CN111264894A - Granulator for feed field - Google Patents

Abstract

The invention relates to the field of feed, in particular to a granulator for the field of feed, which can adjust the processing speed of a combined body adjusting device; the pasty feed raw materials can be conveyed through the piston assembly; can realize cutting and pelletization process to pasty feed ingredient through the roller assembly, including adjusting the assembly, the piston assembly, the roller assembly, cutting edge one, cutting edge two reciprocates along bottom plate board one, simultaneously through cutting edge one, cutting edge two is in pasty feed ingredient's contact, and then accomplish the cutting to pasty feed ingredient, and then accomplish the pelletization process to feed ingredient, and then to the effect of accomplishing the fodder grain to feed ingredient's pelletization process through the slip rectangular rod, and then make the fodder grain get rid of through the arc, conveniently collect the fodder grain, accomplish the preparation process of whole fodder grain simultaneously.

Description

Granulator for feed field

Technical Field

The invention relates to the field of feeds, in particular to a granulator for the field of feeds.

Background

The granulator for the feed field is a common device in the feed field, but the function of the granulator for the general feed field is single.

Disclosure of Invention

The invention aims to provide a granulator for the field of feed, which can adjust the processing speed of a device by adjusting a combination; the pasty feed raw materials can be conveyed through the piston assembly; the cutting and granulating process of the pasty feed material can be realized by a roller assembly.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a granulator for the fodder field, is including adjusting assembly, piston assembly, roller assembly, adjust the assembly and be connected with piston assembly, piston assembly is connected with roller assembly.

As a further optimization of the technical scheme, the invention relates to a granulator for the feed field, wherein the adjusting assembly comprises a bracket assembly, an input motor, input straight teeth, transmission straight teeth, a clutch rod I, a clutch rod push spring, a clutch rod II, a clutch rod III, a driving slide block I, a driving slide block II, a driving rotating rod, a driving gear I, a driving gear II, bevel teeth I, bevel teeth II, a bevel teeth shaft I, a bevel teeth III, a bevel teeth IV, a middle end shaft I, a transmission straight teeth I, a driving terminal I, a driving rod II, a transmission straight teeth III, a driving terminal II, a transmission straight teeth IV, a transmission straight teeth V, a transmission straight teeth VI, a transmission straight teeth VII, a transmission straight teeth VIII, a middle end shaft II, a driving terminal III and a driving terminal IV, wherein the input motor is fixedly connected with the bracket assembly, the input straight teeth is fixedly connected with the input motor, and the input straight teeth are meshed with the transmission straight teeth, the first clutch rod is rotationally connected with the bracket assembly, the transmission straight tooth is fixedly connected with the first clutch rod, a clutch rod push spring is connected with the clutch rod in a sleeved mode, the second clutch rod is slidably connected with the first clutch rod, the second clutch rod is connected with the third clutch rod in a matched mode, the first driving slider and the second driving slider are both slidably connected with the bracket assembly, the driving rotating rod is connected with the bracket assembly in a matched mode, the first driving gear and the second driving gear are fixedly connected with the driving rotating rod, the first bevel gear and the second bevel gear are in meshed transmission, the second bevel gear and the third bevel gear are fixedly connected with the first bevel gear shaft, the first bevel gear shaft is rotationally connected with the bracket assembly, the fourth bevel gear is fixedly connected with the second middle end shaft, the second middle end shaft is connected with the bracket assembly in a matched mode, the first transmission straight tooth, the second transmission straight tooth, the third transmission straight tooth and the fourth transmission straight tooth are rotationally connected with the bracket assembly, the first transmission straight tooth, the second transmission straight tooth, the third transmission straight tooth, the fourth transmission straight tooth are connected with the first middle end shaft in a matched mode, the first drive terminal and the second drive terminal are connected with the first middle end shaft in a sliding mode, the first drive terminal and the second drive terminal are connected with the first drive rod in a hinged mode, the second drive rod is connected with the first middle end shaft in a sliding mode, the first drive sliding block is fixedly connected with the first drive rod, the fifth transmission straight tooth, the sixth transmission straight tooth, the seventh transmission straight tooth and the eighth transmission straight tooth are connected with the support assembly in a rotating mode, the fifth transmission straight tooth, the sixth transmission straight tooth, the seventh transmission straight tooth and the eighth transmission straight tooth are connected with the second drive rod in a matched mode, the second drive rod is fixedly connected with the second drive sliding block, the third drive terminal and the fourth drive terminal are connected with the second drive rod in.

As a further optimization of the technical scheme, the granulator for the feed field comprises a piston assembly, a bottom frame body, a straight plate I, a crankshaft I, a transmission belt, a containing tank, a communicating pipe, a piston rod, a hinged connecting rod I, a hinged connecting rod II, a driving cross rod, a middle-end slider, a clamping rod push spring and a clamping groove, wherein the straight plate I is fixedly connected with the bottom frame body, the crankshaft I is rotatably connected with the straight plate I, the transmission belt is connected with the crankshaft I, the hinged connecting rod I and the hinged connecting rod II are rotatably connected with the crankshaft I, the containing tank is fixedly connected with and communicated with the communicating pipe, the piston pipe is fixedly connected with and communicated with the communicating pipe, the piston rod is slidably connected with the piston pipe, the piston rod is rotatably connected with the middle-end slider, the clamping rod push spring is arranged between the clamping rod and the middle-end slider, the clamping rod push spring is arranged on the clamping rod and the middle-end slider, the clamping groove is connected with the clamping rod in a matched mode, the first hinged connecting rod and the second hinged connecting rod are connected with the driving cross rod in a hinged mode, the support assembly is connected with the underframe body in a sliding mode, and the first bevel gear is fixedly connected with the first crankshaft.

As a further optimization of the technical scheme, the granulator for the feed field comprises a roller assembly, wherein the roller assembly comprises a second bottom frame, a second support, a first bottom frame plate, a first cutting edge, a second cutting edge, a first cutting edge hinge rod, a second cutting edge hinge rod, a middle-end carriage, a first cutting edge hinge rod, a second cutting edge hinge rod, a transverse driving rod, a half gear shaft, a first vertical plate, a first inner end clamping rod push spring, a middle-end clamping groove, a side wall sliding column, a sliding column push spring, a discharging roller, a sliding rectangular rod, a sliding column sleeve spring and an arc-shaped plate, the second support is fixedly connected with the second bottom frame plate, the first cutting edge and the second cutting edge are slidably connected with the first bottom frame plate, the second cutting edge is hinged with the first cutting edge hinge rod, the second cutting edge hinge rod is hinged with the first cutting edge hinge rod, the first cutting edge hinge rod and the second cutting edge hinge rod are hinged with the middle-end carriage, the, the sliding column push spring is connected with the side wall sliding column in a sleeved mode, the middle end sliding frame is connected with the side wall sliding column in a sliding mode, the middle end clamping groove is formed in a first bottom frame plate, a first inner clamping rod is connected with the middle end clamping groove in a matched mode, a first inner clamping rod is connected with the middle end sliding frame in a sliding mode, a push spring of the first inner clamping rod is connected with the first inner clamping rod in a sleeved mode, a first cutting edge hinging rod and a second cutting edge hinging rod are respectively hinged with a first cutting edge hinging rod and a second cutting edge hinging rod, the first cutting edge hinging rod and the second cutting edge hinging rod are hinged with a transverse driving rod, the transverse driving rod is connected with a first vertical plate in a sliding mode, the first vertical plate is fixedly connected with an arc-shaped plate, the arc-shaped plate is fixedly connected with the first bottom frame plate, a half gear shaft is rotatably connected with the first bottom frame plate, the half gear shaft is fixedly connected with a half gear, the half gear shaft is fixedly connected with, the sliding column sleeve spring is arranged between the sliding rectangular rod and the sliding column at the inner end, the piston pipe is fixedly connected with the second support, the second underframe is fixedly connected with the underframe body, and the transmission belt is connected with the half gear shaft in a matched mode. (ii) a

The granulator for the feed field has the beneficial effects that:

according to the granulator for the feed field, the first cutting edge and the second cutting edge move up and down along the first bottom frame plate, and simultaneously contact with pasty feed raw materials through the first cutting edge and the second cutting edge, so that the pasty feed raw materials are cut, the granulation process of the feed raw materials is completed, the feed particles completing the granulation process of the feed raw materials are acted through the sliding rectangular rod, the feed particles are discharged through the arc-shaped plate, the feed particles are conveniently collected, and meanwhile, the whole preparation process of the feed particles is completed; the volume of the pasty feed raw materials that can arrange according to actual conditions can be adjusted to the piston pipe, and the middle-end slider slides manually, and then changes the position of use of middle-end slider on the drive horizontal pole, and then makes the volume that can move about of piston rod in the piston pipe change, and then realizes adjusting the volume of the pasty feed raw materials that can arrange the department of adjusting the piston pipe.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic view of the adjusting assembly of the present invention;

FIG. 5 is a schematic view of the adjusting assembly of the present invention;

FIG. 6 is a third schematic view of the adjusting assembly of the present invention;

FIG. 7 is a first schematic view of the piston assembly of the present invention;

FIG. 8 is a second schematic structural view of the piston assembly of the present invention;

FIG. 9 is a first schematic view of the roller assembly of the present invention;

FIG. 10 is a second schematic view of the roller assembly of the present invention;

FIG. 11 is a third schematic view of the roller assembly of the present invention.

In the figure: adjusting the assembly 1; a stent assembly 1-1; inputting a motor 1-2; inputting straight teeth 1-3; 1-4 of transmission straight teeth; 1-5 of a clutch lever I; 1-6 parts of clutch lever push spring; 1-7 parts of a clutch lever II; 1-8 parts of clutch lever III; driving the first sliding block to be 1-9; driving a second sliding block 1-10; driving the rotating rod 1-11; driving gears 1-12; driving gears II 1-13; 1-14 parts of a first bevel gear; 1-15 parts of a second bevel gear; 1-16 of a bevel gear shaft I; 1-17 parts of bevel gear III; 1-18 parts of bevel gear; 1-19 of a middle end shaft; 1-20 of a transmission straight tooth I; drive terminals one 1-21; a first driving rod 1-22; a second driving rod 1-23; 1-24 parts of a transmission straight tooth II; 1-25 of transmission straight teeth III; drive terminals two 1-26; 1-27 parts of transmission straight teeth; 1-28 parts of transmission straight teeth; 1-29 parts of transmission straight teeth; 1-30 parts of transmission straight teeth seven; eight transmission straight teeth 1-31; a second middle end shaft 1-32; drive terminals three 1-33; drive terminals four 1-34; a piston assembly 2; a chassis body 2-1; 2-2 of a straight plate I; 2-3 of a crankshaft I; 2-4 of a transmission belt; accommodating tanks 2-5; 2-6 of a communicating pipe; 2-7 parts of a piston pipe; 2-8 parts of a piston rod; 2-9 parts of a first hinge connecting rod; 2-10 parts of a second hinged connecting rod; 2-11 of a driving cross bar; 2-12 of middle-end sliders; 2-13 parts of a clamping rod; 2-14 parts of a clamping rod push spring; 2-15 parts of a clamping groove; a roller assembly 3; 3-1 of a second underframe; 3-2 of a second bracket; 3-3 parts of a first bottom frame plate; a first cutting edge 3-4; 3-5 parts of a second cutting edge; the cutting edge hinge rod I is 3-6; a second cutting edge hinge rod 3-7; 3-8 of a middle end sliding frame; the cutting edge hinge rod I is 3-9; a second cutting edge hinge rod 3-10; transverse driving rods 3-11; 3-12 parts of a half gear; half gear shafts 3 to 13; 3-14 parts of a first vertical plate; the inner end clamping rod I is 3-15; the inner end clamping rod pushes a spring 3-16; middle end clamping grooves 3-17; side wall sliding columns 3-18; 3-19 of a sliding column push spring; 3-20 parts of discharging rollers; sliding rectangular rods 3-21; inner end sliding columns 3-22; 3-23 parts of sliding column sleeve spring; arc plates 3-24.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 11, and the granulator for the feed field comprises an adjusting assembly 1, a piston assembly 2 and a roller assembly 3, wherein the adjusting assembly 1 is connected with the piston assembly 2, and the piston assembly 2 is connected with the roller assembly 3.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-11, and the adjusting assembly 1 includes a bracket assembly 1-1, an input motor 1-2, input straight teeth 1-3, transmission straight teeth 1-4, clutch rods 1-5, clutch rod push springs 1-6, clutch rods two 1-7, clutch rods three 1-8, a driving slide block one 1-9, a driving slide block two 1-10, a driving rotating rod 1-11, a driving gear one 1-12, a driving gear two 1-13, a conical tooth one 1-14, a conical tooth two 1-15, a conical tooth shaft one 1-16, a conical tooth three 1-17, a conical tooth four 1-18, a middle end shaft one 1-19, transmission straight teeth one 1-20, a driving terminal one 1-21, a driving terminal one 1-15, a driving slider one 1-9, a driving slider one 1-10, a driving rotating rod 1-11, 1-22 parts of a first driving rod, 1-23 parts of a second driving rod, 1-24 parts of a second transmission straight tooth, 1-25 parts of a third transmission straight tooth, 1-26 parts of a second driving terminal, 1-27 parts of a fourth transmission straight tooth, 1-28 parts of a fifth transmission straight tooth, 1-29 parts of a sixth transmission straight tooth, 1-30 parts of a seventh transmission straight tooth, 1-31 parts of an eighth transmission straight tooth, 1-32 parts of a second middle end shaft, 1-33 parts of a third driving terminal and 1-34 parts of a fourth driving terminal, wherein an input motor 1-2 is fixedly connected with a bracket assembly 1-1, 1-3 parts of the input straight tooth are fixedly connected with an input motor 1-2, 1-3 parts of the input straight tooth are in meshing transmission with 1-4 parts of the transmission straight tooth, 1-5 parts of a first clutch rod are rotatably connected with the bracket assembly 1-1, 1-4 parts, a clutch lever push spring 1-6 is connected with a clutch lever 1-5 in a sleeved mode, a clutch lever II 1-7 is connected with the clutch lever I1-5 in a sliding mode, a clutch lever II 1-7 is connected with a clutch lever III 1-8 in a matched mode, a driving slider I1-9 and a driving slider II 1-10 are connected with a support assembly 1-1 in a sliding mode, a driving rotating lever 1-11 is connected with the support assembly 1-1 in a matched mode, a driving gear I1-12 and a driving gear II 1-13 are fixedly connected with the driving rotating lever 1-11, a cone tooth I1-14 and a cone tooth II 1-15 are in meshed transmission, a cone tooth II 1-15 and a cone tooth III 1-17 are fixedly connected with a cone tooth shaft I1-16, a cone tooth shaft I1-16 is connected with the support assembly 1-1 in a rotating mode, a cone tooth IV 1-18 is fixedly connected with a middle end shaft II 1-32, the middle end shaft II 1-32 is matched and connected with the bracket assembly 1-1, the middle end shaft I1-19 is fixedly connected with the clutch rod III 1-8, the middle end shaft I1-19 is matched and connected with the bracket assembly 1-1, the transmission straight tooth I1-20, the transmission straight tooth II 1-24, the transmission straight tooth III 1-25 and the transmission straight tooth IV 1-27 are rotatably connected with the bracket assembly 1-1, the transmission straight tooth I1-20, the transmission straight tooth II 1-24, the transmission straight tooth III 1-25 and the transmission straight tooth IV 1-27 are matched and connected with the middle end shaft I1-19, the driving terminal I1-21 and the driving terminal II 1-26 are slidably connected with the middle end shaft I1-19, the driving terminal I1-21 and the driving terminal II 1-26 are hinged and connected with the driving rod I1-22, a driving rod II 1-23 is connected with a middle end shaft I1-19 in a sliding way, a driving slide block I1-9 is fixedly connected with a driving rod I1-22, a transmission straight tooth V1-28, a transmission straight tooth VI 1-29, a transmission straight tooth VII 1-30, a transmission straight tooth VIII 1-31 are rotationally connected with a bracket assembly 1-1, a transmission straight tooth V1-28 and a transmission straight tooth VI 1-29, the seven 1-30 parts of the transmission straight teeth and the eight 1-31 parts of the transmission straight teeth are matched and connected with the second 1-23 parts of the driving rod, the second 1-23 parts of the driving rod are fixedly connected with the second 1-10 parts of the driving slider, the third 1-33 parts of the driving terminal and the fourth 1-34 parts of the driving terminal are slidably connected with the second 1-23 parts of the driving rod, and the third 1-33 parts of the driving terminal and the fourth 1-34 parts of the driving terminal are hinged and connected with the second 1-23 parts of.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 11, and the present embodiment further describes the first embodiment, where the piston assembly 2 includes a chassis body 2-1, a first straight plate 2-2, a first crankshaft 2-3, a driving belt 2-4, an accommodating groove 2-5, a communicating pipe 2-6, a piston pipe 2-7, a piston rod 2-8, a first hinged connecting rod 2-9, a second hinged connecting rod 2-10, a driving cross rod 2-11, a middle end slider 2-12, a clamping rod 2-13, a clamping rod pushing spring 2-14, and a clamping groove 2-15, where the first straight plate 2-2 is fixedly connected with the chassis body 2-1, the first crankshaft 2-3 is rotatably connected with the first straight plate 2-2, the driving belt 2-4 is connected with the first crankshaft 2-3, the first hinged connecting rod 2-9, and the second connecting rod 2-9, The hinged connecting rod II 2-10 is hinged with the crankshaft I2-3, the accommodating groove 2-5 is fixedly connected and communicated with the communicating pipe 2-6, the piston pipe 2-7 is fixedly connected and communicated with the communicating pipe 2-6, the piston rod 2-8 is connected with the piston pipe 2-7 in a sliding way, the piston rod 2-8 is connected with the middle end slider 2-12 in a hinged way, the clamping rod 2-13 is connected with the middle end slider 2-12 in a sliding way, the clamping rod push spring 2-14 is arranged on the clamping rod 2-13 and the middle end slider 2-12 and is connected between the clamping rod 2-13 and the middle end slider 2-12, the clamping groove 2-15 is arranged on the driving cross rod 2-11, the clamping groove 2-15 is connected with the clamping rod 2-13 in a matched way, the hinged connecting rod I2-9 and the hinged connecting rod II 2-10 are connected with the driving cross rod 2-11, the bracket assembly 1-1 is connected with the underframe body 2-1 in a sliding manner, and the bevel teeth I1-14 are fixedly connected with the crankshaft I2-3.

The fourth concrete implementation mode:

the following describes the embodiment with reference to fig. 1 to 11, and the embodiment further describes the first embodiment, where the roller assembly 3 includes a second bottom frame 3-1, a second bracket 3-2, a first bottom frame plate 3-3, a first cutting edge 3-4, a second cutting edge 3-5, a first cutting edge hinge rod 3-6, a second cutting edge hinge rod 3-7, a middle end carriage 3-8, a first cutting edge hinge rod 3-9, a second cutting edge hinge rod 3-10, a transverse driving rod 3-11, a half gear 3-12, a half gear shaft 3-13, a first vertical plate 3-14, a first inner end clamping rod 3-15, a push spring 3-16 for the inner end clamping rod, a middle end clamping groove 3-17, a side wall sliding column 3-18, a sliding column push spring 3-19, a discharge roller 3-20, and a sliding rectangular rod 3-21, Inner end sliding columns 3-22, sliding column sleeve springs 3-23, arc-shaped plates 3-24, a support II 3-2 and an underframe II 3-1 are fixedly connected, a cutting edge I3-4 and a cutting edge II 3-5 are slidably connected with the underframe plate I3-3, the cutting edge II 3-5 is hinged with a cutting edge hinge rod I3-6, a cutting edge hinge rod II 3-7 is hinged with the cutting edge I3-4, the cutting edge hinge rod I3-6 and the cutting edge hinge rod II 3-7 are hinged with a middle end sliding frame 3-8, side wall sliding columns 3-18 are fixedly connected with the underframe plate I3-3, sliding column push springs 3-19 are sleeved with side wall sliding columns 3-18, a middle end sliding frame 3-8 is slidably connected with the side wall sliding columns 3-18, a middle end clamping groove 3-17 is arranged on the underframe plate I3-3, the inner end clamping rod I3-15 is connected with the middle end clamping groove 3-17 in a matching mode, the inner end clamping rod I3-15 is connected with the middle end sliding frame 3-8 in a sliding mode, the inner end clamping rod push spring 3-16 is connected with the inner end clamping rod I3-15 in a sleeved mode, the cutting edge hinge rod I3-9 and the cutting edge hinge rod II 3-10 are respectively connected with the cutting edge hinge rod I3-6 and the cutting edge hinge rod II 3-7 in a hinged mode, the cutting edge hinge rod I3-9 and the cutting edge hinge rod II 3-10 are connected with the transverse driving rod 3-11 in a hinged mode, the transverse driving rod 3-11 is connected with the vertical plate I3-14 in a sliding mode, the vertical plate I3-14 is fixedly connected with the arc plate 3-24, the arc plate 3-24 is fixedly connected with the bottom frame plate I3-3, the half gear shaft 3-13 is rotatably connected with, half gear shafts 3-13 are fixedly connected with half gears 3-12, half gear shafts 3-13 are fixedly connected with discharging rollers 3-20, half gear shafts 3-13 are in meshing transmission with transverse driving rods 3-11, inner end sliding columns 3-22 are fixedly connected with discharging rollers 3-20, sliding rectangular rods 3-21 are in sliding connection with inner end sliding columns 3-22, sliding column sleeve springs 3-23 are arranged between the sliding rectangular rods 3-21 and the inner end sliding columns 3-22, piston pipes 2-7 are fixedly connected with a second bracket 3-2, the second chassis 3-1 is fixedly connected with a second chassis body 2-1, and driving belts 2-4 are in matching connection with the half gear shafts 3-13;

when the transmission belt 2-4 moves, the half gear shaft 3-13 is driven to rotate, the half gear 3-12 is driven to rotate, the transverse driving rod 3-11 is driven to slide back and forth along the first vertical plate 3-14, the first cutting edge hinge rod 3-9 and the second cutting edge hinge rod 3-10 are driven to respectively drive the first cutting edge hinge rod 3-6 and the second cutting edge hinge rod 3-7 to rotate along the middle end sliding frame 3-8, the first cutting edge 3-4 and the second cutting edge 3-5 are driven to respectively move up and down along the first bottom frame plate 3-3, the first cutting edge 3-4 and the second cutting edge 3-5 are contacted with pasty feed materials, the pasty feed materials are cut, the feed material granulating process is completed, and the feed particles in the feed material granulating process are completed through the sliding rectangular rod 3-21, further, the feed particles are discharged through the arc-shaped plates 3-24, the feed particles are conveniently collected, and meanwhile, the whole preparation process of the feed particles is completed.

The invention relates to a granulator for the field of feed, which has the working principle that:

when the transmission mechanism is used, the transmission ratio output by the bracket assembly 1-1 can be adjusted according to actual conditions, the input motor 1-2 is started, the input straight teeth 1-3 drive the transmission straight teeth 1-4 to rotate, the clutch rod 1-5 is further driven to rotate, the clutch rod II 1-7 is further driven to rotate by the clutch rod I1-5, the clutch rod III 1-8 is further driven to rotate by the matching of the lug bosses on the clutch rod II 1-7 and the grooves on the clutch rod III 1-8, the middle end shaft I1-19 is further driven to rotate, the driving rotating rod 1-11 is simultaneously manually pushed, the driving gear II 1-13 is further matched and connected with the driving sliding block II 1-10, and the driving gear I1-12 is separated from the driving sliding block I1-9, meanwhile, the driving rotating rod 1-11 is manually rotated, the driving rod II 1-23 is driven by the driving gear II 1-13 and the driving slide block II 1-10, the driving rod II 1-23 drives the driving terminal III 1-33 and the driving terminal IV 1-34 to be respectively matched and connected with the transmission straight tooth VI 1-29 and the transmission straight tooth VII 1-30, and further, through the rotation of the middle end shaft I1-19, the chicken respectively drives the transmission straight tooth VI 1-29 and the transmission straight tooth VII 1-30 to rotate through the transmission straight tooth II 1-24 and the transmission straight tooth III 1-25, when the driving terminal III 1-33 and the driving terminal IV 1-34 are respectively matched and connected with the transmission straight tooth VI 1-29 and the transmission straight tooth VII 1-30, two different transmission ratios are output through the middle end shaft II 1-32, similarly, the driving rotating rod 1-11 is pushed in a moving way, so that the driving gear II 1-13 is separated from the driving slide block II 1-10, the driving gear I1-12 is connected with the driving slide block I1-9 in a matching way, the driving rotating rod 1-11 is driven in a manual rotating way, the driving terminal I1-21 is respectively driven by the driving gear I1-12 and the driving slide block I1-9, the driving terminal II 1-26 is respectively connected with the transmission straight tooth I1-20 and the transmission straight tooth IV 1-27 in a matching way, the middle end shaft II 1-32 is driven to rotate by the transmission straight tooth V1-28 and the transmission straight tooth IV 1-31 respectively, and further the transmission straight tooth I1-20 and the transmission straight tooth IV 1-27 are respectively driven by the transmission straight tooth V1-28 and the transmission straight tooth IV 1-31 in a meshing way, the adjustment of the transmission ratio of the output of the second middle end shaft 1-32 is further realized; further realizing the adjustment of four transmission ratios of the second middle end shaft 1-32 and facilitating the further adjustment of the device; the middle end shaft II 1-32 rotates to drive the bevel gear IV 1-18 to rotate, further drives the bevel gear III 1-17 to rotate, further drives the bevel gear II 1-15 to rotate through the bevel gear shaft I1-16, simultaneously drives the bevel gear I1-14 to rotate, further drives the crankshaft I2-3 to rotate, further drives the driving cross rod 2-11 to move through the hinged connecting rod I2-9 and the hinged connecting rod II 2-10 respectively, further drives the middle end slider 2-12 to move through the matching connection of the clamping groove 2-15 on the driving cross rod 2-11 and the clamping rod 2-13, further drives the piston rod 2-8 to slide along the inner end of the piston pipe 2-7 through the middle end slider 2-12, simultaneously adds pasty feed raw materials into the accommodating groove 2-5, when the piston rod 2-8 slides back and forth along the inner end of the piston pipe 2-7, so that the pasty feed raw materials are sucked into the piston pipes 2-7 under the action of atmospheric pressure and are discharged into the roller assembly 3 along the piston pipes 2-7 to complete further processing; the volume of pasty feed raw materials which can be discharged by the piston pipes 2 to 7 can be adjusted according to actual conditions, the middle end sliders 2 to 12 are manually slid, the using positions of the middle end sliders 2 to 12 on the driving cross rods 2 to 11 are further changed, the movable volume of the piston rods 2 to 8 in the piston pipes 2 to 7 is further changed, and the adjustment of the volume of the pasty feed raw materials which can be discharged by the piston pipes 2 to 7 is further realized; when the transmission belt 2-4 moves, the half gear shaft 3-13 is driven to rotate, the half gear 3-12 is driven to rotate, the transverse driving rod 3-11 is driven to slide back and forth along the first vertical plate 3-14, the first cutting edge hinge rod 3-9 and the second cutting edge hinge rod 3-10 are driven to respectively drive the first cutting edge hinge rod 3-6 and the second cutting edge hinge rod 3-7 to rotate along the middle end sliding frame 3-8, the first cutting edge 3-4 and the second cutting edge 3-5 are driven to respectively move up and down along the first bottom frame plate 3-3, the first cutting edge 3-4 and the second cutting edge 3-5 are contacted with pasty feed materials, the pasty feed materials are cut, the feed material granulating process is completed, and the feed particles in the feed material granulating process are completed through the sliding rectangular rod 3-21, further, the feed particles are discharged through the arc-shaped plates 3-24, the feed particles are conveniently collected, and meanwhile, the whole preparation process of the feed particles is completed.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims (4)

1. The utility model provides a granulator for the fodder field, is including adjusting assembly (1), piston assembly (2), roller assembly (3), its characterized in that: the adjusting assembly (1) is connected with the piston assembly (2), and the piston assembly (2) is connected with the roller assembly (3).

2. The granulator for the field of feed according to claim 1, characterized in that: the adjusting assembly (1) comprises a support assembly (1-1), an input motor (1-2), input straight teeth (1-3), transmission straight teeth (1-4), a first clutch rod (1-5), a first clutch rod push spring (1-6), a second clutch rod (1-7), a third clutch rod (1-8), a first driving slider (1-9), a second driving slider (1-10), a driving rotating rod (1-11), a first driving gear (1-12), a second driving gear (1-13), a first conical gear (1-14), a second conical gear (1-15), a first conical gear shaft (1-16), a third conical gear (1-17), a fourth conical gear (1-18), a first middle end shaft (1-19), a first transmission straight tooth (1-20), a first driving terminal (1-21), The driving device comprises a first driving rod (1-22), a second driving rod (1-23), a second transmission straight tooth (1-24), a third transmission straight tooth (1-25), a second driving terminal (1-26), a fourth transmission straight tooth (1-27), a fifth transmission straight tooth (1-28), a sixth transmission straight tooth (1-29), a seventh transmission straight tooth (1-30), an eighth transmission straight tooth (1-31), a second middle end shaft (1-32), a third driving terminal (1-33) and a fourth driving terminal (1-34), wherein an input motor (1-2) is fixedly connected with a bracket assembly (1-1), an input straight tooth (1-3) is fixedly connected with the input motor (1-2), an input straight tooth (1-3) is in meshing transmission with the transmission straight tooth (1-4), a first clutch lever (1-5) is rotatably connected with the bracket assembly (1-1), the transmission straight teeth (1-4) are fixedly connected with the clutch rod I (1-5), the clutch rod push springs (1-6) are connected with the clutch rod I (1-5) in a sleeved mode, the clutch rod II (1-7) is connected with the clutch rod I (1-5) in a sliding mode, the clutch rod II (1-7) is connected with the clutch rod III (1-8) in a matched mode, the driving sliding blocks I (1-9) and the driving sliding blocks II (1-10) are connected with the support assembly (1-1) in a sliding mode, the driving rotating rods (1-11) are connected with the support assembly (1-1) in a matched mode, the driving gear I (1-12), the driving gear II (1-13) are fixedly connected with the driving rotating rods (1-11), the cone teeth I (1-14) and the cone teeth II (1-15) are in meshed transmission mode, and the cone teeth II (1-15) are arranged, The bevel gear III (1-17) is fixedly connected with the bevel gear shaft I (1-16), the bevel gear shaft I (1-16) is rotatably connected with the support assembly (1-1), the bevel gear IV (1-18) is fixedly connected with the middle end shaft II (1-32), the middle end shaft II (1-32) is in matched connection with the support assembly (1-1), the middle end shaft I (1-19) is fixedly connected with the clutch lever III (1-8), the middle end shaft I (1-19) is in matched connection with the support assembly (1-1), the transmission straight gear I (1-20), the transmission straight gear II (1-24), the transmission straight gear III (1-25), the transmission straight gear IV (1-27) are rotatably connected with the support assembly (1-1), the transmission straight gear I (1-20), the transmission straight gear II (1-24), Three (1-25) transmission straight teeth, four (1-27) transmission straight teeth and a first (1-19) middle end shaft are connected in a matched mode, a first (1-21) driving terminal and a second (1-26) driving terminal are connected with the first (1-19) middle end shaft in a sliding mode, the first (1-21) driving terminal and the second (1-26) driving terminal are hinged with a first (1-22) driving rod, the second (1-23) driving rod is connected with the first (1-19) middle end shaft in a sliding mode, a first (1-9) driving sliding block is fixedly connected with the first (1-22) driving rod, five (1-28) transmission straight teeth, six (1-29) transmission straight teeth, seven (1-30) transmission straight teeth and eight (1-31) transmission straight teeth are connected with a support assembly (1-1) in a rotating mode, and five (1-28) transmission straight teeth, Six (1-29) transmission straight teeth, seven (1-30) transmission straight teeth and eight (1-31) transmission straight teeth are matched and connected with second driving rods (1-23), the second driving rods (1-23) are fixedly connected with second driving sliders (1-10), third driving terminals (1-33) and fourth driving terminals (1-34) are slidably connected with the second driving rods (1-23), and the third driving terminals (1-33) and the fourth driving terminals (1-34) are hinged and connected with the second driving rods (1-23).

3. The granulator for the field of feed according to claim 1, characterized in that: the piston assembly (2) comprises an underframe body (2-1), a straight plate I (2-2), a crankshaft I (2-3), a transmission belt (2-4), an accommodating groove (2-5), a communicating pipe (2-6), a piston pipe (2-7), a piston rod (2-8), a hinged connecting rod I (2-9), a hinged connecting rod II (2-10), a driving cross rod (2-11), a middle-end slider (2-12), a clamping rod (2-13), a clamping rod push spring (2-14) and a clamping groove (2-15), wherein the straight plate I (2-2) is fixedly connected with the underframe body (2-1), the crankshaft I (2-3) is rotatably connected with the straight plate I (2-2), the transmission belt (2-4) is connected with the crankshaft I (2-3), the first hinged connecting rod (2-9) and the second hinged connecting rod (2-10) are hinged with the first crankshaft (2-3), the accommodating groove (2-5) is fixedly connected and communicated with the communicating pipe (2-6), the piston pipe (2-7) is fixedly connected and communicated with the communicating pipe (2-6), the piston rod (2-8) is connected with the piston pipe (2-7) in a sliding manner, the piston rod (2-8) is hinged with the middle-end slider (2-12), the clamping rod (2-13) is connected with the middle-end slider (2-12) in a sliding manner, the clamping rod push spring (2-14) is arranged between the clamping rod (2-13) and the middle-end slider (2-12) and connected between the clamping rod (2-13) and the middle-end slider (2-12), and the clamping groove (2-15) is arranged on the driving cross rod (2-11), the clamping grooves (2-15) are connected with the clamping rods (2-13) in a matched mode, the first hinged connecting rod (2-9) and the second hinged connecting rod (2-10) are connected with the driving cross rod (2-11) in a hinged mode, the support assembly (1-1) is connected with the bottom frame body (2-1) in a sliding mode, and the first bevel gear (1-14) is fixedly connected with the first crankshaft (2-3).

4. The granulator for the field of feed according to claim 1, characterized in that: the roller assembly (3) comprises a second underframe (3-1), a second support (3-2), a first underframe plate (3-3), a first cutting edge (3-4), a second cutting edge (3-5), a first cutting edge hinge rod (3-6), a second cutting edge hinge rod (3-7), a middle-end sliding frame (3-8), a first cutting edge hinge rod (3-9), a second cutting edge hinge rod (3-10), a transverse driving rod (3-11), a half gear (3-12), a half gear shaft (3-13), a first vertical plate (3-14), a first inner end clamping rod (3-15), an inner end clamping rod push spring (3-16), a middle-end clamping groove (3-17), a side wall sliding column (3-18), a sliding column push spring (3-19), a discharging roller (3-20), A sliding rectangular rod (3-21), an inner end sliding column (3-22), a sliding column sleeve spring (3-23) and an arc-shaped plate (3-24), a second support (3-2) is fixedly connected with a second underframe (3-1), a first cutting edge (3-4) and a second cutting edge (3-5) are slidably connected with the first underframe plate (3-3), a second cutting edge (3-5) is hinged with a first cutting edge hinge rod (3-6), a second cutting edge hinge rod (3-7) is hinged with the first cutting edge (3-4), the first cutting edge hinge rod (3-6) and the second cutting edge hinge rod (3-7) are hinged with a middle end sliding frame (3-8), a side wall sliding column (3-18) is fixedly connected with the first underframe plate (3-3), a sliding column push spring (3-19) is sleeved with the side wall sliding column (3-18), the middle-end sliding frame (3-8) is connected with the side wall sliding columns (3-18) in a sliding mode, the middle-end clamping groove (3-17) is arranged on the first chassis plate (3-3), the first inner-end clamping rod (3-15) is connected with the middle-end clamping groove (3-17) in a matching mode, the first inner-end clamping rod (3-15) is connected with the middle-end sliding frame (3-8) in a sliding mode, the push spring (3-16) of the inner-end clamping rod is connected with the first inner-end clamping rod (3-15) in a sleeved mode, the first cutting edge hinging rod (3-9) and the second cutting edge hinging rod (3-10) are respectively connected with the first cutting edge hinging rod (3-6) and the second cutting edge hinging rod (3-7) in a hinged mode, the first cutting edge hinging rod (3-9) and the second cutting edge hinging rod (3-10) are connected with the transverse driving rod (3-11) in a hinged mode, and the transverse driving rod (, the first vertical plate (3-14) is fixedly connected with the first arc-shaped plate (3-24), the first arc-shaped plate (3-24) is fixedly connected with the first base frame plate (3-3), the half gear shaft (3-13) is rotatably connected with the first base frame plate (3-3), the half gear shaft (3-13) is fixedly connected with the half gear (3-12), the half gear shaft (3-13) is fixedly connected with the discharging roller (3-20), the half gear shaft (3-13) is in meshing transmission with the transverse driving rod (3-11), the inner end sliding column (3-22) is fixedly connected with the discharging roller (3-20), the sliding rectangular rod (3-21) is in sliding connection with the inner end sliding column (3-22), and a sliding column sleeve spring (3-23) is arranged between the sliding rectangular rod (3-21) and the inner end sliding column (3-22), the piston pipe (2-7) is fixedly connected with the second bracket (3-2), the second underframe (3-1) is fixedly connected with the underframe body (2-1), and the transmission belt (2-4) is connected with the half gear shaft (3-13) in a matching way.

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