CN219248861U - Intelligent dosing device for feeding livestock - Google Patents

Abstract

The utility model provides an intelligent dosing device for livestock feeding, which comprises a box body, wherein a blanking hopper, a flow dividing mechanism, a blanking mechanism, a weighing mechanism, a monitoring mechanism, a control mechanism, a guide hopper and a feed conveying pipe are arranged in the box body, the blanking hopper is arranged on the box body, one end of the blanking hopper extends into the box body, the flow dividing mechanism is arranged in the middle of the box body and is connected with the blanking hopper, the blanking mechanism is arranged below the flow dividing mechanism and is connected with the flow dividing mechanism, the weighing mechanism is arranged in the middle of the box body and is positioned below the blanking mechanism, the guide hopper is arranged in the box body and is positioned below the weighing mechanism, the feed conveying pipe is arranged in the bottom of the box body, two ends of the feed conveying pipe penetrate through the box body, the monitoring mechanism is arranged in the box body and is positioned on one side of the feed conveying pipe, and the control mechanism is arranged in the middle of the box body. The utility model can monitor the feed amount and the drug adding amount in real time, so that the drug adding can be more scientific and accurate.

Description

Intelligent dosing device for feeding livestock

Technical Field

The utility model relates to the technical field of livestock feeding equipment, in particular to an intelligent dosing device for livestock feeding.

Background

At present, two commercial dosing devices are mainly used, namely drinking water dosing and solid feed dosing. The veterinary medicine components are directly added in the waterline after the medicine is added in the drinking water, the proportion is relatively accurate and controllable, but the medicine is directly added in the waterline, so that a great amount of medicine is wasted. The solid feed is fed with the feed, the total amount is calculated, then the feed is directly discharged at a constant speed and fed into the feed line, the total amount is controllable, but the feed is fed with the feed in a low precision, and the feed amount passing through each time period in the feed line is not precisely calculated, so that the feed amount is finely adjusted in a targeted mode.

Disclosure of Invention

The utility model provides an intelligent dosing device for feeding livestock, which can monitor the feed amount and the dosing amount in real time, so that the dosing can be more scientific and accurate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an birds animal feeding intelligence dosing device, adds medicine device includes the box, be provided with hopper, reposition of redundant personnel mechanism, unloading mechanism, weighing machine construct, monitoring machanism, control mechanism, guide hopper and fodder conveyer pipe down in the box, the hopper sets up on the box and one end extends to the box in, reposition of redundant personnel mechanism sets up in the box middle part and is connected with the hopper down for with animal remedy direction unloading mechanism or discharge the animal remedy, unloading mechanism sets up in reposition of redundant personnel mechanism below and is connected with reposition of redundant personnel mechanism, is used for dialling down the animal remedy, weighing machine constructs the setting in the box middle part and is located the below of unloading mechanism for carry out the response with the animal remedy under the unloading mechanism and weigh and lead into the hopper in, guide hopper sets up in the box and is located the below of weighing machine construct, be used for leading into the fodder conveyer pipe, the fodder conveyer pipe sets up in the box bottom and both ends run through the box for carry the mixed material with the animal remedy, monitoring machanism sets up in the box and is located one side of conveyer pipe, is used for obtaining fodder conveyer pipe volume, control mechanism sets up in the box state of adding medicine.

Preferably, the shunt mechanism comprises a supporting frame, a connecting cylinder, a discharging cylinder, a guide block and a discharging baffle, wherein the supporting frame is arranged in the middle of the box body, the connecting cylinder is arranged on the supporting frame and connected with the discharging hopper, the discharging cylinder and the discharging cylinder are connected with the lower end of the connecting cylinder, the discharging cylinder is used for conveying veterinary drugs to the discharging mechanism, one end of the discharging cylinder obliquely extends downwards to the outside of the box body and is used for discharging the veterinary drugs, the guide block is arranged in the connecting cylinder, and the discharging baffle is movably inserted into the connecting cylinder along the inclination of the guide block and shields the opening of the discharging cylinder.

Preferably, the blanking mechanism comprises a motor mounting frame, a blanking motor, a receiving hopper, a blanking guide cylinder, a stirring disc and a driving belt, wherein the receiving hopper is arranged in the middle of the box body and is connected with the blanking guide cylinder, the blanking guide cylinder is arranged below the receiving hopper and is connected with the box body and used for guiding veterinary medicines to the weighing mechanism, the stirring disc is arranged in the blanking guide cylinder, one end of the stirring disc extends out of the blanking guide cylinder, the motor mounting frame is arranged on one side of the blanking guide cylinder and is connected with the box body, the blanking motor is arranged on the motor mounting frame, and the driving belt is connected with the blanking motor and the stirring disc and drives the stirring disc to rotate through the driving belt.

Preferably, the weighing mechanism comprises a support, a force sensor and a weighing guide plate, wherein the support is adjustably arranged in the middle of the box body, the force sensor is arranged on the support, and the weighing guide plate is connected with the force sensor, and one end of the weighing guide plate extends to the lower side of the blanking guide cylinder.

Preferably, the monitoring mechanism comprises a mounting frame, an infrared sensor and a camera, wherein the mounting frame is arranged in the box body, the infrared sensor is arranged on the mounting frame and is located right above the feed conveying pipe and used for sensing the condition of acquiring the feed quantity in the feed conveying pipe, and the camera is arranged on the mounting frame and is located on one side of the feed conveying pipe and used for shooting the condition of the feed quantity in the feed conveying pipe.

Preferably, the feed conveying pipe is made of transparent materials.

Preferably, the feed conveying pipe is provided with two extending ends, one extending end corresponds to the guide hopper, and the other extending end corresponds to the infrared sensor.

Preferably, the control mechanism comprises an electrical appliance frame, a single chip microcomputer, a power supply device, a relay and a motor driver, wherein the electrical appliance frame is arranged in the box body, the single chip microcomputer is arranged at the top end of the electrical appliance frame, the power supply device is arranged in the middle of the electrical appliance frame, the relay and the motor driver are arranged at the lower part of the electrical appliance frame, and the single chip microcomputer, the power supply device, the relay and the motor driver are electrically connected with each other.

Preferably, the box further comprises openable movable doors, wherein the movable doors are arranged on two sides of the box body and used for checking the inside of the box body.

Compared with the prior art, the utility model has the beneficial effects that the monitoring mechanism adopts the camera to shoot the height of the feed in the feed conveying pipe from the side so as to estimate the real-time feed quantity through a formula, and adopts the infrared sensor to irradiate vertically downwards from the top of the feed conveying pipe, so as to obtain the height change of the top of the real-time feed quantity and further obtain the real-time feed quantity in the feed conveying pipe; the weighing mechanism adopts a force sensor to weigh veterinary medicines dialed out by the dial plate in real time through a weighing guide plate with a specific design, so that real-time and real dosing quantity is obtained, and data is fed back to the singlechip to judge whether the rotating speed of the dial plate needs to be adjusted so as to accurately match the real-time feed quantity in the feed conveying pipe; the diversion mechanism can directly discharge through the discharge cylinder when the discharge is needed.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the internal structure of the present utility model;

fig. 3 is a schematic structural diagram of a blanking mechanism of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

It is noted that when a component/feature is referred to as being "disposed on" another component/feature, it can be disposed directly on the other component/feature or intervening components/features may also be present. When a component/feature is referred to as being "connected/coupled" to another component/feature, it may be directly connected/coupled to the other component/feature or intervening components/features may also be present. The term "connected/coupled" as used herein may include electrical and/or mechanical physical connections/couplings. The term "comprises/comprising" when used herein means the presence of a feature, step or component/part, but does not exclude the presence or addition of one or more other features, steps or components/parts. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Referring to fig. 1 to 3, an intelligent dosing device for livestock feeding comprises a box body 1, wherein a lower hopper 2, a split-flow mechanism 3, a discharging mechanism 4, a weighing mechanism 5, a monitoring mechanism 6, a control mechanism 7, a guide hopper 9 and a feed conveying pipe 8 are arranged in the box body 1, the lower hopper 2 is arranged on the box body 1, one end of the lower hopper extends into the box body 1, the split-flow mechanism 3 is arranged in the middle of the box body 1 and is connected with the lower hopper 2 for guiding veterinary medicine to the discharging mechanism 4 or discharging veterinary medicine, the discharging mechanism 4 is arranged below the split-flow mechanism 3 and is connected with the split-flow mechanism 3 for pulling down, the weighing mechanism 5 is arranged in the middle of the box body 1 and is positioned below the discharging mechanism 4 for sensing and weighing the veterinary medicine by the discharging mechanism 4, the guide hopper 9 is arranged in the box body 1 and is positioned below the weighing mechanism 5 for guiding the veterinary medicine into the feed conveying pipe 8, the feed conveying pipe 8 is arranged in the box body 1 and penetrates through the box body 1 at two ends of the box body 1 and runs through the box body 1 and is arranged in the feed conveying pipe 8, and is used for controlling the feed conveying pipe to be in the feed conveying pipe 8 and is arranged at one side of the box body 1 and is used for controlling the feed conveying pipe.

During operation, veterinary medicine is put in from the blanking hopper 2, fall into the blanking mechanism 4 through the reposition of redundant personnel mechanism 3, and reposition of redundant personnel mechanism 3 is when the internal stock of blanking hopper 2 is discharged to needs, can directly follow reposition of redundant personnel mechanism 3 and discharge the stock, monitoring mechanism 6 then carries out real-time supervision to the volume of material in the fodder conveyer pipe 8, in order to confirm the required animal remedy volume down, blanking mechanism 4 is through changing inside rotation rate and is changed the unloading volume, dial down the animal remedy and weigh on weighing mechanism 5 in real time, and then fall into guide hopper 9 and mix with the fodder in the fodder conveyer pipe 8 with the animal remedy through guide hopper 9, control mechanism 7 then is used for controlling the operation of whole equipment.

The shunt mechanism 3 includes support frame 31, connecting cylinder 32, unloading section of thick bamboo 33, unloading section of thick bamboo 34, guide block 36 and discharge baffle 35, support frame 31 sets up in the middle part of box 1, connecting cylinder 32 sets up on support frame 31 and is connected with lower hopper 2, unloading section of thick bamboo 33 and unloading section of thick bamboo 34 are connected with the connecting cylinder 32 lower extreme, unloading section of thick bamboo 33 is used for carrying the veterinary medicine to unloading mechanism 4, the one end slope downwardly extending of unloading section of thick bamboo 34 is outside box 1 for discharge the veterinary medicine, guide block 36 sets up in connecting cylinder 32, discharge baffle 35 movably inserts in connecting cylinder 32 along the slope of guide block 36 and shelters from the opening of unloading section of thick bamboo 34. When the unloading is needed, the unloading baffle 35 is obliquely inserted into the connecting cylinder 32 along the guide block 36, the opening of the unloading cylinder 34 is covered, veterinary medicine is prevented from being discharged from the unloading cylinder 34, the veterinary medicine falls into the unloading mechanism 4 through the unloading cylinder 33, when the connecting cylinder 32 and the material stock in the unloading hopper 2 are needed to be discharged, the unloading baffle 35 is pulled out, the opening of the unloading cylinder 34 is opened, the material stock can be directly discharged out of the box body 1 through the unloading cylinder 34, and the internal material stock is convenient to clean.

The blanking mechanism 4 comprises a motor mounting frame 41, a blanking motor 42, a receiving hopper 43, a blanking guide cylinder 46, a stirring disc 44 and a transmission belt 45, wherein the receiving hopper 43 is arranged in the middle of the box body 1 and is connected with the blanking cylinder 33, the blanking guide cylinder 46 is arranged below the receiving hopper 43 and is connected with the box body 1 and used for guiding veterinary medicines to the weighing mechanism 5, the stirring disc 44 is arranged in the blanking guide cylinder 46, one end of the stirring disc extends out of the blanking guide cylinder 46, the motor mounting frame 41 is arranged on one side of the blanking guide cylinder 46 and is connected with the box body 1, the blanking motor 42 is arranged on the motor mounting frame 41, the transmission belt 45 is connected with the blanking motor 42 and the stirring disc 44, and the blanking motor 42 drives the stirring disc 44 to rotate through the transmission belt 45.

During operation, the control mechanism 7 controls the rotation rate of the blanking motor 42, so as to control the blanking speed of the blanking disc 44, the blanking motor 42 drives the blanking disc 44 to rotate through the driving belt 45, and veterinary medicine in the receiving hopper 43 is continuously poked out and falls onto the weighing mechanism 5 through the blanking guide cylinder 46 for weighing measurement. The blanking motor 42 adopts a motor with adjustable rotating speed to drive the stirring disc 44 to rotate so as to adjust the dosage, and an additional stirring motor can be added in the receiving hopper when necessary so as to make the dosage entering the stirring disc 44 more uniform.

The weighing mechanism 5 comprises a bracket 51, a force sensor 52 and a weighing guide plate 53, wherein the bracket 51 is adjustably arranged in the middle of the box body 1, the force sensor 52 is arranged on the bracket 51, and the weighing guide plate 53 is connected with the force sensor 52 and one end of the weighing guide plate 53 extends to the lower part of the blanking guide cylinder 46. The force sensor 52 is adopted to weigh the medicine pulled out by the material pulling disc 44 in real time through the weighing guide plate 53 with a specific design, so that real-time and real medicine adding amount is obtained, and data is fed back to the singlechip 72 to judge whether the rotating speed of the material pulling disc 44 needs to be adjusted so as to accurately match the real-time feed amount in the stock line.

The monitoring mechanism 6 includes a mounting frame 61, an infrared sensor 62 and a camera 63, the mounting frame 61 is arranged in the box body 1, the mounting frame 61 is an adjustable mounting frame, the infrared sensor 62 is arranged on the mounting frame 61 and is located right above the feed conveying pipe 8 for obtaining the condition of the feed amount in the feed conveying pipe 8, and the camera 63 is arranged on the mounting frame 61 and is located on one side of the feed conveying pipe 8 for obtaining the condition of the feed amount in the feed conveying pipe 8.

The monitoring mechanism 6 has two forms, namely, a camera 63 is adopted to shoot the height of the material among the partition boards from the side so as to estimate the real-time material quantity in the feed conveying pipe 8 through a formula; and secondly, the infrared sensors 62 are arranged to irradiate downwards vertically from the top of the feed conveying pipe 8, so that the height data of the top of the real-time feed quantity is obtained, and the real-time feed quantity in the feed conveying pipe 8 is obtained.

The amount of feed obtained from the feed pipe 8 may be mainly obtained by the camera 63, and the infrared sensor 62 is auxiliary, so that the feed amount is optimal, and the feed amount may be obtained by the infrared sensor 62 alone or by the camera 63.

The feed amount estimation for the feed conveying pipe 8 by using the camera 63 is calculated as follows:

let the horizontal pixel of camera 63 just be full of the baffle interval, width is n, baffle actual interval be l, fodder conveyer pipe 8 internal diameter be r, then there is:

V _chain The chain is obtained by calculation according to the actual chain size and the chain ring number between the partition boards.

The peak tip coefficient is defined, the peak tip coefficient is required to be obtained through experiments, the data are related to feed repose angles, the feed repose angles are required to be obtained first, and then the data are obtained according to the repose angles and actual pipe diameters. And calculating a more accurate estimated quantity of the top of the feed between the partition plates according to the peak tip coefficient, and further correcting the volume estimation formula so as to obtain the more accurate estimated quantity.

The estimated individual spacer feed mass was:

M _{feeding device} ＝ρ _{Feeding device} V _{Feeding device}

The partition plates refer to the distance between the upper sections of the chain for conveying the feed in the feed conveying pipe 8, and the amount of the feed between the partition plates is the amount of the feed accumulated between two plugs in the conveying pipe of the plug material line.

The feed conveying pipe 8 is made of transparent materials, and the feed conveying pipe 8 is provided with two extending ends, one extending end corresponds to the guide hopper 9, and the other extending end corresponds to the infrared sensor 62.

The control mechanism 7 comprises an electric appliance frame 71, a single chip microcomputer 72, a power supply 73, a relay 74 and a motor driver 75, wherein the electric appliance frame 71 is arranged in the box body 1, the single chip microcomputer 72 is arranged at the top end of the electric appliance frame 71, the power supply 73 is arranged in the middle of the electric appliance frame 71, the relay 74 and the motor driver 75 are arranged at the lower part of the electric appliance frame 71, and the single chip microcomputer 72, the power supply 73, the relay 74 and the motor driver 75 are electrically connected with each other.

The movable door 10 is arranged at two sides of the box body 1 and is used for checking the inside of the box body 1.

According to the utility model, the monitoring mechanism 6 adopts the camera 63 to shoot the height of the feed in the feed conveying pipe 8 from the side so as to estimate the real-time feed amount through a formula, and adopts the infrared sensor 62 to irradiate vertically downwards from the top of the feed conveying pipe 8, so that the height data of the top of the real-time feed amount is obtained so as to obtain the real-time feed amount in the feed conveying pipe 8; the weighing mechanism 5 adopts the force sensor 52 to weigh veterinary medicines dialed by the dial 44 in real time through the weighing guide plate 53 with specific design, so as to obtain real-time and real dosing amount, and feeds the data back to the singlechip 72 to judge whether the rotating speed of the dial 44 needs to be adjusted so as to accurately match the real-time feed amount in the feed conveying pipe 8; the diversion mechanism 3 can directly discharge through the discharge cylinder 34 when the discharge is needed.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (9)

1. The intelligent dosing device for feeding livestock is characterized by comprising a box body, wherein a blanking hopper, a flow dividing mechanism, a blanking mechanism, a weighing mechanism, a monitoring mechanism, a control mechanism, a guide hopper and a feed conveying pipe are arranged in the box body, the blanking hopper is arranged on the box body, one end of the blanking hopper extends into the box body, the flow dividing mechanism is arranged in the middle of the box body and is connected with the blanking hopper and used for guiding veterinary drugs to the blanking mechanism or discharging veterinary drugs,

the discharging mechanism is arranged below the distributing mechanism and connected with the distributing mechanism for stirring down veterinary drugs, the weighing mechanism is arranged in the middle of the box body and positioned below the discharging mechanism for carrying out induction weighing on the veterinary drugs stirred down by the discharging mechanism and guiding the veterinary drugs into the guide hopper, the guide hopper is arranged in the box body and positioned below the weighing mechanism for guiding the veterinary drugs into the feed conveying pipe,

the fodder conveyer pipe sets up in the bottom half and both ends run through the box for carry the mixture of animal remedy and fodder, monitoring facilities sets up in the box and is located one side of fodder conveyer pipe, is used for obtaining the fodder volume condition in the fodder conveyer pipe, control facilities sets up in the box middle part, is used for controlling the running state of dosing unit.

2. The intelligent livestock feeding dosing device of claim 1, wherein the shunt mechanism comprises a supporting frame, a connecting cylinder, a discharging cylinder, a guide block and a discharging baffle, the supporting frame is arranged in the middle of the box body, the connecting cylinder is arranged on the supporting frame and is connected with the discharging hopper, the discharging cylinder and the discharging cylinder are connected with the lower end of the connecting cylinder, the discharging cylinder is used for conveying veterinary drugs to the discharging mechanism, one end of the discharging cylinder obliquely extends downwards to the outside of the box body and is used for discharging the veterinary drugs, the guide block is arranged in the connecting cylinder, and the discharging baffle is movably inserted into the connecting cylinder along the inclination of the guide block and shields an opening of the discharging cylinder.

3. The intelligent livestock feeding and dosing device according to claim 2, wherein the feeding mechanism comprises a motor mounting frame, a feeding motor, a receiving hopper, a feeding guide cylinder, a stirring disc and a driving belt, the receiving hopper is arranged in the middle of the box body and is connected with the feeding cylinder, the feeding guide cylinder is arranged below the receiving hopper and is connected with the box body and used for guiding veterinary medicines to the weighing mechanism, the stirring disc is arranged in the feeding guide cylinder, one end of the stirring disc extends out of the feeding guide cylinder, the motor mounting frame is arranged on one side of the feeding guide cylinder and is connected with the box body, the feeding motor is arranged on the motor mounting frame, the driving belt is connected with the feeding motor and the stirring disc, and the feeding motor drives the stirring disc to rotate through the driving belt.

4. The intelligent livestock feeding device of claim 3, wherein the weighing mechanism comprises a bracket, a force sensor and a weighing guide plate, the bracket is adjustably arranged in the middle of the box body, the force sensor is arranged on the bracket, and the weighing guide plate is connected with the force sensor and one end of the weighing guide plate extends to the lower part of the blanking guide cylinder.

5. The intelligent dosing device for feeding livestock according to claim 1, wherein the monitoring mechanism comprises a mounting frame, an infrared sensor and a camera, the mounting frame is arranged in the box body, the infrared sensor is arranged on the mounting frame and located right above the feed conveying pipe and used for sensing the condition of obtaining the feed amount in the feed conveying pipe, and the camera is arranged on the mounting frame and located on one side of the feed conveying pipe and used for shooting the condition of the feed amount in the feed conveying pipe.

6. The intelligent livestock feeding device of claim 5, wherein the feed delivery tube is made of a transparent material.

7. The intelligent livestock feeding device of claim 6, wherein the feed conveying pipe is provided with two extending ends, one extending end corresponds to the guide hopper, and the other extending end corresponds to the infrared sensor.

8. The intelligent livestock feeding and dosing device according to claim 1, wherein the control mechanism comprises an electrical appliance frame, a single-chip microcomputer, a power supply device, a relay and a motor driver, the electrical appliance frame is arranged in the box body, the single-chip microcomputer is arranged at the top end of the electrical appliance frame, the power supply device is arranged in the middle of the electrical appliance frame, the relay and the motor driver are arranged at the lower part of the electrical appliance frame, and the single-chip microcomputer, the power supply device, the relay and the motor driver are electrically connected with each other.

9. The intelligent poultry feeding apparatus according to any one of claims 1 to 8, further comprising openable and closable movable doors provided on both sides of the housing for viewing the inside of the housing.

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