CN112623528A

CN112623528A - Pig feed raw material storage device that material wind is with saying anti-mildew

Info

Publication number: CN112623528A
Application number: CN202011383875.6A
Authority: CN
Inventors: 王利通; 王国水; 王勇
Original assignee: Zhejiang Natufeed Livestock Co ltd
Current assignee: Zhejiang Natufeed Livestock Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-04-09

Abstract

The invention relates to a pig feed raw material storage device with mildew prevention function on the same feed air channel, which comprises a storage tank, a discharge pump and a discharge pipe extending into the storage tank, wherein a discharge port is formed by disconnecting the lower end of the discharge pipe and the bottom wall of the discharge pipe, the discharge pump is a bidirectional pump, an inner sleeve sleeved on the discharge pipe is arranged in the storage tank in a penetrating manner, an annular gas outlet cavity which is positioned outside the inner sleeve and extends along the circumferential direction of the inner sleeve is isolated in the storage tank by the inner sleeve, a gas outlet cavity part gas outlet valve is arranged in the annular gas outlet cavity, a plurality of inner sleeve part gas holes communicating the inner space of the inner sleeve with the annular gas outlet cavity are arranged in the inner sleeve, a plurality of discharge pipe part gas holes are arranged on the side wall. The invention has the advantage of dehumidifying to prevent the stored pig feed from mildewing, and solves the problem that the existing pig feed raw material storage tank is easy to mildew due to high internal humidity when storing the pig feed raw materials.

Description

Pig feed raw material storage device that material wind is with saying anti-mildew

Technical Field

The invention relates to the technical field of pig feed processing, in particular to a pig feed raw material storage device with the function of preventing mildew in the same feed air channel.

Background

In the production process of pig feed, need set up the storage tank and store pig feed raw materials (grain such as maize, soybean, corn), send the pig feed raw materials in the smart storage tube of discharge pump to the processing equipment during the use and process for corresponding pig feed. The feed hole is formed in the storage tank and used for adding the pig feed raw materials into the storage tank, and in order to reduce the opening area of the feed hole, the feed hole is designed to be small, so that the phenomenon that the materials are scattered outside the storage tank in the process of loading the materials is caused; pig feed materials become mouldy during storage due to insufficient drying or wetting.

Disclosure of Invention

The first purpose of the invention is to provide a feed wind co-channel anti-mildew pig feed raw material storage device capable of dehumidifying to prevent stored pig feed from mildewing, and solve the problem that the existing pig feed raw material storage tank is easy to mildew due to high internal humidity when storing pig feed raw materials.

The second object of the invention is to further provide a pig feed raw material storage device which can conveniently feed materials into a storage tank in the same way with the feed wind when the opening area of a feed hole is small, so as to prevent the materials from mildewing, and solve the problem that the raw materials are easy to scatter outside the storage tank in the process of filling the pig feed raw materials when the opening area of the feed hole is small in the conventional pig feed raw material storage tank.

The technical problem is solved by the following technical scheme: a pig feed raw material storage device with mildew prevention in the same feed air channel comprises a storage tank and a discharge pump, and is characterized by further comprising a discharge pipe extending into the storage tank from the top wall of the storage tank, the lower end of the discharge pipe is disconnected with the bottom wall of the discharge pipe to form a discharge hole, the discharge pump is a bidirectional pump, an inner sleeve sleeved on the discharge pipe is arranged in the material storage tank in a penetrating manner, an annular air outlet cavity which is positioned outside the inner sleeve and extends along the circumferential direction of the inner sleeve is isolated in the material storage tank by the inner sleeve, the annular air outlet cavity is provided with an air outlet cavity part air outlet valve, the inner sleeve is provided with a plurality of inner sleeve part air holes for communicating the inner space of the inner sleeve with the annular air outlet cavity, the side wall of the part of the discharge pipe in the material storage tank is provided with a plurality of discharge pipe part air holes, one port of the discharging pump is connected with the upper end of the discharging pipe, and an electric heating pipe of the discharging pipe part is arranged in the discharging pipe. When carrying out the dehumidification drying to pig feed stuff raw materials, open the chamber portion air outlet valve of giving vent to anger, make the discharge pump blow towards the discharge tube in, the electrothermal tube heats the air in the discharge tube, hot air collects the annular air outlet chamber of saying after passing the pig feed stuff raw materials of storing in the endotheca and then discharges through the chamber portion air outlet valve of giving vent to anger, play the effect of drying and taking away the moisture in the pig feed stuff when the pig feed stuff of storing in the endotheca is passed to hot air, thereby make pig feed stuff dry and be difficult to produce and milden and rot. When the dehumidification is not carried out, the air outlet valve of the air outlet cavity part is closed. The pig feed raw materials in the material storage pipe are output (when the pig feed raw materials exist between the inner sleeve and the material storage pipe), the material storage pump is enabled to pump towards the outside of the material storage tank, and the pig feed raw materials enter the material storage pipe through the material outlet and then are discharged from the other port of the material discharge pump.

The invention also comprises a first three-way valve and a second three-way valve, wherein the first three-way valve is provided with a first three-way valve part main port, a first three-way valve part first branch port and a first three-way valve part second branch port, the second three-way valve is provided with a second three-way valve part main port, a second three-way valve part first branch port and a second three-way valve part second branch port, an annular partition plate extending along the circumferential direction of an annular air outlet cavity is arranged in the annular air outlet cavity, a desiccant storage cavity is isolated in the annular air outlet cavity by the partition plate, a plurality of partition plate part air holes communicating the desiccant storage cavity with the annular air outlet cavity are arranged on the partition plate, the desiccant storage cavity is connected with the first three-way valve part main port, the first three-way valve part first branch port is empty, the first three-way valve part second branch port is connected with the second three-way valve part first branch port, and the second three-way valve part, the other port of the discharge pump is connected with the second three-way valve portion main port. When in use, the drying agent is stored in the drying agent storage cavity. When dehumidification is started, the air outlet valve of the air outlet cavity part is opened, the second branch port of the second three-way valve part is communicated with the main port of the second three-way valve part, the main port of the first three-way valve part is communicated with the second branch port of the first three-way valve part, air entering the discharging pipe is air outside the storage tank, and air in the annular air outlet cavity is discharged through the air outlet valve of the air outlet cavity part. When the relative humidity in the air discharged from the air outlet valve of the air outlet cavity part is lower than 20%, the air outlet valve of the air outlet cavity part is closed, the first branch port of the second three-way valve part is communicated with the main port of the second three-way valve part, and the main port of the first three-way valve part is communicated with the second branch port of the first three-way valve part, at the moment, the air is circulated by the discharge pipe, grains, the annular air outlet cavity, the drying agent storage cavity, the discharge pump and the discharge pipe, and the moisture is absorbed by the drying agent to dehumidify when the air passes through the drying. And stopping dehumidification after the dehumidification meets the requirement. Set up in drier storage intracavity and store an chamber portion electric heater, open when not dehumidifying and store an chamber portion electric heater, make first three-way valve portion total opening and the first port intercommunication of first three-way valve portion to the realization is to the drying of drier, so that the drier has good drying effect when next dehumidification.

The invention also comprises an outer sleeve sleeved on the discharge pipe and an outer sleeve moving mechanism for driving the outer sleeve to lift, wherein an annular air inlet cavity extending along the circumferential direction of the discharge pipe is formed between the outer sleeve and the discharge pipe, and the outer sleeve is provided with outer sleeve part air holes for communicating the annular air outlet cavity with the outer space of the outer sleeve. During dehumidification, the outer sleeve is driven to go up and down through the outer sleeve moving mechanism, so that the positions of the air holes of the outer sleeve portion are changed, and the problem that dehumidification effect is poor due to the fact that fixed air passages are formed in grains due to the fact that the positions of the air holes of the outer sleeve portion are unchanged is avoided.

Preferably, the outer sleeve is sleeved with a flexible sealing pipe, the lower end of the flexible sealing pipe is placed on the pig feed raw materials in the inner sleeve, and the upper end of the flexible sealing pipe is connected with the top wall of the storage tank in a sealing mode. If the flexible sealing pipe is not arranged, when the pig feed raw materials in the storage tank are too few and the outer sleeve part air holes and the air outlet cavity non-air holes are formed and are not blocked by the pig feed raw materials, the air in the discharge tank is directly communicated between the outer sleeve part air holes and the air outlet cavity air holes which are not blocked by the pig feed raw materials, so that the air flow in the outer sleeve part air holes blocked by the pig feed is small, and the drying efficiency is influenced. The outer sleeve portion air hole above the pig feed raw materials can be always sealed by the flexible sealing pipe in the technical scheme, so that the phenomenon is avoided.

Preferably, the lower end of the flexible sealing pipe is provided with a heavy ring which is sleeved on the outer sleeve and drives the flexible sealing pipe to droop. The flexible sealing pipe can be reliably descended along with the descending of the height of the pig feed raw material.

Preferably, the lower end of the flexible sealing pipe is connected with the lower end of a pull cable, the upper end of the pull cable is connected with a wire spool, and the wire spool is connected to a power output shaft of the winding motor. When inputing pig feed ingredient to the storage tank in, rotate through wire winding motor drive wire reel and make the cable wind on the wire reel and realize pulling up the wire winding sealed tube through the cable, avoid pig feed to press the wire winding sealed tube and lead to being arranged in the outer sleeve portion ventilative air of pig feed ingredient to be sheltered from by the wire winding sealed tube.

Preferably, the wire spool and the wire winding motor are both located inside the storage tank. Can improve the convenience when realizing that the storage tank is sealed, if be located the outside then hole that supplies the cable to pass through on the storage tank of storage tank inconvenient when sealing.

Preferably, the jacket moving mechanism comprises a driving motor, a rotary table connected to a power output shaft of the driving motor, a translation mechanism for driving the driving motor to move along the axial direction of the rotary table, a driving rod and an eccentric wheel eccentrically arranged at one end of the rotary table, the eccentric wheel and the turntable are in transition through a conical surface section, one end of the eccentric wheel far away from the turntable is provided with an eccentric wheel retaining ring which protrudes out of the peripheral surface of the eccentric wheel, the baffle ring of the eccentric wheel is provided with a flanging which is bent towards the direction of the turntable, a hooking groove which extends along the circumferential direction of the eccentric wheel is formed between the flanging and the circumferential surface of the eccentric wheel, the lower end of the driving rod is provided with a hook head matched with the hooking groove, the upper end of the driving rod is connected with the outer sleeve, the diameter of the eccentric wheel is smaller than that of the rotary disc, and when the lower end of the driving rod is supported on the rotary disc, a discharging channel is formed between the outer sleeve and the bottom wall of the storage tank. A specific technical scheme of an outer sleeve moving mechanism is provided. When dehumidification is carried out, the driving motor is driven by the translation mechanism to translate to the eccentric wheel to be aligned with the driving rod, the eccentric wheel drives the driving to lift when rotating, so that the outer sleeve is lifted, the driving rod is lifted by jacking the peripheral surface of the eccentric wheel, and the driving rod is lowered by hooking the slot hook head. Make the actuating lever support on the carousel when not dehumidifying, form discharging channel between the overcoat lower extreme and the storage tank diapire this moment, make the overcoat not block that pig feed stuff gets into the discharge gate and reach in the discharging tube.

Preferably, the eccentric wheel is provided with an electromagnet, and the driving rod is made of a ferromagnetic body. When the drive moves from the support on the turntable to the position aligned with the eccentric wheel, the drive rod is pulled down to the support on the eccentric wheel by the electromagnet absorbing the drive rod. The hook head of the driving rod is hooked in the hooking groove, and then the electromagnet is closed.

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 storage tank, 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 and, the magnet blocks adsorb the rigid vertical swing rods to suspend the feeding pipe in the feeding hole. When adding pig feed ingredient to the storage tank in, 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 ingredient adds through the toper flexible tube and gets into in the storage tank. After the pig feed raw materials are added, the feeding pipe is pressed downwards, the feeding pipe is contracted to a radial size under the limiting action of the feeding hole and then enters the feeding hole and the storage tank, and then 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 storage tank. Whether the feeding pipe is pressed down to the limit position or not can be conveniently known. Prevent excessively pushing down and lead to the inlet pipe to fall into in the storage tank and can not take out.

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. The smoothness of the appearance of the storage tank can be improved.

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.

As preferred, 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 on the up end of storage tank a plurality of one-to-one 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 during the drive through-hole the spigot surface with perpendicular inserted bar aligns. When inputing pig feed stuff in to the storage tank, 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 stuff more can not produce the phenomenon production that drops outside at the storage tank.

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: the pig feed raw materials in the storage tank can be dried and dehumidified; the storage pump can be used as a blower during dehumidification; when adding pig feed stuff in to the storage tank, the material is difficult to drop to the outside of holding vessel.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present invention;

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

FIG. 3 is a partial schematic view of a second embodiment of the present invention with the inlet openings closed;

FIG. 4 is a schematic enlarged view of a portion of FIG. 3 at B;

FIG. 5 is an enlarged partial schematic view at C of FIG. 3;

fig. 6 is a schematic view of the second embodiment when adding raw pig feed material into the storage tank.

In the figure: the device comprises a material storage tank 1, a material discharge pump 2, a material discharge pipe 3, a material discharge port 4, an inner sleeve 5, an annular gas discharge cavity 6, a gas discharge cavity part gas discharge valve 7, a material discharge pipe part electric heating pipe 8, a first three-way valve 9, a second three-way valve 10, a first three-way valve part main port 11, a first three-way valve part first branch port 12, a first three-way valve part second branch port 13, a second three-way valve part main port 14, a second three-way valve part first branch port 15, a second three-way valve part second branch port 16, a partition plate 17, a desiccant storage cavity 18, a storage cavity part electric heating pipe 19, a lifter 20, an outer sleeve 21, an outer sleeve moving mechanism 22, an annular gas inlet cavity 23, a flexible sealing pipe 24, a top wall 25 of the material storage tank, a heavy ring 26, a pull rope 27, a wire winding disc 28, a wire winding motor 29, a support leg 30, a driving motor 31, a rotary, The device comprises a turntable part baffle ring 39, an eccentric wheel part baffle ring 40, a hooking groove 41, a hook head 42, a discharge channel 43, a feed hole 44, a feed hole cover 45, a pull ring 46, a feed pipe 47, a rigid bottom ring 48, a conical flexible pipe 49, a horizontal shaft head 50, a magnet block 51, a baffle 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 feed pipe 59, a rigid vertical swing rod 60 and a limiting step 61.

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.

First embodiment, referring to fig. 1 and fig. 2, a pig feed raw material storage device that material wind is said and is mould proof includes storage tank 1, discharge pump 2 and stretches into discharging pipe 3 in the storage tank from the storage tank roof. The lower end of the discharge pipe is disconnected with the bottom wall of the discharge pipe to form a discharge port 4. The discharge pump is a bidirectional pump. An inner sleeve 5 sleeved on the discharge pipe is arranged in the material storage tank in a penetrating manner. The inner sleeve isolates an annular air outlet cavity 6 which is positioned outside the inner sleeve and extends along the circumferential direction of the inner sleeve in the material storage tank. The annular air outlet cavity is provided with an air outlet cavity part air outlet valve 7. The inner sleeve is provided with a plurality of inner sleeve part air holes which are communicated with the inner space of the inner sleeve and the annular air outlet cavity. The side wall of the part of the discharge pipe in the material storage tank is provided with a plurality of discharge pipe part air holes. One port of the discharging pump is connected with the upper end of the discharging pipe. The storage tank is internally provided with an electric heating tube 8 of the discharge tube part. The electric heating tube 8 of the discharge tube part is positioned in the discharge tube. The invention also comprises a first three-way valve 9 and a second three-way valve 10. The first three-way valve is provided with a first three-way valve portion main port 11, a first three-way valve portion first branch port 12, and a first three-way valve portion second branch port 13, and the second three-way valve is provided with a second three-way valve portion main port 14, a second three-way valve portion first branch port 15, and a second three-way valve portion second branch port 16. An annular partition plate 17 extending along the circumferential direction of the annular air outlet cavity is arranged in the annular air outlet cavity, and a drying agent storage cavity 18 is isolated from the annular air outlet cavity by the partition plate. The desiccant storage chamber 18 is provided with a storage chamber part electric heating tube 19 and a desiccant. The clapboard is provided with a plurality of clapboard part air holes which are communicated with the drying agent storage cavity and the annular air outlet cavity. The drying agent storage cavity is connected with the main port of the first three-way valve part, and the first branch port of the first three-way valve part is vacant, namely exposed outside the storage tank. The second branch port of the first three-way valve portion is connected to the first branch port of the second three-way valve portion. The second three-way valve section the second branch port is used for outputting the pig feed material to the elevator 20. The other port of the discharge pump is connected with the main port of the second three-way valve portion. The invention also comprises an outer sleeve 21 sleeved on the discharge pipe and an outer sleeve moving mechanism 22 for driving the outer sleeve to lift. An annular air inlet cavity 23 extending along the circumferential direction of the discharge pipe is formed between the outer sleeve and the discharge pipe, and outer sleeve portion air holes communicated with the annular air inlet cavity and the outer space of the outer sleeve are formed in the outer sleeve. The outer sleeve is sleeved with a flexible sealing pipe 24, and the lower end of the flexible sealing pipe is placed on the pig feed raw materials in the inner sleeve in the using process, and the upper end of the flexible sealing pipe is connected with the top wall 25 of the storage tank in a sealing mode. The lower end of the flexible sealing pipe is provided with a heavy ring 26 which is sleeved on the outer sleeve and drives the flexible sealing pipe to droop. The lower end of the flexible sealing tube is connected with the lower end of a pulling cable 27, the upper end of the pulling cable is connected with a wire spool 28, and the wire spool is connected with a power output shaft of a winding motor 29. In the embodiment, the wire spool and the wire winding motor are both positioned outside the material storage tank. The lower end of the material storage tank is provided with a supporting leg 30. The jacket moving mechanism comprises a driving motor 31, a rotary table 32 connected to a power output shaft of the driving motor, a translation mechanism 33 for driving the driving motor to move along the axial direction of the rotary table, a driving rod 34 and an eccentric wheel 35 eccentrically arranged at one end of the rotary table. The outer frame of the driving motor is provided with a motor part sliding block 36. The motor part sliding block is slidably connected in the horizontal sliding groove 37. The horizontal chute is fixed with the storage tank. The translation mechanism is a cylinder. The transition between the eccentric and the turntable is via a conical section 38. And one end of the turntable, which is far away from the eccentric wheel, is provided with a turntable blocking ring 39 which extends along the axial direction of the turntable and is used for preventing the driving rod from being separated from the turntable due to the translation transition of the turntable. One end of the eccentric wheel far away from the rotary disc is provided with an eccentric wheel retaining ring 40 protruding out of the peripheral surface of the eccentric wheel, the eccentric wheel retaining ring is provided with a flanging bent towards the direction of the rotary disc, a hooking groove 41 extending along the circumferential direction of the eccentric wheel is formed between the flanging and the peripheral surface of the eccentric wheel, the lower end of the driving rod is provided with a hook head 42 matched with the hooking groove, when the jacket needs to be driven to lift, the translation driving motor enables the hook head to be hooked in the hooking groove, and therefore the driving rod is driven to lift to drive the jacket to lift when the eccentric wheel rotates. The upper end of the driving rod is connected with the outer sleeve, and the diameter of the eccentric wheel is smaller than that of the rotary disc. When the lower extreme of actuating lever supported on the carousel between the diapire of overcoat and storage tank formed discharging channel 43, during output pig feed raw materials, pig feed raw materials gets into the discharging pipe through discharging channel and discharge gate. The eccentric wheel is provided with an electromagnet, and the driving rod is made of ferromagnet.

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

referring to fig. 3 to 5, the device also comprises a feeding pipe with a large upper end and a small lower end. The wire spool and the wire winding motor are both located inside the storage tank. The top wall of the storage tank 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 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 to prevent the feeding pipe from falling into the material storage tank, 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. The upper end face of the storage tank is provided with a plurality of vertical sliding holes which are communicated with the horizontal sliding holes in a one-to-one correspondence manner, and vertical insertion 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 of the vertical rods are connected to drive ring 58.

Referring to FIG. 6 in conjunction with FIGS. 3-5, the feed tube is withdrawn first and then

When adding pig feed raw materials to the storage tank in, open the feeding handhole door, then upwards pull out the inlet pipe, the outside swing that the pendulum rod used the horizontal axis to make the toper flexible tube open as the axial inlet pipe is erected to the rigidity at the magnet piece to the rigidity under the pendulum rod adsorption makes the conveying pipe 59 insert the upper end at the inlet pipe after the inlet pipe was pulled out, then shift up and erect the inserted bar, make ejector pin drive spring drive ejector pin move towards the import downthehole, thereby the upper end that the pendulum rod was erected to the drive rigidity folds each other and the centre gripping realizes that the upper end of inlet pipe wraps up on the conveying pipe reliably, make pig feed raw materials can not produce more and fall the phenomenon production outside the storage tank. After the pig feed raw materials are added, the vertical insertion rod is pressed downwards, the transmission insertion rod is matched with the guide inclined plane to drive the ejector rod to shrink into the horizontal sliding hole, then the feeding pipe is pressed downwards, the feeding pipe shrinks in the radial dimension under the limiting action of the feeding hole to enter the feeding hole and the storage tank, and then the feeding hole cover is covered.

Claims

1. A pig feed raw material storage device with mildew resistance in the same feed air channel, which comprises a storage tank and a discharge pump, it is characterized by also comprising a discharge pipe extending into the material storage tank from the top wall of the material storage tank, wherein the lower end of the discharge pipe is disconnected with the bottom wall of the discharge pipe to form a discharge hole, the discharge pump is a bidirectional pump, an inner sleeve sleeved on the discharge pipe is arranged in the material storage tank in a penetrating manner, an annular gas outlet cavity which is positioned outside the inner sleeve and extends along the circumferential direction of the inner sleeve is isolated in the material storage tank by the inner sleeve, the annular air outlet cavity is provided with an air outlet cavity part air outlet valve, the inner sleeve is provided with a plurality of inner sleeve part air holes for communicating the inner space of the inner sleeve with the annular air outlet cavity, the side wall of the part of the discharge pipe in the material storage tank is provided with a plurality of discharge pipe part air holes, one port of the discharging pump is connected with the upper end of the discharging pipe, and an electric heating pipe of the discharging pipe part is arranged in the discharging pipe.

2. The raw pig feed material storage device with mold prevention for the same material flow path as that of claim 1, further comprising a first three-way valve having a first three-way valve portion main port, a first three-way valve portion first branch port and a first three-way valve portion second branch port, and a second three-way valve having a second three-way valve portion main port, a second three-way valve portion first branch port and a second three-way valve portion second branch port, wherein an annular partition plate extending in a circumferential direction of the annular air outlet chamber is provided in the annular air outlet chamber, the partition plate partitioning a desiccant storage chamber in the annular air outlet chamber, the partition plate being provided with a plurality of partition plate portion vents for communicating the desiccant storage chamber with the annular air outlet chamber, the desiccant storage chamber being connected with the first three-way valve portion main port, the first valve portion first branch port being empty, the first three-way valve portion second branch port being connected with the second three-way valve portion first branch port, the second branch port of the second three-way valve part is used for outputting pig feed raw materials, and the other port of the discharging pump is connected with the general port of the second three-way valve part.

3. The pig feed material storage device with the same feed air passage and the mildew resistance as in claim 1, further comprising an outer sleeve sleeved on the discharge pipe and an outer sleeve moving mechanism for driving the outer sleeve to ascend and descend, wherein an annular air inlet cavity extending along the circumferential direction of the discharge pipe is formed between the outer sleeve and the discharge pipe, and the outer sleeve is provided with outer sleeve part air holes for communicating the annular air inlet cavity with the outer space of the outer sleeve.

4. The pig feed material storage device with the same feed air passage and the mildew resistance as in claim 3, wherein a flexible sealing pipe is sleeved on the outer sleeve, the lower end of the flexible sealing pipe is placed on the pig feed material in the inner sleeve, and the upper end of the flexible sealing pipe is connected with the top wall of the storage tank in a sealing mode.

5. The pig feed ingredient storage device with the same feed air passage and the mildew resistance as in claim 4, wherein the lower end of the flexible sealing pipe is provided with a heavy ring which is sleeved on the outer sleeve and drives the flexible sealing pipe to droop.

6. The pig feed ingredient storage device with the same feed air passage and the mildew resistance as in claim 4, wherein the lower end of the flexible sealing tube is connected with the lower end of a pull rope, the upper end of the pull rope is connected with a wire spool, and the wire spool is connected to a power output shaft of a wire winding motor.

7. The raw pig feed material storage device with the same feed wind channel and the mildew resistance as in claim 6, wherein the wire spool and the wire winding motor are both positioned inside the material storage tank.

8. The raw pig feed material storage device with the same material flow path and the mildew resistance as in claim 3, wherein the outer sleeve moving mechanism comprises a driving motor, a rotary table connected to a power output shaft of the driving motor, a translation mechanism for driving the driving motor to move along the axial direction of the rotary table, a driving rod and an eccentric wheel eccentrically arranged at one end of the rotary table, the eccentric wheel and the rotary table are in transition through a conical surface section, one end of the eccentric wheel far away from the rotary table is provided with an eccentric wheel retaining ring protruding out of the peripheral surface of the eccentric wheel, the eccentric wheel retaining ring is provided with a flanging bent towards the direction of the rotary table, a hooking groove extending along the circumferential direction of the eccentric wheel is formed between the flanging and the peripheral surface of the eccentric wheel, the lower end of the driving rod is provided with a hook head matched with the hooking groove, the upper end of the driving rod is connected with the outer sleeve, and, and when the lower end of the driving rod is supported on the turntable, a discharging channel is formed between the outer sleeve and the bottom wall of the storage tank.

9. The pig feed ingredient storage device with the same feed passage as the feed passage as in claim 8, wherein the eccentric wheel is provided with an electromagnet, and the driving rod is made of a ferromagnetic material.

10. The raw pig feed material storage device capable of preventing mildew and rot in the same material and wind channel as in 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 storage tank, a feeding hole cover is arranged on the feeding hole, the feeding pipe is inserted into the feeding hole in a pluggable manner, the feeding pipe comprises a rigid bottom ring, a conical flexible pipe and a plurality of rigid vertical swing rods distributed circumferentially along 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 large upper end and the small lower end of the conical flexible pipe is large, 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, and the conical flexible pipe is located outside a space surrounded by the rigid vertical swing rods or outside a space surrounded by Inside the space, the pendulum rod is erected to the rigidity with the toper flexible tube links together and constitutes the skeleton of toper flexible tube, the magnet piece adsorbs the pendulum rod is erected to the rigidity and with the inlet pipe hangs in the feed inlet.