CN218945010U - Efficient feed granulator - Google Patents

Abstract

The utility model provides a high-efficiency feed granulator, relates to the technical field of feed production equipment, and solves the problems of lower granulating efficiency of feed caused by complicated process and longer time consumption in the manufacturing process of the existing feed granulator, and comprises a main body; the top of the main body is fixedly connected with a supporting rod in a surrounding shape, and the main body supporting rod is connected with a threaded rod in a sliding manner; the main body support rod is fixedly connected with a motor, and a motor circuit is connected with a power supply; the motor rotating shaft is connected with the transmission shaft, the transmission shaft is rotationally connected with the connecting block, and the connecting block is also provided with a threaded hole; the blade at the bottom of the transmission shaft is used for cutting off extruded feed discharged from the discharge hole, so that the feed is granular, the position of the blade can be adjusted through threaded connection of the threaded hole of the shaft sleeve block and the bolt, and the sliding groove of the transmission shaft and the protruding block of the shaft sleeve block can prevent the blade from sliding on the transmission shaft, so that the granulating work of the feed is affected.

Description

Efficient feed granulator

Technical Field

The utility model belongs to the technical field of feed production equipment, and particularly relates to a high-efficiency feed granulator.

Background

Feed granulator is also known as: a pellet feed granulator belongs to feed granulating equipment, and is a feed processing machine for directly pressing crushed materials of corns, bean pulp, straws, grasses, rice hulls and the like into pellets, wherein the feed granulator is divided into a circular mould feed granulator, a flat mould feed granulator and a double-roller feed granulator, and various different feed granulators are classified according to different appearances and production modes.

Based on the above, the present inventors found that a part of existing feed pelleting machines need to be fed first, equipment is started to press into pellets after feeding, and then finished feed products pressed into pellets need to be sent to an equipment platform, and in the process of sending the finished feed products to the equipment platform, the manufacturing process is complicated, the time consumption is long, and the granulating efficiency of the feed is low.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a high-efficiency feed granulator, which aims to solve the problems of complex process and long time consumption in the manufacturing process of the existing feed granulator, and lower feed granulating efficiency.

The utility model discloses a purpose and an effect of a high-efficiency feed granulator, which are achieved by the following specific technical means:

a high-efficiency feed granulator comprises a main body; the top of the main body is fixedly connected with a supporting rod in a surrounding shape, and the main body supporting rod is connected with a threaded rod in a sliding manner; the main body support rod is fixedly connected with a motor, and a motor circuit is connected with a power supply; the motor rotating shaft is connected with the transmission shaft, the transmission shaft is rotationally connected with the connecting block, and the connecting block is also provided with a threaded hole; the bottom of the main body is provided with a blanking opening, and the bottom of the main body blanking opening is fixedly connected to the top of the manufacturing bin; a through hole is formed in the center of the manufacturing bin, and a transmission shaft is connected in a rotary mode to the through hole of the manufacturing bin; the bottom of the manufacturing bin is provided with a shaft sleeve block, and one side of the shaft sleeve block is fixedly connected with a protruding block.

Further, the top fixedly connected with crank of threaded rod, and the threaded connection of threaded rod is at connecting block screw hole to the bottom rotation of threaded rod is connected with the unloading piece.

Further, grooves are respectively formed in two sides of the blanking block, and the blanking block is connected in the blanking opening at the bottom of the main body in a sliding mode.

Further, the transmission shaft is fixedly connected with a stirring frame in a surrounding shape, and the stirring frame is positioned in the main body; the transmission shaft is fixedly connected with an inclined pressing plate, the inclined pressing plate is inclined, and the inclined pressing plate is positioned in the manufacturing bin.

Further, the bottom of the manufacturing bin is provided with a discharging hole in a surrounding mode, and the top of the discharging hole is kept away from the bottom of the inclined pressing plate.

Further, a sliding groove is formed in the bottom of the transmission shaft, and a shaft sleeve block protruding block is connected in the sliding groove of the transmission shaft in a sliding manner; the shaft sleeve block is fixedly connected with a blade, and the top of the blade is attached to the bottom of the manufacturing bin.

Further, a threaded hole is formed in one side of the shaft sleeve block, a bolt is connected in the threaded hole of the shaft sleeve block in a threaded mode, and the top of the bolt is attached to the surface of the transmission shaft.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the motor is arranged to drive the transmission shaft and the stirring frame on the transmission shaft to rotate, so that the feed in the main body is mixed and stirred, the crank at the top of the threaded rod can be rotated after stirring is completed, so that the threaded rod can pull out the feed in the main body from the feed opening of the main body after rotating, the feed in the main body flows downwards and enters the manufacturing bin, the feed transferring speed is improved, the feed production rhythm is accelerated, in addition, grooves are respectively formed in the feed block, the degree of the feed opening of the main body can be changed, half of the feed block still blocks the feed opening of the main body after the grooves leak out, and the feed in the main body can be discharged into the manufacturing bin at the maximum flow rate after the feed block is completely pulled out.

2. According to the utility model, the inclined pressing plate is driven to rotate in the manufacturing bin by the transmission shaft, so that the inclined pressing plate extrudes and discharges feed in the manufacturing bin from the discharge hole, then the blade at the bottom of the transmission shaft is used for cutting off the extruded and discharged feed in the discharge hole to form granules, the position of the blade can be adjusted by the threaded connection of the threaded hole of the shaft sleeve block and the bolt, and the sliding groove of the transmission shaft and the protruding block of the shaft sleeve block can prevent the blade from slipping on the transmission shaft to influence the granulating work of the feed.

Drawings

FIG. 1 is an overall schematic of the present utility model;

FIG. 2 is a schematic view of the lower view of FIG. 1 according to the present utility model;

FIG. 3 is an isometric view of a drive shaft of the present utility model;

FIG. 4 is a schematic cross-sectional view of a manufacturing cartridge of the present utility model;

fig. 5 is a schematic view from below of the fabrication bin of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a main body; 2. a motor; 201. a transmission shaft; 2011. a stirring rack; 2012. an inclined pressing plate; 202. a connecting block; 3. a threaded rod; 4. discharging a material block; 401. a groove; 5. manufacturing a bin; 501. a discharge hole; 6. a sleeve block; 601. a bolt; 602. a blade.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 5:

the utility model provides a high-efficiency feed granulator, which comprises a main body 1; the top of the main body 1 is fixedly connected with a supporting rod in a surrounding shape, and the supporting rod of the main body 1 is connected with a threaded rod 3 in a sliding manner; the supporting rod of the main body 1 is fixedly connected with a motor 2, and the motor 2 is connected with a power supply through a circuit; the rotating shaft of the motor 2 is connected with a transmission shaft 201, a connecting block 202 is rotationally connected on the transmission shaft 201, and a threaded hole is formed in the connecting block 202; a blanking opening is formed in the bottom of the main body 1, and the bottom of the blanking opening of the main body 1 is fixedly connected to the top of the manufacturing bin 5; a through hole is formed in the center of the manufacturing bin 5, and a transmission shaft 201 is rotationally connected with the through hole of the manufacturing bin 5; the bottom of the manufacturing bin 5 is provided with a shaft sleeve block 6, and one side of the shaft sleeve block 6 is fixedly connected with a protruding block; the transmission shaft 201 is fixedly connected with a stirring frame 2011 in a surrounding shape, and the stirring frame 2011 is positioned in the main body 1; the transmission shaft 201 is fixedly connected with an inclined pressing plate 2012, the inclined pressing plate 2012 is inclined, and the inclined pressing plate 2012 is positioned inside the manufacturing bin 5; the top of the threaded rod 3 is fixedly connected with a crank, the threads of the threaded rod 3 are connected in the threaded holes of the connecting block 202, and the bottom of the threaded rod 3 is rotationally connected with the blanking block 4; a sliding groove is formed in the bottom of the transmission shaft 201, and a shaft sleeve block 6 protruding block is connected in the sliding groove of the transmission shaft 201 in a sliding manner; the shaft sleeve block 6 is fixedly connected with a blade 602, and the top of the blade 602 is attached to the bottom of the manufacturing bin 5; a threaded hole is formed in one side of the shaft sleeve block 6, a bolt 601 is connected in the threaded hole of the shaft sleeve block 6 in a threaded mode, and the top of the bolt 601 is attached to the surface of the transmission shaft 201.

Wherein, grooves 401 are respectively arranged on two sides of the blanking block 4, and the blanking block 4 is connected in a blanking opening at the bottom of the main body 1 in a sliding way;

by adopting the scheme, the motor 2 drives the transmission shaft 201 and the stirring rack 2011 on the transmission shaft 201 to rotate, so that the feed in the main body 1 is mixed and stirred, the crank at the top of the threaded rod 3 can be rotated after stirring is completed, the threaded rod 3 can rotate, the feed in the main body 1 can flow downwards after rotating from the feed opening of the main body 1, and enter the manufacturing bin 5, in addition, the feed opening of the main body 1 can be blocked by the feed opening of the main body 1 by the feed opening of the main body 4 after the feed opening of the main body 1 is still blocked by half after the feed opening of the main body 1 leaks out by the grooves 401, and the feed in the main body 1 can be discharged into the manufacturing bin 5 at the maximum flow rate after the feed opening 4 is completely pulled out.

Wherein, the bottom of the manufacturing bin 5 is provided with a discharge hole 501 in a surrounding shape, and the top of the discharge hole 501 is kept at a distance from the bottom of the inclined pressing plate 2012;

by adopting the scheme, the inclined pressing plate 2012 is driven by the transmission shaft 201 to rotate in the manufacturing bin 5, so that the inclined pressing plate 2012 extrudes and discharges feed in the manufacturing bin 5 from the discharge hole 501, then the blade 602 at the bottom of the transmission shaft 201 is utilized to cut off the extruded and discharged feed in the discharge hole 501, the extruded and discharged feed is enabled to be granular, the position of the blade 602 can be adjusted through the threaded connection of the threaded hole of the shaft sleeve block 6 and the bolt 601, and the sliding groove of the transmission shaft 201 and the protruding block of the shaft sleeve block 6 can prevent the blade 602 from slipping on the transmission shaft 201, so that the granulating work of the feed is affected.

Specific use and action of the embodiment:

when the feed granulator is used, firstly, the power supply of the motor 2 is connected, the motor 2 drives the transmission shaft 201 and the stirring rack 2011 on the transmission shaft 201 to rotate, feed in the main body 1 is mixed and stirred, after stirring is completed, the crank at the top of the threaded rod 3 can be rotated, the threaded rod 3 can pull out the feed block 4 from the feed opening of the main body 1 after rotating, the feed in the main body 1 flows downwards and enters the manufacturing bin 5, the feed transfer speed is improved, the feed production rhythm is accelerated, the problems that the process of the existing feed granulator is complicated, the time consumption is long and the feed granulating efficiency is low are solved, in addition, the feed block 4 is respectively provided with the grooves 401, the degree of the feed opening of the main body 1 can be changed, after the grooves 401 leak, the feed block 4 still has half of the feed opening of the main body 1, and after the feed block 4 is completely pulled out, the feed in the main body 1 can be discharged into the manufacturing bin 5 at the maximum flow rate;

then, the inclined pressing plate 2012 is driven by the transmission shaft 201 to rotate in the manufacturing bin 5, so that the inclined pressing plate 2012 extrudes and discharges the feed in the manufacturing bin 5 from the discharge hole 501, then the blade 602 at the bottom of the transmission shaft 201 is utilized to cut off the extruded and discharged feed in the discharge hole 501 to be granular, the position of the blade 602 can be adjusted through the threaded connection of the threaded hole of the shaft sleeve block 6 and the bolt 601, and the sliding groove of the transmission shaft 201 and the protruding block of the shaft sleeve block 6 can prevent the blade 602 from slipping on the transmission shaft 201, so that the granulating work of the feed is affected.

Claims (7)

1. A high-efficient fodder granulator, its characterized in that: comprising a main body (1); the top of the main body (1) is fixedly connected with a supporting rod in a surrounding shape, and a threaded rod (3) is connected to the supporting rod of the main body (1) in a sliding manner; the supporting rod of the main body (1) is fixedly connected with a motor (2), and a circuit of the motor (2) is connected with a power supply; the rotating shaft of the motor (2) is connected with the transmission shaft (201), the transmission shaft (201) is rotationally connected with the connecting block (202), and the connecting block (202) is also provided with a threaded hole; a blanking opening is formed in the bottom of the main body (1), and the bottom of the blanking opening of the main body (1) is fixedly connected to the top of the manufacturing bin (5); a through hole is formed in the center of the manufacturing bin (5), and a transmission shaft (201) is rotationally connected with the through hole of the manufacturing bin (5); the bottom of the manufacturing bin (5) is provided with a shaft sleeve block (6), and one side of the shaft sleeve block (6) is fixedly connected with a protruding block.

2. A high efficiency feed granulator as claimed in claim 1, wherein: the top fixedly connected with crank of threaded rod (3), and threaded connection of threaded rod (3) is at connecting block (202) threaded hole to the bottom rotation of threaded rod (3) is connected unloading piece (4).

3. A high efficiency feed granulator according to claim 2, wherein: grooves (401) are respectively formed in two sides of the blanking block (4), and the blanking block (4) is connected in a blanking opening in the bottom of the main body (1) in a sliding mode.

4. A high efficiency feed granulator as claimed in claim 1, wherein: the stirring frame (2011) is fixedly connected to the transmission shaft (201) in a surrounding shape, and the stirring frame (2011) is positioned in the main body (1); the transmission shaft (201) is fixedly connected with an inclined pressing plate (2012), the inclined pressing plate (2012) is inclined, and the inclined pressing plate (2012) is positioned inside the manufacturing bin (5).

5. A high efficiency feed granulator as claimed in claim 4, wherein: the bottom of manufacturing storehouse (5) is the form of encircling and has seted up discharge hole (501), and the top of discharge hole (501) keeps the distance with the bottom of inclined pressure plate (2012).

6. A high efficiency feed granulator as claimed in claim 1, wherein: a sliding groove is formed in the bottom of the transmission shaft (201), and a shaft sleeve block (6) protruding block is connected in a sliding manner in the sliding groove of the transmission shaft (201); the shaft sleeve block (6) is fixedly connected with a blade (602), and the top of the blade (602) is attached to the bottom of the manufacturing bin (5).

7. A high efficiency feed granulator as claimed in claim 1, wherein: screw holes are formed in one side of the shaft sleeve block (6), bolts (601) are connected in the screw holes of the shaft sleeve block (6) in a threaded mode, and the tops of the bolts (601) are attached to the surface of the transmission shaft (201).

Images