CN113578145A - Anti-blocking feed mixer capable of automatically feeding materials - Google Patents

Abstract

An anti-blocking feed mixer capable of automatically feeding materials comprises a material feeding mechanism, a mixing mechanism and a power mechanism; the feeding mechanism comprises a fixing frame and a feeding device, and the fixing frame is used for fixing the stirring mechanism; the feeding device is arranged on the support frame of the discharging mechanism in a sliding manner, so that the automatic feeding function is realized, and the stirring mechanism is fixedly arranged on the discharging mechanism and plays a role in supporting the power mechanism; the power mechanism comprises a stirring power mechanism, a rotary door opening and closing mechanism and an anti-blocking mechanism, and the stirring power mechanism is rotatably arranged on the stirring mechanism and provides power for stirring the feed; the rotary door opening and closing mechanism is rotatably arranged at the middle part of the stirring mechanism, and a door of the mechanism is automatically opened to discharge the feed after the feed is stirred; prevent that stifled mechanism rotates and installs the bottom part at rabbling mechanism, realized the mediation to blockking up the fodder, reached and prevented stifled function.

Description

Anti-blocking feed mixer capable of automatically feeding materials

Technical Field

The invention relates to the field of feed stirring, in particular to an anti-blocking feed stirring machine capable of automatically feeding.

Background

In the breeding industry, the feed for breeding livestock needs to be blended, and the feed is generally blended manually by stirring with a shovel, so that the blended feed is very uneven and wastes time and labor; the stirring equipment adopted by large-scale culture places is large in size, complex in structure and easy to block; therefore, the anti-blocking fodder mixing machine capable of automatically feeding materials needs to be invented to solve the technical problems.

Disclosure of Invention

Aiming at the problems, the invention provides an anti-blocking feed mixer capable of automatically feeding materials, and solves the problems that manual mixing is time-consuming and labor-consuming, the mixing is uneven, large-scale mixing equipment is large in size, complex in structure and easy to block through a discharging mechanism, a mixing power mechanism, a rotary door opening and closing mechanism and an anti-blocking mechanism of the equipment.

The technical scheme adopted by the invention is as follows: an anti-blocking feed mixer capable of automatically feeding materials comprises a material feeding mechanism, a mixing mechanism and a power mechanism; the feeding mechanism comprises a fixing frame and a feeding device, and the fixing frame is used for fixing the stirring mechanism; the feeding device is arranged on the support frame of the discharging mechanism in a sliding manner, so that the automatic feeding function is realized, and the stirring mechanism is fixedly arranged on the discharging mechanism and plays a role in supporting the power mechanism; the power mechanism comprises a stirring power mechanism, a rotary door opening and closing mechanism and an anti-blocking mechanism, and the stirring power mechanism is rotatably arranged on the stirring mechanism and provides power for stirring the feed; the rotary door opening and closing mechanism is rotatably arranged at the middle part of the stirring mechanism, and a door of the mechanism is automatically opened to discharge the feed after the feed is stirred; prevent that stifled mechanism rotates and installs the bottom part at rabbling mechanism, realized the mediation to blockking up the fodder, reached and prevented stifled function.

Further, the fixing frame comprises a side supporting plate, an upper supporting plate, an electric cylinder fixing frame, a sliding chute A, a gear fixing frame A, a motor fixing frame A, a gear fixing frame B, a lower supporting plate, a sliding chute B, a stirring rod fixing cylinder and a middle supporting plate; the upper end surface of the side supporting plate is fixedly connected with the lower end surface of the upper supporting plate, and the lower end surface of the side supporting plate is fixedly connected with the upper end surface of the lower supporting plate; the side supporting plate is provided with a chute; the upper end surface of the upper supporting plate is provided with a chute A; the front end surface of the upper supporting plate is provided with an electric cylinder fixing frame; the middle supporting plate is fixedly connected with the front side surface of the side supporting plate; the lower end faces of the gear fixing frame A and the gear fixing frame B are fixedly connected with the upper end face of the middle supporting plate; the rear end face of the motor fixing frame A is fixedly connected with the front end face of the middle supporting plate; the upper end surface of the lower supporting plate is provided with a sliding chute B and an electric cylinder fixing block; the upper end surface of the stirring rod fixing cylinder is fixedly connected with the lower end surface of the upper supporting plate; rectangular grooves are respectively formed in two sides of the inner portion of the stirring rod fixing cylinder.

Further, the feeding device comprises an electric cylinder A, a telescopic sleeve group, a charging barrel supporting plate, a charging barrel A, a cylindrical gear A and a rack A; the electric cylinder A is fixedly arranged at the rear end part of the lower supporting plate, and a telescopic rod at the front end of the electric cylinder A is fixedly connected with a connecting rod on the telescopic sleeve group; the charging barrel supporting plate is rotatably arranged at the upper end of the telescopic sleeve group; the telescopic sleeve group is slidably arranged on the sliding chute B; the charging barrel A is fixedly arranged on the upper end surface of the charging barrel supporting plate; a fixed rotating shaft of the cylindrical gear A is fixedly connected with the rear end face of the charging barrel supporting plate; the rack A is fixedly arranged on the outer side surface of the side supporting plate.

Further, the stirring mechanism comprises a stirring barrel, a gear fixing frame C, a discharge hopper, a dredging column slot group and an external gear sliding slot; the stirring barrel is fixedly arranged in a circular hole in the middle supporting plate; a gear fixing frame C is arranged on the upper end face of the stirring barrel, and round holes are formed in two ends of the gear fixing frame C and used for fixing a gear shaft; the lower half part of the stirring barrel is provided with a conical gear supporting plate; the upper end surface of the discharge hopper is fixedly connected with the lower end surface of the stirring barrel; the lower half part of the discharge hopper is provided with a dredging column slot group; an outer gear sliding groove is arranged on the inner side of the bottom of the discharge hopper.

Further, the stirring power mechanism includes: the device comprises a motor A, a stirring frame, a cylindrical gear C, a stirring ring, a threaded rod, a gear set A, a gear set B, a gear set C, a cylindrical gear B, a belt A, a gear set D, an electric cylinder B, a rack B, a cylindrical gear D and a belt C; the motor A is fixedly arranged on the motor fixing frame A; the threaded rod is rotatably arranged on the upper supporting plate; the stirring frame is rotationally connected with the threaded rod; the stirring frame is provided with a fixed block to prevent the stirring frame from rotating when moving downwards in the stirring rod fixing cylinder; the cylindrical gear C is fixedly connected with a cylinder at the front end of the stirring ring; the cylindrical gear C is rotatably arranged on the stirring barrel; a fixed rotating shaft of the gear set A is rotatably arranged on the gear fixing frame A; a front-end rotating shaft of the motor A is fixedly connected with a driving wheel at the front end of the gear set A; a fixed rotating shaft of the gear set B is rotatably arranged in a circular hole on the middle supporting plate; the gear set C is rotatably arranged on the gear fixing frame C; the cylindrical gear B is fixedly arranged on the upper end surface of the stirring frame; the gear set D is rotatably arranged on the gear fixing frame B; the belt A wraps a driving wheel at the front end of the gear set A and a driving wheel at the front end of the gear set D; the electric cylinder B is fixedly arranged on the electric cylinder fixing frame; the rack B is slidably arranged on the chute A; the telescopic rod at the front end of the electric cylinder B is fixedly connected with one end of the rack B; the cylindrical gear D is rotatably arranged on the upper supporting plate; the belt C covers the driving wheel at the upper end of the gear set B and the driving wheel at the lower end of the gear set C.

Further, the rotary door opening and closing mechanism includes: the gear set E, the belt B, the gear set F, the bevel gear set, the external gear ring and the fan-shaped bottom plate group; the gear set E is rotatably arranged on the upper supporting plate; a fixed rotating shaft of the gear set F is rotatably arranged on the upper supporting plate; a belt B wraps the driving wheel at the upper end of the gear set E; the bevel gear group is rotatably arranged around the bottom end of the stirring barrel; the external gear ring is rotatably arranged on a conical gear support plate at the bottom end of the stirring barrel; each bottom plate of the fan-shaped bottom plate group is fixedly connected with a rotating shaft of a bevel gear in the corresponding bevel gear group.

Further, the anti-blocking mechanism comprises a belt D, a gear group G, an anti-blocking dredging column group and an inner meshing gear ring; the anti-blocking dredging column group is rotatably arranged on the dredging column groove group; the gear group G is fixedly connected with the lower end face of one anti-blocking dredging column in the anti-blocking dredging column group; a belt D coats a driving wheel at the lower end of the gear set B and a driving wheel at the lower end of the gear set G; the internal gear ring is rotatably mounted on the external gear chute.

Due to the adoption of the technical scheme, the invention has the following advantages:

(1) the feeding and feed stirring device has the advantages that the motor and the electric cylinder are utilized to drive the equipment, so that the automation of feeding and feed stirring is realized, and the labor and time cost are saved;

(2) according to the stirring device, the stirring power mechanism of the device can be used for effectively stirring the feed in different stirring modes, so that the defect of uneven manual stirring is overcome;

(3) according to the anti-blocking device, the anti-blocking mechanism is arranged, the spiral friction groove on the anti-blocking dredging column group and the feed in the hopper rotate to drive the blocked material to move by utilizing the rotation of the anti-blocking dredging column group, so that the anti-blocking effect is achieved, and the feed can smoothly flow out of the device.

Drawings

Fig. 1-3 are schematic diagrams of the overall structure of the present invention.

Fig. 4-6 are schematic structural views of the discharging mechanism of the invention.

Fig. 7 is a partially enlarged schematic view of fig. 6.

Fig. 8-9 are schematic structural views of the stirring mechanism of the present invention.

Fig. 10-11 are schematic structural views of the power mechanism of the present invention.

Fig. 12 is a partially enlarged schematic view of fig. 10.

Reference numerals:

1-a discharging mechanism; 2-a stirring mechanism; 3, a power mechanism; 101-side support plate; 102-an upper support plate; 103-electric cylinder fixing frame; 104-chute a; 105-gear holder a; 106-motor mount a; 107-gear holder B; 108-electric cylinder A; 109-telescopic sleeve group; 110-barrel A; 111-a lower support plate; 112-chute B; 113-cartridge support plate; 114-cylindrical gear a; 115-rack a; 116-a stirring rod fixing cylinder; 117-middle support plate; 201-stirring barrel; 202-gear holder C; 203-a discharge hopper; 204-a dredging column groove group; 205-external gear runner; 301-motor a; 302-gear set a; 303-gear set B; 304-gear set C; 305-cylindrical gear B; 306-a stirring frame; 307-Belt A; 308-gear set D; 309-cylindrical gear C; 310-stirring ring; 311-electric cylinder B; 312-rack B; 313-cylindrical gear D; 314-gear set E; 315-belt B; 316-gear set F; 317-bevel gear set; 318-external gear ring; 319-sector baseplate group; 320-belt C; 321-belt D; 322-gear set G; 323-anti-blocking dredging column group; 324-ring gear ring; 325-threaded rod.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in many ways other than those described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit of the invention, and therefore the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the embodiment, as shown in fig. 1 to 12, an anti-blocking fodder mixing machine capable of automatically feeding fodder comprises a material feeding mechanism 1, a mixing mechanism 2 and a power mechanism 3; the discharging mechanism 1 comprises a fixing frame and a feeding device, and the fixing frame is used for fixing the stirring mechanism 2; the feeding device is arranged on the support frame of the discharging mechanism 1 in a sliding manner, so that the automatic feeding function is realized, and the stirring mechanism 2 is fixedly arranged on the discharging mechanism 1 and plays a role in supporting the power mechanism 3; the power mechanism 3 comprises a stirring power mechanism 3, a rotary door opening and closing mechanism and an anti-blocking mechanism, and the stirring power mechanism 3 is rotatably arranged on the stirring mechanism 2 and provides power for stirring the feed; the rotary door opening and closing mechanism is rotatably arranged at the middle part of the stirring mechanism 2, and the door of the mechanism is automatically opened to discharge the feed after the feed is stirred; prevent stifled mechanism and rotate the bottom part of installing at rabbling mechanism 2, realized the mediation to blockking up the fodder, reached and prevented stifled function.

In an optional implementation manner of the embodiment of the present invention, the fixing frame includes a side supporting plate 101, an upper supporting plate 102, an electric cylinder fixing frame 103, a chute a104, a gear fixing frame a105, a motor fixing frame a106, a gear fixing frame B107, a lower supporting plate 111, a chute B112, a stirring rod fixing cylinder 116, and a middle supporting plate 117; the upper end surface of the side supporting plate 101 is fixedly connected with the lower end surface of the upper supporting plate 102, and the lower end surface of the side supporting plate 101 is fixedly connected with the upper end surface of the lower supporting plate 111; the side supporting plate 101 is provided with a chute; the upper end surface of the upper support plate 102 is provided with a chute A104; the front end surface of the upper supporting plate 102 is provided with an electric cylinder fixing frame 103; the middle support plate 117 is fixedly connected with the front side surface of the side support plate 101; the lower end surfaces of the gear fixing frame A105 and the gear fixing frame B107 are fixedly connected with the upper end surface of the middle supporting plate 117; the rear end face of the motor fixing frame A106 is fixedly connected with the front end face of the middle supporting plate 117; the upper end surface of the lower supporting plate 111 is provided with a sliding chute B112 and an electric cylinder fixing block; the upper end surface of the stirring rod fixing cylinder 116 is fixedly connected with the lower end surface of the upper support plate 102; rectangular grooves are respectively formed in two sides of the inner part of the stirring rod fixing cylinder 116.

In an optional implementation manner of the embodiment of the present invention, the feeding device includes: the device comprises an electric cylinder A108, a telescopic sleeve group 109, a charging barrel supporting plate 113, a charging barrel A110, a cylindrical gear A114 and a rack A115; the electric cylinder A108 is fixedly arranged at the rear end part of the lower supporting plate 111, and a telescopic rod at the front end of the electric cylinder A108 is fixedly connected with a connecting rod on the telescopic sleeve group 109; the charging barrel supporting plate 113 is rotatably installed at the upper end of the telescopic sleeve group 109; the telescopic sleeve group 109 is slidably mounted on the chute B112; the cartridge a110 is fixedly mounted on the upper end surface of the cartridge supporting plate 113; the fixed rotating shaft of the cylindrical gear A114 is fixedly connected with the rear end face of the charging barrel supporting plate 113; the rack A115 is fixedly arranged on the outer side surface of the side supporting plate 101; specifically, when the feed is put into the barrel a110, the electric cylinder a108 pushes the telescopic sleeve set 109 to slide the telescopic sleeve set 109 on the chute B112; as the side supporting plate 101 is provided with the sliding groove, the charging barrel A110 moves along the track of the sliding groove, and the telescopic sleeve group 109 slowly rises; when the charging barrel A110 rises to the highest position of the chute guide rail, the cylindrical gear A114 is meshed with the rack A115; the cylindrical gear A114 rotates to drive the charging barrel A110, so that the charging barrel A110 rotates by a certain angle to pour the feed into the stirring mechanism 2; then the electric cylinder A108 pulls the telescopic sleeve group 109; the telescopic sleeve group 109 drives the material cylinder A110 and the material cylinder supporting plate 113 to move back, the rack A115 enables the cylindrical gear A114 to rotate to enable the material cylinder A110 to restore to the horizontal state, and the material cylinder A110 returns to the starting position through the chute guide rail.

In an alternative implementation of the embodiment of the present invention, the stirring mechanism 2 includes: the device comprises a stirring barrel 201, a gear fixing frame C202, a discharge hopper 203, a dredging column groove group 204 and an external gear sliding groove 205; the stirring barrel 201 is fixedly arranged in a circular hole on the middle supporting plate 117; a gear fixing frame C202 is arranged on the upper end face of the stirring barrel 201, and round holes are formed in two ends of the gear fixing frame C202 and used for fixing a gear shaft; the lower half part of the stirring barrel 201 is provided with a conical gear supporting plate; the upper end surface of the discharge hopper 203 is fixedly connected with the lower end surface of the stirring barrel 201; the lower half part of the discharge hopper 203 is provided with a dredging column slot group 204; an external gear chute 205 is arranged on the inner side of the bottom of the discharge hopper 203 and used for fixing an internal gear ring 324. Wherein, the mixing tank 201 and the discharge hopper 203 are both made of stainless steel.

In an optional implementation manner of the embodiment of the present invention, the stirring power mechanism 3 includes: motor A301, stirring frame 306, cylindrical gear C309, stirring ring 310, threaded rod 325, gear set A302, gear set B303, gear set C304, cylindrical gear B305, belt A307, gear set D308, electric cylinder B311, rack B312, cylindrical gear D313 and belt C320; the motor A301 is fixedly arranged on the motor fixing frame A106; the threaded rod 325 is rotatably mounted on the upper support plate 102; the stirring frame 306 is rotationally connected with the threaded rod 325; the stirring frame 306 is provided with a fixed block to prevent the stirring frame 306 from rotating when moving downwards in the stirring rod fixing cylinder 116; the cylindrical gear C309 is fixedly connected with a cylinder at the front end of the stirring ring 310; the cylindrical gear C309 is rotatably arranged on the stirring barrel 201; the fixed rotating shaft of the gear set A302 is rotatably arranged on the gear fixing frame A105; a front-end rotating shaft of the motor A301 is fixedly connected with a driving wheel at the front end of the gear set A302; the fixed rotating shaft of the gear set B303 is rotatably arranged in a circular hole on the middle support plate 117; the gear set C304 is rotatably mounted on the gear fixing frame C202; the cylindrical gear B305 is fixedly arranged on the upper end surface of the stirring frame 306; the gear set D308 is rotatably arranged on the gear fixing frame B107; the belt A307 wraps the driving wheel at the front end of the gear set A302 and the driving wheel at the front end of the gear set D308; the electric cylinder B311 is fixedly arranged on the electric cylinder fixing frame 103; the rack B312 is slidably mounted on the chute A104; the telescopic rod at the front end of the electric cylinder B311 is fixedly connected with one end of the rack B312; a cylindrical gear D313 is rotatably mounted on the upper support plate 102; the belt C320 coats the driving wheel at the upper end of the gear set B303 and the driving wheel at the lower end of the gear set C304; specifically, feed is put into the stirring barrel 201, and the motor A301 drives a driving wheel at the front end of the gear set A302; the driving wheel at the front end of the gear set A302 drives the driving wheel at the front end of the gear set D308 through a belt A307; an incomplete gear at the rear end of the gear set D308 is meshed with the cylindrical gear C309; the cylindrical gear C309 drives the stirring ring 310 to rotate, and the fed feed is mixed up and down; when the incomplete gear at the rear end of the gear set D308 is disengaged from the cylindrical gear C309, the stirring ring 310 returns to the horizontal position again, at the moment, the electric cylinder B311 drives the rack B312 to move, and the rack B312 drives the cylindrical gear D313 to enable the cylindrical gear B305, the stirring frame 306 and the threaded rod 325 to move downwards until the cylindrical gear B305 is engaged with the gear set C304; the bevel gear at the rear end of the gear set A302 drives the bevel gear in the middle of the gear set B303; the driving wheel at the upper end of the gear set B303 drives the driving wheel at the lower end of the gear set C304 through a belt C320; the cylindrical gear at the upper end of the gear group C304 drives the cylindrical gear B305 to rotate; the cylindrical gear B305 drives the stirring frame 306 to rotate; the feed is stirred again by the rotation of the stirring frame 306, so that the feed is mixed more uniformly and fully; after stirring is finished; the electric cylinder B311 drives the rack B312 to move reversely; the rack B312 drives the cylindrical gear D313; rotation of cylindrical gear D313 moves cylindrical gear B305, agitator frame 306 and threaded rod 325 back up.

In an optional implementation manner of the embodiment of the present invention, the rotating door opening and closing mechanism includes: gear set E314, belt B315, gear set F316, bevel gear set 317, external gear ring 318, and sector plate set 319; the gear set E314 is rotatably mounted on the upper support plate 102; the lower end of the gear set E314 is a ratchet wheel, the gears in the gear set E314 can only rotate towards one direction, and the fixed rotating shaft of the gear set F316 is rotatably arranged on the upper supporting plate 102; a belt B315 covers a driving wheel at the upper end of the gear set E314; the bevel gear group 317 is rotatably installed around the bottom end of the stirring barrel 201; the external gear ring 318 is rotatably arranged on a conical gear support plate at the bottom end of the stirring barrel 201; each bottom plate of the fan-shaped bottom plate group 319 is fixedly connected with a rotating shaft of a bevel gear in the corresponding bevel gear group 317; specifically, the electric cylinder B311 drives the rack B312 to move; because the gear set E314 is a ratchet wheel and can only rotate towards one direction, when the feed needs to be stirred, the rack B312 drives the cylindrical gear D313 to rotate, so that the stirring frame 306 moves downwards, and the gear in the gear set E314 cannot rotate; when the fodder is stirred, the rack B312 drives the cylindrical gear D313 to rotate, so that the stirring frame 306 moves upwards, and the rack B312 drives the ratchet wheel at the lower end of the gear set E314 to rotate; the driving wheel at the upper end of the gear set E314 drives the driving wheel at the upper end of the gear set F316 to rotate through a belt B315; the cylindrical gear at the lower end of the gear set F316 drives the external gear ring 318 to rotate; the external gear ring 318 drives the peripheral conical gear group 317 to rotate; the conical gear set 317 drives the fan-shaped bottom plate set 319 to rotate, so that the stirred feed falls into the discharge hopper 203, and the fan-shaped bottom plate set 319 continuously rotates to restore the original position and keep horizontal.

In an optional implementation manner of the embodiment of the present invention, the anti-blocking mechanism includes: a belt D321, a gear group G322, an anti-blocking dredging column group 323 and an inner meshing gear ring 324; the anti-blocking dredging column group 323 is rotatably arranged on the dredging column groove group 204; the anti-blocking dredging column is provided with a spiral friction groove for driving the feed to move; the gear group G322 is fixedly connected with the lower end surface of one anti-blocking dredging column in the anti-blocking dredging column group 323; the belt D321 covers the driving wheel at the lower end of the gear group B303 and the driving wheel at the lower end of the gear group G322; the ring gear 324 is rotatably mounted on the external gear runner 205; specifically, when the stirred feed enters the discharge hopper 203, the motor a301 drives the gear set a 302; a bevel gear at the rear end of the gear set A302 drives a bevel gear in the middle of the gear set B303; the driving wheel at the lower end of the gear group B303 drives the driving wheel at the lower end of the gear group G322 through a belt D321; a cylindrical gear at the upper end of the gear group G322 drives an inner meshing gear ring 324 and one anti-blocking dredging column in the anti-blocking dredging column group 323 corresponding to the gear group G322; rotation of internal gear ring 324 drives other anti-blocking mediation column group 323 to rotate, utilizes the rotation of preventing blocking mediation column group 323, and the spiral friction groove on preventing blocking mediation column group 323 rotates with the fodder in the hopper and drives the obstructed material and remove, reaches the effect that prevents the jam, makes the smooth follow of fodder flow out in should being equipped with.

The working principle of the invention is as follows: when the device is used, feed is put into the charging barrel A110, the electric cylinder A108 pushes the telescopic sleeve group 109 to enable the telescopic sleeve group 109 to slide on the sliding groove B112; as the side supporting plate 101 is provided with the sliding groove, the charging barrel A110 moves along the track of the sliding groove, and the telescopic sleeve group 109 slowly rises; when the charging barrel A110 rises to the highest position of the chute guide rail, the cylindrical gear A114 is meshed with the rack A115; the cylindrical gear A114 rotates to drive the charging barrel A110, so that the charging barrel A110 rotates by a certain angle to pour the feed into the stirring mechanism 2; then the electric cylinder A108 pulls the telescopic sleeve group 109; the telescopic sleeve group 109 drives the material cylinder A110 and the material cylinder supporting plate 113 to move back, the rack A115 enables the cylindrical gear A114 to rotate to enable the material cylinder A110 to restore to the horizontal state, and the material cylinder A110 returns to the initial position through the chute guide rail;

after the feed is put into the stirring barrel 201, the motor A301 drives the driving wheel at the front end of the gear set A302; the driving wheel at the front end of the gear set A302 drives the driving wheel at the front end of the gear set D308 through a belt A307; an incomplete gear at the rear end of the gear set D308 is meshed with the cylindrical gear C309; the cylindrical gear C309 drives the stirring ring 310 to rotate, and the fed feed is mixed up and down; when the incomplete gear at the rear end of the gear set D308 is disengaged from the cylindrical gear C309, the stirring ring 310 returns to the horizontal position again, at the moment, the electric cylinder B311 drives the rack B312 to move, and the rack B312 drives the cylindrical gear D313 to enable the cylindrical gear B305, the stirring frame 306 and the threaded rod 325 to move downwards until the cylindrical gear B305 is engaged with the gear set C304; the bevel gear at the rear end of the gear set A302 drives the bevel gear in the middle of the gear set B303; the driving wheel at the upper end of the gear set B303 drives the driving wheel at the lower end of the gear set C304 through a belt C320; the cylindrical gear at the upper end of the gear group C304 drives the cylindrical gear B305 to rotate; the cylindrical gear B305 drives the stirring frame 306 to rotate; the feed is stirred again by the rotation of the stirring frame 306, so that the feed is mixed more uniformly and fully; after stirring is finished; the electric cylinder B311 drives the rack B312 to move reversely; the rack B312 drives the cylindrical gear D313; the rotation of the cylindrical gear D313 moves the cylindrical gear B305, the stirring frame 306 and the threaded rod 325 back up;

the electric cylinder B311 drives the rack B312 to move; because the gear set E314 is a ratchet wheel and can only rotate towards one direction, when the feed needs to be stirred, the rack B312 drives the cylindrical gear D313 to rotate, so that the stirring frame 306 moves downwards, and the gear in the gear set E314 cannot rotate; when the fodder is stirred, the rack B312 drives the cylindrical gear D313 to rotate, so that the stirring frame 306 moves upwards, and the rack B312 drives the ratchet wheel at the lower end of the gear set E314 to rotate; the driving wheel at the upper end of the gear set E314 drives the driving wheel at the upper end of the gear set F316 to rotate through a belt B315; the cylindrical gear at the lower end of the gear set F316 drives the external gear ring 318 to rotate; the external gear ring 318 drives the peripheral conical gear group 317 to rotate; the conical gear set 317 drives the fan-shaped bottom plate set 319 to rotate, so that the stirred feed falls into the discharge hopper 203, and the fan-shaped bottom plate set 319 continuously rotates to restore the original position and keep horizontal;

when the stirred feed enters the discharging hopper 203, the motor A301 drives the gear set A302; a bevel gear at the rear end of the gear set A302 drives a bevel gear in the middle of the gear set B303; the driving wheel at the lower end of the gear group B303 drives the driving wheel at the lower end of the gear group G322 through a belt D321; a cylindrical gear at the upper end of the gear group G322 drives an inner meshing gear ring 324 and one anti-blocking dredging column in the anti-blocking dredging column group 323 corresponding to the gear group G322; rotation of internal gear ring 324 drives other anti-blocking mediation column group 323 to rotate, utilizes the rotation of preventing blocking mediation column group 323, and the spiral friction groove on preventing blocking mediation column group 323 rotates with the fodder in the hopper and drives the obstructed material and remove, reaches the effect that prevents the jam, makes the smooth follow of fodder flow out in should being equipped with.

Claims (7)

1. An anti-blocking fodder mixing machine capable of automatically feeding fodder is characterized by comprising a material feeding mechanism (1), a mixing mechanism (2) and a power mechanism (3); the feeding mechanism (1) comprises a fixing frame and a feeding device, and the fixing frame is used for fixing the stirring mechanism (2); the feeding device is arranged on the support frame of the discharging mechanism (1) in a sliding manner, so that the automatic feeding function is realized, and the stirring mechanism (2) is fixedly arranged on the discharging mechanism (1) and plays a role in supporting the power mechanism (3); the power mechanism (3) comprises a stirring power mechanism (3), a rotary door opening and closing mechanism and an anti-blocking mechanism, and the stirring power mechanism (3) is rotatably arranged on the stirring mechanism (2) and provides power for stirring the feed; the rotary door opening and closing mechanism is rotatably arranged at the middle part of the stirring mechanism (2), and the door of the mechanism is automatically opened to discharge the feed after the feed is stirred; the anti-blocking mechanism is rotatably arranged at the bottom end part of the stirring mechanism (2), so that the blocked feed is dredged, and the anti-blocking function is achieved; the feeding device comprises an electric cylinder A (107), a telescopic sleeve group (109) and a charging barrel supporting plate (113); the electric cylinder A (108) is fixedly arranged at the rear end part of the lower supporting plate (111), and a telescopic rod at the front end of the electric cylinder A (108) is fixedly connected with a connecting rod on the telescopic sleeve group (109); the charging barrel supporting plate (113) is rotatably arranged at the upper end of the telescopic sleeve group (109); the telescopic sleeve group (109) is slidably arranged on the sliding chute B (112); the stirring power mechanism (3) comprises a motor A (301), a stirring frame (306), a cylindrical gear C (309), a stirring ring (310) and a threaded rod (325); the motor A (301) is fixedly arranged on the motor fixing frame A (106); the threaded rod (325) is rotatably arranged on the upper supporting plate (102); the stirring frame (306) is rotationally connected with the threaded rod (325); the stirring frame (306) is provided with a fixed block to prevent the stirring frame (306) from rotating when moving downwards in the stirring rod fixing cylinder (116); the cylindrical gear C (309) is fixedly connected with a cylinder at the front end of the stirring ring (310); the cylindrical gear C (309) is rotatably arranged on the stirring barrel (201).

2. The anti-blocking fodder mixing machine capable of automatically feeding fodder is characterized in that the fixing frame comprises a side supporting plate (101), an upper supporting plate (102), an electric cylinder fixing frame (103), a sliding chute A (104), a gear fixing frame A (105), a motor fixing frame A (106), a gear fixing frame B (107), a lower supporting plate (111), a sliding chute B (112), a mixing rod fixing cylinder (116) and a middle supporting plate (117);

the upper end surface of the side supporting plate (101) is fixedly connected with the lower end surface of the upper supporting plate (102), and the lower end surface of the side supporting plate (101) is fixedly connected with the upper end surface of the lower supporting plate (111); the side supporting plate (101) is provided with a chute; the upper end surface of the upper support plate (102) is provided with a chute A (104); the front end surface of the upper supporting plate (102) is provided with an electric cylinder fixing frame (103); the middle support plate (117) is fixedly connected with the front side surface of the side support plate (101); the lower end faces of the gear fixing frame A (105) and the gear fixing frame B (107) are fixedly connected with the upper end face of the middle supporting plate (117); the rear end face of the motor fixing frame A (106) is fixedly connected with the front end face of the middle supporting plate (117); the upper end surface of the lower supporting plate (111) is provided with a sliding chute B (112) and an electric cylinder fixing block; the upper end surface of the stirring rod fixing cylinder (116) is fixedly connected with the lower end surface of the upper supporting plate (102); rectangular grooves are respectively arranged on two sides inside the stirring rod fixing cylinder (116).

3. The anti-blocking fodder mixing machine capable of automatically feeding fodder according to claim 1, characterized in that the fodder feeding device further comprises a material barrel A (110), a cylindrical gear A (114) and a rack A (115);

the charging barrel A (110) is fixedly arranged on the upper end surface of the charging barrel supporting plate (113); a fixed rotating shaft of the cylindrical gear A (114) is fixedly connected with the rear end face of the charging barrel supporting plate (113); the rack A (115) is fixedly arranged on the outer side surface of the side supporting plate (101).

4. The anti-blocking fodder mixing machine capable of automatically feeding fodder is characterized in that the mixing mechanism (2) comprises a mixing barrel (201), a gear fixing frame C (202), a discharge hopper (203), a dredging column groove group (204) and an external gear sliding groove (205);

the stirring barrel (201) is fixedly arranged in a circular hole in the middle support plate (117); a gear fixing frame C (202) is arranged on the upper end face of the stirring barrel (201), and round holes are formed in two ends of the gear fixing frame C (202) and used for fixing a gear shaft; the lower half part of the stirring barrel (201) is provided with a conical gear supporting plate; the upper end surface of the discharge hopper (203) is fixedly connected with the lower end surface of the stirring barrel (201); the lower half part of the discharge hopper (203) is provided with a dredging column slot group (204); an outer gear sliding chute (205) is arranged on the inner side of the bottom of the discharging hopper (203).

5. The anti-blocking fodder mixing machine capable of automatically feeding fodder according to claim 1, wherein the mixing power mechanism (3) further comprises a gear set A (302), a gear set B (303), a gear set C (304), a cylindrical gear B (305), a belt A (307), a gear set D (308), an electric cylinder B (311), a rack B (312), a cylindrical gear D (313) and a belt C (320);

the fixed rotating shaft of the gear set A (302) is rotatably arranged on the gear fixing frame A (105); a front-end rotating shaft of the motor A (301) is fixedly connected with a driving wheel at the front end of the gear set A (302); a fixed rotating shaft of the gear set B (303) is rotatably arranged in a circular hole on the middle support plate (117); the gear set C (304) is rotatably arranged on the gear fixing frame C (202); the cylindrical gear B (305) is fixedly arranged on the upper end surface of the stirring frame (306); the gear set D (308) is rotatably arranged on the gear fixing frame B (107); the belt A (307) coats a driving wheel at the front end of the gear set A (302) and a driving wheel at the front end of the gear set D (308); the electric cylinder B (311) is fixedly arranged on the electric cylinder fixing frame (103); the rack B (312) is slidably arranged on the chute A (104); the telescopic rod at the front end of the electric cylinder B (311) is fixedly connected with one end of the rack B (312); the cylindrical gear D (313) is rotatably arranged on the upper support plate (102); the belt C (320) wraps the driving wheel at the upper end of the gear set B (303) and the driving wheel at the lower end of the gear set C (304).

6. An anti-clogging fodder mixing machine capable of automatically feeding fodder according to claim 1, characterized in that the rotating door opening and closing mechanism comprises: a gear set E (314), a belt B (315), a gear set F (316), a bevel gear set (317), an external gear ring (318), and a sector plate set (319);

the gear set E (314) is rotatably arranged on the upper supporting plate (102); the fixed rotating shaft of the gear set F (316) is rotatably arranged on the upper supporting plate (102); a belt B (315) covers a driving wheel at the upper end of the gear set E (314); the bevel gear set (317) is rotatably arranged around the bottom end of the stirring barrel (201); the external gear ring (318) is rotatably arranged on a conical gear support plate at the bottom end of the stirring barrel (201); each bottom plate of the fan-shaped bottom plate group (319) is fixedly connected with a rotating shaft of a bevel gear in the corresponding bevel gear group (317).

7. The anti-blocking fodder mixing machine capable of automatically feeding materials according to claim 1, characterized in that the anti-blocking mechanism comprises a belt D (321), a gear group G (322), an anti-blocking dredging column group (323) and an inner meshing gear ring (324);

the anti-blocking dredging column group (323) is rotatably arranged on the dredging column groove group (204); the gear group G (322) is fixedly connected with the lower end face of one anti-blocking dredging column in the anti-blocking dredging column group (323); a belt D (321) coats a driving wheel at the lower end of the gear set B (303) and a driving wheel at the lower end of the gear set G (322); the ring gear (324) is rotatably mounted on the external gear runner (205).

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