CN111227285A - Granulating equipment for processing feed - Google Patents

Abstract

The invention relates to a granulating device, in particular to a granulating device for processing feed, which comprises a threaded feeding mechanism, a feeding proportion adjusting mechanism, a pressing mechanism and a sliding leak hole mechanism, wherein the device can simultaneously convey solid particles and liquid, can uniformly stir the feed according to a certain proportion, and can granulate the stirred feed. The equipment can automatically incline granulated feed, the thread feeding mechanism is connected with the feeding proportion adjusting mechanism, the feeding proportion adjusting mechanism is connected with the pressing mechanism, and the pressing mechanism is connected with the sliding hole leaking mechanism.

Description

Granulating equipment for processing feed

Technical Field

The invention relates to a granulating device, in particular to a granulating device for processing feed.

Background

During the process of feed granulation, the phenomena that solid particles are not uniformly stirred with liquid and the weight of single particles is not consistent after granulation often occur, so the granulation equipment for processing feed is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a granulating device for processing feed, which can simultaneously transmit solid particles and liquid, uniformly stir the feed according to a certain proportion, and granulate the stirred feed. The device is capable of automatically tilting out the granulated feed.

In order to solve the technical problems, the invention relates to a granulating device, in particular to a multifunctional granulating device which comprises a threaded feeding mechanism, a feeding proportion adjusting mechanism, a pressing mechanism and a sliding leak hole mechanism, wherein the device can simultaneously convey solid particles and liquid, can uniformly stir feed according to a certain proportion, and can granulate the stirred feed. The device is capable of automatically tilting out the granulated feed.

The screw feeding mechanism is connected with the feeding proportion adjusting mechanism, the feeding proportion adjusting mechanism is connected with the pressing mechanism, and the pressing mechanism is connected with the sliding leak hole mechanism.

As a further optimization of the technical scheme, the invention relates to a granulating device for processing feed, the knocking thread feeding mechanism comprises a motor base, a power motor, a power gear, a driven gear, a thread conveying plate, a box body feeding port, a crushing and stirring feeding port, a feeding conveying thread, a box body partition plate, a crushing and stirring block, a feeding conveying thread, a driven shaft, a power shaft, a thread feeding plate, a box body partition plate, a crushing block feeding plate, a solid powder feeding area, a liquid feeding area and a box body, the motor base is connected with the power motor, the power motor is connected with the power gear, the power gear is connected with the driven gear, the driven gear is connected with the driven shaft, the thread conveying plate is contacted with the box body feeding port when rotating to one side of the box body feeding port, the box body feeding port is opened on the box body, the crushing and stirring feeding port is connected with a power shaft bearing, the feeding conveying, the box body partition plate is connected with a driven shaft bearing, the crushing stirring block is connected with a power shaft, a feeding transmission thread is connected with the driven shaft, the driven shaft is connected with a box body bearing, the power shaft is connected with the box body partition plate bearing, a thread feeding plate is connected with the feeding transmission thread, the box body partition plate is connected with a box body, the crushing block feeding plate is connected with a crushing stirring feeding hole in a sliding mode, a solid powder feeding area is in the box body, a liquid feeding area is in the box body, the box body is connected with the crushing stirring feeding hole, a motor base body is connected with the box body, a power motor is connected with the power shaft, a power gear is connected with the power shaft, the thread transmission plate is connected with the driven shaft, the box body partition.

As a further optimization of the technical scheme, the invention relates to a granulating device for processing feed, wherein the feeding proportion adjusting mechanism comprises a proportion adjusting power mechanism and a proportion adjusting rotating mechanism, the proportion adjusting power mechanism is connected with the proportion adjusting rotating mechanism, the proportion adjusting power mechanism is connected with a box body, and the proportion adjusting rotating mechanism is connected with the box body; the proportion adjusting power mechanism comprises a rotating rod, a rotating disk, a rotating power rod, a power gear, a driven rod and a driven gear, wherein the rotating rod is connected with the rotating disk; the proportion adjustment slewing mechanism includes the rotating rack, the roating ball, the connecting rod, dial the piece, the stopper, a slide rail, the symmetry roating ball, the connecting rod, swivel ball bearing, the symmetry roating ball bearing, stir the ball, the rotating rack is connected with the roating ball, the roating ball is connected with the connecting rod, dial the piece and be connected with the stopper, the stopper is connected with the screw thread transfer board, the slide rail with dial piece sliding connection, the slide rail is connected with the box body, the symmetry roating ball is connected with the connecting rod, the connecting rod is connected with the roating ball, swivel ball bearing is connected with the piece of dialling, the symmetry roating ball bearing is connected with the symmetry roating ball bearing, dial the ball and be connected with swivel ball bearing, the roating ball is connected with the box body bearing, swivel ball bearing is connected with the screw.

As a further optimization of the technical scheme, the invention relates to a granulating device for processing feed, which comprises a track mounting plate, a sliding track, a hole-pressing mechanism, a pressing interval plate, a limiting plate, a pressing power mechanism, a granulating slope discharging block, a feeding plate, a pressing interval plate, a supporting rod, a limiting plate and a pressing mechanism box body, wherein the track mounting plate is connected with the sliding track, the sliding track is connected with the hole-pressing mechanism, the hole-pressing mechanism is connected with the pressing interval plate, the pressing interval plate is connected with the limiting plate, the limiting plate is connected with the hole-pressing mechanism in a sliding manner, the limiting plate is connected with the pressing power mechanism, the pressing power mechanism is connected with the hole-pressing mechanism, the granulating slope discharging block is connected with the hole-pressing mechanism in a sliding manner, the feeding plate is connected with the hole-pressing mechanism, the pressing interval plate is connected with the hole-pressing, the limiting plate is connected with the leakage hole pressing mechanism in a sliding mode, the pressing mechanism box body is connected with the track mounting plate, the pressing interval plate is connected with the pressing mechanism box body, the limiting plate is connected with the limiting plate, the limiting plate is connected with the pressing mechanism box body, the pressing power mechanism is connected with the pressing mechanism box body, the granulation slope discharging block is connected with the pressing mechanism box body, the feeding plate is connected with the pressing mechanism box body, the pressing interval plate is connected with the pressing mechanism box body, the supporting rod is connected with a pressing mechanism box body bearing, and the limiting plate is connected; the hole pressing mechanism comprises a slide rail, a slide rail shaft, a hole pressing mechanism force arm, a hole pressing mechanism fulcrum, a connecting plate, a connecting bolt, a connecting plate, a limiting plate, a stamping injection, a stamping hole, a fixed stamping plate, a sliding stamping plate and a hole pressing mechanism fulcrum ball shaft, wherein the slide rail is connected with a slide rail shaft bearing, the slide rail shaft is connected with the hole pressing mechanism force arm bearing, the hole pressing mechanism force arm is connected with the hole pressing mechanism fulcrum ball shaft bearing, the hole pressing mechanism fulcrum is connected with the connecting plate, the connecting plate is connected with the connecting bolt bearing, the connecting bolt is connected with the connecting plate, the connecting plate is connected with the stamping injection, the limiting plate is connected with the stamping injection in a sliding manner, the stamping injection is connected with the stamping hole in a sliding manner, the stamping hole is formed in the limiting plate, the fixed stamping plate is connected with the sliding stamping plate in a sliding manner, the sliding stamping plate is connected with the limiting plate in a sliding manner, the sliding rail is connected with the sliding rail in a sliding mode, the limiting plate is connected with the pressing mechanism box body, the stamping hole is formed in the fixed stamping plate, the stamping hole is formed in the sliding stamping plate, and the fixed stamping plate is connected with the pressing mechanism box body; the pressing power mechanism comprises a motor base body, a power motor, a motor shaft, a cam and a cam sliding connection strip, wherein the motor base body is connected with the power motor, the power motor is connected with the motor shaft, the motor shaft is connected with the cam, the cam is connected with the cam sliding connection strip in a sliding mode, the cam sliding connection strip is connected with a sliding rail, and the motor base body is connected with a pressing mechanism box body. The cam sliding connecting strip is connected with the limiting plate in a sliding mode.

As a further optimization of the technical scheme, the invention provides a granulating device for processing feed, wherein the sliding leak hole mechanism comprises a power belt wheel, a belt, a driven belt wheel, a sliding shaft, a gear and a rack, the power belt wheel is in friction connection with the belt, the belt is in friction connection with the driven belt wheel, the driven belt wheel is connected with the sliding shaft, the sliding shaft is connected with the gear, the gear is meshed with the rack, the rack is connected with the sliding stamping plate, the power belt wheel is connected with the motor shaft, and the sliding shaft is connected with a box bearing of the pressing mechanism.

As a further optimization of the technical scheme, the invention provides a granulating device for processing feed, wherein the sliding leak hole mechanism comprises a power belt wheel, a belt, a driven belt wheel, a sliding shaft, a gear and a rack, the power belt wheel is in friction connection with the belt, the belt is in friction connection with the driven belt wheel, the driven belt wheel is connected with the sliding shaft, the sliding shaft is connected with the gear, the gear is meshed with the rack, the rack is connected with the sliding stamping plate, the power belt wheel is connected with the motor shaft, and the sliding shaft is connected with a box bearing of the pressing mechanism.

As a further optimization of the technical scheme, the invention provides a granulating device for processing feed, and the power motor is a stepping motor.

The granulating equipment for processing the feed has the beneficial effects that:

the invention relates to a granulating device for processing feed, which can simultaneously transmit solid particles and liquid, can uniformly stir the feed according to a certain proportion, and can granulate the stirred feed. The device is capable of automatically tilting out the granulated feed.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first schematic view of a granulating apparatus for processing fodder according to the present invention.

Fig. 2 is a schematic view showing a second structure of a granulating apparatus for processing fodder according to the present invention.

Fig. 3 is a first schematic view of a screw feeding mechanism 1 of a granulating apparatus for processing fodder according to the present invention.

Fig. 4 is a second schematic view of the screw feeding mechanism 1 of a granulating apparatus for processing fodder according to the present invention.

Fig. 5 is a third schematic view of the screw feeding mechanism 1 of a granulating apparatus for processing fodder according to the present invention.

Fig. 6 is a schematic view showing a structure of a feed ratio adjusting mechanism 2 of a granulating apparatus for processing a feed according to the present invention.

Fig. 7 is a schematic view showing a structure of a ratio adjusting power mechanism 2-1 of a granulating apparatus for processing fodder according to the present invention.

Fig. 8 is a first schematic view showing a structure of a scale adjusting rotating mechanism 2-2 of a multi-functional granulating apparatus for processing fodder according to the present invention.

Fig. 9 is a second schematic structural view of a scale adjustment rotating mechanism 2-2 of a granulating apparatus for processing fodder according to the present invention.

Fig. 10 is a first schematic view of a pressing mechanism 3 of a granulating apparatus for processing fodder according to the present invention.

Fig. 11 is a second schematic view of the pressing mechanism 3 of a granulating apparatus for processing fodder according to the present invention.

Fig. 12 is a first schematic view showing a pressing orifice mechanism 3-3 of a granulating apparatus for processing fodder according to the present invention.

Fig. 13 is a second schematic view showing a pressing orifice mechanism 3-3 of a granulating apparatus for processing fodder according to the present invention.

Fig. 14 is a schematic view of a pressing power mechanism 3-7 of a granulating apparatus for processing fodder according to the present invention.

Fig. 15 is a first schematic view showing the structure of a sliding orifice mechanism 4 of a granulating apparatus for processing fodder according to the present invention.

Fig. 16 is a second schematic view showing the structure of a sliding nozzle mechanism 4 of a granulating apparatus for processing fodder according to the present invention.

In the figure: a screw thread feeding mechanism 1; a motor base 1-1; 1-2 of a power motor; 1-3 of a power gear; 1-4 of a driven gear; 1-5 of a threaded transfer plate; a feed inlet 1-6 of the box body; crushing and stirring a feed port 1-7; feed transfer flights 1-8; box body partition plates 1-9; crushing the stirring blocks by 1-10; feed transfer flights 1-11; driven shafts 1 to 12; power shafts 1 to 13; 1-14 parts of a threaded feed plate; box body partition plates 1-15; breaking the fragment feeding plate 1-16; a solid powder feed zone 1-17; liquid feed zones 1-18; 1-19 of box body; a feeding ratio adjusting mechanism 2; a proportion adjusting power mechanism 2-1; rotating a rod 2-1-1; rotating the disc 2-1-2; rotating the power rod 2-1-3; power gears 2-1-4; 2-1-5 of a driven rod; driven gears 2-1-6; a proportion adjusting rotating mechanism 2-2; rotating the rack 2-2-1; 2-2-2-2 of a rotary ball; 2-2-3 of a connecting rod; 2-2-4 of a poking block; 2-2-5 parts of a limiting block; 2-2-6 of a slide rail; 2-2-7 of a symmetrical rotating ball; 2-2-8 of a connecting rod; 2-2-9 parts of a rotary ball bearing; 2-2-10 parts of symmetrical rotary ball bearing; 2-2-11 of poking ball; a pressing mechanism 3; a track mounting plate 3-1; a sliding rail 3-2; pressing a leak hole mechanism 3-3; 3-3-1 of a slide rail; 3-3-2 of a slide rail shaft; pressing a force arm 3-3-3 of the leak hole mechanism; pressing a supporting point 3-3-4 of the leak hole mechanism; 3-3-5 of a connecting plate; 3-3-6 of a connecting bolt; 3-3-7 of a connecting plate; 3-3-8 parts of a limiting plate; 3-3-9 parts of punching injection; punching 3-3-10 holes; fixing 3-3-11 parts of a punching plate; 3-3-12 of a sliding stamping plate; pressing a fulcrum ball shaft 3-3-13 of the leak hole mechanism; pressing the interval plates 3-4; 3-5 parts of a limiting plate; 3-6 parts of a limiting plate; 3-7 of a pressing power mechanism; 3-7-1 of a motor base; 3-7-2 of a power motor; a motor shaft 3-7-3; 3-7-4 of a cam; 3-7-5 parts of a cam sliding connecting strip; 3-8 parts of a granulating slope discharging block; 3-9 parts of a feeding plate; pressing the interval plates 3-10; 3-11 parts of a support rod; 3-12 parts of a limiting plate; the pressing mechanism box body 3-13 slides the leak hole mechanism 4; a power pulley 4-1; 4-2 of a belt; 4-3 of a driven belt wheel; a sliding shaft 4-4; 4-5 parts of gear; racks 4-6.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to a granulation apparatus for processing fodder, and more particularly, to a multi-functional granulation apparatus for processing fodder, which includes a screw feeding mechanism 1, a feeding ratio adjusting mechanism 2, a pressing mechanism 3, and a sliding orifice mechanism 4, and is capable of simultaneously conveying solid particles and liquid, stirring the fodder uniformly at a certain ratio, and granulating the stirred fodder. The device is capable of automatically tilting out the granulated feed. The screw feeding mechanism 1 is connected with the feeding proportion adjusting mechanism 2, the feeding proportion adjusting mechanism 2 is connected with the pressing mechanism 3, and the pressing mechanism 3 is connected with the sliding leak hole mechanism 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment will be further described, where the knocking screw feeding mechanism 1 includes a motor base 1-1, a power motor 1-2, a power gear 1-3, a driven gear 1-4, a screw transfer plate 1-5, a box body feed inlet 1-6, a crushing and stirring feed inlet 1-7, a feed transfer screw 1-8, a box body partition plate 1-9, a crushing and stirring block 1-10, a feed transfer screw 1-11, a driven shaft 1-12, a power shaft 1-13, a screw feed plate 1-14, a box body partition plate 1-15, a crushing block feed plate 1-16, a crushing and a stirring block feed plate 1-10, A solid powder feeding area 1-17, a liquid feeding area 1-18, a box body 1-19, a motor base 1-1 connected with a power motor 1-2, a power gear 1-3 of the power motor 1-2, a power gear 1-3 connected with a driven gear 1-4, a driven gear 1-4 connected with a driven shaft 1-12, a screw thread transmission plate 1-5 contacted with a box body feeding port 1-6 when rotating to one side of the box body feeding port 1-6, a box body feeding port 1-6 opened on the box body 1-19, a crushing stirring feeding port 1-7 connected with a power shaft 1-13 bearing, a feeding transmission screw thread 1-8 connected with the power shaft 1-13, a box body partition plate 1-9 connected with a driven shaft 1-12 bearing, a crushing stirring block 1-10 connected with the power shaft 1-13, the feeding transmission screw thread 1-11 is connected with the driven shaft 1-12, the driven shaft 1-12 is connected with the box body 1-19 by a bearing, the power shaft 1-13 is connected with the box body partition plate 1-15 by a bearing, the screw thread feeding plate 1-14 is connected with the feeding transmission screw thread 1-8, the box body partition plate 1-15 is connected with the box body 1-19, the crushing block feeding plate 1-16 is connected with the crushing stirring feeding port 1-7 by a sliding way, the solid powder feeding area 1-17 is arranged in the box body 1-19, the liquid feeding area 1-18 is arranged in the box body 1-19, the box body 1-19 is connected with the crushing stirring feeding port 1-7, the motor base body 1-1 is connected with the box body 1-19, the power motor 1-2 is connected with the power shaft 1-13, the power gear 1-3 is connected with the power shaft 1, the thread transmission plate 1-5 is connected with the driven shaft 1-12, the box body partition plate 1-9 is connected with the box body 1-19, the power shaft 1-13 is connected with the box body 1-19 through a bearing, the equipment can simultaneously transmit solid particles and liquid, the power motor 1-2 rotates to drive the power gear 1-3 to rotate, the power gear 1-3 drives the driven gear 1-4 to rotate, the driven gear 1-4 drives the driven shaft 1-12 to rotate, the driven shaft 1-12 drives the feeding transmission thread 1-11 to rotate, the feeding transmission thread 1-11 gradually conveys materials to the thread feeding plate 1-14 through the shape characteristics of the feeding transmission thread 1-11, when conveyed to the vicinity of the screw feed plates 1-14, the screw feed plates 1-14 transfer the materials to the crushing and stirring area in the middle of the box 1-19 through the box feed openings 1-6 by the shape characteristics of the screw feed plates.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the first embodiment, where the feeding ratio adjusting mechanism 2 includes a ratio adjusting power mechanism 2-1 and a ratio adjusting rotating mechanism 2-2, the ratio adjusting power mechanism 2-1 is connected to the box body 1-19, and the ratio adjusting rotating mechanism 2-2 is connected to the box body 1-19; the proportion adjustment power mechanism 2-1 comprises a rotating rod 2-1-1, a rotating disk 2-1-2, a rotating power rod 2-1-3, a power gear 2-1-4, a driven rod 2-1-5 and a driven gear 2-1-6, wherein the rotating rod 2-1-1 is connected with the rotating disk 2-1-2, the rotating disk 2-1-2 is connected with the rotating power rod 2-1-3, the rotating power rod 2-1-3 is connected with the power gear 2-1-4, the power gear 2-1-4 is meshed with the driven gear 2-1-6, the driven rod 2-1-5 is connected with the driven gear 2-1-6, the rotating power rod 2-1-3 is connected with a box body 1-19 through a bearing, the driven rod 2-1-5 is connected with the box body 1-19 through a bearing; the proportion adjustment rotating mechanism 2-2 comprises a rotating rack 2-2-1, a rotating ball 2-2-2, a connecting rod 2-2-3, a shifting block 2-2-4, a limiting block 2-2-5, a sliding rail 2-2-6, a symmetrical rotating ball 2-2-7, a connecting rod 2-2-8, a rotating ball bearing 2-2-9, a symmetrical rotating ball bearing 2-2-10, a shifting ball 2-2-11, a rotating rack 2-2-1 is connected with the rotating ball 2-2-2, a rotating ball 2-2-2 is connected with the connecting rod 2-2-3, a shifting block 2-2-4 is connected with the limiting block 2-2-5, a limiting block 2-2-5 is connected with a thread transmission plate 1-5, the slide rail 2-2-6 is connected with the shifting block 2-2-4 in a sliding way, the slide rail 2-2-6 is connected with the box body 1-19, the symmetrical rotating ball 2-2-7 is connected with the connecting rod 2-2-8, the connecting rod 2-2-8 is connected with the rotating ball 2-2-2, the rotating ball bearing 2-2-9 is connected with the shifting block 2-2-4, the symmetrical rotating ball bearing 2-2-10 is connected with the symmetrical rotating ball bearing 2-2-7, the shifting ball 2-2-11 is connected with the rotating ball bearing 2-2-9, the rotating ball 2-2-2 is connected with the box body 1-19, the rotating ball bearing 2-2-9 is connected with the thread transmission plate 1-5, the symmetrical rotary ball bearing 2-2-10 is connected with the box body 1-19, the toggle ball 2-2-11 is connected with the thread transmission plate 1-5, the device can stir the feed uniformly according to a certain proportion, the rotary rod 2-1-1 rotates, the rotary rod 2-1-1 drives the rotary disk 2-1-2 to rotate, the rotary disk 2-1-2 drives the rotary power rod 2-1-3 to rotate, the rotary power rod 2-1-3 drives the power gear 2-1-4 to rotate, the power gear 2-1-4 drives the driven gear 2-1-6 to rotate on the driven rod 2-1-5, the driven gear 2-1-6 drives the rotary rack 2-2-1 to rotate, the rotary ball 2-2-2 is connected with the box body 1-19 through a bearing, the rotating rack 2-2-1 drives the connecting rod 2-2-3 to rotate around the rotating ball 2-2-2 shaft, the connecting rod 2-2-3 drives the shifting block 2-2-4 to longitudinally slide on the sliding rail 2-2-6 and drives the shifting ball 2-2-11 to longitudinally move when rotating according to the shape characteristics of the connecting rod 2-2-3, the shifting ball 2-2-11 drives the thread transmission plate 1-5 to longitudinally move, the other side of the shifting block 2-2-4 drives the rotating ball 2-2-2 to longitudinally move, the rotating ball 2-2-2 drives the connecting rod 2-2-8 to rotate by taking the symmetrical rotating ball 2-2-7 as the center, and the motion track of the shifting block 2-2-4 on the other side is in the same direction as the synchronous direction, when the shifting block 2-2-4 drives the thread transmission plate 1-5 to move towards one longitudinal side and the thread transmission plate 1-5 at the other side moves towards the opposite direction, namely the contact area between one side of the thread transmission plate 1-5 and materials is increased and the other side is synchronously reduced, so that the proportion of solid powder feeding and liquid feeding can be adjusted through the above movement mode, the power motor 1-2 drives the power shaft 1-13 to rotate, the power shaft 1-13 drives the crushing stirring block 1-10 to rotate, and the crushing stirring block 1-10 stirs the materials in the crushing stirring area in the box body 1-19 according to the shape characteristics of the crushing stirring block 1-10.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the pressing mechanism 3 includes a rail mounting plate 3-1, a sliding rail 3-2, a pressing orifice mechanism 3-3, a pressing interval plate 3-4, a limit plate 3-5, a limit plate 3-6, a pressing power mechanism 3-7, a granulation slope discharging block 3-8, a feeding plate 3-9, a pressing interval plate 3-10, a support rod 3-11, a limit plate 3-12, and a pressing mechanism box 3-13, the rail mounting plate 3-1 is connected to the sliding rail 3-2, the sliding rail 3-2 is connected to the pressing orifice mechanism 3-3, the pressing leak hole mechanism 3-3 is connected with a pressing interval plate 3-4, the pressing interval plate 3-4 is connected with a limiting plate 3-5, the limiting plate 3-5 is connected with the pressing leak hole mechanism 3-3 in a sliding way, the limiting plate 3-6 is connected with a pressing power mechanism 3-7, the pressing power mechanism 3-7 is connected with the pressing leak hole mechanism 3-3, the granulation slope discharging block 3-8 is connected with the pressing leak hole mechanism 3-3 in a sliding way, the feeding plate 3-9 is connected with the pressing leak hole mechanism 3-3, the pressing interval plate 3-10 is connected with the pressing leak hole mechanism 3-3, the support rod 3-11 is connected with the pressing leak hole mechanism 3-3, the limiting plate 3-12 is connected with the pressing leak hole mechanism 3-3 in a sliding way, the pressing mechanism box body 3-13 is connected with the track mounting plate 3-1, the pressing interval plate 3-4 is connected with a pressing mechanism box body 3-13, the limiting plate 3-5 is connected with the limiting plate 3-12, the limiting plate 3-5 is connected with the pressing mechanism box body 3-13, the limiting plate 3-6 is connected with the limiting plate 3-12, the limiting plate 3-6 is connected with the pressing mechanism box body 3-13, the pressing power mechanism 3-7 is connected with the pressing mechanism box body 3-13, the granulation slope discharging block 3-8 is connected with the pressing mechanism box body 3-13, the feeding plate 3-9 is connected with the box body 1-19, the feeding plate 3-9 is connected with the pressing mechanism box body 3-13, the pressing interval plate 3-10 is connected with the pressing mechanism box body 3-13, the supporting rod 3-11 is connected with the pressing mechanism box body 3-13 through a bearing, and the limiting plate 3-12 is connected with the pressing; the hole pressing mechanism 3-3 comprises a slide rail 3-3-1, a slide rail shaft 3-3-2, a hole pressing mechanism force arm 3-3-3, a hole pressing mechanism fulcrum 3-3-4, a connecting plate 3-3-5, a connecting bolt 3-3-6, a connecting plate 3-3-7, a limiting plate 3-3-8, a punching injection 3-3-9, a punching hole 3-3-10, a fixed punching plate 3-3-11, a sliding punching plate 3-3-12, a hole pressing mechanism fulcrum ball shaft 3-3-13, the slide rail 3-3-1 is connected with the slide rail shaft 3-3-2 through a bearing, the slide rail shaft 3-3-2 is connected with the hole pressing mechanism force arm 3-3-3 through a bearing, the moment arm 3-3-3 of the leak hole pressing mechanism is connected with a fulcrum ball shaft 3-3-13 bearing of the leak hole pressing mechanism, the fulcrum 3-3-4 of the leak hole pressing mechanism is connected with a connecting plate 3-3-5, the connecting plate 3-3-5 is connected with a connecting bolt 3-3-6 bearing, the connecting bolt 3-3-6 is connected with a connecting plate 3-3-7, the connecting plate 3-3-7 is connected with a stamping cast 3-3-9, a limiting plate 3-3-8 is connected with the stamping cast 3-3-9 in a sliding way, the stamping cast 3-3-9 is connected with a stamping hole 3-3-10 in a sliding way, the stamping hole 3-3-10 is opened on the limiting plate 3-3-8, a fixed stamping plate 3-3-11 is connected with a sliding stamping plate 3-3-12 in a sliding way, the sliding stamping plate 3-3-12 is connected with the limiting plate 3-5 in a sliding manner, the fulcrum ball shaft 3-3-13 of the pressing leak hole mechanism is connected with the fulcrum 3-3-4 of the pressing leak hole mechanism in a sliding manner, the sliding rail 3-3-1 is connected with the sliding rail 3-2 in a sliding manner, the limiting plate 3-3-8 is connected with the box body 3-13 of the pressing mechanism, the stamping hole 3-3-10 is formed in the fixed stamping plate 3-3-11, the stamping hole 3-3-10 is formed in the sliding stamping plate 3-3-12, and the fixed stamping plate 3-3-11 is connected with the box body 3-13 of the pressing mechanism; the pressing power mechanism 3-7 comprises a motor seat body 3-7-1, a power motor 3-7-2, a motor shaft 3-7-3, a cam 3-7-4 and a cam sliding connecting strip 3-7-5, the motor seat body 3-7-1 is connected with the power motor 3-7-2, the power motor 3-7-2 is connected with the motor shaft 3-7-3, the motor shaft 3-7-3 is connected with the cam 3-7-4, the cam 3-7-4 is connected with the cam sliding connecting strip 3-7-5 in a sliding mode, the cam sliding connecting strip 3-7-5 is connected with the sliding rail 3-3-1, and the motor seat body 3-7-1 is connected with the pressing mechanism box body 3-13. The cam sliding connecting strips 3-7-5 are in sliding connection with the limiting plates 3-6.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the sliding leak hole mechanism 4 includes a power pulley 4-1, a belt 4-2, a driven pulley 4-3, a sliding shaft 4-4, a gear 4-5, and a rack 4-6, the power pulley 4-1 is frictionally connected to the belt 4-2, the belt 4-2 is frictionally connected to the driven pulley 4-3, the driven pulley 4-3 is connected to the sliding shaft 4-4, the sliding shaft 4-4 is connected to the gear 4-5, the gear 4-5 is engaged with the rack 4-6, the rack 4-6 is connected to the sliding press plate 3-3-12, the power belt wheel 4-1 is connected with the motor shaft 3-7-3, the sliding shaft 4-4 is in bearing connection with the pressing mechanism box body 3-13, the device can granulate the stirred feed, the stirred material is conveyed to a space formed by the pressing interval plate 3-4, the pressing interval plate 3-10 and the pressing mechanism box body 3-13 through the feed plate 3-9, the power motor 3-7-2 rotates to drive the motor shaft 3-7-3 to rotate, the motor shaft 3-7-3 drives the cam 3-7-4 to rotate, the cam 3-7-4 enables the cam sliding connecting strip 3-7-5 to reciprocate up and down according to the shape characteristics of the cam 3-7-4, and the cam sliding connecting strip 3-7-5 appears twice high points every time the cam 3-7-4 moves for one circle, the cam sliding connecting strip 3-7-5 drives the sliding rail 3-3-1 to synchronously reciprocate up and down, when the sliding rail 3-3-1 moves downwards, the force arm 3-3-3 of the hole pressing mechanism rotates by taking the sliding rail shaft 3-3-2 as an axis, the force arm 3-3-3-3 of the hole pressing mechanism has a shape that one side faces downwards and one side faces upwards, the connecting plate 3-3-5, the connecting bolt 3-3-6, the connecting plate 3-3-7 and the stamping note 3-3-9 below the fulcrum 3-3-4 of the hole pressing mechanism move downwards simultaneously, the stamping note 3-3-9 moves downwards to the stamping hole 3-3-10 through self gravity under the limitation of the limiting plate 3-3-8, the material in the pressed punching hole 3-3-10 is enabled to be increased in density and form cylindrical particles, the power motor 3-7-2 rotates to drive the power belt pulley 4-1 to rotate, the power belt pulley 4-1 drives the driven belt pulley 4-3 to rotate through the belt 4-2, the driven belt pulley 4-3 drives the gear 4-5 to rotate on the sliding shaft 4-4, the gear 4-5 drives the rack 4-6 to move transversely, the rack 4-6 pulls the sliding punching plate 3-3-12 to slide on the granulating slope discharging block 3-8 and the limiting plate 3-12, so that the sliding punching plate 3-3-12 is not overlapped with the punching hole 3-3-10 on the fixed punching plate 3-3-11, and the power motor 3-7-2 is a stepping motor, so that the power motor 3-7-2 rotates forwards to form a cylindrical particle The circumference rotates reversely for a circle, namely the sliding punching plate 3-3-12 and the punching hole 3-3-10 on the fixed punching plate 3-3-11 coincide once and do not coincide once every two revolutions of the power motor 3-7-2, in conclusion, when the punching injection 3-3-9 moves downwards, the material density is increased by pressing the material once, and the material is formed into granules, when the granules move downwards for the second time, the punching injection 3-3-9 presses the granular material down in the granulated material outlet 3-8 below the sliding punching plate 3-3-12 and the fixed punching plate 3-3-11, the equipment can automatically tilt the granulated feed, and the granular material punched by the punching injection 3-3-9 passes through the slope of the inner wall of the granulated material outlet 3-8 and tilts to the discharge hole of the granulated material outlet 3-8.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, where the power motor 3-7-2 is a stepping motor.

The working principle of the device is as follows: the device can simultaneously transmit solid particles and liquid, the power motor 1-2 rotates to drive the power gear 1-3 to rotate, the power gear 1-3 drives the driven gear 1-4 to rotate, the driven gear 1-4 drives the driven shaft 1-12 to rotate, the driven shaft 1-12 drives the feeding transmission thread 1-11 to rotate, the feeding transmission thread 1-11 gradually conveys materials to the thread feeding plate 1-14 through the shape characteristics of the feeding transmission thread, when the materials are conveyed to the position near the thread feeding plate 1-14, the thread feeding plate 1-14 transfers the materials to a crushing and stirring area in the middle of the box body 1-19 through the shape characteristics of the feeding transmission thread, the device can uniformly stir the feed according to a certain proportion, the rotating rod 2-1-1 rotates, the rotating rod 2-1-1 drives the rotating disk 2-1-2 to rotate, the rotating disk 2-1-2 drives the rotating power rod 2-1-3 to rotate, the rotating power rod 2-1-3 drives the power gear 2-1-4 to rotate, the power gear 2-1-4 drives the driven gear 2-1-6 to rotate on the driven rod 2-1-5, the driven gear 2-1-6 drives the rotating rack 2-2-1 to rotate, the rotating ball 2-2-2 is connected with the box body 1-19 through a bearing, the rotating rack 2-2-1 drives the connecting rod 2-2-3 to rotate through the rotating ball 2-2-2 shaft, the connecting rod 2-2-3 drives the shifting block 2-2-4 to longitudinally slide on the sliding rail 2-2-6 when rotating according to the shape characteristics of the connecting rod 2-2-3, and drives the poking ball 2-2-11 to move longitudinally, the poking ball 2-2-11 drives the screw thread transmission plate 1-5 to move longitudinally, drives the other side of the poking block 2-2-4 to drive the rotary ball 2-2-2 to move longitudinally, the rotary ball 2-2-2 drives the connecting rod 2-2-8 to rotate by taking the symmetrical rotary ball 2-2-7 as a center, similarly, the motion track of the poking block 2-2-4 on the other side is synchronous with the direction, when the poking block 2-2-4 drives the screw thread transmission plate 1-5 to move towards one longitudinal side and the screw thread transmission plate 1-5 on the other side moves towards the opposite direction, namely, the contact area between one side of the screw thread transmission plate 1-5 and the material is increased, and the other side is reduced synchronously, so the proportion of solid powder feeding and liquid feeding can be adjusted by the above motion mode, the power motor 1-2 drives the power shaft 1-13 to rotate, the power shaft 1-13 drives the crushing and stirring block 1-10 to rotate, the crushing and stirring block 1-10 stirs materials in a crushing and stirring area in the box body 1-19 according to the shape characteristics of the crushing and stirring block, the equipment can granulate the stirred feed, the stirred materials are conveyed to a space formed by the pressing interval plate 3-4, the pressing interval plate 3-10 and the pressing mechanism box body 3-13 through the feeding plate 3-9, the power motor 3-7-2 rotates to drive the motor shaft 3-7-3 to rotate, the motor shaft 3-7-3 drives the cam 3-7-4 to rotate, the cam 3-7-4 enables the cam sliding connecting strip 3-7-5 to reciprocate up and down according to the shape characteristics of the cam 3-7-4, when the cam 3-7-4 moves for one circle and the cam sliding connecting strip 3-7-5 appears at a position with two high points and two times, the cam sliding connecting strip 3-7-5 drives the sliding rail 3-3-1 to synchronously reciprocate up and down, when the sliding rail 3-3-1 moves downwards, the force arm 3-3-3 of the pressing leak hole mechanism rotates by taking the sliding rail shaft 3-3-2 as a shaft, the force arm 3-3-3 of the pressing leak hole mechanism has a shape that one side of the force arm is downward and one side of the force arm is upward, the connecting plate 3-3-5, the connecting bolt 3-3-6, the connecting plate 3-3-7 and the punching shot 3-3-9 move downwards at the same time, and the punching shot 3-3-9 moves downwards to a punching position through self gravity under the limitation of the limiting plates 3-3-8 Pressing the holes 3-3-10 to press the materials in the punched holes 3-3-10 to increase the material density and form cylindrical particles, driving the power pulley 4-1 to rotate when the power motor 3-7-2 rotates, driving the driven pulley 4-3 to rotate by the power pulley 4-1 through the belt 4-2, driving the gear 4-5 to rotate on the sliding shaft 4-4 by the driven pulley 4-3, driving the rack 4-6 to move transversely by the gear 4-5, pulling the sliding punched plate 3-3-12 to slide on the slope granulated material block 3-8 and the limit plate 3-12 by the rack 4-6, so that the sliding punched plate 3-3-12 is not overlapped with the punched holes 3-3-10 on the fixed punched plate 3-3-11, because the power motor 3-7-2 is a stepping motor, the power motor 3-7-2 rotates forwards for a circle and rotates reversely for a circle, namely the sliding punching plate 3-3-12 and the punching hole 3-3-10 on the fixed punching plate 3-3-11 coincide once and do not coincide once every two revolutions of the power motor 3-7-2, in sum, when the punching rod 3-3-9 moves downwards, the material density is increased by pressing the material once, and granules are formed, when the granules are packed for the second time, the punching rod 3-3-9 presses the granular materials into the granulated slope discharging block 3-8 below the sliding punching plate 3-3-12 and the fixed punching plate 3-3-11, the equipment can automatically tilt the granulated feed out, and the granular materials punched by the punching rod 3-3-9 pass through the granulated slope discharging block 3-8 A wall slope inclined to the discharge port of the granulated slope discharging block 3-8.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a processing fodder is with granulation equipment, includes screw feed mechanism (1), feeding proportion guiding mechanism (2), pressing mechanism (3), slip small opening mechanism (4), its characterized in that: the thread feeding mechanism (1) is connected with the feeding proportion adjusting mechanism (2), the feeding proportion adjusting mechanism (2) is connected with the pressing mechanism (3), and the pressing mechanism (3) is connected with the sliding leak hole mechanism (4).

2. A granulating apparatus for processing feed as claimed in claim 1, wherein: the knocking thread feeding mechanism (1) comprises a motor base body (1-1), a power motor (1-2), a power gear (1-3), a driven gear (1-4), a thread transmission plate (1-5), a box body feeding port (1-6), a crushing stirring feeding port (1-7), a feeding transmission thread (1-8), a box body partition plate (1-9), a crushing stirring block (1-10), a feeding transmission thread (1-11), a driven shaft (1-12), a power shaft (1-13), a thread feeding plate (1-14), a box body partition plate (1-15), a crushing block feeding plate (1-16), a solid powder feeding area (1-17), a liquid feeding area (1-18) and a box body (1-19), the motor seat body (1-1) is connected with the power motor (1-2), the power motor (1-2) is connected with the power gear (1-3), the power gear (1-3) is connected with the driven gear (1-4), the driven gear (1-4) is connected with the driven shaft (1-12), the thread transmission plate (1-5) is contacted with the box body feed port (1-6) when rotating to one side of the box body feed port (1-6), the box body feed port (1-6) is arranged on the box body (1-19), the crushing and stirring feed port (1-7) is connected with the power shaft (1-13) through a bearing, the feeding transmission thread (1-8) is connected with the power shaft (1-13), and the box body partition plate (1-9) is connected with the driven shaft (1-12) through a bearing, the crushing and stirring block (1-10) is connected with a power shaft (1-13), a feeding transmission screw thread (1-11) is connected with a driven shaft (1-12), the driven shaft (1-12) is connected with a box body (1-19) through a bearing, the power shaft (1-13) is connected with a box body partition plate (1-15) through a bearing, a screw thread feeding plate (1-14) is connected with a feeding transmission screw thread (1-8), the box body partition plate (1-15) is connected with a box body (1-19), a crushing block feeding plate (1-16) is connected with a crushing and stirring feeding port (1-7) in a sliding manner, a solid powder feeding area (1-17) is arranged in the box body (1-19), a liquid feeding area (1-18) is arranged in the box body (1-19), and the box body (1-19) is connected with the crushing and stirring feeding port (1-7), the motor seat body (1-1) is connected with the box body (1-19), the power motor (1-2) is connected with the power shaft (1-13), the power gear (1-3) is connected with the power shaft (1-13), the thread transmission plate (1-5) is connected with the driven shaft (1-12), the box body partition plate (1-9) is connected with the box body (1-19), and the power shaft (1-13) is in bearing connection with the box body (1-19).

3. A granulating apparatus for processing feed as claimed in claim 1, wherein: the feeding proportion adjusting mechanism (2) comprises a proportion adjusting power mechanism (2-1) and a proportion adjusting rotating mechanism (2-2), the proportion adjusting power mechanism (2-1) is connected with the box body (1-19), and the proportion adjusting rotating mechanism (2-2) is connected with the box body (1-19); the proportion adjusting power mechanism (2-1) comprises a rotating rod (2-1-1), a rotating disk (2-1-2), a rotating power rod (2-1-3), a power gear (2-1-4), a driven rod (2-1-5) and a driven gear (2-1-6), wherein the rotating rod (2-1-1) is connected with the rotating disk (2-1-2), the rotating disk (2-1-2) is connected with the rotating power rod (2-1-3), the rotating power rod (2-1-3) is connected with the power gear (2-1-4), the power gear (2-1-4) is meshed with the driven gear (2-1-6), the driven rod (2-1-5) is connected with the driven gear (2-1-6), the rotary power rod (2-1-3) is in bearing connection with the box body (1-19), and the driven rod (2-1-5) is in bearing connection with the box body (1-19); the proportion adjustment rotating mechanism (2-2) comprises a rotating rack (2-2-1), a rotating ball (2-2-2), a connecting rod (2-2-3), a shifting block (2-2-4), a limiting block (2-2-5), a sliding rail (2-2-6), a symmetrical rotating ball (2-2-7), a connecting rod (2-2-8), a rotating ball bearing (2-2-9), a symmetrical rotating ball bearing (2-2-10) and a shifting ball (2-2-11), the rotating rack (2-2-1) is connected with the rotating ball (2-2-2), the rotating ball (2-2-2) is connected with the connecting rod (2-2-3), the shifting block (2-2-4) is connected with the limiting block (2-2-5), the limiting block (2-2-5) is connected with the thread transmission plate (1-5), the sliding rail (2-2-6) is connected with the shifting block (2-2-4) in a sliding way, the sliding rail (2-2-6) is connected with the box body (1-19), the symmetrical rotating ball (2-2-7) is connected with the connecting rod (2-2-8), the connecting rod (2-2-8) is connected with the rotating ball (2-2-2), the rotating ball bearing (2-2-9) is connected with the shifting block (2-2-4), the symmetrical rotating ball bearing (2-2-10) is connected with the symmetrical rotating ball bearing (2-2-7), the shifting ball (2-2-11) is connected with the rotating ball bearing (2-2-9) in a bearing way, the rotary ball (2-2-2) is in bearing connection with the box body (1-19), the rotary ball bearing (2-2-9) is connected with the thread transmission plate (1-5), the symmetrical rotary ball bearing (2-2-10) is connected with the box body (1-19), and the toggle ball (2-2-11) is connected with the thread transmission plate (1-5).

4. A granulating apparatus for processing feed as claimed in claim 1, wherein: the pressing mechanism (3) comprises a track mounting plate (3-1), a sliding track (3-2), a pressing leak hole mechanism (3-3), a pressing interval plate (3-4), a limiting plate (3-5), a limiting plate (3-6), a pressing power mechanism (3-7), a granulating slope discharging block (3-8), a feeding plate (3-9), a pressing interval plate (3-10), a supporting rod (3-11), a limiting plate (3-12) and a pressing mechanism box body (3-13), the track mounting plate (3-1) is connected with the sliding track (3-2), the sliding track (3-2) is connected with the pressing leak hole mechanism (3-3), and the pressing leak hole mechanism (3-3) is connected with the pressing interval plate (3-4), the pressing interval plate (3-4) is connected with a limiting plate (3-5), the limiting plate (3-5) is connected with a pressing hole-leaking mechanism (3-3) in a sliding manner, the limiting plate (3-6) is connected with a pressing power mechanism (3-7), the pressing power mechanism (3-7) is connected with the pressing hole-leaking mechanism (3-3), the granulating slope discharging block (3-8) is connected with the pressing hole-leaking mechanism (3-3) in a sliding manner, the feeding plate (3-9) is connected with the pressing hole-leaking mechanism (3-3), the pressing interval plate (3-10) is connected with the pressing hole-leaking mechanism (3-3), the supporting rod (3-11) is connected with the pressing hole-leaking mechanism (3-3), the limiting plate (3-12) is connected with the pressing hole-leaking mechanism (3-3) in a sliding manner, the pressing mechanism box body (3-13) is connected with the track mounting plate (3-1), the pressing interval plate (3-4) is connected with the pressing mechanism box body (3-13), the limiting plate (3-5) is connected with the limiting plate (3-12), the limiting plate (3-5) is connected with the pressing mechanism box body (3-13), the limiting plate (3-6) is connected with the limiting plate (3-12), the limiting plate (3-6) is connected with the pressing mechanism box body (3-13), the pressing power mechanism (3-7) is connected with the pressing mechanism box body (3-13), the granulation slope discharging block (3-8) is connected with the pressing mechanism box body (3-13), the feeding plate (3-9) is connected with the box body (1-19), and the feeding plate (3-9) is connected with the pressing mechanism box body (3-13), the pressing interval plate (3-10) is connected with the pressing mechanism box body (3-13), the supporting rod (3-11) is in bearing connection with the pressing mechanism box body (3-13), and the limiting plate (3-12) is connected with the pressing mechanism box body (3-13); the hole pressing mechanism (3-3) comprises a slide rail (3-3-1), a slide rail shaft (3-3-2), a hole pressing mechanism force arm (3-3-3), a hole pressing mechanism fulcrum (3-3-4), a connecting plate (3-3-5), a connecting bolt (3-3-6), a connecting plate (3-3-7), a limiting plate (3-3-8), a punching injection (3-3-9), a punching hole (3-3-10), a fixed punching plate (3-3-11), a sliding punching plate (3-3-12) and a hole pressing mechanism fulcrum ball shaft (3-3-13), wherein the slide rail (3-3-1) is in bearing connection with the slide rail shaft (3-3-2), the sliding rail shaft (3-3-2) is in bearing connection with a force arm (3-3-3) of a hole pressing mechanism, the force arm (3-3-3) of the hole pressing mechanism is in bearing connection with a fulcrum ball shaft (3-3-13) of the hole pressing mechanism, a fulcrum (3-3-4) of the hole pressing mechanism is in bearing connection with a connecting plate (3-3-5), the connecting plate (3-3-5) is in bearing connection with a connecting bolt (3-3-6), the connecting bolt (3-3-6) is in connection with a connecting plate (3-3-7), the connecting plate (3-3-7) is in connection with a punching injection (3-3-9), a limiting plate (3-3-8) is in sliding connection with the punching injection (3-3-9), the punching injection (3-3-9) is in sliding connection with a punching hole (3-3-10), punching holes (3-3-10) are formed in the limiting plates (3-3-8), the fixed punching plates (3-3-11) are connected with the sliding punching plates (3-3-12) in a sliding mode, the sliding punching plates (3-3-12) are connected with the limiting plates (3-5) in a sliding mode, the pressing leak hole mechanism fulcrum ball shafts (3-3-13) are connected with the pressing leak hole mechanism fulcrums (3-3-4) in a sliding mode, the sliding rails (3-3-1) are connected with the sliding rails (3-2) in a sliding mode, the limiting plates (3-3-8) are connected with the pressing mechanism box body (3-13), the punching holes (3-3-10) are formed in the fixed punching plates (3-3-11), the punching holes (3-3-10) are formed in the sliding punching plates (3-3-12), the fixed punching plate (3-3-11) is connected with the pressing mechanism box body (3-13); the pressing power mechanism (3-7) comprises a motor base body (3-7-1), a power motor (3-7-2), a motor shaft (3-7-3), a cam (3-7-4) and a cam sliding connecting strip (3-7-5), the motor base body (3-7-1) is connected with the power motor (3-7-2), the power motor (3-7-2) is connected with the motor shaft (3-7-3), the motor shaft (3-7-3) is connected with the cam (3-7-4), the cam (3-7-4) is connected with the cam sliding connecting strip (3-7-5) in a sliding manner, the cam sliding connecting strip (3-7-5) is connected with a sliding rail (3-3-1), the motor seat body (3-7-1) is connected with the pressing mechanism box body (3-13). The cam sliding connecting strip (3-7-5) is in sliding connection with the limiting plate (3-6).

5. A granulating apparatus for processing feed as claimed in claim 1, wherein: the sliding leak hole mechanism (4) comprises a power belt wheel (4-1), a belt (4-2), a driven belt wheel (4-3), a sliding shaft (4-4), a gear (4-5) and a rack (4-6), wherein the power belt wheel (4-1) is in friction connection with the belt (4-2), the belt (4-2) is in friction connection with the driven belt wheel (4-3), the driven belt wheel (4-3) is connected with the sliding shaft (4-4), the sliding shaft (4-4) is connected with the gear (4-5), the gear (4-5) is meshed with the rack (4-6), the rack (4-6) is connected with a sliding stamping plate (3-3-12), the power belt wheel (4-1) is connected with a motor shaft (3-7-3), the sliding shaft (4-4) is connected with the pressing mechanism box body (3-13) through a bearing.

6. A granulating apparatus for processing feed as claimed in claim 1, wherein: the power motor (3-7-2) is a stepping motor.

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