), and the raw materials and the finished products are output in a discharge hole of a bottom plate of the bin body through a discharge pipe in butt joint during use. The bin body is provided with a feeding hole for adding raw pig feed materials into the bin body, and in order to reduce the opening area of the feeding hole, the feeding hole is designed to be smaller, so that the phenomenon that the materials are scattered outside the bin body in the process of loading the materials is caused; when the drop of the discharge port of the existing storage bin is large from the material receiving part, the impact generated by blanking is large to influence the material receiving operation, the existing impact reducing mode is that the blanking pipe is set to be inclined to enable the material to slide off, the sliding off mode not only occupies large plane space, but also the blanking pipe is easy to wear and tear, and particularly when the material with hard degree and low degree of finish is conveyed.

Disclosure of Invention

The invention aims to provide a pig feed output method capable of reducing blanking impact, and solves the problem of large impact force generated when materials are output at high drop height of an existing storage bin.

The second purpose of the invention is to further provide a pig feed output method which can conveniently feed materials into the bin body when the opening area of the feed hole is small and can reduce the blanking impact, and solve the problem that the materials are easy to scatter outside the bin body in the process of loading the materials into the bin body with the small opening area of the feed hole in the prior art.

The technical problem is solved by the following technical scheme: a pig feed output method capable of reducing feeding impact is characterized in that a feeding energy reducer is arranged below a discharge port of a bin body, the feeding energy reducer comprises an outer vertical pipe with an upper end opening and a material supporting plate, an outer vertical pipe discharge hole is formed in the right side wall of the outer vertical pipe, the outer vertical pipe discharge hole is connected with an inlet end of a discharge hopper in an abutting mode, the material supporting plate is supported in the outer vertical pipe through a pressure spring, a positioning stop block is arranged at the right end of the material supporting plate, a discharge sliding plate capable of being folded into the outer vertical pipe is hinged to the right end of the material supporting plate through a horizontal hinge shaft extending in the front-back direction, a discharge sliding plate reset spring for driving a discharge sliding plate to rotate by taking the horizontal hinge shaft as a shaft to abut against the positioning stop block is arranged between the material supporting plate and the discharge sliding plate, when the discharge sliding plate abuts against the positioning stop block, the discharge sliding plate is in an inclined, the material supporting plate is separated into a variable volume cavity above the material supporting plate in the outer vertical pipe; when the materials in the bin body are input into the variable volume cavity, the weight of the materials drives the pressure spring to contract so that the retainer plate descends, the materials in the variable volume cavity compress the pressure spring to contract to the variable volume cavity before the variable volume cavity is filled with the materials, the pressure spring is communicated with the discharge hopper through the discharge hole at the outer vertical pipe part, and the materials are output from the discharge hopper. The flitch of holding in the palm during initial condition is located outer standpipe portion discharge opening top, the material drops on the flitch and the shrink of drive pressure spring makes the flitch descend, then hold in the palm the decline distance increase of flitch along with the increase of material, when holding in the palm the flitch and all align with outer standpipe portion discharge opening when the flitch descends, ejection of compact slide swings under ejection of compact slide reset spring's effect and is the slope with location dog butt together, the material of following varactor storehouse output falls in the hopper and falls out through the hopper through ejection of compact slide. This technical scheme can form an impact resistance layer in holding in the palm flitch department, and the fall between the flitch of holding in the palm and the discharge gate is little when beginning to use for the impact when beginning to use is also little. The initial kinetic energy of the material when falling into the discharge hopper from the material supporting plate is small, and the influence of the distance from the discharge port to the material supporting plate can not be caused.

Preferably, the inner surface of the front side wall of the discharge hopper and the inner surface of the front side wall of the outer vertical pipe are positioned on the same plane, and the front end surface of the discharge sliding plate and the inner surface of the front side wall of the outer vertical pipe are abutted together; the inner surface of the rear side wall of the discharge hopper and the inner surface of the rear side wall of the outer vertical pipe are located on the same plane, and the rear end face of the discharge sliding plate is abutted to the inner surface of the rear side wall of the outer vertical pipe. Can prevent that ejection of compact in-process material from getting into between the front and back lateral wall of ejection of compact slide and play hopper and blocking to the reposition of redundant personnel of prevention ejection of compact slide.

Preferably, the left end of the retainer plate is connected with a vertical sliding plate which is positioned below the retainer plate and is abutted with the left side wall of the outer vertical pipe. The retainer plate can not topple over when the retainer plate is thin.

Preferably, the bottom wall of the inner vertical tube is in threaded connection with a retainer plate supporting threaded rod, the retainer plate supporting threaded rod is supported on the lower surface of a supporting plate, the supporting plate is connected in the outer vertical tube in a sliding mode, the lower end of the pressure spring is connected with the supporting plate, and the upper end of the pressure spring is connected with the retainer plate. When changing the internal material in storehouse, through the upper end that the flitch stretches out interior standpipe and outer standpipe through pushing up the bottom plate on the flitch supporting threaded rod pole and receiving the flitch to empty the material that will be detained in the varactor intracavity (will "empty the material that will be detained in the varactor intracavity" hereafter is called the clear storehouse), in order to prevent that two kinds of materials from mixing together. This emptying method has the disadvantage of wasting material.

Preferably, the left side wall of the outer vertical pipe is provided with an air blowing hole, the air blowing hole is connected with an air pump through an air blowing pipe, the air blowing hole is always aligned with the discharge hole of the outer vertical pipe, the outer vertical pipe is internally provided with an electromagnet, the retainer plate is provided with a ferromagnet, and the force of the electromagnet absorbing the ferromagnet overcomes the elasticity of the pressure spring to enable the retainer plate to descend to the left end of the upper surface of the retainer plate to be aligned with the air blowing hole. When the bin is cleaned, the electromagnet is electrified, the electromagnet adsorbs the ferromagnet, so that the retainer plate descends to the set position, the air pump is driven to blow air, and materials in the variable-volume cavity are all transferred to the discharge hopper to be output. The electromagnet is powered on or off by resetting in the bin cleaning process, so that the electromagnet generates adsorption and desorption on the material supporting plate, and the material supporting plate generates vertical vibration under the action of the pressure spring, so that the bin cleaning is quicker and more thorough.

Preferably, the upper surface of the retainer plate is an inclined surface with a higher left end and a lower right end. Can ensure that the warehouse cleaning is more thorough.

The invention also comprises a feeding pipe with a large upper end and a small lower end, a feeding hole is arranged on the top wall of the bin body, a feeding hole cover is arranged on the feeding hole, the feeding pipe can be inserted into the feeding hole, the feeding pipe comprises a rigid bottom ring, a conical flexible pipe and a plurality of rigid vertical swing rods distributed along the circumferential direction of the rigid bottom ring, the rigid vertical swing rods are made of ferromagnets, the lower ends of the rigid vertical swing rods are hinged with the rigid bottom ring through horizontal shaft heads, the opening of the upper end of the conical flexible pipe is large, the opening of the lower end of the conical flexible pipe is small, the diameter of the feeding hole is larger than the outer diameter of the rigid bottom ring, magnet blocks for adsorbing the rigid vertical swing rods are arranged on the hole wall of the feeding hole in a one-to-one correspondence manner, the conical flexible pipe is positioned outside the space surrounded by the rigid vertical swing rods or inside the space surrounded by the rigid vertical swing rods, the rigid vertical swing rods, the magnet blocks adsorb the rigid vertical swing rods to suspend the feeding pipe in the feeding hole. When adding pig feed raw materials to the storehouse internal, open the feeding handhole door, then upwards pull out the inlet pipe, the outside swing that the pendulum rod used the horizontal axis to be the axial inlet pipe is erected to the rigidity at the magnet piece to the rigidity after the inlet pipe pulls out and makes the toper flexible tube open under the pendulum rod adsorption, thereby the opening area of toper flexible tube open the back upper end is greater than the opening area of feed port and plays the effect of increase feed port area, pig feed raw materials adds through the toper flexible tube and enters into the storehouse internal. After the pig feed raw materials are added, the feeding pipe is pressed downwards, the feeding pipe is contracted in the radial dimension under the limiting action of the feeding hole, and then enters the feeding hole and the bin body, and the feeding hole cover is covered. The second object of the invention is achieved.

Preferably, the rigid bottom ring is provided with a plurality of blocking blocks distributed along the circumferential direction of the rigid bottom ring, and when the feed pipe is pulled out of the feed hole to a limit position, the blocking blocks abut against the lower end surface of the feed hole to prevent the feed pipe from being pulled out of the feed hole. Whether the feed pipe is pulled out to the extreme position can be conveniently known, the feed pipe is prevented from being excessively pulled out and is separated from the feed hole.

Preferably, the conical flexible pipe is positioned in the space surrounded by the rigid vertical swing rod. The toper flexible pipe is made for plastic film etc. sets up and can prevent inside to pull out when inserting the inlet pipe and produce the friction with the feed port and damage, then can produce the hourglass material phenomenon after the damage.

Preferably, an elbow is arranged at the upper end of the rigid vertical swing rod, and when the feeding pipe is inserted into the feeding hole to the limit position, the feeding pipe is hooked at the upper end of the feeding hole through the elbow so as to prevent the feeding pipe from falling into the bin body. Whether the feeding pipe is pressed down to the limit position or not can be conveniently known. Prevent that excessive pushing down from resulting in the inlet pipe to fall into the internal unable taking out of storehouse.

Preferably, a large-diameter section is arranged at the upper end of the feeding hole, a limiting step is formed between the large-diameter section and the feeding hole, the elbow is hooked on the limiting step when the feeding pipe is inserted into the feeding hole to the limiting position, and the feeding hole cover is arranged in the large-diameter section in a penetrating mode. Can improve the smoothness of the appearance of the bin body.

Preferably, a pull ring is arranged on the upper end face of the feeding hole cover. The convenience when opening the feeding hole cover can be improved.

Preferably, be equipped with a plurality of horizontal slide holes that radially extend along feed port circumference distribution on the pore wall of feed port, wear to be equipped with horizontal ejector pin and the ejector pin drive spring that drives horizontal ejector pin and stretch out horizontal slide hole in the horizontal slide hole, the magnet piece sets up one-to-one on the horizontal ejector pin, be equipped with a plurality of one-to-one on the up end of the storehouse body with the perpendicular slide hole of horizontal slide hole intercommunication, be equipped with perpendicular inserted bar in the perpendicular slide hole, horizontal ejector pin is equipped with and supplies perpendicular inserted bar male drive through-hole, be equipped with the spigot surface of slope up on the terminal surface of the one end that the feed port was kept away from to the drive through-hole, shown perpendicular inserted bar is extracted when the drive through-hole the spigot surface with perpendicular inserted bar aligns. When input pig feed raw materials to the storehouse is internal, extract the inlet pipe earlier, make the inlet pipe insert the upper end at the conveying pipe again, then shift up and erect the inserted bar for ejector pin drive spring drive ejector pin removes towards the import downthehole, thereby the upper end that the pendulum rod was erect in the drive rigidity folds each other and the centre gripping realizes on the conveying pipe that the upper end of inlet pipe wraps up on the conveying pipe reliably, makes pig feed raw materials can not produce more and drop the phenomenon production in storehouse body outside.

Preferably, all of the vertical insertion rods are connected to the drive ring. The movement of all the vertical insertion rods can be achieved by operating the drive ring. The convenience when carrying out the operation is good.

The invention has the following advantages: an anti-impact layer can be formed at the position of the material supporting plate, and the fall between the material supporting plate and the material outlet is small when the material supporting plate is used for the first time, so that the impact is small when the material supporting plate is used for the first time, the initial kinetic energy of the material falling from the material supporting plate into the material outlet hopper is small, and the material is not influenced by the distance from the material outlet of the bin body to the material supporting plate; when the height of the discharge port is changed, the height position of the inner vertical pipe can be adjusted to cover the position of the material supporting plate, so that the distance between the material supporting plate and the discharge port in an initial state cannot be changed due to the change of the height position of the discharge port; when the additive is fed into the bin body, the material is not easy to drop to the outside of the bin body.

Drawings

Fig. 1 is a schematic view of a discharging bin in a first embodiment of the invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view illustrating the discharging operation according to the first embodiment;

FIG. 4 is a schematic view of a discharge bin in a second embodiment of the present invention;

FIG. 5 is a schematic view showing the second embodiment when the warehouse cleaning is performed;

fig. 6 is a partial schematic view of a discharge bin in a state where a feed port is closed according to a third embodiment of the present invention;

FIG. 7 is an enlarged partial schematic view at B of FIG. 6;

FIG. 8 is an enlarged partial schematic view at C of FIG. 6;

fig. 9 is a schematic view of the third embodiment when adding raw materials of pig feed into the silo.

In the figure: the device comprises a bin body 1, a discharge hole 2, an outer vertical tube 3, a retainer plate 4, a discharge hole 6 of the outer vertical tube part, a discharge hopper 7, a pressure spring 10, a positioning stop block 11, a horizontal hinge shaft 12, a discharge slide plate 13, a discharge slide plate return spring 14, a variable volume cavity 15, a vertical slide plate 17, a retainer plate support threaded rod 19, a support plate 20, a blowing hole 21, a blowing pipe 22, an air pump 23, an electromagnet 24, the upper surface 25 of the retainer plate, retained materials 29, materials 30, a feeding hole 44, a feeding hole cover 45, a pull ring 46, a feeding pipe 47, a rigid bottom ring 48, a conical flexible pipe 49, a horizontal shaft head 50, a magnet block 51, a blocking block 52, an elbow 53, a horizontal ejector rod 54, an ejector rod driving spring 55, a vertical insertion rod 56, a guide surface 57, a driving ring 58, a feeding pipe 59.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the first embodiment, referring to fig. 1 to 3, a pig feed output method capable of reducing feeding impact is characterized in that a feeding energy reducer is arranged below a discharge port 2 of a bin body 1. The blanking energy reducer comprises an outer vertical pipe 3 and a material supporting plate 4. The right side wall of the outer vertical pipe is provided with an outer vertical pipe part discharging hole 6 which is butted with an inlet end of a discharging hopper 7. The bottom wall of the outer vertical tube is in threaded connection with a retainer plate supporting threaded rod 19. The retainer plate is supported in the outer vertical pipe through a pressure spring 10. The right end of the retainer plate is provided with a positioning stop block 11 and a discharge sliding plate 13 which is hinged with the horizontal hinge shaft 12 extending in the front-back direction and can be folded into the outer vertical pipe. A discharging sliding plate return spring 14 which drives the discharging sliding plate to rotate by taking the horizontal hinge shaft as a shaft to abut against the positioning stop block is arranged between the material supporting plate and the discharging sliding plate. When the discharging sliding plate and the positioning stop block are abutted together, the discharging sliding plate is in an inclined state and extends into the discharging hopper. The retainer plate is isolated in the outer vertical pipe to form a variable volume cavity 15 above the retainer plate; the inner surface of the front side wall of the discharge hopper and the inner surface of the front side wall of the outer vertical pipe are positioned on the same plane, and the front end surface of the discharge sliding plate and the inner surface of the front side wall of the outer vertical pipe are abutted together; the inner surface of the rear side wall of the discharge hopper and the inner surface of the rear side wall of the outer vertical pipe are located on the same plane, and the rear end face of the discharge sliding plate is abutted to the inner surface of the rear side wall of the outer vertical pipe. The left end of the retainer plate is connected with a vertical sliding plate 17 which is positioned below the retainer plate and is abutted with the left side wall of the outer vertical pipe. The retainer plate supporting threaded rod is supported on the lower surface of the supporting plate 20, the supporting plate is connected in the outer vertical tube in a sliding mode, the lower end of the pressure spring is connected with the supporting plate, and the upper end of the pressure spring is connected with the retainer plate. The outer vertical tube is a quadrangular prism tube.

During the ejection of compact, open the discharge gate, when the material 30 of the internal volume of storehouse was input the varactor intracavity, the weight drive pressure spring shrink of material and make the support flitch descend and make the material can not spill over from the varactor intracavity, along with the increase of the material of varactor intracavity, the material compression pressure spring shrink of varactor intracavity is through outer standpipe portion discharge opening with play hopper intercommunication to make the material discharge from going out the hopper. After the discharge port stops discharging, along with the discharge of the material in the variable-volume cavity, the pressure spring drives the retainer plate to rise, and the variable-volume cavity is disconnected with the discharge hopper, so that the distance between the material in the variable-volume cavity and the discharge port is maintained within a set range. When the bin is cleared, the threaded rod is supported by the retainer plate to jack the support plate, so that the volume of the retainer plate rising to the variable volume cavity is zero, and the materials in the variable volume cavity are completely discharged.

The second embodiment is different from the first embodiment in that:

referring to fig. 4 and 5, a blowing hole 21 is formed in the left side wall of the inner vertical pipe, the blowing hole is connected with an air pump 23 through a blowing pipe 22, and the blowing hole is always aligned with a discharge hole of the outer vertical pipe. An electromagnet 24 is arranged in the inner vertical pipe, and the retainer plate is provided with a ferromagnet (in the embodiment, the retainer plate is integrally made of the ferromagnet, and the upper surface 25 of the retainer plate is an inclined surface with a high left end and a low right end.

When the bin is cleaned, the electromagnet is powered on, the air pump is started, the force of the electromagnet absorbing the electromagnet overcomes the elasticity of the pressure spring, so that the material supporting plate descends to the left end of the upper surface of the material supporting plate and is aligned with the air blowing hole, and the air pump blows air out of the air blowing hole and blows the retained materials 29 on the material supporting plate into the discharge hopper. In the process of cleaning the bin, the electromagnet is electrified discontinuously, so that the retainer plate vibrates.

The third embodiment is different from the first embodiment in that:

referring to fig. 6 to 9, the cartridge body is designed as follows based on the second embodiment of the first cartridge. A feeding pipe with a large upper end and a small lower end is arranged. The top wall of the bin body is provided with a feed hole 44. A feed hole cover 45 is arranged on the feed hole. A pull ring 46 is provided on the upper end face of the feed hole cover. The feed pipe 47 is inserted into the feed hole. The feeding pipe comprises a rigid bottom ring 48, a conical flexible pipe 49 and a plurality of rigid vertical swing rods 60 distributed along the circumferential direction of the rigid bottom ring, wherein the rigid vertical swing rods are made of ferromagnets. The lower end of the rigid vertical swing rod is hinged with the rigid bottom ring through a horizontal shaft head 50. The opening of the upper end of the conical flexible pipe is large and the opening of the lower end is small after the conical flexible pipe is unfolded. The diameter of the feed hole is larger than the outer diameter of the rigid bottom ring. The hole wall of the feeding hole is provided with magnet blocks 51 which correspondingly adsorb the rigid vertical swing rods one by one. The tapered flexible pipe may be located outside the space surrounded by the rigid vertical swing rods or inside the space surrounded by the rigid vertical swing rods, or in this embodiment, the tapered flexible pipe is located inside the space surrounded by the rigid vertical swing rods. The rigid vertical swing rod is connected with the conical flexible pipe to form a framework of the conical flexible pipe, and the magnet blocks adsorb the rigid vertical swing rod to suspend the feeding pipe in the feeding hole. The rigid bottom ring is provided with a plurality of blocking blocks 52 which are distributed along the circumferential direction of the rigid bottom ring, and when the feed pipe is pulled out of the feed hole to the limit position, the blocking blocks abut against the lower end surface of the feed hole to prevent the feed pipe from being pulled out of the feed hole. The upper end of the rigid vertical swing rod is provided with an elbow 53. When the feed pipe is inserted into the feed hole to the limit position, the feed pipe is hooked at the upper end of the feed hole through the elbow to prevent the feed pipe from falling into the bin body, and specifically: the upper end of the feed port is provided with a large-diameter section, a limit step 61 is formed between the large-diameter section and the feed port, and the elbow is hooked on the limit step when the feed pipe is inserted into the feed port to the limit position. The feeding hole cover is arranged in the large-diameter section in a penetrating mode. The wall of the feed hole is provided with a plurality of horizontal sliding holes which are distributed along the circumferential direction of the feed hole and extend radially, and a horizontal ejector rod 54 and an ejector rod driving spring 55 which drives the horizontal ejector rod to extend out of the horizontal sliding hole are arranged in the horizontal sliding holes in a penetrating way. The magnet blocks are arranged on the horizontal ejector rods in a one-to-one correspondence mode. A plurality of vertical sliding holes which are communicated with the horizontal sliding holes in a one-to-one correspondence way are arranged on the upper end surface of the bin body, and vertical inserting rods 56 are arranged in the vertical sliding holes. The horizontal ejector rod is provided with a driving through hole for inserting the vertical inserted rod, the end face of one end, away from the feeding hole, of the driving through hole is provided with a guide surface 57 which inclines upwards, and when the vertical inserted rod is pulled out of the driving through hole, the guide surface is aligned with the vertical inserted rod. All vertical bayonet rods are connected to the drive ring 58.

Referring to fig. 9 in combination with fig. 6 to 8, when the additive is fed into the silo, the feeding hole cover is opened, the feeding pipe is pulled upwards, the rigid vertical swing rod swings outwards with the horizontal shaft as the axial feeding pipe under the adsorption effect of the magnet block on the rigid vertical swing rod after the feeding pipe is pulled out, so that the tapered flexible pipe is opened, the feeding pipe 59 is inserted into the upper end of the feeding pipe, then the vertical insertion rod moves upwards, the ejector rod driving spring drives the ejector rod to move towards the inlet hole, and therefore the upper ends of the rigid vertical swing rods are driven to be folded and clamped on the feeding pipe, the upper end of the feeding pipe is reliably wrapped on the feeding pipe, and the phenomenon that the pig feed raw materials fall outside the silo is avoided. After adding pig feed raw materials, push down perpendicular inserted bar for defeated inserted bar cooperation direction inclined plane drive ejector pin contracts to the horizontal slide opening in, then pushes down the inlet pipe, thereby makes the inlet pipe produce radial dimension shrink and get into feed port and the internal of storehouse under the limiting action of feed port, then cover the feed hole lid can.

Claims (10)

1. A pig feed output method capable of reducing feeding impact is characterized in that a feeding energy reducer is arranged below a discharge port of a bin body, the feeding energy reducer comprises an outer vertical pipe with an upper end opening and a material supporting plate, an outer vertical pipe discharge hole is formed in the right side wall of the outer vertical pipe, the outer vertical pipe discharge hole is connected with an inlet end of a discharge hopper in an abutting mode, the material supporting plate is supported in the outer vertical pipe through a pressure spring, a positioning stop block is arranged at the right end of the material supporting plate, a discharge sliding plate capable of being folded into the outer vertical pipe is hinged to the right end of the material supporting plate through a horizontal hinge shaft extending in the front-back direction, a discharge sliding plate reset spring for driving a discharge sliding plate to rotate by taking the horizontal hinge shaft as a shaft to abut against the positioning stop block is arranged between the material supporting plate and the discharge sliding plate, when the discharge sliding plate abuts against the positioning stop block, the discharge sliding plate is in an inclined, the material supporting plate is separated into a variable volume cavity above the material supporting plate in the outer vertical pipe; when the materials in the bin body are input into the variable volume cavity, the weight of the materials drives the pressure spring to contract so that the retainer plate descends, the materials in the variable volume cavity compress the pressure spring to contract to the variable volume cavity before the variable volume cavity is filled with the materials, the pressure spring is communicated with the discharge hopper through the discharge hole at the outer vertical pipe part, and the materials are output from the discharge hopper.

2. The pig feed output method capable of reducing the blanking impact as claimed in claim 1, wherein the inner surface of the front side wall of the discharging hopper and the inner surface of the front side wall of the outer vertical pipe are located on the same plane, and the front end surface of the discharging slide plate and the inner surface of the front side wall of the outer vertical pipe abut against each other; the inner surface of the rear side wall of the discharge hopper and the inner surface of the rear side wall of the outer vertical pipe are located on the same plane, and the rear end face of the discharge sliding plate is abutted to the inner surface of the rear side wall of the outer vertical pipe.

3. The pig feed output method capable of reducing the blanking impact as claimed in claim 1, wherein a vertical sliding plate which is positioned below the retainer plate and is abutted with the left side wall of the outer vertical pipe is connected to the left end of the retainer plate.

4. The pig feed output method capable of reducing the impact of blanking of claim 1, wherein a retainer plate supporting threaded rod is screwed on the bottom wall of the inner vertical tube, the retainer plate supporting threaded rod is supported on the lower surface of a supporting plate, the supporting plate is slidably connected in the outer vertical tube, the lower end of the pressure spring is connected with the supporting plate, and the upper end of the pressure spring is connected with the retainer plate.

5. The pig feed output method capable of reducing the blanking impact as claimed in claim 1, wherein a blowing hole is formed in the left side wall of the outer vertical pipe, the blowing hole is connected with an air pump through a blowing pipe, the blowing hole is always aligned with the discharge hole of the outer vertical pipe, an electromagnet is arranged in the outer vertical pipe, the retainer plate is provided with a ferromagnet, and the force of the electromagnet absorbing the ferromagnet overcomes the elastic force of the pressure spring to enable the retainer plate to descend to the left end of the upper surface of the retainer plate to be aligned with the blowing hole.

6. The pig feed output method capable of reducing the impact of blanking according to claim 5, wherein the upper surface of the retainer plate is an inclined surface with a higher left end and a lower right end.

7. The pig feed output method capable of reducing the impact of baiting according to claim 1, further comprising a feeding pipe with a large upper end and a small lower end, wherein a feeding hole is formed in the top wall of the bin body, a feeding hole cover is arranged on the feeding hole, the feeding pipe is inserted into the feeding hole in a pulling and inserting manner, the feeding pipe comprises a rigid bottom ring, a conical flexible pipe and a plurality of rigid vertical swing rods distributed along the circumferential direction of the rigid bottom ring, the rigid vertical swing rods are made of ferromagnets, the lower end of the rigid vertical swing rods is hinged with the rigid bottom ring through a horizontal shaft head, the conical flexible pipe is large in the upper end opening and small in the lower end opening, the diameter of the feeding hole is larger than the outer diameter of the rigid bottom ring, magnet blocks for adsorbing the rigid vertical swing rods in a one-to-one correspondence manner are arranged on the wall of the feeding hole, the conical flexible pipe is positioned outside the space surrounded by the rigid vertical swing rods or inside the space, the rigid vertical swing rod is connected with the conical flexible pipe to form a framework of the conical flexible pipe, and the magnet blocks adsorb the rigid vertical swing rod to suspend the feeding pipe in the feeding hole.

8. The pig feed output method capable of reducing blanking impact according to claim 7, wherein the rigid bottom ring is provided with a plurality of blocking blocks distributed along the circumference of the rigid bottom ring, and when the feed pipe is pulled out of the feed hole to a limit position, the blocking blocks abut against the lower end surface of the feed hole to prevent the feed pipe from being pulled out of the feed hole.

9. The pig feed output method capable of reducing the impact of the baiting process as claimed in claim 7, wherein an elbow is provided at the upper end of the rigid vertical swing rod, and the feeding pipe is hooked at the upper end of the feeding hole by the elbow when the feeding pipe is inserted into the feeding hole to the limit position, so as to prevent the feeding pipe from falling into the bin body.

10. The pig feed output method capable of reducing blanking impact according to claim 7, wherein a plurality of horizontal sliding holes extending radially along the circumferential direction of the feed hole are formed in the wall of the feed hole, horizontal ejector rods and ejector rod driving springs for driving the horizontal ejector rods to extend out of the horizontal sliding holes are arranged in the horizontal sliding holes in a penetrating manner, the magnet blocks are arranged on the horizontal ejector rods in a one-to-one correspondence manner, a plurality of vertical sliding holes communicated with the horizontal sliding holes in a one-to-one correspondence manner are formed in the upper end face of the bin body, vertical insertion rods are arranged in the vertical sliding holes, driving through holes for inserting the vertical insertion rods are formed in the horizontal ejector rods, guide faces inclined upwards are arranged on the end faces of the driving through holes, which are far away from one end of the feed hole, and are aligned with the vertical insertion rods when the vertical insertion rods are pulled out of the driving through holes.

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