CN114568350B - Feeding device and feeding method for feeding meat ducks - Google Patents

Abstract

The invention discloses a feeding device for feeding meat ducks, and particularly relates to a using method of the feeding device for feeding meat ducks, wherein the feeding device comprises a rack, a feed box to be stirred, a feed box, a crushing box, a mixing tank, a feed pool, a telescopic feeder and a transverse limiting moving device; the telescopic feeding machine is arranged below the mixing tank and comprises a first chain slat conveyor and a second chain slat conveyor; one end of the bottom of the first chain plate type conveyor, which is close to the mixing tank, is hinged with the frame; the second chain slat conveyor is telescopically arranged at the bottom of the first chain slat conveyor; horizontal spacing mobile device sets up in the frame and is close to one side in material pond, and the setting of the output activity of second chain slat conveyor is in horizontal spacing mobile device's execution portion, and how even technical problem that drops into the foodstuff into the material pond has been solved in this application.

Description

Feeding device and feeding method for feeding meat ducks

Technical Field

The invention relates to the technical field of poultry feeding, in particular to a feeding device for feeding meat ducks, and further relates to a using method of the feeding device for feeding meat ducks.

Background

The duck belongs to one kind of poultry, when raising the duck, need use the duck house, in the use of duck house, need regularly raise the duck in the duck house every day, consequently just need use duck fodder feeding device for the duck house.

When eating, current duck house adopts the manual work to stir the duck fodder usually, throws the food in the duck house regularly again to the duck house to because the quantity of duck house duck is great, the length in fodder pond is longer relatively, and the great duck of the quantity of being convenient for eats altogether, when throwing the food, needs artifical even to drop into the fodder pond, leads to wasting time and energy, throws edible efficiency and is lower.

Disclosure of Invention

In order to solve the technical problems, the invention provides a feeding device and a feeding method for feeding meat ducks.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a feeding device for feeding meat ducks comprises a rack, a food material box to be stirred, a feed box, a crushing box, a mixing tank and a material pool, wherein the food material box to be stirred and the feed box are respectively arranged on the rear side of the rack;

the telescopic feeding machine is arranged below the mixing tank and comprises a first chain plate type conveyor and a second chain plate type conveyor;

the first chain plate type conveyor is arranged below the mixing tank, a feed opening is formed in the bottom of the mixing tank, the input end of the first chain plate type conveyor corresponds to the feed opening of the mixing tank, and one end, close to the mixing tank, of the bottom of the first chain plate type conveyor is hinged to the rack;

the second chain slat conveyor is arranged at the bottom of the first chain slat conveyor in a telescopic manner, the second chain slat conveyor and the first chain slat conveyor are linearly distributed, and the output end of the second chain slat conveyor faces the material pool;

the transverse limiting and moving device is arranged on one side of the rack close to the material pool, and the output end of the second chain plate type conveyor is movably arranged on the execution part of the transverse limiting and moving device;

a support hinge frame which is vertically arranged is arranged at one end, close to the mixing tank, below the first chain plate conveyor, the bottom of the support hinge frame is fixedly connected with the rack, and a hinge column which can be rotatably connected with the top of the support hinge frame is arranged at one end, close to the support hinge frame, of the bottom of the first chain plate conveyor;

preferably, the transverse limiting and moving device comprises a fixed frame, a linear sliding table and a linear sliding rail;

the fixing frame is vertically and fixedly arranged at one end of the second chain slat type conveyor close to the material pool;

the linear sliding table is arranged above the fixed frame in a horizontal position, the linear sliding table is fixedly arranged on the rack, an execution part of the linear sliding table is provided with a first linear sliding block, the bottom of the first linear sliding block is provided with a first bearing sleeve, and the center of the top of the fixed frame is vertically provided with a first articulated shaft capable of rotating in the first bearing sleeve;

the linear slide rail is arranged below the fixed frame in a horizontal position, the linear slide rail and the linear sliding table are distributed in parallel, a second linear slide block is arranged on the linear slide rail in a sliding mode, a second bearing sleeve is arranged at the top of the second linear slide block, and a second hinge shaft capable of rotating in the second bearing sleeve is vertically arranged at the center of the bottom of the fixed frame;

the lengths of the linear sliding table, the linear sliding rail and the material pool are consistent

Preferably, the bottom of the first chain slat type conveyer is provided with two linear slideways which are arranged on two sides of the first chain slat type conveyer in parallel, and two linear sliding plates which can slide on the corresponding linear slideways are respectively arranged on two sides of the top of the second chain slat type conveyer.

Preferably, the lower end of the food box to be stirred is funnel-shaped, a first blanking hole is formed in the bottom of the food box to be stirred, a first material guide mechanism is arranged at the blanking hole of the first food box to be stirred, and the first material guide mechanism comprises a first rotating shaft and a first guide plate;

the first rotating shaft is transversely and rotatably arranged in the food box to be stirred and close to the first blanking hole;

the first guide plates are four and are distributed outside the first rotating shaft at equal intervals along the axis of the first rotating shaft, and a first cavity for containing foodstuff in the foodstuff box to be mashed is formed between every two adjacent first guide plates.

Preferably, the lower end of the feed box is funnel-shaped, a second feeding hole is formed in the bottom of the feed box, a second material guiding mechanism is arranged at the second feeding hole of the feed box, and the second material guiding mechanism comprises a second rotating shaft and a second guide plate;

the second rotating shaft is transversely and rotatably arranged in the food box to be stirred and close to the second discharging hole;

the second guide plates are four and are distributed outside the first rotating shaft at equal intervals along the axis of the first rotating shaft, and a second cavity for containing the feed in the feed box is formed between every two adjacent first guide plates.

Preferably, a crushing device is arranged inside the crushing box and comprises a crushing roller and a gear;

the crushing roller is provided with a pair of crushing rollers, the two crushing rollers are oppositely arranged inside the upper end of the crushing roller in parallel, and the crushing roller can be rotatably arranged inside the crushing box;

the quantity of gear is the same and the outside of broken box is located to the one-to-one position with the quantity of crushing roller, and two gears are respectively through bull stick and two corresponding crushing roller one end fixed connection, and two gear intermeshing set up.

Preferably, the rack is also provided with a synchronous driving device, and the synchronous driving device comprises a first servo motor and a synchronous belt transmission mechanism;

the synchronous belt transmission mechanism comprises a first transmission wheel, a second transmission wheel and a third transmission wheel;

the first driving wheel is coaxially arranged at one end of the first rotating shaft;

the second driving wheel is coaxially arranged at one end of the second rotating shaft;

the third driving wheel is coaxially arranged at one end of one of the two crushing rollers, and the first driving wheel, the second driving wheel and the third driving wheel are in transmission connection through synchronous belts;

the first servo motor is arranged on the rack, and an output shaft of the first servo motor is fixedly connected with the center of the second driving wheel.

Preferably, a stirring device is arranged in the mixing tank, and the stirring device comprises a second servo motor, a stirring shaft and stirring blades;

the second servo motor is arranged at the center of the top of the mixing tank, and an output shaft of the second servo motor can rotatably penetrate through the center of the top of the mixing tank and extends into the mixing tank;

the stirring shaft is vertically arranged on an output shaft of the second servo motor;

the stirring blades are provided with a plurality of stirring blades and are distributed at equal intervals outside the stirring blades.

Preferably, a quantitative discharging device is arranged at a discharging opening of the mixing tank, and the quantitative discharging device comprises a quantitative cylinder, a third servo motor, a third rotating shaft, a quantitative plate and a material guide channel;

the quantitative cylinder is horizontally arranged at the feed opening of the mixing tank, and is provided with an inlet hole communicated with the interior of the mixing tank;

the material guide channel is radially arranged on the outer wall, far away from the feed opening, of the material guide channel in an inclined manner, one end of the material guide channel is communicated with the inside of the quantifying cylinder, and the other end of the material guide channel faces the input end of the first chain slat conveyor;

the third rotating shaft is coaxial and can be rotatably arranged at the inner center of the quantitative cylinder;

the quantitative plates are provided with a plurality of quantitative plates and are distributed outside the third rotating shaft at equal intervals along the axis of the third rotating shaft, one end of each quantitative plate, far away from the third rotating shaft, is tightly attached to the inner wall of the quantitative through hole, and a third cavity for mixing foodstuff in the tank is formed between every two adjacent quantitative plates;

the third servo motor is arranged on the rack, and an output shaft of the third servo motor is fixedly connected with one end of the second rotating shaft.

A feeding method based on a feeding device for feeding meat ducks comprises the following steps:

s1, putting foodstuff to be mashed into a foodstuff box to be mashed;

s2, placing the prepared feed into a feed box;

s3, feeding foodstuff to be crushed into a crushing box, crushing the foodstuff by using a crushing device, and feeding the crushed foodstuff into a mixing tank;

s4, putting the prepared feed into a mixing tank;

s5, mixing the crushed foodstuff with the feed through a mixing tank to obtain mixed foodstuff;

s6, feeding the foodstuff mixed in the mixing tank onto a telescopic feeder, and feeding the foodstuff into a material pool through the telescopic feeder;

s7, the telescopic feeder drives the feeder to move horizontally along the length direction of the material pool through the transverse limiting moving device, so that the feeder can uniformly feed mixed foodstuff into the material pool.

Compared with the prior art, the beneficial effect of this application is:

1. according to the invention, the foodstuff to be stirred is placed into the foodstuff box to be stirred by an operator, the prepared feed is placed into the feed box by the operator, the foodstuff to be crushed is put into the crushing box and crushed by the crushing device, the crushed foodstuff is put into the mixing tank, the prepared feed is put into the mixing tank, the crushed foodstuff and the feed are mixed by the mixing tank to obtain the mixed foodstuff, the foodstuff mixed in the mixing tank is put into the telescopic feeder, and the telescopic feeder feeds the foodstuff into the feed tank, the telescopic feeder drives the feeder to translate along the length direction of the feed tank through the transverse limiting moving device, so that the feeder uniformly feeds the mixed foodstuff into the feed tank, and the technical problem of how to uniformly feed the foodstuff into the feed tank is solved.

2. According to the invention, the hinge post arranged at the bottom of the first chain plate type conveyor is rotatably arranged at the top of the support hinge frame to limit the input end of the first chain plate type conveyor to be always in butt joint with the feed opening of the mixing tank, so that the technical problem of how to limit the input end of the first chain plate type conveyor to be always in butt joint with the feed opening of the mixing tank is solved.

3. According to the invention, the linear sliding plates arranged on two sides of the top of the second chain slat type conveyor move along the two corresponding linear sliding rails at the bottom of the first chain slat type conveyor in a limiting manner, so that the second chain slat type conveyor can stretch along the conveying direction of the first chain slat type conveyor, and the technical problem of how to stretch the second chain slat type conveyor below the first chain slat type conveyor is solved.

4. According to the invention, the execution part of the linear sliding table drives the first linear sliding block, the first bearing sleeve and the fixing frame to translate along the conveying direction of the first linear sliding table, the fixing frame drives the output end of the second chain plate type conveyor to move in parallel along the length direction of the material pool, so that the output end of the second chain plate type conveyor is always in butt joint with the upper open end of the material pool, the second hinge shaft arranged at the bottom of the fixing frame is connected with the second bearing sleeve in a rotating mode, the second linear sliding block moves along the second linear sliding table in a limiting mode, the second chain plate type conveyor is more stable in moving, and the technical problem of how to control the output end of the telescopic feeder to move along the length direction of the material pool through the transverse limiting moving device is solved.

5. According to the food crushing box, the first rotating shafts rotate and simultaneously drive the first guide plates on all the first rotating shafts to rotate along the axes of the first rotating shafts, food in the food box to be crushed is contained and orderly conveyed into the crushing box through the first cavities formed between every two adjacent first guide plates, when the output food quantity reaches the requirement, the first discharging holes of the food box to be crushed can be closed by the two opposite first guide plates, so that the first discharging holes of the food box to be crushed are closed, and the technical problem of putting the food in the crushing box into the crushing box through the food box to be crushed is solved.

6. According to the feed box, the second rotating shafts rotate and simultaneously drive the second guide plates on all the second rotating shafts to rotate along the axes of the second rotating shafts, the food in the food box to be minced is contained and orderly conveyed into the mixing tank through the second cavities formed between every two adjacent second guide plates, when the output food quantity reaches the requirement, the second discharging holes of the feed box can be closed through the two opposite second guide plates, so that the second discharging holes of the feed box are closed, and the technical problem that the food in the feed box to be minced is thrown into the mixing tank through the feed box is solved.

7. According to the invention, one of the two gears rotates to drive the other gear to rotate reversely, and the two crushing rollers are driven to rotate reversely by the two gears simultaneously, so that foodstuff entering the crushing box is crushed by the two crushing rollers rotating reversely, and the technical problem of how to crush the foodstuff entering the crushing box is solved.

8. According to the invention, the first servo motor drives the second transmission wheel to rotate, the second transmission wheel drives the synchronous belt to simultaneously drive the first transmission wheel and the second transmission wheel to rotate, the first transmission wheel drives the first rotating shaft to rotate, the second transmission wheel drives the second rotating shaft to rotate, and the third transmission wheel drives one of the crushing rollers to rotate, so that the technical problem of driving the first rotating shaft, the second rotating shaft and the crushing roller to rotate simultaneously is solved.

9. According to the invention, the stirring shaft is driven to rotate by the second servo motor, the stirring shaft simultaneously drives the stirring blades arranged on the stirring shaft to rotate, and foodstuff in the mixing tank is mixed by the stirring blades, so that the technical problem of fully mixing broken foodstuff and feed is solved.

10. According to the invention, the third servo motor drives the third rotating shaft to rotate, the third rotating shaft driven by the third rotating shaft drives the quantitative plates arranged on the second rotating shaft to rotate along the axis of the third rotating shaft simultaneously, the foodstuff in the mixing tank is contained and orderly conveyed into the material guide channel through the third cavity formed between two adjacent quantitative plates, and the mixed foodstuff is thrown onto the first chain plate type conveyor through the material guide channel, so that the technical problem of quantitatively throwing the foodstuff mixed in the mixing tank onto the first chain plate type conveyor is solved.

Drawings

FIG. 1 is a first perspective view of the present application;

FIG. 2 is a schematic perspective view of the present application;

FIG. 3 is a front view of the present application;

FIG. 4 is a right side view of the present application;

FIG. 5 is a partial perspective view of the first embodiment of the present application;

FIG. 6 is a partial perspective view of the present application illustrating a second embodiment;

FIG. 7 is a partial front view of the present application;

FIG. 8 is a third partial perspective view of the present application;

FIG. 9 is a top view of the present application;

FIG. 10 isbase:Sub>A cross-sectional view taken along A-A of FIG. 9 of the present application;

FIG. 11 is a partial perspective view of the present application illustrating a fourth embodiment;

FIG. 12 is a schematic partial perspective view of the present application;

FIG. 13 is a partial front view of the mixing tank of the present application;

FIG. 14 is a cross-sectional view taken along B-B of FIG. 13 of the present application;

fig. 15 is a flowchart of the present application.

The reference numbers in the figures are: 1-a frame; 2-a food box to be mashed; 3-a feed box; 4-crushing the box; 5-mixing tank; 6-a material pool; 7-a telescopic feeder; 8-a transverse limiting moving device; 9-a feed opening; 10-a first slat conveyor; 11-a second drag conveyor; 12-a support hinge frame; 13-a hinged column; 14-a linear slide; 15-linear slide plate; 16-a fixed frame; 18-a shaft sleeve; 19-linear slide; 20-a linear slide rail; 21-a first linear slide; 22-a first bearing sleeve; 23-a first articulated shaft; 24-a second bearing sleeve; 25-a second articulated shaft; 26-a second linear slide; 27-a first blanking hole; 28-a first shaft; 29-a first guide plate; 30-a second blanking aperture; 31-a second shaft; 32-a second guide plate; 33-a crushing roller; 34-a gear; 35-a first servo motor; 36-a first drive wheel; 37-a second transmission wheel; 38-a third drive wheel; 39-a synchronous belt; 40-a second servo motor; 41-stirring shaft; 42-stirring blade; 43-a dosing cylinder; 44-a third servo motor; 45-a third rotating shaft; 46-a quantitative plate; 47-guide passage.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

As shown in fig. 1 to 15, the present application provides:

a feeding device for feeding meat ducks comprises a rack 1, a food material box 2 to be stirred, a feed box 3, a crushing box 4, a mixing tank 5 and a material pool 6, wherein the food material box and the feed box 3 to be stirred are respectively arranged on the rear side of the rack 1, the crushing box 4 is arranged on the rack 1 and is positioned right below the food material box to be stirred, the mixing tank 5 is arranged on the rack 1 and is positioned below the crushing box 4 and the feed box 3, the material pool 6 is transversely arranged on the front side of the rack 1, and the feeding device further comprises a telescopic feeder 7 and a transverse limiting moving device 8;

the telescopic feeder 7 is arranged below the mixing tank 5, and the telescopic feeder 7 comprises a first chain slat type conveyor 10 and a second chain slat type conveyor 11;

the first chain plate type conveyor 10 is arranged below the mixing tank 5, a feed opening 9 is formed in the bottom of the mixing tank 5, the input end of the first chain plate type conveyor 10 corresponds to the feed opening 9 of the mixing tank 5, and one end, close to the mixing tank 5, of the bottom of the first chain plate type conveyor 10 is hinged to the frame 1;

the second chain plate conveyor 11 is telescopically arranged at the bottom of the first chain plate conveyor 10, the second chain plate conveyor 11 and the first chain plate conveyor 10 are linearly distributed, and the output end of the second chain plate conveyor 11 faces the material pool 6;

the transverse limiting and moving device 8 is arranged on one side, close to the material pool 6, of the rack 1, and the output end of the second chain slat conveyor 11 is movably arranged on the execution part of the transverse limiting and moving device 8;

a vertically arranged supporting hinge frame 12 is arranged at one end, close to the mixing tank 5, below the first chain slat type conveyor 10, the bottom of the supporting hinge frame 12 is fixedly connected with the rack 1, and a hinge column 13 capable of being rotatably connected with the top of the supporting hinge frame 12 is arranged at one end, close to the supporting hinge frame 12, of the bottom of the first chain slat type conveyor 10;

the transverse limiting moving device 8 comprises a fixed frame 16, a linear sliding table 19 and a linear sliding rail 20;

the fixed frame 16 is vertically and fixedly arranged at one end of the second chain slat conveyor 11 close to the material pool 6;

the linear sliding table 19 is arranged above the fixed frame 16 in a horizontal position, the linear sliding table 19 is fixedly installed on the rack 1, an execution part of the linear sliding table 19 is provided with a first linear sliding block 21, the bottom of the first linear sliding block 21 is provided with a first bearing sleeve 22, and the center of the top of the fixed frame 16 is vertically provided with a first articulated shaft 23 capable of rotating in the first bearing sleeve 22;

the linear slide rail 20 is horizontally arranged below the fixed frame 16, the linear slide rail 20 is distributed in parallel with the linear sliding table 19, a second linear slide block 26 is arranged on the linear slide rail 20 in a sliding manner, a second bearing sleeve 24 is arranged at the top of the second linear slide block 26, and a second hinge shaft 25 capable of rotating in the second bearing sleeve 24 is vertically arranged at the center of the bottom of the fixed frame 16;

the linear sliding table 19, the linear sliding rail 20 and the material tank 6 are consistent in length.

Based on the above embodiment, the technical problem to be solved by the present application is how to uniformly feed the foodstuff into the material tank 6. For this reason, this application will wait to stir garrulous foodstuff through the staff and put into waiting to stir garrulous food magazine 2 in, put into fodder box 3 through the staff with the fodder that prepares, will wait that broken foodstuff drops into broken box 4 in, carry out the breakage through breaker, foodstuff after the breakage drops into in the blending tank 5, to drop prepared fodder into the blending tank 5 in, foodstuff after the breakage and feed mixture through blending tank 5, obtain the foodstuff after mixing, drop into flexible feeder 7 with the foodstuff after the mixing in the blending tank 5 on, and throw the material in 6 to the material pool through flexible feeder 7, flexible feeder 7 is through the length direction translation of horizontal spacing mobile device 8 drive feeders along material pool 6, make the even foodstuff after mixing of feeder drop into material pool 6, thereby realize evenly throwing edible effect, the process of food is specifically carried out to horizontal spacing mobile device 8 drive flexible feeder 7:

the input of execution portion drive second chain slat conveyor 11 through horizontal spacing mobile device 8 is along the length direction lateral shifting of material pond 6, at the in-process that second chain slat conveyor 11 removed, second chain slat conveyor 11 can stretch out and draw back along the direction of delivery of first chain slat conveyor 10, the input of first chain slat conveyor 10 is articulated with frame 1 and sets up, the input of first chain slat conveyor 10 docks with feed opening 9 department of blending tank 5 all the time, blending tank 5 is through feed opening 9 with mixing after drop into on the first chain slat conveyor 10, on the foodstuff after will mixing is sent into second chain slat conveyor 11 through first chain slat conveyor 10 marching type, foodstuff that will first chain slat conveyor 10 carry again through second chain slat conveyor 11 sends into in the material pond 6.

The hinged column 13 arranged at the bottom of the first chain plate conveyor 10 can be rotatably arranged at the top of the supporting hinged frame 12 and is used for limiting the input end of the first chain plate conveyor 10 to be always in butt joint with the feed opening 9 of the mixing tank 5;

based on the above-mentioned embodiment, the technical problem that this application wants to solve is how to control the output of telescopic feeder 7 through horizontal spacing mobile device 8 and remove along the length direction of feed tank 6. For this reason, this application drives first linear slide 21 through the execution part of sharp slip table 19, first bearing housing 22 and fixed frame 16 are along the direction of delivery translation of first linear slip table 19, fixed frame 16 drives the length direction parallel displacement of the output of second drag conveyor 11 along stock chest 6, make the output of second drag conveyor 11 open the end butt joint with the upper end of stock chest 6 all the time, second articulated shaft 25 pivoted through setting up fixed frame 16 bottom is connected with second bearing housing 24, through the spacing removal of second linear slide 26 along second linear slip table 19, make the second drag more stable when removing.

Further, as shown in fig. 8:

the bottom of the first chain slat type conveyer 10 is provided with two parallel linear slideways 14 arranged on two sides of the first chain slat type conveyer 10, and two linear sliding plates 15 capable of sliding on the corresponding linear slideways 14 are respectively arranged on two sides of the top of the second chain slat type conveyer 11.

Based on the above-described embodiment, the technical problem to be solved by the present application is how to make the second slat conveyor 11 stretch and contract below the first slat conveyor. For this reason, this application is through the sharp slide 15 that 11 top both sides of second chain slat conveyor set up along the corresponding two sharp slides 14 spacing removal in first chain slat conveyor 10 bottom to realize that second chain slat conveyor 11 stretches out and draws back along the direction of delivery of first chain slat conveyor 10.

Further, as shown in fig. 10:

the lower end of the food box 2 to be mashed is funnel-shaped, the bottom of the food box 2 to be mashed is provided with a first blanking hole 27, the blanking hole of the first food box 2 to be mashed is provided with a first guide mechanism, and the first guide mechanism comprises a first rotating shaft 28 and a first guide plate 29;

the first rotating shaft 28 is transversely and rotatably arranged inside the food box 2 to be mashed near the first blanking hole 27;

the first guide plates 29 are four and are distributed at equal intervals along the axis of the first rotating shaft 28 outside the first rotating shaft 28, and a first cavity for accommodating the foodstuff in the food box 2 to be mashed is formed between two adjacent first guide plates 29.

Based on the above-described embodiment, the technical problem that the present application intends to solve is how to throw the foodstuff inside the food box 2 to be mashed into the crushing box 4. For this reason, the present application rotates through first rotating shaft 28 and simultaneously drives first guide plates 29 on all first rotating shafts 28 to rotate along the axis of first rotating shaft 28, and the foodstuff in food box 2 to be minced is accommodated and orderly conveyed into crushing box 4 through the first cavity formed between two adjacent first guide plates 29, and when the quantity of the outputted foodstuff reaches the requirement, two opposite first guide plates 29 can close first discharging holes 27 of food box 2 to be minced, so as to close first discharging holes 27 of food box 2 to be minced.

Further, as shown in fig. 10:

the lower end of the feed box 3 is funnel-shaped, a second feeding hole 30 is formed in the bottom of the feed box 3, a second material guiding mechanism is arranged at the second feeding hole 30 of the feed box 3, and the second material guiding mechanism comprises a second rotating shaft 31 and a second guide plate 32;

the second rotating shaft 31 is transversely and rotatably arranged inside the food box 2 to be mashed at a position close to the second blanking hole 30;

the second guide plates 32 are four and are equally spaced along the axis of the first rotating shaft 28 and are disposed outside the first rotating shaft 28, and a second cavity for accommodating the feed in the feed box 3 is formed between two adjacent first guide plates 29.

Based on the above-mentioned embodiment, the technical problem that this application wants to solve is how to throw the foodstuff inside into the mixing tank 5 through the box 3 to be fed. For this reason, the second rotating shafts 31 rotate and simultaneously drive the second guide plates 32 on all the second rotating shafts 31 to rotate along the axes of the second rotating shafts 31, the foodstuff in the food box 2 to be stirred is contained and orderly conveyed into the mixing tank 5 through the second cavities formed between the two adjacent second guide plates 32, and when the output quantity of the foodstuff reaches the requirement, the two opposite second guide plates 32 can close the second discharging holes 30 of the feed box 3, so that the second discharging holes 30 of the feed box 3 are closed.

Further, as shown in fig. 11:

a crushing device is arranged in the crushing box 4, and comprises a crushing roller 33 and a gear 34;

the crushing roller 33 has a pair, two crushing rollers 33 are oppositely arranged in parallel inside the upper end of the crushing roller 33, and the crushing roller 33 is rotatably arranged inside the crushing box 4;

the number of the gears 34 is the same as that of the crushing rollers 33, and the gears are arranged at the outer side of the crushing box 4 in a one-to-one correspondence manner, two gears 34 are respectively fixedly connected with one ends of the two corresponding crushing rollers 33 through rotating rods, and the two gears 34 are meshed with each other.

Based on the above-mentioned embodiments, the technical problem that the present application intends to solve is how to crush the foodstuff entering into the crushing box 4. For this purpose, the present application drives one gear 34 of the two gears 34 to rotate in a reverse direction, and drives the two crushing rollers 33 to rotate in a reverse direction simultaneously through the two gears 34, so that the foodstuff entering the crushing box 4 is crushed by the two crushing rollers 33 rotating in the reverse direction.

Further, as shown in fig. 12:

the frame 1 is also provided with a synchronous driving device which comprises a first servo motor 35 and a synchronous belt 39 transmission mechanism;

the transmission mechanism of the synchronous belt 39 comprises a first transmission wheel 36, a second transmission wheel 37 and a third transmission wheel 38;

the first driving wheel 36 is coaxially arranged at one end of the first rotating shaft 28;

the second transmission wheel 37 is coaxially arranged at one end of the second rotating shaft 31;

the third driving wheel 38 is coaxially arranged at one end of one 33 of the two crushing rollers 33, and the first driving wheel 36, the second driving wheel 37 and the third driving wheel 38 are in transmission connection through a synchronous belt 39;

the first servo motor 35 is arranged on the frame 1, and an output shaft of the first servo motor 35 is fixedly connected with the center of the second transmission wheel 37.

Based on the above-mentioned embodiments, the technical problem that the present application intends to solve is how to drive the first rotating shaft 28, the second rotating shaft 31 and the crushing roller 33 to rotate simultaneously. For this purpose, the second transmission wheel 37 is driven to rotate by the first servo motor 35, the timing belt 39 is driven by the second transmission wheel 37 to simultaneously drive the first transmission wheel 36 and the second transmission wheel 37 to rotate, the first transmission wheel 36 drives the first rotating shaft 28 to rotate, the second transmission wheel 37 drives the second rotating shaft 31 to rotate, and the third transmission wheel 38 drives one of the crushing rollers 33 to rotate.

Further, as shown in fig. 13 and 14:

a stirring device is arranged in the mixing tank 5 and comprises a second servo motor 40, a stirring shaft 41 and stirring blades 42;

the second servo motor 40 is arranged at the top center of the mixing tank 5, and an output shaft of the second servo motor 40 rotatably penetrates through the top center of the mixing tank 5 and extends towards the inside of the mixing tank 5;

the stirring shaft 41 is vertically arranged on an output shaft of the second servo motor 40;

the stirring vanes 42 have several and are equally spaced outside the stirring vanes 42.

Based on the above-mentioned embodiment, the technical problem that the present application intends to solve is how to mix the broken foodstuff and the feed entering into the mixing tank 5 sufficiently. For this reason, this application is rotatory through second servo motor 40 drive (mixing) shaft 41, and it is rotatory to drive the several stirring leaf 42 that sets up on the (mixing) shaft 41 simultaneously through (mixing) shaft 41, mixes the foodstuff in blending tank 5 through stirring leaf 42, makes broken foodstuff and fodder intensive mixing.

Further, as shown in fig. 14:

a quantitative blanking device is arranged at the blanking port 9 of the mixing tank 5, and the quantitative blanking device comprises a quantitative cylinder 43, a third servo motor 44, a third rotating shaft 45, a quantitative plate 46 and a material guide channel 47;

the quantifying cylinder 43 is horizontally arranged at the feed opening 9 of the mixing tank 5, and the quantifying cylinder 43 is provided with an inlet hole communicated with the interior of the mixing tank 5;

the material guide channel 47 is radially arranged on the outer wall of the material guide channel 47 far away from the feed opening 9 in an inclined shape, one end of the material guide channel 47 is communicated with the inside of the quantifying cylinder 43, and the other end of the material guide channel 47 faces the input end of the first chain plate type conveyor 10;

a third rotating shaft 45 is coaxially and rotatably provided at the inner center of the dosing cylinder 43;

the quantitative plates 46 are provided with a plurality of quantitative plates and are distributed outside the third rotating shaft 45 at equal intervals along the axis of the third rotating shaft 45, one end of each quantitative plate 46, far away from the third rotating shaft 45, is tightly attached to the inner wall of the quantitative tube, and a third cavity for food in the mixing tank 5 is formed between every two adjacent quantitative plates 46;

the third servo motor 44 is arranged on the frame 1, and an output shaft of the third servo motor 44 is fixedly connected with one end of the second rotating shaft 31.

Based on the above-described embodiment, the technical problem to be solved by the present application is how to feed the fixed amount of foodstuff mixed in the mixing tank 5 to the first apron conveyor 10. For this purpose, the third rotating shaft 45 is driven by the third servo motor 44 to rotate, the third rotating shaft 45 driven by the third rotating shaft 45 rotates, the plurality of metering plates 46 arranged on the second rotating shaft 31 are simultaneously driven by the third rotating shaft 45 to rotate along the axis of the third rotating shaft 45, foodstuff in the mixing tank 5 is contained and orderly conveyed into the material guide channel 47 through a third cavity formed between two adjacent metering plates 46, and the mixed foodstuff is thrown onto the first chain slat type conveyor 10 through the material guide channel 47.

Further, as shown in fig. 15:

a feeding method based on a feeding device for feeding meat ducks comprises the following steps:

s1, putting the foodstuff to be mashed into a foodstuff box 2 to be mashed;

s2, placing the prepared feed into a feed box 3;

s3, feeding foodstuff to be crushed into a crushing box 4, crushing the foodstuff by a crushing device, and feeding the crushed foodstuff into a mixing tank 5;

s4, putting the prepared feed into a mixing tank 5;

s5, mixing the crushed foodstuff with the feed through a mixing tank 5 to obtain mixed foodstuff;

s6, feeding the foodstuff mixed in the mixing tank 5 onto a telescopic feeder 7, and feeding the foodstuff into a material pool 6 through the telescopic feeder 7;

and S7, the telescopic feeder 7 drives the feeder to move horizontally along the length direction of the material pool 6 through the transverse limiting and moving device 8, so that the feeder uniformly puts mixed foodstuff into the material pool 6.

This application will treat that the foodstuff of garrulous will wait to stir puts into treats stir garrulous food magazine 2 through the staff in, put into fodder box 3 through the fodder that the staff will be prepared, will treat that broken foodstuff drops into broken box 4 in, carry out the breakage through breaker, foodstuff after the breakage drops into in the blending tank 5, feed that will prepare drops into the blending tank 5 in, foodstuff after will breaking through blending tank 5 mixes with the fodder, obtain the foodstuff after mixing, the foodstuff after will mixing in the blending tank 5 drops into on flexible feeder 7, and throw the material in to material pond 6 through flexible feeder 7, flexible feeder 7 is through the translation of 8 drive feeders of horizontal spacing mobile device along material pond 6, make the even foodstuff after will mixing drop into material pond 6 in the feeder, thereby realize evenly throwing edible effect, how even throw the technical problem of material pond 6 with the foodstuff.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (8)

1. A feeding device for feeding meat ducks comprises a rack (1), a food box (2) to be stirred, a feed box (3), a crushing box (4), a mixing tank (5) and a material pool (6), wherein the food box and the feed box (3) to be stirred are arranged on the rear side of the rack (1) respectively, the crushing box (4) is arranged on the rack (1) and is positioned right below the food box to be stirred, the mixing tank (5) is arranged on the rack (1) and is positioned below the crushing box (4) and the feed box (3), and the material pool (6) is transversely arranged on the front side of the rack (1), and is characterized by further comprising a telescopic feeder (7) and a transverse limiting moving device (8);

the telescopic feeding machine (7) is arranged below the mixing tank (5), and the telescopic feeding machine (7) comprises a first chain slat type conveyor (10) and a second chain slat type conveyor (11);

the first chain slat conveyor (10) is arranged below the mixing tank (5), a feed opening (9) is formed in the bottom of the mixing tank (5), the input end of the first chain slat conveyor (10) corresponds to the feed opening (9) of the mixing tank (5), and one end, close to the mixing tank (5), of the bottom of the first chain slat conveyor (10) is hinged to the frame (1);

the second chain slat conveyor (11) is arranged at the bottom of the first chain slat conveyor (10) in a telescopic mode, the second chain slat conveyor (11) and the first chain slat conveyor (10) are distributed in a straight line mode, and the output end of the second chain slat conveyor (11) faces the material pool (6);

the transverse limiting and moving device (8) is arranged on one side, close to the material pool (6), of the rack (1), and the output end of the second chain slat conveyor (11) is movably arranged on the execution part of the transverse limiting and moving device (8);

a supporting hinge frame (12) which is vertically arranged is arranged at one end, close to the mixing tank (5), below the first chain slat type conveyor (10), the bottom of the supporting hinge frame (12) is fixedly connected with the rack (1), and a hinge column (13) which can be rotatably connected with the top of the supporting hinge frame (12) is arranged at one end, close to the supporting hinge frame (12), of the bottom of the first chain slat type conveyor (10);

the transverse limiting moving device (8) comprises a fixed frame (16), a linear sliding table (19) and a linear sliding rail (20);

the fixed frame (16) is vertically and fixedly arranged at one end of the second chain slat conveyor (11) close to the material pool (6);

the linear sliding table (19) is horizontally arranged above the fixed frame (16), the linear sliding table (19) is fixedly installed on the rack (1), an execution part of the linear sliding table (19) is provided with a first linear sliding block (21), the bottom of the first linear sliding block (21) is provided with a first bearing sleeve (22), and the center of the top of the fixed frame (16) is vertically provided with a first articulated shaft (23) capable of rotating in the first bearing sleeve (22);

the linear sliding rail (20) is horizontally arranged below the fixed frame (16), the linear sliding rail (20) and the linear sliding table (19) are distributed in parallel, a second linear sliding block (26) is arranged on the linear sliding rail (20) in a sliding mode, a second bearing sleeve (24) is arranged at the top of the second linear sliding block (26), and a second hinge shaft (25) capable of rotating in the second bearing sleeve (24) is vertically arranged at the center of the bottom of the fixed frame (16);

the linear sliding table (19), the linear sliding rail (20) and the material pool (6) are consistent in length.

2. The feeding device for feeding meat ducks according to claim 1, wherein the bottom of the first chain-plate type conveyor (10) is provided with two linear slideways (14) which are arranged on two sides of the first chain-plate type conveyor (10) in parallel, and two linear sliding plates (15) which can slide on the corresponding linear slideways (14) are respectively arranged on two sides of the top of the second chain-plate type conveyor (11).

3. The feeding device for feeding meat ducks according to claim 1, wherein the lower end of the food box (2) to be mashed is funnel-shaped, a first feeding hole (27) is formed in the bottom of the food box (2) to be mashed, a first material guiding mechanism is arranged at the feeding hole of the first food box (2) to be mashed and comprises a first rotating shaft (28) and a first guide plate (29);

the first rotating shaft (28) is transversely and rotatably arranged inside the food box (2) to be mashed and close to the first blanking hole (27);

the first guide plates (29) are four and are distributed outside the first rotating shaft (28) at equal intervals along the axis of the first rotating shaft (28), and a first cavity for containing foodstuff in the food box (2) to be mashed is formed between two adjacent first guide plates (29).

4. The feeding device for feeding meat ducks according to claim 1, wherein the lower end of the feed box (3) is funnel-shaped, a second feeding hole (30) is formed in the bottom of the feed box (3), a second material guiding mechanism is arranged at the second feeding hole (30) of the feed box (3), and the second material guiding mechanism comprises a second rotating shaft (31) and a second guide plate (32);

the second rotating shaft (31) is transversely and rotatably arranged inside the food box (2) to be mashed and close to the second blanking hole (30);

the second guide plates (32) are four and are distributed at equal intervals outside the first rotating shaft (28) along the axis of the first rotating shaft (28), and a second cavity for containing feed in the feed box (3) is formed between two adjacent first guide plates (29).

5. The feeding device for feeding meat ducks according to claim 1, wherein a crushing device is arranged inside the crushing box (4), and comprises a crushing roller (33) and a gear (34);

the crushing rollers (33) are provided with a pair, the two crushing rollers (33) are oppositely arranged in parallel inside the upper ends of the crushing rollers (33), and the crushing rollers (33) can be rotatably arranged inside the crushing box (4);

the quantity of gear (34) is the same and the one-to-one corresponding position is located the outside of broken box (4) with the quantity of crushing roller (33), and two gear (34) are respectively through bull stick and two corresponding crushing roller (33) one end fixed connection, and two gear (34) intermeshing sets up.

6. The feeding device for feeding meat ducks according to claim 1, wherein a synchronous driving device is further arranged on the rack (1), and comprises a first servo motor (35) and a transmission mechanism of a synchronous belt (39);

the transmission mechanism of the synchronous belt (39) comprises a first transmission wheel (36), a second transmission wheel (37) and a third transmission wheel (38);

the first driving wheel (36) is coaxially arranged at one end of the first rotating shaft (28);

the second transmission wheel (37) is coaxially arranged at one end of the second rotating shaft (31);

the third transmission wheel (38) is coaxially arranged at one end of one (33) of the two crushing rollers (33), and the first transmission wheel (36), the second transmission wheel (37) and the third transmission wheel (38) are in transmission connection through a synchronous belt (39);

the first servo motor (35) is arranged on the rack (1), and an output shaft of the first servo motor (35) is fixedly connected with the center of the second transmission wheel (37).

7. The feeding device for feeding meat ducks according to claim 1, wherein a stirring device is arranged inside the mixing tank (5), and the stirring device comprises a second servo motor (40), a stirring shaft (41) and stirring blades (42);

the second servo motor (40) is arranged at the top center of the mixing tank (5), and an output shaft of the second servo motor (40) can rotatably penetrate through the top center of the mixing tank (5) to extend towards the inside of the mixing tank (5);

the stirring shaft (41) is vertically arranged on an output shaft of the second servo motor (40);

the stirring blades (42) are provided with a plurality of stirring blades and are distributed at equal intervals outside the stirring blades (42);

a quantitative blanking device is arranged at a blanking port (9) of the mixing tank (5), and the quantitative blanking device comprises a quantitative cylinder (43), a third servo motor (44), a third rotating shaft (45), a quantitative plate (46) and a material guide channel (47);

the quantitative cylinder (43) is horizontally arranged at the feed opening (9) of the mixing tank (5), and the quantitative cylinder (43) is provided with an inlet hole communicated with the interior of the mixing tank (5);

the material guide channel (47) is radially arranged on the outer wall, far away from the feed opening (9), of the material guide channel (47) in an inclined mode, one end of the material guide channel (47) is communicated with the inside of the quantifying cylinder (43), and the other end of the material guide channel (47) faces towards the input end of the first chain plate type conveyor (10);

a third rotating shaft (45) is coaxially and rotatably provided at the inner center of the dosing cylinder (43);

the quantifying plates (46) are provided with a plurality of quantifying plates and are distributed outside the third rotating shaft (45) at equal intervals along the axis of the third rotating shaft (45), one end, far away from the third rotating shaft (45), of each quantifying plate (46) is tightly attached to the inner wall of the quantifying pipe, and a third cavity for mixing foodstuff in the tank (5) is formed between every two adjacent quantifying plates (46);

the third servo motor (44) is arranged on the rack (1), and an output shaft of the third servo motor (44) is fixedly connected with one end of the second rotating shaft (31).

8. A feeding method based on a feeding device for feeding meat ducks, which is applied to the feeding device for feeding meat ducks of any one of claims 1-7, and is characterized by comprising the following steps:

s1, putting the foodstuff to be mashed into a foodstuff box (2) to be mashed;

s2, placing the prepared feed into a feed box (3);

s3, feeding foodstuff to be crushed into the crushing box (4), crushing by using a crushing device, and feeding the crushed foodstuff into a mixing tank (5);

s4, putting the prepared feed into a mixing tank (5);

s5, mixing the crushed foodstuff with the feed through a mixing tank (5) to obtain mixed foodstuff;

s6, feeding the foodstuff mixed in the mixing tank (5) to a telescopic feeder (7), and feeding the foodstuff into a material pool (6) through the telescopic feeder (7);

and S7, the telescopic feeder (7) drives the feeder to translate along the length direction of the material pool (6) through the transverse limiting and moving device (8), so that the feeder uniformly feeds mixed foodstuff into the material pool (6).

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