CN115024247A

CN115024247A - Cage type chicken raising equipment with automatic feeding function

Info

Publication number: CN115024247A
Application number: CN202111622967.XA
Authority: CN
Inventors: 杨行昌; 孙雅娟; 孙汉卿; 连卫民; 张建伟
Original assignee: Henan University of Animal Husbandry and Economy
Current assignee: Henan University of Animal Husbandry and Economy
Priority date: 2021-12-28
Filing date: 2021-12-28
Publication date: 2022-09-09

Abstract

The invention discloses cage type chicken raising equipment with an automatic feeding function, which comprises a fixed plate fixed on the side wall of a coop, wherein a material guiding mechanism, a temporary storage box and a material discharging pipe are respectively installed on the fixed plate, a driving mechanism is installed on the side wall of the temporary storage box, the material guiding mechanism comprises a vertically arranged feeding pipe and a horizontally arranged dispersing pipe, an anti-reverse bent pipe is jointly installed between the feeding pipe and the dispersing pipe, and an upper strip-shaped guide pipe and a lower strip-shaped guide pipe are respectively installed at the upper end and the lower end of the temporary storage box. Realize fodder from the bottom up through adopting flexible axle transmission and carry and evenly throw something and feed, and make feeding and ejection of compact developments balanced through intermittent type transmission, realize ration feeding and ration ejection of compact and throw something and feed, need not manual operation, it is more convenient and throw something and feed the volume more accurate.

Description

Cage type chicken raising equipment with automatic feeding function

Technical Field

The invention relates to the field of agricultural cultivation, in particular to cage type chicken raising equipment with an automatic feeding function.

Background

Current cage chicken raising equipment adopts frame-type cylinder mould structure usually, when feeding, needs the manual work to open the cylinder mould, then pours the fodder into the manger in the cylinder mould in, and it is not convenient enough to use, and fodder speed of throwing something and feeding is slow and need the manual work to carry out manual interpolation fodder one by one, and the manual work volume of throwing something and feeding degree of accuracy is relatively poor.

Disclosure of Invention

The invention aims to solve the defects that feed needs to be added manually, the feeding amount error is large, the feeding speed is low and the operation is troublesome in the prior art, and provides cage type chicken raising equipment with an automatic feeding function.

In order to achieve the purpose, the invention adopts the following technical scheme:

a cage type chicken raising device with an automatic feeding function comprises a fixing plate fixed on the side wall of a cage, the fixed plate is respectively provided with a material guiding mechanism, a temporary storage box and a material discharging pipe, the side wall of the temporary storage box is provided with a driving mechanism, the material guiding mechanism comprises a vertically arranged feeding pipe and a horizontally arranged dispersion pipe, an anti-reverse bent pipe is arranged between the feeding pipe and the dispersion pipe, the upper end and the lower end of the temporary storage box are respectively provided with an upper strip-shaped guide pipe and a lower strip-shaped guide pipe, the upper end of the upper strip-shaped guide pipe is inserted on the bottom wall of the dispersion pipe, the lower end of the lower strip-shaped guide pipe is inserted on the top wall of the discharge pipe, the driving mechanism comprises a driving motor fixed on the side wall of the temporary storage box, a driving gear, a notch drive plate and a shift lever are sequentially and fixedly mounted on a crankshaft of the driving motor, and a pin is fixedly mounted on the side wall, close to the driving gear, of the centrifugal end of the shift lever.

Preferably, a plurality of feed inlets are symmetrically formed in the side wall of the lower end of the feeding pipe, a first support is fixedly mounted at the joint of the upper end of the feeding pipe and the anti-reverse bent pipe, a feeding shaft is rotatably mounted between the lower end wall of the feeding pipe and the first support, and feeding spiral blades are mounted on the feeding shaft.

Preferably, a second support is fixedly mounted on the inner wall of one end, close to the anti-reverse bent pipe, of the dispersion pipe, a dispersion shaft is mounted on the side wall of one end, far away from the anti-reverse bent pipe, of the second support and the dispersion pipe in a co-rotating mode, a dispersion spiral blade is mounted on the dispersion shaft after the dispersion spiral blade is mounted, and the dispersion spiral blade is located right above the upper strip-shaped guide pipe.

Preferably, the bending highest point of the anti-reverse elbow is higher than the joint of the anti-reverse elbow and the dispersion pipe, a transmission flexible shaft is installed between the feeding shaft and the dispersion shaft, and the transmission flexible shaft is located in the anti-reverse elbow and is not in contact with the anti-reverse elbow.

Preferably, one end of the dispersion shaft, which is far away from the anti-reverse elbow pipe, extends to the outer side of the dispersion pipe and is fixedly provided with a feeding gear, the feeding gear is matched with the driving gear, and the diameter of the feeding gear is smaller than that of the driving gear.

Preferably, a discharging shaft is installed in the discharging pipe in a rotating mode, a feeding column is fixedly installed on the discharging shaft, a plurality of quantitative grooves are installed on the side wall of the feeding column in an annular equidistance mode, a discharging port is formed in the side wall of the lower end of the discharging pipe, and a material guiding cover is fixedly installed on the outer side, located at the discharging port, of the side wall of the discharging pipe.

Preferably, the one end that the ejection of compact axle is close to drive gear extends to the outside of discharging pipe and fixed mounting has outer arc sheave, outer arc sheave and breach driver plate cooperation, annular equidistance has seted up a plurality of radial grooves on the outer arc sheave, the pin cooperates with a plurality of radial grooves, and is a plurality of radial groove equals with a plurality of quantitative groove's quantity.

The invention has the beneficial effects that: realize fodder from the bottom up through adopting flexible axle transmission and carry and evenly throw something and feed, and make feeding and ejection of compact developments balanced through intermittent type transmission, realize ration feeding and ration ejection of compact and throw something and feed, need not manual operation, it is more convenient and throw something and feed the volume more accurate.

Drawings

FIG. 1 is a schematic structural diagram of cage type chicken raising equipment with an automatic feeding function, which is provided by the invention;

FIG. 2 is a schematic partially cut-away view of a material guiding mechanism of cage type chicken raising equipment with an automatic feeding function according to the present invention;

FIG. 3 is a schematic diagram of a temporary storage box and a discharge pipe of the cage type chicken raising equipment with an automatic feeding function according to the present invention, partially cut away;

FIG. 4 is a schematic diagram of a dispersing shaft and a feeding column of the cage type chicken raising equipment with an automatic feeding function according to the present invention, which are partially cut away;

fig. 5 is a partially enlarged view of a driving mechanism of the cage type chicken raising equipment with an automatic feeding function.

In the figure: the device comprises a fixing plate 1, a material guiding mechanism 2, a material feeding pipe 21, an anti-reverse bent pipe 22, a dispersion pipe 23, a material inlet 24, a first support 25, a second support 26, a temporary storage box 3, a strip-shaped guide pipe 31, a strip-shaped guide pipe 32, a material discharging pipe 4, a material discharging port 41, a material guiding cover 42, a material discharging shaft 43, a driving mechanism 5, a driving motor 51, a driving gear 52, a notch driving plate 53, a deflector rod 54, a pin 55, a material feeding gear 56, an outer arc grooved pulley 57, a radial groove 58, a material feeding shaft 6, a material feeding spiral blade 61, a dispersion shaft 7, a dispersion spiral blade 71, a flexible transmission shaft 8, a material feeding column 9 and a quantitative groove 91.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a cage type chicken raising device with an automatic feeding function comprises a fixing plate 1 fixed on the side wall of a chicken cage, a feeding mechanism 2, a temporary storage box 3 and a discharging pipe 4 are respectively installed on the fixing plate 1, a driving mechanism 5 is installed on the side wall of the temporary storage box 3, the feeding mechanism 2 comprises a vertically arranged feeding pipe 21 and a horizontally arranged dispersing pipe 23, an anti-reverse bent pipe 22 is installed between the feeding pipe 21 and the dispersing pipe 23, an upper strip-shaped guide pipe 31 and a lower strip-shaped guide pipe 32 are respectively installed at the upper end and the lower end of the temporary storage box 3, the upper end of the upper strip-shaped guide pipe 31 is inserted on the bottom wall of the dispersing pipe 23, the lower end of the lower strip-shaped guide pipe 32 is inserted on the top wall of the discharging pipe 4, the driving mechanism 5 comprises a driving motor 51 fixed on the side wall of the temporary storage box 3, a driving gear 52, a notch dial 53 and a deflector rod 54 are fixedly installed on the shaft of the driving motor 51 in sequence, a pin 55 is fixedly mounted on the side wall of the eccentric end of the shift lever 54 adjacent to the drive gear 52.

Draw material mechanism 2 to be used for upwards carrying the fodder in the feedbox to temporary storage tank 3 in, temporary storage tank 3 interior fodder gets into the quantitative ejection of compact in the discharging pipe 4, draw material mechanism 2 through insert the feedbox material loading with the lower extreme of material loading pipe 21 promptly, dispersion pipe 23 is used for carrying the fodder homodisperse of material loading pipe 21 transportation to temporary storage tank 3 in through upper slitter shape pipe 31, make temporary storage tank 3 interior fodder distribute comparatively evenly, actuating mechanism 5 is used for the drive to draw the work of material mechanism 2 and the 4 ejection of compact of discharging pipe, realize automatic feeding ejection of compact and feed.

A plurality of feed inlets 24 are symmetrically formed in the side wall of the lower end of the feeding pipe 21, a first support 25 is fixedly mounted at the joint of the upper end of the feeding pipe 21 and the anti-reverse bent pipe 22, a feeding shaft 6 is rotatably mounted between the lower end wall of the feeding pipe 21 and the first support 25, and a feeding spiral blade 61 is mounted on the feeding shaft 6.

When the feeding shaft 6 rotates, the feeding spiral blades 61 rotate, so that the feed entering the bottom of the feeding pipe 21 through the feeding hole 24 is upwards transported to the anti-reverse bent pipe 22, the feed is upwards transported from the feed box, and manual feeding is not needed.

A second support 26 is fixedly arranged on the inner wall of one end of the dispersion pipe 23 close to the anti-reverse bent pipe 22, a dispersion shaft 7 is arranged on the side wall of one end of the dispersion pipe 23 far away from the anti-reverse bent pipe 22 in a co-rotating mode through the second support 26 and the dispersion pipe 7, a rear dispersion spiral blade 71 is arranged on the dispersion shaft 7, and the dispersion spiral blade 71 is located right above the upper strip-shaped guide pipe 31.

When the dispersion shaft 7 rotates, the dispersion spiral blade 71 rotates, so that the feed entering the dispersion pipe 23 from the anti-reverse bent pipe 22 is transversely transported and uniformly leaks into the temporary storage box 3 through the upper strip-shaped conduit 31, and the feed in the temporary storage box 3 is uniformly distributed.

The highest bending point of the anti-reverse elbow 22 is higher than the joint of the anti-reverse elbow 22 and the dispersion pipe 23, a transmission flexible shaft 8 is installed between the feeding shaft 6 and the dispersion shaft 7, and the transmission flexible shaft 8 is located in the anti-reverse elbow 22 and is not in contact with the anti-reverse elbow 22.

The feed in the feeding pipe 21 is continuously transported upwards by the feeding spiral blade 61, the feed at the upper end of the feeding pipe 21 continuously accumulates to reach the highest point of the anti-reverse bent pipe 22, and when the feed accumulates to exceed the highest point, the feed slides downwards into the dispersion pipe 23 under the action of gravity, so that the feed entering the dispersion pipe 23 can be continuously transported by the dispersion spiral blade 71;

when dispersion axle 7 rotates, can drive transmission flexible axle 8 and rotate, transmission flexible axle 8 rotates for universal flexibility, then can make and disperse axle 7 and be in the material loading axle 6 rotation of vertical direction, can make dispersion axle 7 and material loading axle 6 synchronous rotations promptly, avoids rotating asynchronous fodder and piles up the jam that leads to.

One end of the dispersion shaft 7, which is far away from the anti-reverse bend 22, extends to the outer side of the dispersion pipe 23 and is fixedly provided with a feeding gear 56, the feeding gear 56 is matched with the driving gear 52, and the diameter of the feeding gear 56 is smaller than that of the driving gear 52.

The driving motor 51 works to enable the driving gear 52, the notch drive plate 53 and the shift lever 54 to synchronously rotate, the dispersing shaft 7 can be enabled to rotate through the feeding gear 56, namely, the flexible transmission shaft 8 and the feeding shaft 6 can be enabled to rotate, the feed transportation driving is realized, the driving gear 52 can enable the driving gear 52 to rotate at a low speed through the large diameter of the driving gear 52, the notch drive plate 53 and the shift lever 54 rotate at a low speed, the dispersing shaft 7 is enabled to rotate at a high speed through the flexible transmission shaft 8 and the feeding shaft 6, the discharging pipe 4 can be enabled to discharge materials after a certain amount of materials are stored in the temporary storage box 3, and the dynamic balance between the feeding amount and the discharging amount is always kept.

Discharging shaft 43 is rotatably mounted in discharging pipe 4, feeding column 9 is fixedly mounted on discharging shaft 43, a plurality of quantitative grooves 91 are annularly and equidistantly mounted on the side wall of feeding column 9, discharging port 41 is formed in the side wall of the lower end of discharging pipe 4, and guide cover 42 is fixedly mounted on the side wall of discharging pipe 4 outside discharging port 41.

The fodder in the temporary storage case 3 enters into discharging pipe 4 through bar pipe 32 down, and fall into in the ration groove 91 of feeding post 9, make and be full of the fodder in the ration groove 91, when feeding post 9 rotates along with ejection of compact axle 43, the ration groove 91 that will fill the fodder rotates the discharge gate 41 department to the bottom, make the fodder discharge gate 41 discharge, and in following the manger of guide cover 42 landing to the chicken coop, and empty ration groove 91 is rotatory under bar pipe 32 down, make it fill with the fodder, realize the ration and throw something and feed.

One end of the discharging shaft 43 close to the driving gear 52 extends to the outer side of the discharging pipe 4 and is fixedly provided with an outer arc grooved wheel 57, the outer arc grooved wheel 57 is matched with the notch dial 53, a plurality of radial grooves 58 are annularly and equidistantly formed in the outer arc grooved wheel 57, the pins 55 are matched with the plurality of radial grooves 58, and the number of the plurality of radial grooves 58 is equal to that of the plurality of quantitative grooves 91.

When driving motor 51 drives breach driver plate 53 and driving lever 54 and rotates, driving lever 54 drives pin 55 and rotates, pivoted pin 55 inserts radial groove 58 and stirs outer arc sheave 57 and rotates, make outer arc sheave 57 rotate a fixed angle, then make to obtain material axle 43 and rotate a fixed angle, then make to obtain feeding post 9 and rotate a fixed angle, even if make another ration groove 91 rotate under to bar conduit 32, realize the drive of the fodder ejection of compact and make the load feeding volume keep dynamic balance, the fixed amount fodder of transport gets into in the temporary storage box 3 promptly, the fixed amount fodder that falls down in the temporary storage box 3 gets into in the ration groove 91, and a plurality of ration grooves 91 change the deposit and discharge under feeding post 9 rotates.

When the feeding device is used, the fixing plate 1 is fixed on the side wall of the existing coop, then the lower end of the feeding pipe 21 extends into the existing external feed box, the outlet of the material guide cover 42 is arranged in a feed trough in the coop and is connected with a power supply, and the feeding time is set;

when the feeding time is up, the driving motor 51 works to enable the driving gear 52, the notch drive plate 53 and the deflector rod 54 to synchronously rotate, the driving gear 52 drives the dispersing shaft 7 to rotate through the feeding gear 56, the dispersing shaft 7 drives the feeding shaft 6 to rotate through the transmission flexible shaft 8, the feeding spiral blades 61 and the dispersing spiral blades 71 are enabled to rotate, the feed entering the feeding pipe 21 through the feeding hole 24 is enabled to be upwards conveyed to the anti-reverse bent pipe 22 and fall into the dispersing pipe 23 through the feeding spiral blades 61, then the feed is conveyed by the dispersing spiral blades 71 to uniformly fall into the temporary storage box 3 from the upper strip-shaped guide pipe 31, and the feed in the temporary storage box 3 falls into the quantifying groove 91 on the feeding column 9 in the discharging pipe 4 through the lower strip-shaped guide pipe 32;

when the driving gear 52 drives the dispersion shaft 7 and the feeding shaft 6 to rotate through the feeding gear 56 to enable the feeding amount to reach the volume of the quantitative groove 91, the gap of the gap driving plate 53 is close to the outer arc grooved wheel 57, and the pin 55 enters the radial groove 58, when the driving motor 51 continues to rotate, the gap driving plate 53 unlocks the outer arc grooved wheel 57, the pin 55 enters the radial groove 58 to shift the outer arc grooved wheel 57, so that the outer arc grooved wheel 57 rotates by a fixed angle, the feeding shaft 43 drives the feeding column 9 to rotate by an angle, the empty quantitative groove 91 rotates to the position below the lower strip-shaped guide tube 32 to be filled with the feed, the quantitative groove 91 of the feed rotates to the discharge port 41, the feed slides out of the discharge port 41 and slides into the feed groove along the guide cover 42, and the automatic feeding of the feed is achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The cage type chicken raising equipment with the automatic feeding function comprises a fixing plate (1) fixed on the side wall of a chicken cage, and is characterized in that a material guiding mechanism (2), a temporary storage box (3) and a discharging pipe (4) are installed on the fixing plate (1) respectively, a driving mechanism (5) is installed on the side wall of the temporary storage box (3), the material guiding mechanism (2) comprises a vertically-arranged feeding pipe (21) and a horizontally-arranged dispersing pipe (23), an anti-reverse bent pipe (22) is installed between the feeding pipe (21) and the dispersing pipe (23) together, an upper strip-shaped guide pipe (31) and a lower strip-shaped guide pipe (32) are installed at the upper end and the lower end of the temporary storage box (3) respectively, the upper end of the upper strip-shaped guide pipe (31) is inserted into the bottom wall of the dispersing pipe (23), the lower end of the lower strip-shaped guide pipe (32) is inserted into the top wall of the discharging pipe (4), the driving mechanism (5) comprises a driving motor (51) fixed on the side wall of the temporary storage box (3), a driving gear (52), a notch dial plate (53) and a shifting lever (54) are sequentially and fixedly installed on a crankshaft of the driving motor (51), and a pin (55) is fixedly installed on the side wall, close to the driving gear (52), of the centrifugal end of the shifting lever (54).

2. The cage type chicken raising equipment with the automatic feeding function according to claim 1, wherein a plurality of feeding holes (24) are symmetrically formed in the side wall of the lower end of the feeding pipe (21), a first support (25) is fixedly installed at the joint of the upper end of the feeding pipe (21) and the anti-reverse bent pipe (22), a feeding shaft (6) is installed between the lower end wall of the feeding pipe (21) and the first support (25) in a rotating mode, and feeding spiral blades (61) are installed on the feeding shaft (6).

3. The cage type chicken raising equipment with the automatic feeding function according to claim 2, wherein a second support (26) is fixedly installed on the inner wall of one end, close to the anti-reverse elbow pipe (22), of the dispersion pipe (23), a dispersion shaft (7) is installed on the side wall of one end, far away from the anti-reverse elbow pipe (22), of the second support (26) and the dispersion pipe (23) in a co-rotating mode, a rear dispersion spiral blade (71) is installed on the dispersion shaft (7), and the dispersion spiral blade (71) is located right above the upper strip-shaped guide pipe (31).

4. The cage type chicken raising equipment with the automatic feeding function according to claim 3, wherein the bending highest point of the anti-reverse elbow (22) is higher than the joint of the anti-reverse elbow (22) and the dispersion pipe (23), a flexible transmission shaft (8) is installed between the feeding shaft (6) and the dispersion shaft (7), and the flexible transmission shaft (8) is located in the anti-reverse elbow (22) and is not in contact with the anti-reverse elbow (22).

5. The cage type chicken raising equipment with the automatic feeding function is characterized in that one end, far away from the anti-reverse bent pipe (22), of the dispersing shaft (7) extends to the outer side of the dispersing pipe (23) and is fixedly provided with a feeding gear (56), the feeding gear (56) is matched with the driving gear (52), and the diameter of the feeding gear (56) is smaller than that of the driving gear (52).

6. The cage type chicken raising equipment with the automatic feeding function according to claim 1, wherein a discharging shaft (43) is rotatably mounted in the discharging pipe (4), a feeding column (9) is fixedly mounted on the discharging shaft (43), a plurality of quantitative grooves (91) are annularly and equidistantly mounted on the side wall of the feeding column (9), a discharging hole (41) is formed in the side wall of the lower end of the discharging pipe (4), and a material guiding cover (42) is fixedly mounted on the side wall of the discharging pipe (4) and positioned on the outer side of the discharging hole (41).

7. The cage type chicken raising equipment with the automatic feeding function is characterized in that one end, close to the driving gear (52), of the discharging shaft (43) extends to the outer side of the discharging pipe (4) and is fixedly provided with an outer arc grooved wheel (57), the outer arc grooved wheel (57) is matched with the notch driving plate (53), a plurality of radial grooves (58) are annularly and equidistantly formed in the outer arc grooved wheel (57), the pin (55) is matched with the plurality of radial grooves (58), and the number of the plurality of radial grooves (58) is equal to that of the plurality of quantitative grooves (91).