CN114916458B - Accurate ration unloading equipment of pellet feed for lamb is bred to developments lever - Google Patents

Abstract

The invention discloses a dynamic lever type pellet feed accurate quantitative blanking device for lamb breeding, which comprises a blanking supporting seat, a blanking lifting adjusting mechanism, a ratchet wheel intermittent quantitative uniform blanking mechanism, an electrodeless gradual change blanking mixing mechanism and a proportioning mixing and stirring mechanism, wherein the blanking lifting adjusting mechanism is arranged on the upper wall of the blanking supporting seat, the ratchet wheel intermittent quantitative uniform blanking mechanism is arranged on the blanking lifting adjusting mechanism, the electrodeless gradual change blanking mixing mechanism is arranged on the ratchet wheel intermittent quantitative uniform blanking mechanism, and the dynamic lever type quantitative blanking proportioning mechanism is arranged on the electrodeless gradual change blanking mixing mechanism. The invention belongs to the field of lamb breeding, and particularly relates to a dynamic lever type pellet feed accurate and quantitative feeding device for lamb breeding, which has the technical problems that feeding is not uniform, accurate proportioning of feed cannot be flexibly carried out according to different growth stages of fed lambs, and blockage occurs due to extrusion and friction between pellet feed in the feeding process.

Description

Accurate ration unloading equipment of pellet feed for lamb is bred to developments lever

Technical Field

The invention belongs to the technical field of lamb breeding, and particularly relates to a dynamic lever type pellet feed accurate and quantitative blanking device for lamb breeding.

Background

The lamb is the basis of developing the sheep raising industry, if the lamb stage is improperly raised and managed, the interest of farmers can be directly related, so that people are required to take care of the lamb, and the lamb cannot have a tiger at all.

The forestomach is not yet developed and matured when the lamb is newborn, timely eating the colostrum is the key to improving lamb resistance and survival rate, along with the rapid growth of lamb, but the lactation volume of ewe descends thereupon, in order to satisfy the nutritional needs of lamb, the supplementary feeding is to increase lamb weight, the necessary measure of reinforcing disease resistance, will suitably mend the concentrated feed, the concentrated feed is comprehensive to be nourished, the breeder needs quantitative configuration lamb granule material, in order to satisfy the nutritional needs of lamb, consequently, need carry out accurate ration unloading to poultry, the manger of large-scale lamb breed can set up in row, but the present granulated feed unloading of livestock-raising has following problem:

1. at present, lambs are generally fed manually, but the manual feeding has large workload and uneven feeding;

2. in different growth stages of lambs, feeds need different proportions, and the conventional blanking equipment can only blank one feed and cannot meet the requirement that the lambs need to be uniformly mixed and blanked by different feeds in the breeding process;

3. a feeder can add the whole bag of feed into a feeding device during feeding, the feeding device is generally funnel-shaped, a feeding port is generally fixed in size, and when the size is too small and pellet feed is kept still for a long time, the pellet feed can be blocked due to extrusion and friction between pellets under the action of gravity;

4. when two different granulated feeds are mixed in a whole bag, the mixing is not uniform easily;

5. if two kinds of feed are required to be mixed, the two kinds of feed need to be weighed by using a platform scale in advance, and the feed cannot be flexibly proportioned at any time according to different growth stages of the fed livestock.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides the dynamic lever type pellet feed accurate and quantitative feeding equipment for lamb breeding, which solves the technical problems that the feeding is not uniform, the precise proportioning of the feed cannot be flexibly carried out according to different growth stages of the fed lamb, and the blockage is caused by the friction between the extrusion and the pellet feed in the feeding process.

The technical scheme adopted by the invention is as follows: the invention provides a dynamic lever type lamb breeding pellet feed accurate quantitative blanking device which comprises a blanking supporting seat, a blanking lifting adjusting mechanism, a ratchet wheel intermittent quantitative uniform blanking mechanism, an electrodeless gradual change blanking mixing mechanism and a proportioning mixing stirring mechanism, wherein the blanking lifting adjusting mechanism is arranged on the upper wall of the blanking supporting seat, the ratchet wheel intermittent quantitative uniform blanking mechanism is arranged on the blanking lifting adjusting mechanism, the electrodeless gradual change blanking mixing mechanism is arranged on the ratchet wheel intermittent quantitative uniform blanking mechanism, the electrodeless gradual change blanking mixing mechanism comprises a water drop type electrodeless gradual change blanking control component and a blanking anti-blocking transmission component, the water drop type electrodeless gradual change blanking control component is arranged on the ratchet wheel intermittent quantitative uniform blanking mechanism, the blanking anti-blocking transmission component is arranged on the water drop type electrodeless gradual change blanking control component, the dynamic lever type quantitative blanking proportioning mechanism is arranged on the electrodeless gradual change blanking mixing mechanism, and the proportioning mixing stirring mechanism is arranged on the dynamic lever type quantitative blanking mechanism.

In order to facilitate the adaptation to the different heights of feeding the groove, unloading lift adjustment mechanism includes unloading hydraulic lifting rod, guide support rod, lift sliding sleeve, supporting connection piece and lifting baffle, unloading hydraulic lifting rod locates blowing supporting seat upper wall one side edge, the upper end of unloading hydraulic lifting rod is located to the supporting connection piece, the upper wall of blowing supporting seat is located to the guide support rod symmetry, unloading hydraulic lifting rod both sides are located to the guide support rod symmetry, the lift sliding sleeve slides and locates on the guide support rod, lifting baffle locates the guide support rod upper end.

In order to realize the even unloading of intermittent type ration, ratchet intermittent type ration even unloading mechanism includes unloading carriage, even unloading rotation axis, even unloading motor, strengthens support rib board, the even unloading ratchet of ration and proportion mixing storehouse, the unloading carriage is located the lift sliding sleeve lateral wall, even unloading rotation axis is located between the unloading carriage inside wall, even unloading rotation axis one end runs through unloading carriage one side lateral wall, unloading carriage lateral wall is located to even unloading motor, even unloading motor is connected with even unloading rotation axis, the even unloading ratchet of ration is located on the even unloading rotation axis, the even unloading ratchet extrados array of ration is equipped with even unloading caulking groove, strengthen support rib board symmetry and locate unloading carriage upper wall both ends, the semi-circular cavity setting of upper end opening is presented in the proportion mixing storehouse, the bottom in proportion mixing storehouse is equipped with the feed opening, the even unloading ratchet upper portion is located in the proportion mixing storehouse.

In order to control the starting and stopping of the feeding barrel and control the fast and slow degree of feeding, the water-drop-type stepless gradual-change feeding control assembly comprises a feeding telescopic hydraulic rod, an anti-blocking stirring rod, a feeding control shaft, a water-drop-type stepless feeding block, a feeding barrel, a telescopic corrugated pipe, a fixing hoop, a connecting fixing plate and a feeding barrel supporting rod, wherein the feeding barrel supporting rod is symmetrically arranged on the upper wall of the proportioning mixing bin, the feeding barrel supporting rod is in an L-shaped arrangement, the fixing hoop is arranged on the feeding barrel supporting rod, the feeding barrel is arranged in the fixing hoop, the lower end of the feeding barrel is in a conical arrangement, the lower end of the feeding barrel is provided with a feeding nozzle, the upper end of the telescopic corrugated pipe is arranged at the feeding nozzle at the lower end of the feeding barrel, the connecting fixing plate is arranged on the side wall of the feeding barrel, the upper end of the feeding telescopic hydraulic rod is arranged at the lower end of the feeding control shaft, the feeding stirring rod array is arranged on the outer wall of the feeding control shaft, the water-drop-type stepless feeding plug is arranged at the lower end of the feeding barrel, the diameter of the water-drop-type stepless feeding plug is larger than the diameter of the feeding nozzle, and is convenient for controlling the opening of the feeding barrel and controlling the fast and the slow degree of the feeding.

In order to avoid down the feed cylinder to block up the unloading mouth because of pellet feed gravity extrusion, unloading is prevented blockking up drive assembly and is included belt drive motor, initiative rotation axis, belt pulley, tensioning back shaft, belt take-up pulley, is gone up and places the board, places board and driving belt down, it locates connection fixed plate upper wall to place the board down, tensioning back shaft symmetry is located and is placed board upper wall middle part down, the belt take-up pulley is located on the tensioning back shaft, it locates on the tensioning back shaft to place the board on, the initiative rotation axis runs through and locates and place board and lower place board both ends, the belt pulley is located on the initiative rotation axis, the belt pulley is located and is placed between board and the lower board, driving belt locates on belt pulley and the belt take-up pulley.

In order to realize accurate proportioning of different feeds, the dynamic lever type quantitative feeding proportioning mechanism comprises a proportioning homogenizing fixed block, a fulcrum sliding hoop, a proportioning lever supporting frame, a proportioning fulcrum rotating shaft, a connecting transmission shaft, a proportioning transmission rack, a proportioning transmission gear, a sliding limiting block, a proportioning rotating motor, proportioning scale marks, a proportioning cylinder, a feeding hydraulic rod, a lifting fixed plate, a feeding fixed ring, a feeding baffle, a balancing magnetic block and a balancing aluminum block, wherein the proportioning homogenizing fixed block is arranged at the lower wall of the connecting fixed plate, the proportioning fulcrum rotating shaft is arranged at the lower end side wall of the proportioning homogenizing fixed block in a penetrating way, the fulcrum sliding hoops are symmetrically arranged at two ends of the proportioning fulcrum rotating shaft, the fulcrum sliding hoops are arranged in an inverted U shape, the sliding limiting blocks are symmetrically arranged on the inner side wall of the fulcrum sliding hoop, the proportioning lever supporting frame is arranged in the fulcrum sliding hoop, the proportioning lever support frame is arranged between the sliding limiting block and the upper wall inside the fulcrum sliding hoop, the proportioning transmission rack is symmetrically arranged on the lower wall of the proportioning lever support frame, the connecting transmission shaft penetrates through the two fulcrum sliding hoops, the proportioning transmission gear is arranged between the inner side walls of the fulcrum sliding hoops, the proportioning transmission gear is arranged on the connecting transmission shaft, the proportioning cylinder is symmetrically hinged on the inner side walls at two ends of the proportioning lever support frame, the blanking fixing ring is arranged at the middle lower part of the outer wall of the proportioning cylinder, the blanking hydraulic rod is symmetrically arranged at the lower wall of the blanking fixing ring, the lifting fixing plate is arranged at the lower end of the blanking hydraulic rod, the blanking baffle is arranged on the lifting fixing plate, the upper wall of the blanking baffle is arranged in a conical shape, the proportioning rotating motor is arranged at the outer side wall of one side of the fulcrum sliding hoops, the proportioning rotating motor is connected with the connecting transmission shaft, the balance magnetic block is arranged at the proportioning stirring outer side wall, balance aluminium pig one end is located on the ratio fulcrum rotation axis, ratio scale mark is located ratio lever carriage lateral wall upper portion.

Feed after realizing the ratio is even, the ratio mixes homogenizes the mechanism including homogenizing the connecting rod, homogenize from the driving wheel, homogenize the action wheel, homogenize the driving shaft, homogenize the loop bar, homogenize the slide bar, homogenize the board, compression spring and homogenize the motor, homogenize the connecting rod and run through locating the ratio and homogenize the fixed block lateral wall, homogenize from the driving wheel symmetry and locate the ratio and homogenize the fixed block both sides, homogenize the driving shaft and run through locating the ratio and homogenize the fixed block lateral wall, homogenize the action wheel and locate the ratio and homogenize fixed block one side lateral wall, homogenize the motor and locate the ratio and homogenize fixed block opposite side lateral wall, homogenize the motor and homogenize the driving shaft and be connected, homogenize the loop bar symmetry and locate and homogenize the connecting rod both ends, it is the cavity setting to homogenize the loop bar, homogenize the slide bar and locate and homogenize in the loop bar, compression spring locates and homogenize the loop bar, homogenize the diapire in the loop bar, the compression spring other end is located slide bar one end, the slide bar is located between the slide bar.

Preferably, the quantitative uniform blanking ratchet wheel is intersected with the proportioning mixing bin, and the size of the uniform blanking caulking groove is smaller than that of the blanking port, so that intermittent uniform quantitative blanking is facilitated.

In the device, the lower wall of the discharging support seat is provided with the moving wheels in a pairwise symmetrical manner, and one side of the upper wall of the discharging support seat is provided with the pushing handle, so that the discharging is conveniently carried out in a movable manner to a feed trough.

The invention with the structure has the following beneficial effects:

1. in the stepless gradual change blanking mixing mechanism, a water drop type stepless blanking plug of a blanking barrel is creatively designed to be in a water drop type by utilizing a multipurpose principle, the blanking barrel can be sealed by utilizing the up-and-down telescopic adjustment of a blanking telescopic hydraulic rod, on the other hand, the upper part of the water drop type stepless blanking plug is in a gradual change cone shape, the distance between the water drop type stepless blanking plug and the side wall of a blanking nozzle can be steplessly changed by moving up and down, meanwhile, a blanking control shaft drives the water drop type stepless blanking plug to rotate, the problem that the blanking nozzle needs to be as large as possible is solved, the granular feed is prevented from being blocked at the blanking nozzle due to the action of gravity and mutual extrusion, and the blanking nozzle cannot be too large in size, so that the required blanking rate cannot be effectively adjusted according to the size of the granular feed is avoided;

2. in the dynamic lever type quantitative blanking proportioning mechanism, a preset principle is adopted, the movement of a fulcrum in the lever principle changes the weight at two ends of a lever so as to achieve balance, a proportioning transmission rack is meshed with a proportioning transmission gear, and the position of a proportioning fulcrum rotating shaft on a proportioning lever supporting frame is changed, so that the weight of granulated feed in proportioning cylinders at two sides can be accurately preset, the technical problem of accurate proportioning of the feed is solved, in order to quickly realize the balance of the proportioning cylinders at two sides, a balance aluminum block rotates around a balance magnet, eddy current is generated in the balance aluminum block by using an eddy current principle, and ampere resistance is further generated, so that the proportioning cylinders at two sides are quickly static to achieve static balance, the proportioning of the granulated feed is quickly realized, and the feed cannot be flexibly proportioned at any time according to different growth stages of raised livestock;

3. in the intermittent quantitative uniform blanking mechanism of the ratchet wheel, a proportioning mixing bin is ingeniously intersected with a quantitative uniform blanking ratchet wheel by utilizing a dynamic characteristic principle, a uniform blanking caulking groove is arranged on the outer wall array of the quantitative uniform blanking ratchet wheel, and the rotation of the quantitative uniform blanking ratchet wheel realizes that the uniform blanking caulking groove uniformly guides out the granulated feed in the proportioning mixing bin;

4. in the stepless gradual change blanking mixing mechanism, the blanking control shaft drives the water drop type stepless blanking plug to rotate and drives the anti-blocking stirring rod to rotate at the same time, so that particles are prevented from being blocked due to gravity and friction force caused by long-term rest of the two blanking barrels, and on the other hand, when a medicine needs to be added, the medicine can be uniformly stirred at any time;

5. in the feeding lifting adjusting mechanism, the lifting of the ratchet wheel gap quantitative uniform feeding mechanism is realized through the feeding hydraulic lifting rod, so that the technical problem of different heights of feed troughs caused by different animal species in animal husbandry is solved;

6. in the ratio mixes the mechanism that homogenizes, the stirring slide bar is under pressure spring's effect, and the dynamic slip in the loop bar that homogenizes has solved because of the skew of ratio lever carriage and ratio mixing storehouse after the regulation and make the loop bar that homogenizes and the rotation centre of a circle of ratio mixing storehouse misaligned technical problem.

Drawings

FIG. 1 is a schematic perspective view of a device for accurately and quantitatively feeding granulated feed for dynamic lever-type lamb breeding according to the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of a blanking lifting adjusting mechanism of the accurate quantitative blanking device for the granular feed for dynamic lever-type lamb breeding provided by the invention;

FIG. 3 is a schematic perspective view of a ratchet intermittent quantitative uniform blanking mechanism of the granular feed precise quantitative blanking device for dynamic lever type lamb breeding according to the present invention;

FIG. 4 is a top view of a ratchet intermittent quantitative uniform blanking mechanism of the granular feed precise quantitative blanking device for dynamic lever type lamb breeding provided by the invention;

fig. 5 is a schematic perspective view of a water-drop type stepless gradual change blanking control assembly of the accurate quantitative blanking device for granular feed for dynamic lever-type lamb breeding provided by the invention;

FIG. 6 is a schematic perspective view of a blanking anti-clogging transmission assembly of the dynamic lever type pellet feed precision quantitative blanking device for lamb breeding according to the present invention;

FIG. 7 is a schematic perspective view of a proportioning, mixing and stirring mechanism of the dynamic lever type pellet feed accurate and quantitative blanking device for lamb breeding according to the present invention;

FIG. 8 is a front view of a proportioning, mixing and stirring mechanism of the dynamic lever type pellet feed accurate and quantitative blanking device for lamb breeding provided by the invention;

FIG. 9 is a schematic perspective view of a dynamic lever type quantitative baiting proportioning mechanism of the dynamic lever type precise quantitative baiting device for lamb breeding according to the present invention;

fig. 10 is a schematic perspective view of a proportioning barrel of the pellet feed accurate quantitative blanking device for dynamic lever type lamb breeding according to the present invention;

FIG. 11 is an enlarged view of portion A of FIG. 9;

fig. 12 is an enlarged view of a portion B of fig. 7.

Wherein, 1, a discharging support seat, 2, a discharging lifting adjusting mechanism, 3, a ratchet wheel intermittent quantitative uniform discharging mechanism, 4, a stepless gradual change discharging mixing mechanism, 5, a water drop type stepless gradual change discharging control component, 6, a discharging anti-blocking transmission component, 7, a dynamic lever type quantitative discharging proportioning mechanism, 8, a proportioning mixing and stirring mechanism, 9, a discharging hydraulic lifting rod, 10, a guide support rod, 11, a lifting sliding sleeve, 12, a support connection block, 13, a lifting baffle, 14, a discharging support frame, 15, a uniform discharging rotating shaft, 16, a uniform discharging motor, 17, a reinforced support rib plate, 18, a quantitative uniform discharging ratchet wheel, 19, a proportioning mixing bin, 20, a uniform discharging caulking groove, 21, a discharging opening, 22, a discharging telescopic hydraulic rod, 23, an anti-blocking stirring rod, 24, a discharging control shaft, 25, a water drop type discharging stepless plug, 26, a discharging barrel, 27, a fixed hoop, 28, a charging barrel supporting rod, 29, a telescopic corrugated pipe, 30, a belt transmission motor, 31, a driving rotating shaft, 32, a belt pulley, 33, a tensioning supporting shaft, 34, a belt tensioning wheel, 35, an upper placing plate, 36, a lower placing plate, 37, a transmission belt, 38, a proportioning stirring fixed block, 39, a fulcrum sliding hoop, 40, a proportioning lever supporting frame, 41, a proportioning fulcrum rotating shaft, 42, a connecting transmission shaft, 43, a proportioning transmission rack, 44, a proportioning transmission gear, 45, a sliding limiting block, 46, a proportioning rotating motor, 47, a proportioning scale line, 48, a proportioning barrel, 49, a blanking hydraulic rod, 50, a lifting fixed plate, 51, a blanking fixed ring, 52, a blanking baffle, 53, a balance, 54, a balance aluminum block, 55, a stirring connecting rod, 56, a stirring driven wheel, 57, a driving wheel, 58 and a driving shaft, 59. homogenize loop bar, 60, homogenize slide bar, 61, homogenize board, 62, pressure spring, 63, homogenize motor, 64, moving wheel, 65, promote the handle, 66, unloading mouth, 67, connect the fixed plate.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in figure 1, the invention provides a dynamic lever type lamb breeding pellet feed accurate quantitative blanking device which comprises a material discharging supporting seat 1, a blanking lifting adjusting mechanism 2, a ratchet wheel intermittent quantitative uniform blanking mechanism 3, a stepless gradual-change blanking mixing mechanism 4 and a proportioning mixing and stirring mechanism 8, wherein the blanking lifting adjusting mechanism 2 is arranged on the upper wall of the material discharging supporting seat 1, the ratchet wheel intermittent quantitative uniform blanking mechanism 3 is arranged on the blanking lifting adjusting mechanism 2, the stepless gradual-change blanking mixing mechanism 4 is arranged on the ratchet wheel intermittent quantitative uniform blanking mechanism 3, the stepless gradual-change blanking mixing mechanism 4 comprises a water drop type stepless gradual-change blanking control component 5 and a blanking anti-blockage transmission component 6, the water drop type stepless gradual-change blanking control component 5 is arranged on the ratchet wheel intermittent quantitative uniform blanking mechanism 3, the blanking anti-blockage transmission component 6 is arranged on the water drop type stepless gradual-change blanking control component 5, the dynamic lever type quantitative proportioning mechanism 7 is arranged on the stepless gradual-change blanking mixing mechanism 4, and the proportioning mixing mechanism 8 is arranged on the dynamic lever type quantitative blanking proportioning mechanism 7.

As shown in fig. 2, for the convenience of adapting to the different heights of lamb feeding trough, unloading lift adjustment mechanism 2 includes unloading hydraulic lifting rod 9, guide support pole 10, lifting slide sleeve 11, supporting connection piece 12 and adjustable fender 13, unloading hydraulic lifting rod 9 locates 1 upper wall one side reason of blowing supporting seat, supporting connection piece 12 locates unloading hydraulic lifting rod 9 upper end, 1 upper wall of blowing supporting seat is located to guide support pole 10 symmetry, 9 both sides of unloading hydraulic lifting rod are located to guide support pole 10 symmetry, lifting slide sleeve 11 slides and locates on the guide support pole 10, adjustable fender 13 locates guide support pole 10 upper end.

As shown in fig. 3 and 4, in order to realize intermittent quantitative uniform blanking, the ratchet intermittent quantitative uniform blanking mechanism 3 includes a blanking support frame 14, a uniform blanking rotation axis 15, a uniform blanking motor 16, an enhanced support rib 17, a quantitative uniform blanking ratchet 18 and a proportioning mixing bin 19, wherein the blanking support frame 14 is provided with a side wall of a lifting sliding sleeve 11, the uniform blanking rotation axis 15 is provided between inside walls of the blanking support frame 14, one end of the uniform blanking rotation axis 15 runs through the side wall of one side of the blanking support frame 14, the uniform blanking motor 16 is provided with the side wall of the blanking support frame 14, the uniform blanking motor 16 is connected with the uniform blanking rotation axis 15, the quantitative uniform blanking ratchet 18 is provided on the uniform blanking rotation axis 15, an array of outer arc surfaces of the quantitative uniform blanking ratchet 18 is provided with uniform blanking caulking grooves 20, the enhanced support rib 17 is symmetrically provided at two ends of the upper wall of the blanking support frame 14, the proportioning mixing bin 19 is provided with a semicircular hollow cavity with an upper opening, the bottom of the proportioning mixing bin 19 is provided with a blanking opening 21, the proportioning mixing bin 19 is provided with an upper portion provided with the ratchet 18, the proportioning mixing bin 19 which is provided with an intermittent size smaller than the size of the intermittent uniform blanking ratchet 18, and is convenient for intermittent size.

As shown in fig. 5 and 6, in order to control the start and stop of the feeding barrel 26 and control the blanking speed, the water-drop-type stepless gradual-change blanking control assembly 5 includes a blanking telescopic hydraulic rod 22, an anti-blocking stirring rod 23, a blanking control shaft 24, a water-drop-type stepless blanking plug 25, a feeding barrel 26, a telescopic bellows 29, a fixed hoop 27, a connecting and fixing plate 67 and a feeding barrel support rod 28, the feeding barrel support rod 28 is symmetrically arranged on the upper wall of the proportioning mixing bin 19, the feeding barrel support rod 28 is in an L-shaped arrangement, the fixed hoop 27 is arranged on the feeding barrel support rod 28, the feeding barrel 26 is arranged in the fixed hoop 27, the lower end of the feeding barrel 26 is in a conical arrangement, the lower end of the feeding barrel 26 is provided with a blanking nozzle 66, the upper end of the telescopic bellows 29 is arranged at the blanking nozzle 66 at the lower end of the feeding barrel 26, feed can be flexibly guided into the proportioning barrel 48, the connecting and fixing plate 67 is arranged on the side wall of the symmetrical feeding barrel 26, the upper end of the blanking telescopic hydraulic rod 22 is arranged at the lower end of the driving rotating shaft 31, the upper end of the blanking telescopic hydraulic rod 24 is arranged at the lower end of the blanking telescopic hydraulic rod array 23, the lower end of the anti-drop-blocking stirring rod 25, and the anti-drop-blocking control assembly is arranged at the size of the lower end of the anti-drop-blocking stirring rod 25.

As shown in fig. 6, in order to prevent the feeding nozzle 66 from being blocked by the gravity extrusion of the pellet feed in the feeding barrel 26, the feeding anti-blocking transmission assembly 6 includes a belt transmission motor 30, a driving rotation shaft 31, a belt pulley 32, a tension support shaft 33, a belt tension pulley 34, an upper placing plate 35, a lower placing plate 36 and a transmission belt 37, wherein the lower placing plate 36 is disposed on the upper wall of the connection fixing plate 67, the tension support shaft 33 is symmetrically disposed on the middle portion of the upper wall of the lower placing plate 36, the belt tension pulley 34 is disposed on the tension support shaft 33, the upper placing plate 35 is disposed on the tension support shaft 33, the driving rotation shaft 31 penetrates through both ends of the upper placing plate 35 and the lower placing plate 36, the belt pulley 32 is disposed on the driving rotation shaft 31, the belt pulley 32 is disposed between the upper placing plate 35 and the lower placing plate 36, and the transmission belt 37 is disposed on the belt pulley 32 and the belt tension pulley 34.

As shown in fig. 9, 10 and 11, in order to realize accurate proportioning of different feeds, the dynamic lever-type quantitative feed proportioning mechanism 7 includes a proportioning stirring fixing block 38, a fulcrum sliding hoop 39, a proportioning lever supporting frame 40, a proportioning fulcrum rotating shaft 41, a connecting transmission shaft 42, a proportioning transmission rack 43, a proportioning transmission gear 44, a sliding limiting block 45, a proportioning rotating motor 46, a proportioning graduation line 47, a proportioning cylinder 48, a feed hydraulic rod 49, a lifting fixing plate 50, a feed fixing ring 51, a feed baffle 52, a balance magnet 53 and a balance aluminum block 54, the proportioning stirring fixing block 38 is arranged at the lower wall of the connecting fixing plate 67, the proportioning fulcrum rotating shaft 41 is arranged at the lower end of the proportioning stirring fixing block 38 in a penetrating manner, the fulcrum sliding hoops 39 are symmetrically arranged at both ends of the proportioning fulcrum rotating shaft 41, the fulcrum sliding hoops 39 are arranged in an inverted U-shaped manner, the sliding limiting block 45 is symmetrically arranged at the inner wall of the fulcrum sliding hoop 39, the proportioning lever supporting frame 40 is arranged in the fulcrum sliding hoop 39 in a sliding manner, the proportioning lever supporting frame 40 is arranged between the sliding hoop 45 and the upper wall of the fulcrum sliding hoop 39, the fulcrum sliding fixing ring 50 is arranged at the lower wall of the fulcrum sliding fixing plate, the two fulcrum sliding hoop, the proportioning transmission shaft 42 is arranged at the upper end of the two fulcrum sliding hoop 49, the proportioning transmission rack 43, the feed stirring fixing ring 50, the lower wall of the proportioning lever supporting frame is hinged to the feed stirring fixing ring 50, the proportioning transmission shaft 50 is hinged to the feed stirring fixing ring 48, the unloading baffle 52 upper wall is the circular cone type setting, the pivot slip hoop 39 one side lateral wall is located to ratio rotating electrical machines 46, ratio rotating electrical machines 46 is connected with connecting drive shaft 42, balanced magnetic path 53 is located the ratio and is homogenized fixed block 38 lateral wall, balanced aluminium pig 54 one end is located on ratio pivot rotation axis 41, ratio lever carriage 40 lateral wall upper portion is located to ratio scale mark 47.

As shown in fig. 7, fig. 12, fodder after in order to realize the ratio is even, the ratio mixes homogenizes mechanism 8 including homogenize connecting rod 55, homogenize from driving wheel 56, homogenize action wheel 57, homogenize driving shaft 58, homogenize loop bar 59, homogenize slide bar 60, homogenize board 61, pressure spring 62 and homogenize motor 63, homogenize connecting rod 55 and run through and locate the ratio and homogenize fixed block 38 lateral wall, homogenize from driving wheel 56 symmetry and locate and homogenize on connecting rod 55, homogenize from driving wheel 56 symmetry and homogenize fixed block 38 both sides, homogenize driving shaft 58 and run through and locate the ratio and homogenize fixed block 38 lateral wall, homogenize action wheel 57 and locate to homogenize on the driving shaft 58, homogenize action wheel 57 and locate the ratio and homogenize fixed block 38 lateral wall, homogenize motor 63 and homogenize fixed block 38 opposite side lateral wall, homogenize motor 63 and driving shaft 58 and be connected, homogenize loop bar 59 symmetry and homogenize and locate the connecting rod 55 both ends, homogenize loop bar 59 is the cavity setting, slide bar 60 slides and locates in the loop bar 59, compress tightly in spring 62, the loop bar 59, compress tightly the one end of spring 62 is located and homogenize the loop bar 59, homogenize the one end of spring 62, the slide bar 60.

As shown in figure 1, in the device, moving wheels 64 are symmetrically arranged on the lower wall of the discharging support seat 1 in pairs, and a pushing handle 65 is arranged on one side of the upper wall of the discharging support seat 1, so that the discharging is conveniently carried out in a moving mode into a trough.

When the quantitative uniform blanking device is used, the blanking hydraulic lifting rod 9 is adjusted, the blanking hydraulic lifting rod 9 pushes the support connecting block 12 to move up and down, the blanking support frame 14 is further adjusted to move up and down, the quantitative uniform blanking ratchet wheel 18 is aligned to the position right above a lamb trough, the blanking telescopic hydraulic rods 22 are respectively adjusted, the blanking telescopic hydraulic rods 22 pull the blanking control shaft 24 upwards, the blanking control shaft 24 pulls the water drop type electrodeless blanking plug 25 upwards, the water drop type electrodeless blanking plug 25 plugs the blanking nozzle 66 at the moment, then two different granulated feeds are respectively added into the blanking barrel 26, then the position of the proportioning fulcrum rotating shaft 41 is adjusted according to the proportion of the two granulated feeds and the proportioning scale mark 47, the proportioning rotating motor 46 is started, the proportioning rotating motor 46 drives the connecting transmission shaft 42 to rotate, the connecting transmission shaft 42 drives the transmission gear 44 to rotate, the proportioning transmission gear 44 is meshed with the proportioning transmission rack 43, the proportioning lever support frames 40 are driven to move, the positions of the proportioning lever support frames 40 and the proportioning fulcrum rotating shaft 41 are determined, the lengths of the proportioning lever support frames 40 on the two sides of the proportioning fulcrum rotating shaft 41 are different, quantitative proportioning is realized in advance, one blanking telescopic hydraulic rod 22 is adjusted again, the blanking nozzle 66 of one blanking barrel 26 is opened slowly, when the telescopic bellows 29 is required to be extended into the proportioning barrel 48 in advance, granulated feed of the blanking barrel 26 falls into the corresponding proportioning barrel 48 through the telescopic bellows 29, one end of the blanking barrel 26 inclines downwards due to unbalanced gravity, the blanking telescopic hydraulic rod 22 is adjusted again, the blanking telescopic hydraulic rod 22 moves upwards, the water-drop-type stepless blanking plug 25 plugs the blanking nozzle 66, the other blanking telescopic hydraulic rod 22 is adjusted, the blanking telescopic hydraulic rod 22 moves downwards to open the blanking nozzle 66, the granulated feed uniformly falls into the proportioning cylinder 48, the proportioning cylinders 48 on both sides are slowly balanced, eddy current is generated in the balance aluminum blocks 54 because the balance aluminum blocks 54 rotate around the balance magnetic blocks 53, so that ampere resistance is generated, the proportioning cylinders 48 on both sides are quickly kept still, the proportioning cylinders 48 on both sides can be quickly adjusted to be balanced, after the balance is achieved, the blanking hydraulic rods 49 on both sides are controlled, the blanking hydraulic rods 49 downwards push the blanking baffle plates 52, because the upper walls of the blanking baffle plates 52 are conical, the granulated feed in the proportioning cylinders 48 enters the proportioning mixing bin 19, then the homogenizing motor 63 is opened, the homogenizing motor 63 drives the homogenizing driving shaft 58 to rotate, the homogenizing driving shaft 58 drives the homogenizing driving wheel 57 to rotate, the homogenizing driving wheel 57 drives the homogenizing driven wheel 56 to rotate, the homogenizing driven wheel 56 drives the homogenizing connecting rod 55 to rotate, the homogenizing connecting rod 55 drives the homogenizing sleeve rod 59 to rotate, the homogenizing sleeve rod 59 drives the homogenizing sliding rod 60 to rotate, the homogenizing sliding rod 60 drives the homogenizing roller to uniformly stir the pellet feed in the proportioning mixing bin 19, then the uniform blanking motor 16 is opened, the uniform blanking motor 16 drives the uniform blanking rotating shaft 15 to rotate, the uniform blanking rotating shaft 15 drives the quantitative uniform blanking ratchet wheel 18 to rotate, the quantitative uniform blanking ratchet wheel 18 enters the proportioning mixing bin 19, the pellet feed enters the uniform blanking caulking groove 20 at the moment, when the quantitative uniform blanking ratchet wheel 18 continues to rotate, the uniform blanking caulking groove 20 filled with the pellet feed rotates to the outside of the proportioning mixing bin 19, then the pellet feed is uniformly and quantitatively distributed to the feeding groove of the lamb, at the moment, a worker pushes the discharging supporting seat 1 to move along the strip-shaped lamb feeding groove, and opens the belt transmission motor 30, the belt transmission motor 30 drives the driving rotating shaft 31 to rotate, so that the electric transmission belt 37 rotates to further drive the feeding telescopic hydraulic rod 22 to rotate, the feeding control shaft 24 is driven to rotate, the feeding control shaft 24 drives the anti-blocking stirring rod 23 to rotate, and the anti-blocking stirring rod 23 stirs the granulated feed in the feeding barrel 26.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (4)

1. Accurate ration unloading equipment of pellet feed for developments lever lamb is bred, its characterized in that: comprises that

A discharging supporting seat (1);

the blanking lifting adjusting mechanism (2), the blanking lifting adjusting mechanism (2) is arranged on the upper wall of the blanking supporting seat (1);

the ratchet intermittent quantitative uniform blanking mechanism (3) is arranged on the blanking lifting adjusting mechanism (2);

the device comprises a stepless gradual change blanking mixing mechanism (4), wherein the stepless gradual change blanking mixing mechanism (4) is arranged on a ratchet wheel intermittent quantitative uniform blanking mechanism (3), the stepless gradual change blanking mixing mechanism (4) comprises a water drop type stepless gradual change blanking control component (5) and a blanking anti-blocking transmission component (6), the water drop type stepless gradual change blanking control component (5) is arranged on the ratchet wheel intermittent quantitative uniform blanking mechanism (3), and the blanking anti-blocking transmission component (6) is arranged on the water drop type stepless gradual change blanking control component (5);

the dynamic lever-type quantitative blanking proportioning mechanism (7), the dynamic lever-type quantitative blanking proportioning mechanism (7) is arranged on the stepless gradual change blanking mixing mechanism (4);

the proportioning, mixing and stirring mechanism (8), the proportioning, mixing and stirring mechanism (8) is arranged on the dynamic lever-type quantitative blanking proportioning mechanism (7);

the blanking lifting adjusting mechanism (2) comprises a blanking hydraulic lifting rod (9), a guide supporting rod (10), a lifting sliding sleeve (11), a supporting connecting block (12) and a lifting baffle (13), wherein the blanking hydraulic lifting rod (9) is arranged at one side edge of the upper wall of the blanking supporting seat (1), the supporting connecting block (12) is arranged at the upper end of the blanking hydraulic lifting rod (9), the guide supporting rod (10) is symmetrically arranged on the upper wall of the blanking supporting seat (1), the guide supporting rod (10) is symmetrically arranged at two sides of the blanking hydraulic lifting rod (9), the lifting sliding sleeve (11) is slidably arranged on the guide supporting rod (10), and the lifting baffle (13) is arranged at the upper end of the guide supporting rod (10);

the ratchet intermittent quantitative uniform blanking mechanism (3) comprises a blanking support frame (14), a uniform blanking rotating shaft (15), a uniform blanking motor (16), a reinforcing support rib plate (17), a quantitative uniform blanking ratchet (18) and a proportioning mixing bin (19), wherein the blanking support frame (14) is arranged on the side wall of a lifting sliding sleeve (11), the uniform blanking rotating shaft (15) is arranged between the inner side walls of the blanking support frame (14), one end of the uniform blanking rotating shaft (15) penetrates through the side wall of one side of the blanking support frame (14), the uniform blanking motor (16) is arranged on the side wall of the blanking support frame (14), the uniform blanking motor (16) is connected with the uniform blanking rotating shaft (15), the quantitative uniform blanking ratchet (18) is arranged on the uniform blanking rotating shaft (15), an outer arc surface array of the quantitative uniform blanking ratchet (18) is provided with a uniform blanking caulking groove (20), the reinforcing support rib plate (17) is symmetrically arranged at two ends of the upper wall of the blanking support frame (14), a semicircular cavity of the proportioning mixing bin (19) with an open upper side is arranged, and the proportioning mixing bin (19) is arranged at the bottom of the proportioning mixing bin (19);

the water drop type stepless gradual change blanking control assembly (5) comprises a blanking telescopic hydraulic rod (22), an anti-blocking stirring rod (23), a blanking control shaft (24), a water drop type stepless blanking plug (25), a blanking barrel (26), a telescopic corrugated pipe (29), a fixing hoop (27), a connecting fixing plate (67) and a charging barrel supporting rod (28), wherein the charging barrel supporting rod (28) is symmetrically arranged on the upper wall of a proportioning mixing bin (19), the charging barrel supporting rod (28) is arranged in an L shape, the fixing hoop (27) is arranged on the charging barrel supporting rod (28), the blanking barrel (26) is arranged in the fixing hoop (27), the lower end of the blanking barrel (26) is arranged in a conical shape, a blanking nozzle (66) is arranged at the lower end of the blanking barrel (26), the upper end of the telescopic corrugated pipe (29) is arranged at a blanking nozzle (66) at the lower end of the blanking barrel (26), the connecting fixing plate (67) is arranged on the side wall of the symmetrical blanking barrel (26), the upper end of the blanking telescopic hydraulic rod (22) is actively arranged at the lower end of the rotary shaft (24), and the lower end of the anti-blocking stirring rod (23) is arranged on the outer wall of the rotary shaft (25);

the blanking anti-blocking transmission assembly (6) comprises a belt transmission motor (30), a driving rotating shaft (31), a belt pulley (32), a tensioning support shaft (33), a belt tensioning wheel (34), an upper placing plate (35), a lower placing plate (36) and a transmission belt (37), wherein the lower placing plate (36) is arranged on the upper wall of a connecting and fixing plate (67), the tensioning support shaft (33) is symmetrically arranged in the middle of the upper wall of the lower placing plate (36), the belt tensioning wheel (34) is arranged on the tensioning support shaft (33), the upper placing plate (35) is arranged on the tensioning support shaft (33), the driving rotating shaft (31) penetrates through the upper placing plate (35) and the lower placing plate (36), the belt pulley (32) is arranged on the driving rotating shaft (31), the belt pulley (32) is arranged between the upper placing plate (35) and the lower placing plate (36), and the transmission belt (37) is arranged on the belt pulley (32) and the belt tensioning wheel (34);

the dynamic lever type quantitative blanking proportioning mechanism (7) comprises a proportioning stirring fixing block (38), a fulcrum sliding hoop (39), a proportioning lever supporting frame (40), a proportioning fulcrum rotating shaft (41), a connecting transmission shaft (42), a proportioning transmission rack (43), a proportioning transmission gear (44), a sliding limiting block (45), a proportioning rotating motor (46), proportioning scale marks (47), a proportioning cylinder (48), a blanking hydraulic rod (49), a lifting fixing plate (50), a blanking fixing ring (51), a blanking baffle plate (52), a balance magnetic block (53) and a balance aluminum block (54), wherein the proportioning stirring fixing block (38) is arranged on the lower wall of the connecting fixing plate (67), the proportioning fulcrum rotating shaft (41) is arranged on the side wall at the lower end of the proportioning stirring fixing block (38) in a penetrating manner, the fulcrum sliding hoops (39) are symmetrically arranged at two ends of the fulcrum rotating shaft (41), the fulcrum sliding hoops (39) are arranged in an inverted U shape, the sliding limiting block (45) is symmetrically arranged on the inner side wall of the fulcrum sliding hoop (39), the proportioning lever supporting frame (40) is arranged between the fulcrum sliding limiting block (45) and the fulcrum sliding limiting block (43), connecting transmission shaft (42) and running through two fulcrum slip hoops (39), ratio drive gear (44) are located between fulcrum slip hoop (39) inside wall, ratio drive gear (44) are located and are connected on transmission shaft (42), ratio section of thick bamboo (48) symmetry hinge locates ratio lever carriage (40) both ends inside wall, lower part in ratio section of thick bamboo (48) outer wall is located to unloading solid fixed ring (51), unloading hydraulic stem (49) symmetry is located unloading solid fixed ring (51) lower wall, unloading hydraulic stem (49) lower extreme is located to lift fixed plate (50), unloading baffle (52) are located on lift fixed plate (50), unloading baffle (52) upper wall is the circular cone type setting, ratio rotating electrical machines (46) are located fulcrum slip hoop (39) one side lateral wall, ratio rotating electrical machines (46) homogenize and are connected with connecting transmission shaft (42), ratio fixed block (38) lateral wall is located to balanced magnetic path (53), balanced aluminium pig (54) one end is located on fulcrum rotation axis (41), ratio lever carriage (40) upper portion lateral wall is located to scale mark (47);

the ratio mixes and homogenizes mechanism (8) including homogenize connecting rod (55), homogenize from driving wheel (56), homogenize action wheel (57), homogenize driving shaft (58), homogenize loop bar (59), homogenize slide bar (60), homogenize board (61), compression spring (62) and homogenize motor (63), homogenize connecting rod (55) and run through locating the ratio and homogenize fixed block (38) lateral wall, homogenize from driving wheel (56) symmetry and locate and homogenize on connecting rod (55), homogenize from driving wheel (56) symmetry and locate the ratio and homogenize fixed block (38) both sides, homogenize driving shaft (58) and run through and locate and homogenize fixed block (38) lateral wall, homogenize action wheel (57) and locate and homogenize on driving shaft (58), homogenize action wheel (57) and locate ratio fixed block (38) one side lateral wall, homogenize motor (63) and locate ratio and homogenize fixed block (38) opposite side wall, homogenize motor (63) and homogenize and be connected with driving shaft (58), cavity loop bar (59) symmetry is located connecting rod (55) both ends, locate and homogenize loop bar (59) and be the body setting, locate and homogenize slide bar (60), homogenize in compress tightly loop bar (59) and homogenize in spring (59), the other end of the compression spring (62) is arranged at one end of the homogenizing sliding rod (60), and the homogenizing plate (61) is arranged between the inner side walls of the homogenizing sliding rod (60).

2. The apparatus of claim 1 for accurate and quantitative baiting of pellet feed for dynamic lever type lamb breeding, which is characterized in that: the diameter of the lower end of the water drop type electrodeless blanking plug (25) is larger than that of the blanking nozzle (66).

3. The apparatus of claim 2 for the accurate quantitative blanking of pellet feed for dynamic lever type lamb cultivation, which is characterized in that: the quantitative uniform blanking ratchet wheel (18) is intersected with the proportioning mixing bin (19), and the size of the uniform blanking caulking groove (20) is smaller than that of the blanking port (21).

4. The apparatus of claim 3 for the accurate quantitative blanking of pellet feed for dynamic lever type lamb cultivation, which is characterized in that: the device is characterized in that the lower wall of the discharging supporting seat (1) is provided with moving wheels (64) in pairwise symmetry, and one side of the upper wall of the discharging supporting seat (1) is provided with a pushing handle (65).

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