CN111149715B

CN111149715B - Quantitative feed conveying system

Info

Publication number: CN111149715B
Application number: CN202010012073.8A
Authority: CN
Inventors: 徐平源
Original assignee: Hunan Biological and Electromechanical Polytechnic
Current assignee: Hunan Biological and Electromechanical Polytechnic
Priority date: 2020-01-06
Filing date: 2020-01-06
Publication date: 2021-08-31
Anticipated expiration: 2040-01-06
Also published as: CN111149715A

Abstract

The invention discloses a quantitative feed conveying system which comprises a plurality of storage devices for temporarily storing different feeds, a plurality of conveying devices which are respectively arranged corresponding to the storage devices and used for conveying the different feeds temporarily stored in the storage devices, a feeding device arranged below the conveying devices, and a feed pushing device arranged above the conveying devices and used for pushing the different feeds conveyed by the conveying devices into the feeding device. The quantitative feed conveying system provided by the invention can be used for distributing different feeds in multiple channels at the same time, and is low in manufacturing cost and failure rate.

Description

Quantitative feed conveying system

Technical Field

The invention relates to the field of feed transportation, and particularly discloses a quantitative feed conveying system.

Background

In the production field, the proportioning precision among various raw materials has important influence on the stability of the production process and the quality and yield of products. The quantitative feeding system is widely applied to the industrial links of flow measurement and quantitative feeding of continuous powder conveying in the industries of cement building materials, metallurgy, chemical industry, electric power, coal and the like, such as quantitative conveying of feed in a breeding plant. At this stage, the electronic dosing system is adopted as a dosing system, and is widely used in various industrial fields as an electronic product. The electronic quantitative feeding system has great use in transportation, is a high-tech product integrating transportation and quantitative control into a whole by continuously weighing and feeding bulk feeds, can continuously feed and measure, and provides accurate measuring data for production control and management of various industrial fields. However, most of the quantitative feed conveying systems used at present are controlled by logic circuits, and a lot of discrete components are used, so that the manufacturing cost of the quantitative feed conveying system is high. In addition, the conventional quantitative feed conveying system is composed of an analog circuit, a digital circuit or a combination of the analog circuit and the digital circuit, and has high failure rate.

Therefore, the existing quantitative feed conveying system has high manufacturing cost and failure rate, and is a technical problem to be solved urgently.

Disclosure of Invention

The invention provides a quantitative feed conveying system, and aims to solve the technical problems of high manufacturing cost and high failure rate of the conventional quantitative feed conveying system.

The invention provides a quantitative feed conveying system which comprises a plurality of storage devices for temporarily storing different feeds, a plurality of conveying devices which are respectively arranged corresponding to the storage devices and used for conveying the different feeds temporarily stored in the storage devices, a feeding device arranged below the conveying devices, and a feed pushing device arranged above the conveying devices and used for pushing the different feeds conveyed by the conveying devices into the feeding device.

Further, storage device includes the storage box, and a plurality of storage boxes are the echelonment setting for deposit different fodder temporarily.

Further, conveyer includes the fodder conveyer belt and is connected with the fodder conveyer belt and is used for dragging the rotatory motor of fodder conveyer belt, and the fodder conveyer belt is used for under the drive of motor, evenly carries the different fodder that the storage box was deposited temporarily.

Further, the feeding device comprises a guide groove and a feeding groove,

the discharge gate of guide way is corresponding with the pan feeding mouth of feeding groove, and the cross-section of the discharge gate of guide way is hourglass hopper-shaped.

Further, the feed pushing device comprises an induction mechanism and a pushing mechanism connected with the induction mechanism,

the induction mechanism comprises a feeding window and a throwing driving connecting rod connected with the feeding window, a blocking rod is arranged on the feeding window, and a pawl is arranged on the throwing driving connecting rod.

Furthermore, the pushing mechanism comprises a first main shaft, a ratchet wheel fixedly arranged on the first main shaft, a synchronous belt connected with the first main shaft, and a pushing assembly connected with the synchronous belt and used for pushing different feeds of the feed conveying belt under the rotation of the synchronous belt, wherein the ratchet wheel is matched with the pawl.

Furthermore, the pushing assembly comprises a second main shaft, a first transmission gear fixedly connected with the second main shaft, a second transmission gear meshed with the first transmission gear, and a pushing plate matched with the second transmission gear and used for pushing different feeds conveyed on the feed conveyor belt, wherein a rack matched with the second transmission gear is arranged on the pushing plate.

Furthermore, the pushing assembly further comprises a shifting lever fixedly connected with the second transmission gear and a throwing control connecting rod connected with the shifting lever, and the throwing control connecting rod is used for enabling the second transmission gear and the first transmission gear to be meshed with each other or separated from each other.

Furthermore, the pushing assembly further comprises a reset connecting rod fixedly connected with the throwing control connecting rod and used for resetting the pushing plate, a reset ejector block is arranged on the reset connecting rod, and a fixing block used for abutting against the reset ejector block is correspondingly arranged on the pushing plate.

Furthermore, the pushing assembly further comprises an electric push rod connected with the shifting rod, and the electric push rod is used for pushing the shifting rod to act.

The beneficial effects obtained by the invention are as follows:

the quantitative feed conveying system provided by the invention adopts the storage device, the conveying device, the feeding device and the feed pushing device, and different feeds are respectively conveyed into the set feeding device through the plurality of groups of corresponding storage devices, conveying devices and feed pushing devices. The quantitative feed conveying system provided by the invention can be used for distributing different feeds in multiple channels at the same time, and is low in manufacturing cost and failure rate.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of a quantitative feeding stuff transfer system provided in the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is an enlarged, fragmentary schematic view of the storage device, the transport device, the feeding device, and the feed pusher of FIG. 1 in cooperation with one another;

fig. 4 is a partially enlarged view of a portion B in fig. 3.

The reference numbers illustrate:

10. a storage device; 20. a transportation device; 30. a feeding device; 40. a feed pushing device; 11. a storage box; 21. a feed conveyor belt; 31. a guide groove; 32. a feeding trough; 41. an induction mechanism; 42. a pushing mechanism; 411. feeding windows; 412. putting a driving connecting rod; 4111. a blocking lever; 4121. a pawl; 421. a first main shaft; 422. a ratchet wheel; 423. a synchronous belt; 424. a push assembly; 4241. a second main shaft; 4242. a first drive gear; 4243. a second transmission gear; 4244. a material pushing plate; 42441. a rack; 4245. a deflector rod; 4246. putting a control connecting rod; 4247. a reset connecting rod; 42471. resetting the top block; 42442. a fixed block; 4248. an electric push rod; 100. a livestock activity area.

Detailed description of the preferred embodiments

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

As shown in fig. 1, the present invention provides a quantitative fodder conveying system applied to a farm, the quantitative fodder conveying system includes a plurality of storage devices 10 for temporarily storing different fodder, a plurality of transporting devices 20 respectively corresponding to the plurality of storage devices 10 for respectively transporting the different fodder temporarily stored in the storage devices 10, a feeding device 30 disposed below the transporting device 20, and a fodder pushing device 40 disposed above the transporting device 20 for pushing the different fodder respectively transported by the plurality of transporting devices 20 into the feeding device 30. The feed may be, among others, various kinds of feeds, such as complete formula feed, concentrated feed, premix/premix feed, concentrate mix and mixed feed. Each feeding device 30 corresponds to an animal activity area 100.

Referring to fig. 1 to 4, in the above structure, the storage device 10 includes storage boxes 11, and a plurality of the storage boxes 11 are arranged in a step shape and used for temporarily storing different feeds. And a feeding port is respectively arranged on each storage box 11 and used for placing different feeds. The transportation device 20 includes a feed conveyer belt 21 and a motor (not shown) connected to the feed conveyer belt 21 for driving the feed conveyer belt 21 to rotate, and the feed conveyer belt 21 is used for uniformly conveying different feeds temporarily stored in the storage box 11 under the driving of the motor. In the present embodiment, each feed conveyer belt 21 is correspondingly disposed below the storage box 11, and is used for respectively receiving different feeds output by the discharge product of the storage box 11. The feeding device 30 comprises a guide groove 31 and a feeding groove 32, the discharge hole of the guide groove 31 corresponds to the feed hole of the feeding groove 32, and the section of the discharge hole of the guide groove 31 is funnel-shaped. The guide groove 31 is used for receiving different kinds of fodder which is pushed by the fodder pushing device 40 from each fodder conveying belt 21. In the present embodiment, the number of the storage boxes 11 is three, and the number of the fodder conveyor belts 21 is three.

Preferably, referring to fig. 1 to 4, in the quantitative feed conveying system provided in this embodiment, the feed pushing device 40 includes a sensing mechanism 41 and a pushing mechanism 42 connected to the sensing mechanism 41, the sensing mechanism 41 includes a feeding window 411 and a feeding driving link 412 connected to the feeding window 411, a shielding rod 4111 is disposed on the feeding window 411, and a pawl 4121 is disposed on the feeding driving link 412. When the animal goes to eat the feed, the head will be extended out of the feeding window 411. The feeding window 411 is provided with a shielding rod 4111, and the shielding rod 4111 will act at this time. When the blocking rod 4111 is activated, the pushing mechanism 42 is linked to move together to push different feeds respectively conveyed by the plurality of conveyors 20 to the feeding device 40 in the feeding device 30. Specifically, the pushing mechanism 42 includes a first main shaft 421, a ratchet 422 fixedly disposed on the first main shaft 421, a timing belt 423 connected to the first main shaft 421, and a pushing assembly 424 connected to the timing belt 423 and used for pushing different feeds of the feed conveyor 21 under the rotation of the timing belt 423, wherein the ratchet 422 is matched with a pawl 4121. The pushing assembly 424 comprises a second main shaft 4241, a first transmission gear 4242 fixedly connected with the second main shaft 4241, a second transmission gear 4243 meshed with the first transmission gear 4242, and a material pushing plate 4244 matched with the second transmission gear 4243 and used for pushing different kinds of feed conveyed on the feed conveying belt 21, wherein a rack 42441 matched with the second transmission gear 4243 is arranged on the material pushing plate 4244. The pushing assembly 424 further includes a shift lever 4245 fixedly connected to the second transmission gear 4243, and a release control link 4246 connected to the shift lever 4245, wherein the release control link 4246 is configured to engage or disengage the second transmission gear 4243 and the first transmission gear 4242 with each other. In this embodiment, the feeding control link 4246 finally controls to feed different feeds into the corresponding feeding devices 30, so that the reliability is high and the failure rate is low.

Further, referring to fig. 1 to 4, in the quantitative feed conveying system provided in this embodiment, the pushing assembly 424 further includes a reset link 4247 fixedly connected to the throwing control link 4246 for resetting the pushing plate 4244, the reset link 4247 is provided with a reset ejector block 42471, and the pushing plate 4244 is correspondingly provided with a fixing block 42442 for abutting against the reset ejector block 42471. In the real and direct aspect, the material pushing plate 4244 is reset through the shift lever 4245, so that the operation is convenient and the failure rate is low.

Preferably, referring to fig. 1 to 4, in the quantitative feed delivery system provided by the present embodiment, the pushing assembly 424 further includes an electric push rod 4248 connected to the shift lever 4245, and the electric push rod 4248 is configured to push the shift lever 4245 to actuate. The electric push rod 4248 is an electric drive device for converting the rotary motion of a motor into the linear reciprocating motion of the push rod, and comprises a drive motor, a push rod assembly, a speed change mechanism and a control box, wherein the control box is electrically connected with the motor, a main shaft of the motor is connected with the input end of the speed change mechanism, the output end of the speed change mechanism is connected with the push rod assembly, and the push rod assembly is connected with the shift lever 4245. In this embodiment, under the control of the control box, the driving motor drives the push rod assembly, and the push rod assembly pushes the shift lever 4245 to operate.

As shown in fig. 1 to 4, the quantitative feed conveying system provided in this embodiment has the following working principle:

the storage tank 11 is first filled with feed, which is transferred evenly to the entire line via the feed conveyor 21. The three feed conveyer belts 21 correspond to different feeds, and which feed is finally fed by the feeding control connecting rod 4246. When the animal goes to eat the feed, the head will be extended out of the feeding window 411. The feeding window 411 is provided with a shielding rod 4111, and the shielding rod 4111 will act at this time. When the blocking lever 4111 is actuated, the throw drive link 412 is actuated in conjunction with the actuation of the pawl 4121 on the throw drive link 412 to actuate the ratchet 422. When the ratchet wheel 422 moves, the timing belt 423 is driven to move, so as to drive the first transmission gear 4242 to move. The second transmission gear 4243 is connected with a shift lever 4245, when the shift lever 4245 is shifted to the left, the first transmission gear 4242 is meshed with the second transmission gear 4243, and the material pushing plate 4244 is driven to advance. When the shift lever 4245 is shifted to the right, the first transmission gear 4242 is suspended, and the ejector plate 4244 is stationary. In this example, the electric push rod 4248 pushes the shift lever 4245 to move, so that different material pushing plates 4244 can be controlled to move, and different material pushing plates 4244 push out the feed on different feed conveying belts 21. When the material pushing plate 4244 advances to the foremost end, the reset connecting rod 4247 can move leftwards at this time, and the reset top block 42471 on the reset connecting rod 4247 pulls out the material pushing plate 4244 to reset.

The ration fodder conveying system that this embodiment provided adopts storage device, conveyer, feeds and eats device and fodder pusher, through corresponding storage device of multiunit, conveyer and fodder pusher respectively with different fodder conveying to the feeding of settlement in eating the device. The quantitative feed conveying system provided by the embodiment can be used for distributing different feeds in multiple channels simultaneously, and is low in manufacturing cost and failure rate.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A quantitative feed conveying system is characterized by comprising a plurality of storage devices (10) used for temporarily storing different feeds, a plurality of conveying devices (20) which are respectively arranged corresponding to the storage devices (10) and used for conveying the different feeds temporarily stored in the storage devices (10), a feeding device (30) arranged below the conveying device (20), and a feed pushing device (40) arranged above the conveying device (20) and used for pushing the different feeds conveyed by the conveying devices (20) into the feeding device (30); the storage device (10) comprises storage boxes (11), and a plurality of storage boxes (11) are arranged in a step shape and used for temporarily storing different feeds; the conveying device (20) comprises a feed conveying belt (21) and a motor which is connected with the feed conveying belt (21) and used for dragging the feed conveying belt (21) to rotate, and the feed conveying belt (21) is used for uniformly conveying different feeds temporarily stored in the storage box (11) under the driving of the motor; the feeding device (30) comprises a guide groove (31) and a feeding groove (32), a discharge hole of the guide groove (31) corresponds to a feed hole of the feeding groove (32), and the section of the discharge hole of the guide groove (31) is funnel-shaped; the feed pushing device (40) comprises an induction mechanism (41) and a pushing mechanism (42) connected with the induction mechanism (41), the induction mechanism (41) comprises a feeding window (411) and a feeding driving connecting rod (412) connected with the feeding window (411), a blocking rod (4111) is arranged on the feeding window (411), and a pawl (4121) is arranged on the feeding driving connecting rod (412); the pushing mechanism (42) comprises a first main shaft (421), a ratchet wheel (422) fixedly arranged on the first main shaft (421), a synchronous belt (423) connected with the first main shaft (421), and a pushing assembly (424) connected with the synchronous belt (423) and used for pushing different feeds of the feed conveying belt (21) under the belt rotation of the synchronous belt (423), wherein the ratchet wheel (422) is matched with the pawl (4121).

2. The metered feed delivery system of claim 1,

the pushing assembly (424) comprises a second main shaft (4241), a first transmission gear (4242) fixedly connected with the second main shaft (4241), a second transmission gear (4243) meshed with the first transmission gear (4242), and a material pushing plate (4244) matched with the second transmission gear (4243) and used for pushing different kinds of feed conveyed on the feed conveying belt (21), wherein a rack (42441) matched with the second transmission gear (4243) is arranged on the material pushing plate (4244).

3. The metered dose feed delivery system of claim 2,

the pushing assembly (424) further comprises a shifting lever (4245) fixedly connected with the second transmission gear (4243) and a throwing control connecting rod (4246) connected with the shifting lever (4245), and the throwing control connecting rod (4246) is used for enabling the second transmission gear (4243) and the first transmission gear (4242) to be meshed with each other or separated from each other.

4. The metered dose feed delivery system of claim 3,

the pushing assembly (424) further comprises a reset connecting rod (4247) fixedly connected with the releasing control connecting rod (4246) and used for resetting the material pushing plate (4244), a reset ejecting block (42471) is arranged on the reset connecting rod (4247), and a fixing block (42442) used for being abutted against the reset ejecting block (42471) is correspondingly arranged on the material pushing plate (4244).

5. A ration conveyor system according to claim 3 or 4,

the pushing assembly (424) further comprises an electric push rod (4248) connected with the shifting rod (4245), and the electric push rod (4248) is used for pushing the shifting rod (4245) to act.