CN114248951B - Feed production is screw feeder for processing - Google Patents

Abstract

The invention relates to the technical field of feed conveying, in particular to a feed screw feeder for feed production and processing, which comprises a support frame, wherein a conveying mechanism is arranged on the support frame, a stirring mechanism is arranged on the conveying mechanism, a crushing mechanism is connected to the conveying mechanism, a shaking mechanism is arranged on the stirring mechanism, a discharging mechanism is arranged on the conveying mechanism, and a control mechanism is arranged on the conveying mechanism; under the effect through conveying mechanism, the fodder that is favorable to producing is carried, and make the better transport of fodder can not block up through rabbling mechanism, it is broken to be favorable to bold fodder to the drive that pulverizes the mechanism through the rabbling mechanism, and the fodder whereabouts of conveniently pulverizing under the effect through shake mechanism, under the effect through emission mechanism, be favorable to discharging the inside remaining crushed aggregates of conveying mechanism when the clearance, prevent to cause secondary pollution, drive through control mechanism, be favorable to adjusting the direction of conveying mechanism row material, be favorable to equipment to connect the fodder and get.

Description

Feed production is screw feeder for processing

Technical Field

The invention relates to the technical field of feed conveying, in particular to a spiral feeder for feed production and processing.

Background

The feed mainly refers to food of animals raised in agriculture or animal husbandry, the feed comprises soybean, soybean meal, corn, fish meal, amino acid and the like, the animals can grow better by feeding the feed, the produced feed needs to be conveyed to other equipment to be processed and packaged in the feed processing process, and the production efficiency is improved by the division of production.

However, traditional fodder conveyor single structure when the fodder is piled up too much, causes the delivery port to block up easily to make the unable normal transport of fodder, the fodder of coproduction can have a large amount of caking, if direct transport can cause pipeline's jam, mediation very loaded down with trivial details, when clearing up conveyor, inconvenient retrieving remaining clout, cause secondary pollution easily simultaneously.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a spiral feeder for feed production and processing.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a feed production is screw feeder for processing, installs conveying mechanism on the support frame, the last rabbling mechanism of installing of conveying mechanism, the last crushing mechanism that is connected with of conveying mechanism, the last shake mechanism of installing of rabbling mechanism, the last emission mechanism of installing of conveying mechanism, the last control mechanism that installs of conveying mechanism.

Specifically, conveying mechanism includes the blowing fill, can dismantle on the support frame and be connected with the blowing fill, install the conveying pipeline on the blowing fill, blowing fill and the inside intercommunication of conveying pipeline, conveying pipeline one end can be dismantled and be connected with the passage, conveying pipeline and the inside rotation of passage are connected with the hob, first motor is installed to the conveying pipeline other end, hob one end and first motor output shaft are connected.

Specifically, a connecting pipe is vertically installed at one end of the material guide pipe, a telescopic pipe is installed on the connecting pipe, and a discharging pipe is connected to the telescopic pipe.

Specifically, rabbling mechanism includes the bracing piece, blowing fill internally mounted has the bracing piece, vertical rotation is connected with the puddler on the bracing piece, puddler one end is located blowing fill bottom inboard, the puddler other end rotates with the blowing fill top to be connected, the second motor is installed at the blowing fill top, the puddler is connected with second motor output shaft.

Specifically, a plurality of guide plates are installed to blowing hopper bottom inboard, the contained angle is 45 degrees between guide plate and the blowing hopper.

Specifically, crushing mechanism includes the screen cloth, blowing fill internally mounted has the screen cloth, install a plurality of mounting panels on the screen cloth, the mounting panel is "T" shape structure, the mounting panel is connected with the bracing piece, the puddler rotates with the screen cloth to be connected, install two connecting rods on the puddler, two install on the connecting rod and roll the clamp plate, roll clamp plate and screen cloth sliding connection.

Specifically, the inside both sides of blowing fill are installed the guard plate respectively, the guard plate is the triangle-shaped structure, two the guard plate is contradicted with screen cloth both ends top side.

Specifically, the shake mechanism includes the cam, install the cam on the puddler, the cam passes through the puddler and is connected with bracing piece inside rotation, bracing piece both ends internally mounted has the actuating lever, two the actuating lever passes through reset spring and the inside sliding connection of bracing piece, and is a plurality of the mounting panel extends to the bracing piece inside and is connected with the actuating lever, mounting panel and screen cloth and bracing piece sliding connection, two the slider is installed respectively to actuating lever one end, slider and the inside sliding connection of bracing piece, two slider one end is rotated and is connected with the gyro wheel, two the gyro wheel is contradicted with the cam both ends respectively, screen cloth and puddler sliding connection.

Specifically, sliding connection has the baffle on the screen cloth, the baffle rotates with the puddler to be connected, the width of baffle is greater than the diameter of puddler.

Specifically, the blow-off mechanism is including arranging the material pipe, install on the conveying pipeline and arrange the material pipe, it is 45 degrees to arrange the contained angle between material pipe and the conveying pipeline, be equipped with logical groove on the conveying pipeline, the conveying pipeline is through leading to the groove and arrange the material pipe intercommunication, sliding connection has the slide on arranging the material pipe, the slide extends to logical inslot portion and arranges the inboard conflict of material pipe.

Specifically, arrange material pipe one end threaded connection and have the leather plug, the leather plug is cylindric "T" shape structure, pi Saishang installs the pull ring, the pull ring is the arc structure.

Specifically, control mechanism includes the dead lever, it is connected with three dead lever to rotate on the connecting pipe, the inside sliding connection of dead lever has the ejector pin, be connected with compression spring between ejector pin and the dead lever, the ejector pin extends to the dead lever outside, sliding connection has expanding spring on the ejector pin, expanding spring one end is contradicted with the dead lever inboard, and is three ejector pin one end passes through the connecting block with the unloading pipe lateral wall and rotates to be connected, and is three install the intake pipe on the dead lever, intake pipe and the inside intercommunication of dead lever.

The beneficial effects of the invention are:

(1) The spiral feeder for feed production and processing is beneficial to conveying produced feed under the action of the conveying mechanism, and the feed is better conveyed without blockage through the stirring mechanism, namely: be favorable to installing the blowing fill under the effect through the support frame, thereby the convenience is placed the fodder of production and is collected, make first motor rotate through switch on, first motor drives the hob and rotates in conveying pipeline and passage inside, be favorable to carrying the inside fodder of blowing fill to the passage top through the hob and discharge, be favorable to deriving the inside fodder of carrying of passage under the effect through the connecting pipe, simultaneously make things convenient for the fine leading-in other equipment inside processing of fodder under the effect of flexible pipe and unloading pipe, and conveniently adjust the direction of carrying under the effect of flexible pipe, drive through the second motor, make the puddler rotate under the support of bracing piece, be favorable to overturning the inboard fodder of blowing hopper bottom, make things convenient for the inside transport of entering conveying pipeline that the fodder can be fine, prevent that feed department from blockking up between conveying pipeline and the blowing fill, be favorable to making things convenient for under the effect through the guide plate to make things convenient for the inside fodder of blowing fill can be fine to flow down, and concentrate the flow to the inside the conveying pipeline, make things convenient for the hob to carry.

(2) According to the screw feeder for feed production and processing, the stirring mechanism drives the crushing mechanism to be beneficial to crushing large feeds, and the crushed feeds fall conveniently under the action of the shaking mechanism, namely: be favorable to the screen cloth to be connected with the bracing piece under the effect through the mounting panel, thereby make the screen cloth can install inside the blowing fill, thereby the rotation through the puddler drives the connecting rod and works to the board of rolling, through the slip of board of rolling on the screen cloth, thereby pulverize the bold fodder on the screen cloth, and drop through the screen cloth, make things convenient for the fine transport of hob, can not cause conveying pipeline and passage to block up, the fodder that is favorable to putting into inside the blowing fill under the effect through the guard plate can water conservancy diversion to screen cloth central authorities, make things convenient for the board of rolling to carry out the work, through the rotation of puddler, be favorable to driving the cam and rotate inside the bracing piece, be favorable to driving two gyro wheels and two sliders in the inside syntropy slip of bracing piece under the effect through the cam, the slider drives the actuating lever and drives the screen cloth through the mounting panel under breaking away from reset spring's effect, through the rotation of cam, be favorable to the screen cloth can slide on the bracing piece repeatedly, thereby be favorable to the better dropping of the fodder on the screen cloth, conveniently carry the work, through the rotation of baffle and puddler, be favorable to keep conflicting to the screen cloth throughout, and make things convenient for screen cloth to slide, thereby make the fodder can not get into the inside card gap between puddler and the screen cloth cause.

(3) The spiral feeder for feed production and processing is beneficial to discharging the residual crushed aggregates in the conveying mechanism during cleaning and preventing secondary pollution through the action of the discharging mechanism, namely: be favorable to blocking up logical groove under the effect through the slide, make the inside fodder of conveying pipeline can not get into row material intraduct and discharge, when needs are to the inside clearance of conveying pipeline, through taking the slide out, be favorable to discharging through arranging the material pipe to the inside remaining garrulous end of fodder of conveying pipeline, reduce secondary pollution, be favorable to blockking up the protection to arranging the material pipe under the effect through the leather plug, prevent that debris from getting into, be favorable to rotating the leather plug under the effect through the pull ring simultaneously, thereby make things convenient for the leather plug to arrange the material with row material pipe separation.

(4) The spiral feeder for feed production and processing is driven by the control mechanism, so that the direction of discharging of the conveying mechanism can be adjusted, and the equipment can take the feed, namely: through three connecting pipe and outside tracheal be connected to the convenience is controlled the gas injection of connecting pipe, through to one of them intake pipe gas injection, make inside the gaseous dead lever that gets into and promote the ejector pin, be favorable to making the ejector pin break away from the effect of expanding spring down to the connecting block drive, be favorable to the connecting block to contradict the unloading pipe, make the unloading pipe change the convenience of guide under the effect of expanding tube, two other ejector pins can break away from the effect shrink of compression spring down simultaneously, make things convenient for the unloading pipe swing, make things convenient for the fodder to connect and get the work.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of a feed production and processing screw feeder according to a preferred embodiment of the present invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is a schematic view of the connection structure of the support frame, the discharge hopper and the delivery pipe of the present invention;

FIG. 4 is an enlarged view of the part B shown in FIG. 3;

FIG. 5 is an enlarged view of the structure of the portion C shown in FIG. 3;

FIG. 6 is an enlarged view of the structure of the portion D shown in FIG. 3;

FIG. 7 is a schematic view of a connection structure of a connection pipe and a blanking pipe according to the present invention;

fig. 8 is an enlarged view of the structure of the portion E shown in fig. 7.

In the figure: 1. a support frame; 2. a conveying mechanism; 201. a discharge hopper; 202. a first motor; 203. a delivery pipe; 204. a material guide pipe; 205. a feeding pipe; 206. a screw rod; 207. a telescopic pipe; 208. a connecting pipe; 3. a stirring mechanism; 301. a second motor; 302. a stirring rod; 303. a support bar; 304. a baffle; 4. a grinding mechanism; 401. screening a screen; 402. rolling a plate; 403. a connecting rod; 404. a protection plate; 405. mounting a plate; 5. a shaking mechanism; 501. a baffle plate; 502. a cam; 503. a roller; 504. a slider; 505. a drive rod; 506. a return spring; 6. a discharge mechanism; 601. a through groove; 602. a discharge pipe; 603. a plug of leather; 604. a slide plate; 605. a pull ring; 7. a control mechanism; 701. a top rod; 702. connecting blocks; 703. a tension spring; 704. fixing the rod; 705. a compression spring; 706. an intake pipe.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

As shown in fig. 1 to 8, the feed production and processing screw feeder of the present invention includes a support frame 1, a conveying mechanism 2 mounted on the support frame 1, a stirring mechanism 3 mounted on the conveying mechanism 2, a crushing mechanism 4 connected to the conveying mechanism 2, a shaking mechanism 5 mounted on the stirring mechanism 3, a discharging mechanism 6 mounted on the conveying mechanism 2, and a control mechanism 7 mounted on the conveying mechanism 2.

Specifically, conveying mechanism 2 includes blowing hopper 201, can dismantle on the support frame 1 and be connected with blowing hopper 201, install conveying pipeline 203 on the blowing hopper 201, blowing hopper 201 and the inside intercommunication of conveying pipeline 203, conveying pipeline 203 one end can be dismantled and be connected with stand pipe 204, conveying pipeline 203 and the inside rotation of stand pipe 204 are connected with hob 206, first motor 202 is installed to the conveying pipeline 203 other end, hob 206 one end and first motor 202 output shaft, through be favorable to under the effect of support frame 1 right blowing hopper 201 installs to the convenience is placed the collection to the fodder of production, makes through switch-on first motor 202 rotates, first motor 202 drives hob 206 is in conveying pipeline 203 with the inside rotation of stand pipe 204 is favorable to inciting somebody to action the fodder of blowing hopper 201 passes through the inside fodder of stand pipe 206 is carried extremely the stand pipe 204 top is discharged.

Specifically, a connecting pipe 208 is vertically installed at one end of the material guiding pipe 204, a telescopic pipe 207 is installed on the connecting pipe 208, a discharging pipe 205 is connected to the telescopic pipe 207, the feed conveyed inside the material guiding pipe 204 can be guided out under the action of the connecting pipe 208, meanwhile, the feed can be guided into other devices to be processed conveniently under the action of the telescopic pipe 207 and the discharging pipe 205, and the conveying direction can be adjusted conveniently under the action of the telescopic pipe 207.

Concretely, rabbling mechanism 3 includes bracing piece 303, blowing 201 internally mounted has bracing piece 303, vertical rotation is connected with puddler 302 on the bracing piece 303, puddler 302 one end is located blowing 201 bottom inboardly, the puddler 302 other end rotates with blowing 201 top and is connected, second motor 301 is installed at blowing 201 top, puddler 302 and second motor 301 output shaft, through second motor 301's drive makes puddler 302 is in the support of bracing piece 303 is rotated down, is favorable to right the inboard fodder in blowing 201 bottom overturns, makes things convenient for the entering that the fodder can be fine conveying pipe 203 is inside to be carried, prevents conveying pipe 203 with feeding department blocks up between the blowing 201.

Specifically, a plurality of guide plates 304 are installed to blowing hopper 201 bottom inboard, contained angle is 45 degrees between guide plate 304 and the blowing hopper 201, through be favorable to the convenience under the effect of guide plate 304 the inside fodder of blowing hopper 201 can be fine flow down, and concentrate the flow direction inside the conveying pipeline 203, it is convenient the hob 206 is carried.

Specifically, crushing mechanism 4 includes screen cloth 401, hopper 201 internally mounted has screen cloth 401, install a plurality of mounting panels 405 on the screen cloth 401, mounting panel 405 is "T" shape structure, mounting panel 405 is connected with bracing piece 303, puddler 302 rotates with screen cloth 401 and is connected, install two connecting rods 403 on the puddler 302, two install the board 402 of rolling on the connecting rod 403, the board 402 of rolling and screen cloth 401 sliding connection, through be favorable to under the effect of mounting panel 405 the screen cloth 401 with bracing piece 303 is connected, thereby make the screen cloth 401 can be installed inside the hopper 201, through thereby the rotation drive of puddler 302 connecting rod 403 is right the board 402 of rolling work, through the board 402 of rolling is in slip on the screen cloth 401, thus right bulk fodder on the screen cloth 401 is ground, and through the screen cloth 401 drops, and is convenient the fine transport of hob rod 206 can not cause the conveying pipeline 203 with the passage 204 blocks up.

Specifically, guard plate 404 is installed respectively to the inside both sides of blowing hopper 201, guard plate 404 is the triangle-shaped structure, two guard plate 404 contradicts with screen cloth 401 both ends top side, through be favorable to putting into under the effect of guard plate 404 the inside fodder of blowing hopper 201 can the water conservancy diversion extremely screen cloth 401 central authorities, it is convenient roll work to clamp plate 402.

Specifically, the shaking mechanism 5 includes a cam 502, the cam 502 is installed on the stirring rod 302, the cam 502 is connected with the inside rotation of bracing piece 303 through the stirring rod 302, bracing piece 303 both ends internally mounted has a drive rod 505, two the drive rod 505 passes through return spring 506 and the inside sliding connection of bracing piece 303, and is a plurality of the mounting panel 405 extends to the bracing piece 303 inside to be connected with drive rod 505, mounting panel 405 and screen cloth 401 and bracing piece 303 sliding connection, two the slider 504 is installed respectively to drive rod 505 one end, slider 504 and the inside sliding connection of bracing piece 303, two slider 504 one end rotates to be connected with gyro wheel 503, two gyro wheel 503 contradicts with cam 502 both ends respectively, screen cloth 401 and stirring rod 302 sliding connection, through the rotation of stirring rod 302 is favorable to driving cam 502 is in the inside rotation of bracing piece 303, through under the effect of cam 502 is favorable to driving two gyro wheel 503 and slider 504 are in the inside syntropy slip of bracing piece 303, slider 504 drives drive rod 505 break away from under the effect of return spring 506 through the mounting panel 405 to screen cloth 401 drive, through the rotation of cam 502, be favorable to the screen cloth 303 slides on the screen cloth is favorable to the convenient transport is ground the feed that drops repeatedly on the screen cloth 401, thereby the screen cloth is favorable to the convenient transport is ground.

Specifically, sliding connection has baffle 501 on screen cloth 401, baffle 501 rotates with puddler 302 to be connected, the width of baffle 501 is greater than the diameter of puddler 302, through baffle 501 and puddler 302's rotation is favorable to baffle 501 can remain throughout right screen cloth 401 is contradicted, and convenient screen cloth 401 with baffle 501 slides, thereby makes fodder on the screen cloth 401 can not get into the inside jam that causes in gap between puddler 302 and the screen cloth 401.

It is specific, blow-off mechanism 6 is including arranging material pipe 602, install on the conveying pipeline 203 and arrange material pipe 602, it is 45 degrees to arrange the contained angle between material pipe 602 and the conveying pipeline 203, be equipped with logical groove 601 on the conveying pipeline 203, conveying pipeline 203 is through leading to groove 601 and row material pipe 602 intercommunication, sliding connection has slide 604 on arranging material pipe 602, slide 604 extends to and leads to the inslot of groove 601 and arranges the inboard conflict of material pipe 602, through be favorable to right under slide 604's the effect lead to groove 601 blocks up, makes the inside fodder of conveying pipeline 203 can not get into arrange the inside discharge of material pipe 602, it is right as required during the inside clearance of conveying pipeline 203, through taking out slide 604, be favorable to right the inside remaining fodder garrulous end of conveying pipeline 203 passes through arrange material pipe 602 and discharge, reduce secondary pollution.

Specifically, arrange material pipe 602 one end threaded connection and have a leather plug 603, leather plug 603 is cylindric "T" shape structure, install pull ring 605 on the leather plug 603, pull ring 605 is the arc structure, through be favorable to right under the effect of leather plug 603 arrange material pipe 602 and block up the protection, prevent that debris from getting into, simultaneously pass through be favorable to right under the effect of pull ring 605 the leather plug 603 rotates, thereby the convenience the leather plug 603 with it arranges the material to arrange material pipe 602 separation.

Specifically, the control mechanism 7 includes a fixing rod 704, the connecting pipe 208 is rotatably connected with three fixing rods 704, a push rod 701 is slidably connected inside the fixing rod 704, a compression spring 705 is connected between the push rod 701 and the fixing rod 704, the push rod 701 extends to the outside of the fixing rod 704, a telescopic spring 703 is slidably connected on the push rod 701, one end of the telescopic spring 703 abuts against the inside of the fixing rod 704, one end of each of the three push rods 701 is rotatably connected with the side wall of the discharging pipe 205 through a connecting block 702, an air inlet pipe 706 is installed on each of the three fixing rods 704, the air inlet pipe 706 is communicated with the inside of the fixing rod 704, and is connected with an external air pipe through the three connecting pipes 208, so that air injection control over the connecting pipes 208 is facilitated, air is introduced into the fixing rod 704 and pushes the push rod 701 through one of the air inlet pipes 706, the push rod 701 is facilitated to escape from driving the connecting block 701 under the action of the telescopic spring 703, the connecting block 702 is facilitated to abut against the discharging pipe 205, the discharging pipe 205 is facilitated to change the convenience of guiding the material under the action of the telescopic pipe 207, and the other two push rods 701 can escape from contracting under the action of the compression spring 705, so that the discharging pipe 705, the discharging pipe 205 is facilitated to facilitate the work of taking of the feed receiving and the feed.

When the invention is used, firstly, the hopper 201 is favorably installed under the action of the support frame 1, so that produced feed can be conveniently placed and collected, the first motor 202 is enabled to rotate by switching on a power supply, the first motor 202 drives the screw rod 206 to rotate inside the feed delivery pipe 203 and the feed guide pipe 204, so that the feed inside the hopper 201 is favorably conveyed to the top of the feed guide pipe 204 through the screw rod 206 to be discharged, the feed conveyed inside the feed guide pipe 204 is favorably led out under the action of the connecting pipe 208, meanwhile, the feed is favorably guided into other equipment for processing under the action of the telescopic pipe 207 and the feed guide pipe 205, the conveying direction is conveniently adjusted under the action of the telescopic pipe 207, the stirring rod 302 is enabled to rotate under the support of the support rod 303 through the driving of the second motor 301, so that the feed inside the bottom of the hopper 201 can be favorably overturned, so that the feed can favorably enter the feed can be conveyed inside the feed delivery pipe 203, the feed can be prevented from being blocked between the feed delivery pipe 203 and the hopper 201 by preventing the feed delivery part from being blocked between the feed delivery pipe 203 and the hopper 201 through the connecting rod 401, so that the feed guide plate 401 and the feed guide plate 401 can be favorably driven by the screw rod 203 under the screen mesh 402, so that the feed guide plate 401 can be favorably driven by the feed delivery rod 401 and the mesh screen mesh 402, facilitating the rolling of the rolling plate 402, facilitating the rotation of the stirring rod 302, facilitating the driving of the cam 502 inside the supporting rod 303, facilitating the driving of the two rollers 503 and the two sliders 504 inside the supporting rod 303 to slide in the same direction under the action of the cam 502, the sliders 504 driving the driving rod 505 to break away from the action of the return spring 506 to drive the screen 401 through the mounting plate 405, facilitating the screen 401 to slide repeatedly on the supporting rod 303 through the repeated rotation of the cam 502, facilitating the better dropping of the crushed fodder on the screen 401, facilitating the transportation work, facilitating the rotation of the baffle 501 and the stirring rod 302, facilitating the baffle 501 to always keep abutting against the screen 401, facilitating the sliding of the screen 401 and the baffle 501, thereby preventing the fodder on the screen 401 from entering into the gap between the stirring rod 302 and the screen 401 to cause jamming, facilitating the blocking of the through the sliding plate 604, preventing the fodder inside the conveying pipe 203 from entering into the discharging pipe 602 to discharge through the suction pipe 603, facilitating the pushing of the fodder left fodder inside the baffle 701 into the connecting pipe 203 to control the discharge pipe 603 through the gas plug 603, facilitating the pushing of the push rod 701 to control of the push rod 702 through the gas plug 603, facilitating the push of the push rod 702, facilitating the push of the discharge pipe 603, facilitating the discharge of the discharge pipe 603, the feeding pipe 205 is convenient to change the feeding under the action of the telescopic pipe 207, and the other two ejector rods 701 can get rid of the contraction under the action of the compression spring 705, so that the feeding pipe 205 can swing conveniently, and the feed can be conveniently taken and taken.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The feed production and processing spiral feeder is characterized by comprising a support frame (1), wherein a conveying mechanism (2) is installed on the support frame (1), a stirring mechanism (3) is installed on the conveying mechanism (2), a crushing mechanism (4) is connected to the conveying mechanism (2), a shaking mechanism (5) is installed on the stirring mechanism (3), a discharging mechanism (6) is installed on the conveying mechanism (2), and a control mechanism (7) is installed on the conveying mechanism (2);

the conveying mechanism (2) comprises a discharging hopper (201), the discharging hopper (201) is detachably connected to the support frame (1), a conveying pipe (203) is mounted on the discharging hopper (201), the discharging hopper (201) is communicated with the inside of the conveying pipe (203), one end of the conveying pipe (203) is detachably connected with a material guide pipe (204), the conveying pipe (203) and the material guide pipe (204) are rotatably connected with a spiral rod (206), the other end of the conveying pipe (203) is provided with a first motor (202), and one end of the spiral rod (206) is connected with an output shaft of the first motor (202);

the stirring mechanism (3) comprises a supporting rod (303), the supporting rod (303) is installed inside the discharging hopper (201), a stirring rod (302) is vertically and rotatably connected to the supporting rod (303), one end of the stirring rod (302) is located on the inner side of the bottom of the discharging hopper (201), the other end of the stirring rod (302) is rotatably connected with the top of the discharging hopper (201), a second motor (301) is installed on the top of the discharging hopper (201), and the stirring rod (302) is connected with an output shaft of the second motor (301);

a connecting pipe (208) is vertically arranged at one end of the material guide pipe (204), a telescopic pipe (207) is arranged on the connecting pipe (208), and a discharging pipe (205) is connected to the telescopic pipe (207);

a plurality of guide plates (304) are arranged on the inner side of the bottom of the discharging hopper (201), and an included angle between each guide plate (304) and the discharging hopper (201) is 45 degrees;

the grinding mechanism (4) comprises a screen (401), the screen (401) is installed inside the discharging hopper (201), a plurality of mounting plates (405) are installed on the screen (401), the mounting plates (405) are of T-shaped structures, the mounting plates (405) are connected with supporting rods (303), the stirring rod (302) is rotatably connected with the screen (401), two connecting rods (403) are installed on the stirring rod (302), grinding plates (402) are installed on the two connecting rods (403), and the grinding plates (402) are slidably connected with the screen (401);

protection plates (404) are respectively installed on two sides in the discharging hopper (201), the protection plates (404) are of a triangular structure, and the two protection plates (404) are abutted to the top sides of two ends of the screen (401);

the shaking mechanism (5) comprises a cam (502), the cam (502) is installed on the stirring rod (302), the cam (502) is rotatably connected with the inner part of the supporting rod (303) through the stirring rod (302), driving rods (505) are installed at the two ends of the supporting rod (303), the two driving rods (505) are slidably connected with the inner part of the supporting rod (303) through a return spring (506), the mounting plates (405) extend to the inner part of the supporting rod (303) to be connected with the driving rods (505), the mounting plates (405) and the screen (401) are slidably connected with the supporting rod (303), one ends of the two driving rods (505) are respectively provided with a sliding block (504), the sliding blocks (504) are slidably connected with the inner part of the supporting rod (303), one ends of the two sliding blocks (504) are rotatably connected with rollers (503), the two rollers (503) are respectively abutted against the two ends of the cam (502), and the screen (401) is slidably connected with the stirring rod (302);

the screen (401) is connected with a baffle (501) in a sliding mode, the baffle (501) is rotatably connected with the stirring rod (302), and the width of the baffle (501) is larger than the diameter of the stirring rod (302);

the discharging mechanism (6) comprises a discharging pipe (602), the discharging pipe (602) is installed on the conveying pipe (203), an included angle between the discharging pipe (602) and the conveying pipe (203) is 45 degrees, a through groove (601) is formed in the conveying pipe (203), the conveying pipe (203) is communicated with the discharging pipe (602) through the through groove (601), a sliding plate (604) is connected to the discharging pipe (602) in a sliding mode, and the sliding plate (604) extends into the through groove (601) and is abutted to the inner side of the discharging pipe (602);

one end of the discharge pipe (602) is in threaded connection with a leather plug (603), the leather plug (603) is of a cylindrical T-shaped structure, a pull ring (605) is mounted on the leather plug (603), and the pull ring (605) is of an arc-shaped structure;

control mechanism (7) include dead lever (704), it is connected with three dead lever (704) to rotate on connecting pipe (208), the inside sliding connection of dead lever (704) has ejector pin (701), be connected with compression spring (705) between ejector pin (701) and dead lever (704), ejector pin (701) extend to dead lever (704) outside, sliding connection has expanding spring (703) on ejector pin (701), expanding spring (703) one end is contradicted with dead lever (704) inboard, and is three ejector pin (701) one end is passed through connecting block (702) with unloading pipe (205) lateral wall and is rotated and be connected, and is three install intake pipe (706) on dead lever (704), intake pipe (706) and the inside intercommunication of dead lever (704).

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