CN111167366A - Fodder agitated vessel - Google Patents

Abstract

The invention relates to the field of feeds, in particular to a feed stirring device. The material mixture can be stirred and crushed through the feeding frame assembly; the stirring and crushing effects of the material mixture can be adjusted according to actual conditions; the screening of the material mixture can be realized through the screening assembly; the processing speed of the device can be adjusted by the power source assembly. The automatic feeding device comprises a feeding frame assembly, a screening assembly, a transmission assembly, a power source assembly and a bottom frame, wherein an adjusting ring is manually pushed according to the processing speed of an actual condition adjusting device, a hinged boss, a hinged connecting rod I, a hinged pushing spring I, a hinged connecting rod II, a hinged pushing spring II and a hinged connecting rod III are driven by the adjusting ring to move simultaneously, so that the use positions of a transmission ball II and the transmission ball I on a conical roller II and a conical roller I respectively change, and the transmission ratios of the transmission ball II and the transmission ball I to the conical roller II and the conical roller I change.

Description

Fodder agitated vessel

Technical Field

The invention relates to the field of feeds, in particular to a feed stirring device.

Background

The feed stirring equipment is a common equipment in the field of feed, but the function of the common feed stirring equipment is single.

Disclosure of Invention

The invention aims to provide feed stirring equipment, which can stir and crush a material mixture through a feeding frame assembly; the stirring and crushing effects of the material mixture can be adjusted according to actual conditions; the screening of the material mixture can be realized through the screening assembly; the processing speed of the device can be adjusted by the power source assembly.

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

the utility model provides a fodder agitated vessel, includes pan feeding frame assembly, screening assembly, transmission assembly, power supply assembly, chassis, pan feeding frame assembly is connected with the screening assembly, and the transmission assembly is connected with pan feeding frame assembly, and the power supply assembly is connected with the transmission assembly, and the chassis is connected with screening assembly, power supply assembly.

As a further optimization of the technical scheme, the invention provides feed stirring equipment, wherein a feeding frame assembly comprises a feeding frame, a middle-end rotary column, a first sleeve gear, a second sleeve gear, a first middle-end sleeve, a side wall hinged frame, a feeding cavity, a middle-end frame, a crushing and stirring cavity, a rectangular through hole, a middle-end driving rod, a cross connecting rod, a conical roller, a cutting edge sliding frame, a driving sleeve, a connecting rod, a middle-end straight tooth, a connecting belt, an inner-end sliding column, an inner-end pushing spring, a middle-end connecting cross frame and cross rotary teeth, the middle-end rotary column is rotatably connected with the feeding frame, the first sleeve gear is fixedly connected with the middle-end rotary column, the first sleeve gear is in meshing transmission with the second sleeve gear, the second sleeve gear is rotatably connected with the middle-end sleeve, the first middle-end sleeve is fixedly connected with the feeding frame, the side wall hinged frame is fixedly connected with the feeding frame, the feeding cavity is arranged on the feeding frame, the middle-end frame is fixedly connected with the feeding frame, the crushing and stirring cavity is arranged on the middle end frame and is communicated with the feeding cavity, the rectangular through hole is formed in the middle end frame and is communicated with the crushing and stirring cavity, the conical roller is rotatably connected with the cutting edge sliding frame and is attached to the inner wall of the crushing and stirring cavity, the inner sliding column is fixedly connected with the middle end driving rod, the inner pushing spring is connected with the inner sliding column in a sleeved mode, the inner sliding column is slidably connected with the cutting edge sliding frame and is slidably connected with the middle end driving rod, the connecting belt is arranged between the driving sleeve and the middle end straight teeth, the middle end straight teeth are rotatably connected with the middle end connecting cross, the cross rotating teeth are fixedly connected with the middle end rotating column, the middle end rotating column is rotatably connected with the middle end connecting cross, the cross rotating teeth are in meshed transmission with the middle end straight teeth, the connecting rod is rotatably connected with the middle end driving rod, and the connecting rod is fixedly connected with the cross connecting rod.

As a further optimization of the technical scheme, the invention relates to a feed stirring device, wherein a screening assembly comprises a screening outer frame, a side wall rod, a connecting slide rod, a side wall clamping groove, a crankshaft, an inner end clamp, a clamp connecting rod, a hinged slide rod, a slide rod push spring, a middle end limiting plate, a filter rod I, a rectangular filter hole I, a middle end slide column I, a slide column push spring I, a middle end driving rod, a lower end limiting plate, a filter rod II, a middle end slide column II, a rectangular filter hole II and a rectangular slide hole, wherein the side wall rod is fixedly connected with the screening outer frame, the rectangular slide hole is arranged on the screening outer frame, the side wall clamping groove is arranged on the side wall rod, the crankshaft is rotatably connected with the screening outer frame, the inner end clamp is matched and connected with the side wall clamping groove, the inner end clamp is slidably connected with the connecting slide rod, the connecting slide rod is slidably connected with the rectangular slide hole, the, the hinged slide rod is connected with the connecting slide rod in a sliding manner, the slide rod pushes the spring to be connected with the connecting slide rod in a sleeved manner, the middle-end limiting plate, the lower-end limiting plate and the screening outer frame are fixedly connected, the first filter rod, the second filter rod, the middle-end limiting plate and the lower-end limiting plate are connected in a sliding manner, the first filter rod, the second filter rod, the first middle-end sliding column and the second middle-end sliding column are connected in a sliding manner, the first sliding column pushes the spring to be connected with the first middle-end sliding column and the second middle-end sliding column in a sleeved manner, the middle-end driving rod is connected with the first filter rod and the second filter rod in a matched manner, the middle-end driving rod is connected.

As a further optimization of the technical scheme, the feed stirring device comprises a transmission assembly, wherein the transmission assembly comprises a first straight tooth, a straight tooth shaft, a first bevel tooth, a second bevel tooth, a third bevel tooth, a first clutch rod, a clutch rod support, a second clutch rod, a third clutch rod and a clutch rod push spring, the first straight tooth and the first bevel tooth are fixedly connected with the straight tooth shaft, the first bevel tooth is in meshing transmission with the second bevel tooth, the second bevel tooth is in meshing transmission with the third bevel tooth, the third bevel tooth is fixedly connected with the first clutch rod, the first clutch rod is rotatably connected with the clutch rod support, the first clutch rod is in matching connection with the second clutch rod, the second clutch rod is in sliding connection with the third clutch rod, the clutch rod push spring is arranged between the second clutch rod and the third clutch rod, the straight tooth shaft is rotatably connected with a side wall hinged support, the second bevel tooth is fixedly connected with a crankshaft, and a screening outer frame is fixedly connected with an.

As a further optimization of the technical scheme, the invention provides feed stirring equipment, wherein a power source combination body comprises a power source support, a first rotary column, a first conical roller, a first transmission ball rod, a second transmission ball, an adjusting ring, a second conical roller, a second rotary column, an input motor, a hinged boss, a first hinged connecting rod, a first hinged pushing spring, a second hinged connecting rod, a second hinged pushing spring and a third hinged connecting rod, the first rotary column is rotatably connected with the power source support, the first conical roller is fixedly connected with the first rotary column, the first conical roller is in meshing transmission with the first transmission ball, the first transmission ball is fixedly connected with the first transmission ball rod, the second transmission ball rod is fixedly connected with the second transmission ball, the second rotary column is fixedly connected with the second conical roller, the second rotary column is rotatably connected with the power source support, the input motor is fixedly connected with the power source support, the input motor is fixedly connected with the rotating column II, the hinge connecting rod III is hinged with the hinge connecting rod II, the hinge connecting rod II is connected with the hinge connecting rod I in a sliding mode, the hinge connecting rod I is hinged with the hinge boss, the hinge boss is fixedly connected with the adjusting ring, the hinge push spring I and the hinge push spring II are arranged between the hinge connecting rod II and the hinge connecting rod I, the rotating column I is fixedly connected with the clutch rod III, and the power source support is fixedly connected with the bottom frame.

The feed stirring equipment has the beneficial effects that:

according to the feed stirring equipment, the processing speed of the device can be adjusted according to actual conditions, the adjusting ring is manually pushed, the adjusting ring drives the hinged boss, the hinged connecting rod I, the hinged pushing spring I, the hinged connecting rod II, the hinged pushing spring II and the hinged connecting rod III to simultaneously move, so that the use positions of the transmission ball II and the transmission ball I on the conical roller II and the conical roller I respectively change, the transmission ratios of the transmission ball II and the transmission ball I to the conical roller II and the conical roller I change, and the processing speed of the device changes.

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 feeding frame assembly according to the present invention;

FIG. 5 is a second schematic view of the feeding frame assembly according to the present invention;

FIG. 6 is a third schematic view of the feeding frame assembly according to the present invention;

FIG. 7 is a first schematic illustration of the screen assembly configuration of the present invention;

figure 8 is a second schematic illustration of the screen assembly configuration of the present invention;

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

FIG. 10 is a schematic illustration of a power source assembly of the present invention;

figure 11 is a third schematic view of the screening assembly knot configuration of the present invention.

In the figure: a feeding frame assembly 1; a feeding frame 1-1; a middle-end rotary column 1-2; 1-3 of a first sleeve gear; 1-4 parts of a sleeve gear; 1-5 of a middle sleeve; side wall hinge frames 1-6; 1-7 of a feeding cavity; 1-8 parts of a middle end frame; 1-9 parts of a crushing and stirring cavity; 1-10 rectangular through holes; a middle driving rod 1-11; 1-12 of a cross connecting rod; conical rollers 1-13; cutting edge carriages 1-14; drive bushings 1-15; connecting rods 1-16; 1-17 of middle straight teeth; connecting belts 1-18; inner end sliding columns 1-19; the inner end pushes the spring 1-20; the middle end is connected with a cross 1-21; 1-22 parts of cross rotating teeth; a screening combination 2; screening the outer frame 2-1; 2-2 of a side wall rod; connecting a sliding rod 2-3; 2-4 side wall clamping grooves; 2-5 of a crankshaft; inner end clips 2-6; a clip connecting rod 2-7; hinged sliding rods 2-8; 2-9 parts of slide bar push spring; 2-10 parts of a middle limiting plate; 2-11 parts of a first filter rod; 2-12 rectangular filter holes; 2-13 of a middle sliding column I; a sliding column pushing spring I2-14; a middle driving rod 2-15; the lower end limiting plate is 2-16; 2-17 parts of a second filter rod; 2-18 parts of middle sliding column II; 2-19 rectangular filter holes; 2-20 rectangular sliding holes; a transmission assembly 3; 3-1 of straight teeth I; 3-2 of a straight gear shaft; 3-3 parts of a first bevel gear; 3-4 parts of a second bevel gear; 3-5 parts of bevel gear III; 3-6 parts of a clutch lever I; clutch lever bracket 3-7; 3-8 parts of a clutch lever II; 3-9 parts of clutch lever; 3-10 parts of clutch lever push spring; a power source assembly 4; a power source bracket 4-1; 4-2 of a rotary column I; 4-3 of a conical roller I; 4-4 parts of a first transmission ball; 4-5 parts of a transmission ball arm; 4-6 parts of a second transmission ball; 4-7 of an adjusting ring; 4-8 parts of a second conical roller; 4-9 of a rotary column II; inputting 4-10 of a motor; 4-11 of a hinge boss; 4-12 parts of a first hinge connecting rod; 4-13 of a hinged push spring; a second hinge connecting rod 4-14; a second hinged push spring 4-15; three hinged connecting rods 4-16; a chassis 5.

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 fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with 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 joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 11, and a feed stirring apparatus includes a feeding frame assembly 1, a screening assembly 2, a transmission assembly 3, a power source assembly 4, and a bottom frame 5, where the feeding frame assembly 1 is connected to the screening assembly 2, the transmission assembly 3 is connected to the feeding frame assembly 1, the power source assembly 4 is connected to the transmission assembly 3, and the bottom frame 5 is connected to the screening assembly 2 and the power source assembly 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, wherein the feeding frame assembly 1 comprises a feeding frame 1-1, a middle end rotary column 1-2, a first set gear 1-3, a second set gear 1-4, a first middle end sleeve 1-5, side wall hinged frames 1-6, a feeding cavity 1-7, a middle end frame 1-8, a crushing and stirring cavity 1-9, a rectangular through hole 1-10, a middle end driving rod 1-11, a cross connecting rod 1-12, a tapered roller 1-13, a cutting edge sliding frame 1-14, a driving sleeve 1-15, a connecting rod 1-16, a middle end straight tooth 1-17, a connecting belt 1-18, an inner end sliding column 1-19, an inner end push spring 1-20, a middle end connecting cross frame 1-21, a middle end connecting cross frame 1-15, a cutter, a, Cross rotating teeth 1-22, a middle rotating column 1-2 is rotationally connected with a feeding frame 1-1, a first sleeve gear 1-3 is fixedly connected with the middle rotating column 1-2, a first sleeve gear 1-3 is in meshed transmission with a second sleeve gear 1-4, the second sleeve gear 1-4 is rotationally connected with a first middle sleeve 1-5, a first middle sleeve 1-5 is fixedly connected with the feeding frame 1-1, a side wall hinged frame 1-6 is fixedly connected with the feeding frame 1-1, a feeding cavity 1-7 is arranged on the feeding frame 1-1, a middle end frame 1-8 is fixedly connected with the feeding frame 1-1, a crushing and stirring cavity 1-9 is arranged on the middle rotating column 1-8, the crushing and stirring cavity 1-9 is communicated with the feeding cavity 1-7, a rectangular through hole 1-10 is arranged on the middle rotating column 1-8, the rectangular through hole 1-10 is communicated with the crushing and stirring cavity 1-9, the conical roller 1-13 is rotationally connected with the cutting edge sliding frame 1-14, the conical roller 1-13 is attached to the inner wall of the crushing and stirring cavity 1-9, the inner end sliding column 1-19 is fixedly connected with the middle end driving rod 1-11, the inner end push spring 1-20 is connected with the inner end sliding column 1-19 in a sleeved mode, the inner end sliding column 1-19 is slidably connected with the cutting edge sliding frame 1-14, the driving sleeve 1-15 is slidably connected with the middle end driving rod 1-11, the connecting belt 1-18 is arranged between the driving sleeve 1-15 and the middle end straight tooth 1-17, the middle end straight tooth 1-17 is rotationally connected with the middle end connecting cross 1-21, the cross rotating tooth 1-22 is fixedly connected with the middle end rotating column 1-2, the middle end rotating column 1-2 is rotationally connected with the middle end connecting cross 1-21, the cross rotating teeth 1-22 are in meshed transmission with the middle straight teeth 1-17, the connecting rods 1-16 are in rotating connection with the middle driving rods 1-11, and the connecting rods 1-16 are fixedly connected with the cross connecting rods 1-12.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, where the screening assembly 2 includes a screening outer frame 2-1, a side wall rod 2-2, a connecting slide rod 2-3, a side wall slot 2-4, a crankshaft 2-5, an inner end clip 2-6, a clip connecting rod 2-7, a hinged slide rod 2-8, a slide rod push spring 2-9, a middle end limit plate 2-10, a filter rod I2-11, a rectangular filter hole I2-12, a middle end slide column I2-13, a slide column push spring I2-14, a middle end driving rod 2-15, a lower end limit plate 2-16, a filter rod II 2-17, a middle end slide column II 2-18, a rectangular filter hole II 2-19, and a rectangular slide hole 2-20, the side wall rod 2-2 is fixedly connected with the screening outer frame 2-1, the rectangular sliding hole 2-20 is arranged on the screening outer frame 2-1, the side wall clamping groove 2-4 is arranged on the side wall rod 2-2, the crankshaft 2-5 is rotatably connected with the screening outer frame 2-1, the inner end clamp 2-6 is matched and connected with the side wall clamping groove 2-4, the inner end clamp 2-6 is slidably connected with the connecting slide rod 2-3, the connecting slide rod 2-3 is slidably connected with the rectangular sliding hole 2-20, the inner end clamp 2-6 is hinged and connected with the clamp connecting rod 2-7, the clamp connecting rod 2-7 is hinged and connected with the hinged slide rod 2-8, the hinged slide rod 2-8 is slidably connected with the connecting slide rod 2-3, the slide rod push spring 2-9 is connected with the connecting slide rod 2-3 in a sleeved mode, the middle limiting plate 2-10 and the lower limiting plate 2-16 are fixedly connected with the, the filter rod I2-11, the filter rod II 2-17, the middle-end limiting plate 2-10 and the lower-end limiting plate 2-16 are connected in a sliding mode, the filter rod I2-11, the filter rod II 2-17, the middle-end sliding column I2-13 and the middle-end sliding column II 2-18 are connected in a sliding mode, the sliding column push spring I2-14, the middle-end sliding column I2-13 and the middle-end sliding column II 2-18 are connected in a sleeved mode, the middle-end driving rod 2-15, the filter rod I2-11 and the filter rod II 2-17 are connected in a matched mode, the middle-end driving rod 2-15 is connected with the crankshaft 2-5 in a rotating mode, the middle-end frame 1-8 is fixedly connected with the screening outer frame 2-1, and the screening outer frame 2-1 is fixedly connected with the middle.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-11, and the first embodiment is further described, wherein the transmission assembly 3 includes a first straight tooth 3-1, a straight tooth shaft 3-2, a first bevel tooth 3-3, a second bevel tooth 3-4, a third bevel tooth 3-5, a first clutch rod 3-6, a first clutch rod support 3-7, a second clutch rod 3-8, a third clutch rod 3-9, and a clutch rod push spring 3-10, the first straight tooth 3-1 and the first bevel tooth 3-3 are fixedly connected with the straight tooth shaft 3-2, the first bevel tooth 3-3 is in meshing transmission with the second bevel tooth 3-4, the second bevel tooth 3-4 is in meshing transmission with the third bevel tooth 3-5, the third bevel tooth 3-5 is fixedly connected with the first clutch rod 3-6, the first clutch rod 3-6 is rotatably connected with the second clutch rod support 3-7, the first clutch rod 3-6 is connected with the second clutch rod 3-8 in a matched mode, the second clutch rod 3-8 is connected with the third clutch rod 3-9 in a sliding mode, the clutch rod push spring 3-10 is arranged between the second clutch rod 3-8 and the third clutch rod 3-9, the straight tooth shaft 3-2 is connected with the side wall hinged frame 1-6 in a rotating mode, the second bevel tooth 3-4 is fixedly connected with the crankshaft 2-5, and the screening outer frame 2-1 is fixedly connected with the bottom frame 5.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, where the power source assembly 4 includes a power source support 4-1, a first rotary column 4-2, a first conical roller 4-3, a first transmission ball 4-4, a transmission ball rod 4-5, a second transmission ball 4-6, an adjustment ring 4-7, a second conical roller 4-8, a second rotary column 4-9, an input motor 4-10, a hinge boss 4-11, a first hinge connecting rod 4-12, a first hinge push spring 4-13, a second hinge connecting rod 4-14, a second hinge push spring 4-15, and a third hinge connecting rod 4-16, the first rotary column 4-2 is rotatably connected with the power source support 4-1, the first conical roller 4-3 is fixedly connected with the first rotary column 4-2, the conical roller I4-3 is in meshed transmission with the driving ball I4-4, the driving ball I4-4 is fixedly connected with a driving ball rod 4-5, the driving ball rod 4-5 is fixedly connected with the driving ball II 4-6, the driving ball rod 4-5 is in matched connection with the hinged connecting rod III 4-16, the driving ball II 4-6 is in meshed transmission with the conical roller II 4-8, the rotary column II 4-9 is fixedly connected with the conical roller II 4-8, the rotary column II 4-9 is in rotary connection with the power source bracket 4-1, the input motor 4-10 is fixedly connected with the rotary column II 4-9, the hinged connecting rod III 4-16 is hinged with the hinged connecting rod II 4-14, the hinged connecting rod II 4-14 is in sliding connection with the hinged connecting rod I4-12, the first hinged connecting rod 4-12 is hinged with the first hinged boss 4-11, the first hinged boss 4-11 is fixedly connected with the adjusting ring 4-7, the first hinged push spring 4-13 and the second hinged push spring 4-15 are arranged between the second hinged connecting rod 4-14 and the first hinged connecting rod 4-12, the first rotary column 4-2 is fixedly connected with the third clutch rod 3-9, and the power source support 4-1 is fixedly connected with the bottom frame 5;

the machining speed of the device can be adjusted according to actual conditions, the adjusting ring 4-7 is pushed manually, the adjusting ring 4-7 drives the hinged boss 4-11, the hinged connecting rod one 4-12, the hinged pushing spring one 4-13, the hinged connecting rod two 4-14, the hinged pushing spring two 4-15 and the hinged connecting rod three 4-16 to move simultaneously, so that the using positions of the transmission ball two 4-6 and the transmission ball one 4-4 on the conical roller two 4-8 and the conical roller one 4-3 respectively are changed, the transmission ratios of the transmission ball two 4-6 and the transmission ball one 4-4, the conical roller two 4-8 and the conical roller one 4-3 are changed, and the machining speed of the device is changed.

The invention relates to a feed stirring device, which has the working principle that: when the device is used, the input motor 4-10 is started, the rotary post II 4-9 is driven to rotate, the conical roller II 4-8 is driven to rotate, the transmission ball II 4-6 is driven to rotate, the transmission ball I4-4 is driven to rotate through the transmission ball rod 4-5, the conical roller I4-3 is driven to rotate, the rotary post I4-2 is driven to rotate, the clutch rod III 3-9 is driven to rotate, the clutch rod I3-6 is driven to rotate through the clutch rod II 3-8, the conical tooth III 3-5 is driven to rotate, the conical tooth I3-3 and the conical tooth II 3-4 are driven to rotate simultaneously, the straight tooth shaft 3-2 is driven to rotate, and the straight tooth I3-1 is driven to rotate; when the first straight tooth 3-1 rotates, the second sleeve gear 1-4 is driven to rotate, the first sleeve gear 1-3 drives the middle rotary column 1-2 to rotate, the cross rotary tooth 1-22 drives the middle straight tooth 1-17 to rotate, the connecting belt 1-18 drives the driving sleeve 1-15 to rotate, the driving sleeve 1-15 drives the middle driving rod 1-11 to rotate, the cutting edge sliding frame 1-14 is driven to rotate, the conical roller 1-13 slides along the inner wall of the crushing and stirring cavity 1-9, the motion stability of the cutting edge sliding frame 1-14 is conveniently increased, and the mixed material mixture is added into the feeding cavity 1-7 to enable the material mixture to pass through the feeding cavity 1-7, and falls into the crushing and stirring cavity 1-9, and simultaneously the cutting edge sliding frame 1-14 acts on the material mixture, thereby completing the crushing and stirring of the material mixture; the crushing and stirring effect on the material mixture can be adjusted according to actual conditions, so that the cross connecting rods 1-12 move downwards, the connecting rods 1-16 drive the middle-end driving rods 1-11 to move downwards through the driving of the cross connecting rods 1-12, the use positions of the cutting edge sliding frames 1-14 in the crushing and stirring cavities 1-9 are changed, the contact positions of the cutting edge sliding frames 1-14 and the material mixture are changed, and the crushing and stirring effect on the material mixture is adjusted; the crushed and stirred material mixture falls into a screening outer frame 2-1 through rectangular through holes 1-10 and falls onto a filtering rod I2-11 at the same time, when a bevel gear II 3-4 rotates, a crankshaft 2-5 is driven to rotate, then the filtering rod I2-11 is driven to slide along a middle sliding column I2-13 through a middle driving rod 2-15, and simultaneously, one-time filtration of the crushed and stirred material mixture is completed through the action of the rectangular filtering holes I2-12 and the crushed and stirred material mixture; when the crushed and stirred material mixture falls into the second filter rod 2-17, secondary filtering of the crushed and stirred material mixture is completed under the action of the second rectangular filter holes 2-19 on the second filter rod 2-17; further finishing the processing of the material mixture; meanwhile, according to the machining speed of the device, the adjusting ring 4-7 is manually pushed, the adjusting ring 4-7 drives the hinged boss 4-11, the hinged connecting rod one 4-12, the hinged pushing spring one 4-13, the hinged connecting rod two 4-14, the hinged pushing spring two 4-15 and the hinged connecting rod three 4-16 to move simultaneously, so that the using positions of the transmission ball two 4-6 and the transmission ball one 4-4 on the conical roller two 4-8 and the conical roller one 4-3 respectively are changed, the transmission ratios of the transmission ball two 4-6 and the transmission ball one 4-4, the conical roller two 4-8 and the conical roller one 4-3 are changed, and the machining speed of the device is changed.

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 (5)

1. The utility model provides a fodder agitated vessel, includes pan feeding frame assembly (1), screening assembly (2), transmission assembly (3), power supply assembly (4), chassis (5), its characterized in that: the feeding frame assembly (1) is connected with the screening assembly (2), the transmission assembly (3) is connected with the feeding frame assembly (1), the power source assembly (4) is connected with the transmission assembly (3), and the bottom frame (5) is connected with the screening assembly (2) and the power source assembly (4).

2. A feed mixing apparatus as claimed in claim 1, wherein: the feeding frame assembly (1) comprises a feeding frame (1-1), a middle-end rotary column (1-2), a first sleeve gear (1-3), a second sleeve gear (1-4), a first middle-end sleeve (1-5), a side wall hinged frame (1-6), a feeding cavity (1-7), a middle-end frame (1-8), a crushing and stirring cavity (1-9), a rectangular through hole (1-10), a middle-end driving rod (1-11), a cross connecting rod (1-12), a conical roller (1-13), a cutting edge sliding frame (1-14), a driving sleeve (1-15), a connecting rod (1-16), a middle-end straight tooth (1-17), a connecting belt (1-18), a sliding column (1-19) at the inner end, a push spring (1-20) at the inner end, a connecting cross frame (1-21) at the middle end, Cross rotating teeth (1-22), a middle end rotating column (1-2) is rotationally connected with a feeding frame (1-1), a first sleeve gear (1-3) is fixedly connected with the middle end rotating column (1-2), the first sleeve gear (1-3) is in meshing transmission with a second sleeve gear (1-4), the second sleeve gear (1-4) is rotationally connected with a first middle end sleeve (1-5), a first middle end sleeve (1-5) is fixedly connected with the feeding frame (1-1), a side wall hinged frame (1-6) is fixedly connected with the feeding frame (1-1), a feeding cavity (1-7) is arranged on the feeding frame (1-1), a middle end frame (1-8) is fixedly connected with the feeding frame (1-1), a crushing and stirring cavity (1-9) is arranged on the middle end frame (1-8), a crushing and stirring cavity (1-9) is communicated with a feeding cavity (1-7), a rectangular through hole (1-10) is arranged on a middle end frame (1-8), the rectangular through hole (1-10) is communicated with the crushing and stirring cavity (1-9), a conical roller (1-13) is rotatably connected with a cutting edge sliding frame (1-14), the conical roller (1-13) is attached to the inner wall of the crushing and stirring cavity (1-9), an inner end sliding column (1-19) is fixedly connected with a middle end driving rod (1-11), an inner end pushing spring (1-20) is sleeved with the inner end sliding column (1-19), the inner end sliding column (1-19) is slidably connected with the cutting edge sliding frame (1-14), a driving sleeve (1-15) is slidably connected with the middle end driving rod (1-11), and a connecting belt (1-18) is arranged on the driving sleeve (1-15), The middle-end straight teeth (1-17) are rotatably connected with middle-end connecting crosses (1-21), cross rotating teeth (1-22) are fixedly connected with middle-end rotating columns (1-2), the middle-end rotating columns (1-2) are rotatably connected with the middle-end connecting crosses (1-21), the cross rotating teeth (1-22) are in meshing transmission with the middle-end straight teeth (1-17), connecting rods (1-16) are rotatably connected with middle-end driving rods (1-11), and the connecting rods (1-16) are fixedly connected with cross connecting rods (1-12).

3. A feed mixing apparatus as claimed in claim 1, wherein: the screening assembly (2) comprises a screening outer frame (2-1), side wall rods (2-2), connecting slide rods (2-3), side wall clamping grooves (2-4), a crankshaft (2-5), inner end clamps (2-6), clamp connecting rods (2-7), hinged slide rods (2-8), slide rod push springs (2-9), middle end limiting plates (2-10), filter rods (2-11), rectangular filter holes (2-12), middle end sliding columns (2-13), sliding column push springs (2-14), middle end driving rods (2-15), lower end limiting plates (2-16), filter rods (2-17), middle end sliding columns (2-18), rectangular filter holes (2-19) and rectangular sliding holes (2-20), the side wall rod (2-2) is fixedly connected with the screening outer frame (2-1), the rectangular sliding hole (2-20) is arranged on the screening outer frame (2-1), the side wall clamping groove (2-4) is arranged on the side wall rod (2-2), the crankshaft (2-5) is rotatably connected with the screening outer frame (2-1), the inner end clamp (2-6) is matched and connected with the side wall clamping groove (2-4), the inner end clamp (2-6) is slidably connected with the connecting sliding rod (2-3), the connecting sliding rod (2-3) is slidably connected with the rectangular sliding hole (2-20), the inner end clamp (2-6) is hinged with the clamp connecting rod (2-7), the clamp connecting rod (2-7) is hinged with the hinged sliding rod (2-8), the hinged sliding rod (2-8) is slidably connected with the connecting sliding rod (2-3), a slide rod push spring (2-9) is connected with a connecting slide rod (2-3) in a sleeved mode, a middle-end limiting plate (2-10) and a lower-end limiting plate (2-16) are fixedly connected with a screening outer frame (2-1), a filter rod I (2-11), a filter rod II (2-17) are connected with the middle-end limiting plate (2-10) and the lower-end limiting plate (2-16) in a sliding mode, the filter rod I (2-11) and the filter rod II (2-17) are connected with a middle-end sliding column I (2-13) and a middle-end sliding column II (2-18) in a sliding mode, a sliding column push spring I (2-14) is connected with the middle-end sliding column I (2-13) and the middle-end sliding column II (2-18) in a sleeved mode, a middle-end driving rod (2-15) is connected with the filter rod I (2-11) and the, the middle-end driving rod (2-15) is rotationally connected with the crankshaft (2-5), the middle-end frame (1-8) is fixedly connected with the screening outer frame (2-1), and the screening outer frame (2-1) is fixedly connected with the middle-end connecting cross (1-21).

4. A feed mixing apparatus as claimed in claim 1, wherein: the transmission assembly (3) comprises a first straight tooth (3-1), a straight tooth shaft (3-2), a first bevel tooth (3-3), a second bevel tooth (3-4), a third bevel tooth (3-5), a first clutch rod (3-6), a first clutch rod support (3-7), a second clutch rod (3-8), a third clutch rod (3-9) and a clutch rod push spring (3-10), wherein the first straight tooth (3-1) and the first bevel tooth (3-3) are fixedly connected with the straight tooth shaft (3-2), the first bevel tooth (3-3) is in meshing transmission with the second bevel tooth (3-4), the second bevel tooth (3-4) is in meshing transmission with the third bevel tooth (3-5), the third bevel tooth (3-5) is fixedly connected with the first clutch rod (3-6), the first clutch rod (3-6) is in rotating connection with the first clutch rod support (3-7), the first clutch rod (3-6) is connected with the second clutch rod (3-8) in a matched mode, the second clutch rod (3-8) is connected with the third clutch rod (3-9) in a sliding mode, the clutch rod push spring (3-10) is arranged between the second clutch rod (3-8) and the third clutch rod (3-9), the straight tooth shaft (3-2) is rotatably connected with the side wall hinged frame (1-6), the second bevel tooth (3-4) is fixedly connected with the crankshaft (2-5), and the screening outer frame (2-1) is fixedly connected with the bottom frame (5).

5. A feed mixing apparatus as claimed in claim 1, wherein: the power source combination body (4) comprises a power source support (4-1), a rotary column I (4-2), a conical roller I (4-3), a transmission ball I (4-4), a transmission ball rod (4-5), a transmission ball II (4-6), an adjusting ring (4-7), a conical roller II (4-8), a rotary column II (4-9), an input motor (4-10), a hinged boss (4-11), a hinged connecting rod I (4-12), a hinged pushing spring I (4-13), a hinged connecting rod II (4-14), a hinged pushing spring II (4-15) and a hinged connecting rod III (4-16), wherein the rotary column I (4-2) is rotatably connected with the power source support (4-1), and the conical roller I (4-3) is fixedly connected with the rotary column I (4-2), the conical roller I (4-3) is in meshing transmission with the transmission ball I (4-4), the transmission ball I (4-4) is fixedly connected with the transmission ball rod (4-5), the transmission ball rod (4-5) is fixedly connected with the transmission ball II (4-6), the transmission ball rod (4-5) is in matching connection with the hinged connecting rod III (4-16), the transmission ball II (4-6) is in meshing transmission with the conical roller II (4-8), the rotary column II (4-9) is fixedly connected with the conical roller II (4-8), the rotary column II (4-9) is rotatably connected with the power source bracket (4-1), the input motor (4-10) is fixedly connected with the rotary column II (4-9), the hinged connecting rod III (4-16) is hinged with the hinged connecting rod II (4-14), the hinged connecting rod II (4-14) is connected with the hinged connecting rod I (4-12) in a sliding mode, the hinged connecting rod I (4-12) is connected with the hinged boss (4-11) in a hinged mode, the hinged boss (4-11) is fixedly connected with the adjusting ring (4-7), the hinged push spring I (4-13) and the hinged push spring II (4-15) are arranged between the hinged connecting rod II (4-14) and the hinged connecting rod I (4-12), the rotary column I (4-2) is fixedly connected with the clutch rod III (3-9), and the power source support (4-1) is fixedly connected with the bottom frame (5).

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