CN116034911A

CN116034911A - Broiler chicken pellet feed equipment of throwing something and feeding

Info

Publication number: CN116034911A
Application number: CN202310341806.6A
Authority: CN
Inventors: 王宗伟; 李洪涛; 李青; 于娟; 庄佳荣; 庄明; 李守学
Original assignee: Linyi Boon Biotechnology Co ltd; Weifang Boon Feed Co ltd
Current assignee: Linyi Boon Biotechnology Co ltd; Weifang Boon Feed Co ltd
Priority date: 2023-04-03
Filing date: 2023-04-03
Publication date: 2023-05-02
Anticipated expiration: 2043-04-03
Also published as: CN116034911B

Abstract

A broiler granulated feed feeding device belongs to the field of breeding devices, a feed conveying mechanism is arranged below a feeding mechanism, and feeding mechanisms are arranged on two sides of the feed conveying mechanism; the feed conveying mechanism comprises a conveying base, conveying shafts are arranged at two ends of the conveying base, and conveying belts are arranged on the conveying shafts; a first motor is arranged between the two conveying bases, a first conical gear is fixed on a rotating shaft of the first motor, a second conical gear is connected with the first conical gear in a meshed manner, and the second conical gear is connected with the conveying shaft through a belt; and a spreading plate and a stop plate are arranged above the conveying base, the spreading plate and the stop plate are both positioned above the conveying belt, the lower edge of the spreading plate is separated from the conveying belt by a distance of several millimeters, and the lower edge of the stop plate is connected with the conveying belt in a sliding manner. The invention realizes totally-enclosed discharging and conveying, prevents feed from deteriorating in a humid environment, can realize quantitative feed supply and prevents waste; the feeding mechanism can automatically loose feed and discharge the feed more effectively.

Description

Broiler chicken pellet feed equipment of throwing something and feeding

Technical Field

The invention belongs to the field of breeding equipment, and particularly relates to broiler granulated feed feeding equipment.

Background

The broiler chicken has the characteristics of short growth period and quick meat growth. Because of this, it has higher requirement to the supporting equipment such as fodder quality, mode of throwing something and feeding, throwing something and feeding frequency. Chinese patent grant publication No. CN109076986B discloses a patent application of a feeding device that chicken fodder was convenient for evenly spray, and it specifically is casing, baffle and second cylinder, the bottom internally mounted of casing has first cylinder, and the top of first cylinder is connected with the mixing chamber, the top left side of mixing chamber is provided with the water tank, and the right side of water tank is provided with the feed inlet, the baffle is fixed in the left and right sides of mixing chamber, the second cylinder sets up between hopper and baffle. This chicken fodder is convenient for evenly spray's device of throwing something and feeding, can clear away the fodder that stainless steel conveying pipeline inner wall surface is attached through the setting of rubber lug, also reduces its frictional force with the stainless steel conveying pipeline through the setting of its structure simultaneously to avoided owing to the area of contact between it is great, for helical blade's rotation and the contact surface between with the stainless steel conveying pipeline cause the influence, thereby to the compactness and the harmony that connect between this device of throwing something and feeding the inside parts cause the influence.

Analysis of the technical proposal finds that although the mixing chamber solves the problem of uniform mixing of the feed, when the feed enters the conveying pipeline, the feed can remain in the mixing chamber, if the feed is reserved for a long time, the feed can not be used continuously, accumulation is formed, and the feed is moldy and deteriorated to influence feeding; in addition, although the problem of even feeding is solved by spraying the feed, the feed is limited by a feeding space, the application range is small, and the sprayed feed also has potential health hazards, so that the feed not only can pollute the feeding environment, but also can possibly influence the health of chickens.

Disclosure of Invention

The invention aims to provide broiler granulated feed feeding equipment, which realizes totally-enclosed discharging and conveying, prevents feed from going bad in a humid environment, can realize quantitative feed supply and prevents waste; the feeding mechanism can automatically loose feed and discharge the feed more effectively.

The technical scheme adopted by the invention is as follows:

the broiler granulated feed feeding equipment comprises a feeding mechanism, wherein a feed conveying mechanism is arranged below the feeding mechanism, and feeding mechanisms are arranged on two sides of the feed conveying mechanism; the feed conveying mechanism comprises a U-shaped conveying base, conveying shafts are arranged at two ends of the conveying base, and conveying belts are arranged on the conveying shafts; a first motor is arranged between the two conveying bases, a first conical gear is fixed on a rotating shaft of the first motor, a second conical gear is connected with the first conical gear in a meshed manner, and the rotating shaft of the second conical gear is connected with the conveying shaft through a belt; and a spreading plate and a stop plate are respectively arranged above the conveying base, the spreading plate and the stop plate are both positioned above the conveying belt, the lower edge of the spreading plate is separated from the conveying belt by a distance of several millimeters, and the lower edge of the stop plate is connected with the conveying belt in a sliding manner.

When feeding, the distance between the spreading plate and the conveyor belt is adjusted, and the distance is determined according to the feeding amount. The spreading plate is used for controlling feeding amount, and the feed placed on the conveyor belt from the feeding mechanism is piled, and spreads the feed. And then starting a motor, driving the conveyor belt to run through a first conical gear and a second conical gear, and stopping the rotation of the motor when the feed reaches the stop plate, so as to realize quantitative and smooth feed conveying.

Further, the lower edge of the spreading plate is separated from the conveyor belt by a distance of 2-20 mm.

Further, the feeding mechanism comprises a feeding cylinder fixed on the conveying base, wherein a first discharging cylinder and a second discharging cylinder are sequentially connected to two sides of the feeding cylinder, and an outlet of the second discharging cylinder is positioned right above the conveying belt;

a base plate is arranged at the bottom of the charging barrel, a key shaft is rotationally arranged on the base plate, a third conical gear is fixed at the lower end of the key shaft, and the third conical gear is in meshed connection with the second conical gear; the key shaft is connected with a rotary drum in a key way, the upper end of the rotary drum is fixedly provided with an umbrella-shaped top, and the circumference of the umbrella-shaped top is in sliding connection with the inner wall of the charging barrel.

When feeding, the feed is added from the top of the charging barrel and falls above the umbrella-shaped top, and the circumference of the umbrella-shaped top is in sliding connection with the inner wall of the charging barrel, so that the feed cannot be sprinkled below the umbrella-shaped top; the second conical gear drives the third conical gear to rotate, and then the rotary drum is driven to rotate through the key shaft, and then the bevel-shaped top is driven to rotate. The umbrella-shaped top can throw the feed into the first discharging cylinder rapidly through rotation and then convey the feed onto the conveyor belt. The feed itself can slide into the first discharging cylinder from the inclined plane of umbrella-shaped top by gravity, and the umbrella-shaped top rotates to further accelerate, so that the problem that some feed with poor fluidity is difficult to flow in is solved.

Further, a slide rail seat is fixed on the base plate, four inverted V-shaped arc slide rails are arranged on the upper portion of the slide rail seat, four ball head rods are circumferentially arranged on the lower end face of the umbrella-shaped top, and the ball heads at the lower ends of the ball head rods are in sliding connection with the inverted V-shaped arc slide rails.

In the umbrella-shaped top rotating process, the four ball head rods move along the inverted V-shaped arc-shaped sliding rail, so that the umbrella-shaped top moves up and down repeatedly, the combination of rotation and up and down movement is realized, besides better discharging, the feed in the feeding cylinder can be loosened continuously, and accumulation heating is prevented.

Further, an arc plate is embedded on the side wall of the charging barrel, the arc plate is in sliding connection with the side wall of the charging barrel, and the arc plate can pass through the space between the first discharging barrel and the charging barrel; a connecting plate is hinged between the arc-shaped plate and the rotating drum, wherein the connecting plate is connected with the rotating drum through a bearing; a rotating shaft is fixed in the connecting plate, and two ends of the rotating shaft are fixed in the slide rail seat.

When the rotary drum moves up and down, the arc plate is driven to move up and down by the connecting plate and the rotating shaft according to the lever principle, so that feed accumulated at the inlet of the first discharge drum is timely removed, and the discharge efficiency is improved in an auxiliary manner.

Further, no. two motors and sliding grooves are further arranged between the two conveying bases, a rotating shaft of each No. two motor is connected with a two-way screw rod, two L-shaped pushing blocks are connected to the two-way screw rod in a threaded mode, horizontal sections of the L-shaped pushing blocks are arranged in the sliding grooves in a sliding mode, two push-pull rods are horizontally rotated in the horizontal sections of the L-shaped pushing blocks, end portions of the push-pull rods are rotationally connected with connecting rods, the connecting rods penetrate through side walls on the inner sides of the conveying bases and are in sliding connection with the side walls, pushing plates are fixedly connected to the end portions of the connecting rods and comprise vertical portions and horizontal portions, and the vertical portions of the pushing plates are connected with conveying belts in a sliding mode.

The second motor drives the bidirectional screw rod to rotate, and then drives the L-shaped pushing block to move in the opposite direction, and the L-shaped pushing block is positioned through the sliding groove. In the motion process of the L-shaped pushing block, the included angle between the two push-pull rods is increased, the connecting rod is pushed into the conveying base, the pushing plate slides across the upper surface of the conveying belt through the connecting rod, and the feed on the conveying belt is pushed into the feeding mechanism.

Further, a limit column is arranged at the intersection of the two push-pull rods.

The limiting column is used for limiting the minimum included angle of the push-pull rod when the push-pull rod returns to prevent the push plate from being separated from the conveying base.

Further, the feeding mechanism comprises a horizontal rack fixed on the push plate, a gear is arranged at the end part of the conveying base, and the horizontal rack is in meshed connection with the gear; a plurality of feeding holes are formed in the lateral wall of the outer side of the conveying base, a baffle is arranged at the inner side of each feeding hole, the baffle is fixedly connected with a vertical rack, and the vertical racks are meshed with the gears; a plurality of feeding tanks are arranged outside the conveying base.

When the push plate slides to two sides along the upper surface of the conveyor belt, the horizontal racks are driven to synchronously move, the horizontal racks drive the gears to rotate, the gears drive the vertical racks to move downwards, the vertical racks drive the baffle to move downwards, and then the feed inlet is opened, so that the push plate pushes feed on the conveyor belt into the feed slot. The pushing plate pushes the feed and the baffle is synchronously opened. The baffle can prevent other sundries from falling into the feeding groove when the materials are not fed.

Furthermore, a pecking device is arranged outside the feeding groove, and the pecking device is entirely covered above the conveyor belt. The pecking device can prevent the problem that a plurality of broilers rob feed mutually when feeding simultaneously, and simultaneously, the pecking device wraps the upper part of the conveyor belt partially to prevent the feed from being polluted.

Further, the bottom plate of the feeding trough is detachably and movably installed. When the feed which is not eaten is present, the bottom plate is pulled out, so that the residual feed can be conveniently cleaned, and the accumulation and deterioration are prevented.

The invention has the beneficial effects that:

the invention is provided with the totally-enclosed feeding mechanism and the feed conveying mechanism, so that the feed can be prevented from deteriorating in a humid environment and influencing the quality; the quantitative feed supply is realized by arranging the spreading plate, so that the problems that too much feed is wasted and too little feed is not satisfied are solved; the feeding mechanism capable of simultaneously rotating and moving up and down is arranged, so that the feed in the feed cylinder is loosened in real time, compaction and heating are prevented, and more effective discharging efficiency is realized.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention (beak angle);

FIG. 2 is a top view of the overall structure of the present invention;

FIG. 3 is a schematic view of the overall structure (feed mechanism angle) of the present invention;

FIG. 4 is an exploded view of the present invention;

FIG. 5 is an exploded view of the second embodiment of the present invention;

fig. 6 is a schematic view of the present invention with the beak removed;

FIG. 7 is an exploded schematic view III of the present invention;

FIG. 8 is a schematic illustration of the feed cartridge of the present invention with the feed cartridge removed;

FIG. 9 is an exploded schematic view of the present invention;

FIG. 10 is an enlarged view at B in FIG. 9;

FIG. 11 is an enlarged view at A in FIG. 2;

in the figure, 1, a charging mechanism, 101, a charging barrel, 102, a first discharging barrel, 103, a second discharging barrel, 104, a base plate, 105, a key shaft, 106, a third conical gear, 107, a rotating barrel, 108, an umbrella-shaped top, 109, a slide rail seat, 110, a ball head rod, 111, an arc-shaped plate, 112, a connecting plate, 113, a rotating shaft, 2, a feed conveying mechanism, 201, a conveying base, 202, a conveying shaft, 203, a conveying belt, 204, a first motor, 205, a first conical gear, 206, a second conical gear, 207, a spreading plate, 208, a stop plate, 209, a second motor, 210, a chute, 211, a bidirectional screw, 212, an L-shaped pushing block, 213, a push-pull rod, 214, a belt, 215, a connecting rod, 216, a push plate, 217, a limit post, 3, a feeding mechanism, 301, a horizontal rack, 302, a gear, 303, a baffle, 304, a vertical rack, 305, a feed chute, 306 and a pecker.

Detailed Description

As shown in fig. 1-11, the broiler granulated feed feeding device comprises a feeding mechanism 1, a feed conveying mechanism 2 is arranged below the feeding mechanism 1, and feeding mechanisms 3 are arranged on two sides of the feed conveying mechanism 2; the feed conveying mechanism 2 comprises a U-shaped conveying base 201, conveying shafts 202 are arranged at two ends of the conveying base 201, and conveying belts 203 are arranged on the conveying shafts 202; a first motor 204 is arranged between the two conveying bases 201, a first conical gear 205 is fixed on the rotating shaft of the first motor 204, a second conical gear 206 is connected with the first conical gear 205 in a meshed manner, and the rotating shaft of the second conical gear 206 is connected with the conveying shaft 202 through a belt 214; a spreading plate 207 and a stop plate 208 are respectively arranged above the conveying base 201, the spreading plate 207 and the stop plate 208 are both arranged above the conveying belt 203, the lower edge of the spreading plate 207 is separated from the conveying belt 203 by a distance of 10 mm, and the lower edge of the stop plate 208 is in sliding connection with the conveying belt 203.

At the time of feeding, the distance between the spreading plate 207 and the conveyor belt 203 is adjusted, which is determined according to the required feeding amount. The spreading plate 207 is used for controlling the feeding amount, and the feed discharged from the feeding mechanism 1 onto the conveyor belt 203 is piled up, and the spreading plate 207 spreads the feed. And then the motor 204 is started, the conveyor belt 203 is driven to run by the bevel gear 205 and the bevel gear 206, and when the feed reaches the stop plate 208, the motor 204 stops rotating, so that quantitative and smooth feed conveying is realized.

The feeding mechanism 1 comprises a feeding cylinder 101 fixed on a conveying base 201, wherein a first discharging cylinder 102 and a second discharging cylinder 103 are sequentially connected to two sides of the feeding cylinder 101, and an outlet of the second discharging cylinder 103 is positioned right above a conveying belt 203; a base plate 104 is arranged at the bottom of the charging barrel 101, a key shaft 105 is rotatably arranged on the base plate 104, a third conical gear 106 is fixed at the lower end of the key shaft 105, and the third conical gear 106 is in meshed connection with a second conical gear 206; a rotary drum 107 is connected on the key shaft 105 in a key way, an umbrella-shaped top 108 is fixed at the upper end of the rotary drum 107, and the circumference of the umbrella-shaped top 108 is in sliding connection with the inner wall of the charging barrel 101.

During feeding, the feed is added from the top of the feeding cylinder 101 and falls above the umbrella-shaped top 108, and the circumference of the umbrella-shaped top 108 is in sliding connection with the inner wall of the feeding cylinder 101, so that the feed cannot be sprinkled below the umbrella-shaped top 108; the second bevel gear 206 drives the third bevel gear 106 to rotate, and then drives the rotary drum 107 to rotate through the key shaft 105, and then drives the umbrella-shaped top 108 to rotate. The umbrella-shaped top 108 can quickly throw the feed into the first discharging barrel 102 through rotation, and then the feed is conveyed onto the conveyor belt 203. The feed itself can slide into the first discharging cylinder 102 from the inclined plane of the umbrella-shaped top 108 by gravity, and the umbrella-shaped top 108 rotates to further accelerate, so that the problem that some feed with poor fluidity is difficult to flow in is solved.

The base plate 104 is fixedly provided with a slide rail seat 109, the upper part of the slide rail seat 109 is provided with four inverted V-shaped arc slide rails, the lower end surface of the umbrella-shaped top 108 is provided with four ball head rods 110 along the circumference, and the ball heads at the lower ends of the ball head rods 110 are in sliding connection with the inverted V-shaped arc slide rails.

In the process of rotating the umbrella-shaped top 108, the four ball head rods 110 move along the inverted V-shaped arc-shaped sliding rail, so that the umbrella-shaped top 108 moves up and down repeatedly, the combination of rotation and up and down movement is realized, besides better discharging, the feed in the feeding cylinder 101 can be loosened continuously, and accumulation heating is prevented.

An arc-shaped plate 111 is embedded on the side wall of the charging barrel 101, the arc-shaped plate 111 is in sliding connection with the side wall of the charging barrel 101, and the arc-shaped plate 111 can pass through the space between the first discharging barrel 102 and the charging barrel 101; a connecting plate 112 is hinged between the arc-shaped plate 111 and the rotary drum 107, wherein the connecting plate 112 is connected with the rotary drum 107 through a bearing; a rotation shaft 113 is fixed in the link plate 112, and both ends of the rotation shaft 113 are fixed in the slide rail seat 109.

When the rotary drum 107 moves up and down, the arc-shaped plate 111 is driven to move up and down by the connecting plate 112 and the rotating shaft 113 according to the lever principle, so that feed accumulated at the inlet of the first discharge cylinder 102 is timely removed, and the discharge efficiency is improved in an auxiliary manner.

A second motor 209 and a sliding groove 210 are further arranged between the two conveying bases 201, a rotating shaft of the second motor 209 is connected with a bidirectional screw rod 211, two L-shaped pushing blocks 212 are connected to the bidirectional screw rod 211 in a threaded mode, the horizontal sections of the L-shaped pushing blocks 212 are slidably arranged in the sliding groove 210, two push-pull rods 213 are horizontally arranged in the horizontal sections of the L-shaped pushing blocks 212 in a rotating mode, the end portions of the push-pull rods 213 are rotatably connected with connecting rods 215, the connecting rods 215 penetrate through the side walls of the inner sides of the conveying bases 201 and are slidably connected with the side walls, push plates 216 are fixedly connected to the end portions of the connecting rods 215, the push plates 216 comprise vertical portions and horizontal portions, and the vertical portions of the push plates 216 are slidably connected with the conveying belts 203.

The second motor 209 drives the bi-directional screw 211 to rotate, and then drives the L-shaped pushing block 212 to move in the opposite direction, and the L-shaped pushing block 212 is positioned through the chute 210. During the movement of the L-shaped pushing block 212, the included angle between the two push-pull rods 213 increases, so that the connecting rod 215 is pushed into the conveying base 201, the push plate 216 slides across the upper surface of the conveying belt 203 through the connecting rod 215, and the feed on the conveying belt 203 is pushed into the feeding mechanism 3.

A limit post 217 is provided at the intersection of the two push-pull rods 213. The function of the stop post 217 is to limit the minimum angle of the push rod 213 as it returns to prevent the push plate 216 from being removed from the transfer base 201.

The feeding mechanism 3 comprises a horizontal rack 301 fixed on the push plate 216, a gear 302 is arranged at the end part of the conveying base 201, and the horizontal rack 301 is in meshed connection with the gear 302; a plurality of feeding holes are formed in the lateral wall of the outer side of the conveying base 201, a baffle 303 is arranged on the inner side of each feeding hole, the baffle 303 is fixedly connected with a vertical rack 304, and the vertical racks 304 are in meshed connection with the gears 302; a plurality of feeding tanks 305 are provided outside the transfer base 201.

When the push plate 216 slides to two sides along the upper surface of the conveyor belt 203, the horizontal rack 301 is driven to synchronously move, the horizontal rack 301 drives the gear 302 to rotate, the gear 302 drives the vertical rack 304 to move downwards, the vertical rack 304 drives the baffle 303 to move downwards, and then the feeding port is opened, so that the push plate 216 pushes the feed on the conveyor belt 203 into the feeding slot 305. The pushing of the feed by the push plate 216 is synchronized with the opening of the shutter 303. The baffle 303 prevents other debris from falling into the chute 305 when no material is being fed.

A pecking device 306 is provided outside the feed groove 305, and the pecking device 306 entirely covers the conveyor 203. The beak 306 prevents the problem of the chickens from grabbing the feed when they feed at the same time, and the beak 306 wraps the upper part of the conveyor 203 to prevent the feed from being contaminated. The bottom plate of the feeding trough 305 is detachably and movably installed. When the feed which is not eaten is present, the bottom plate is pulled out, so that the residual feed can be conveniently cleaned, and the accumulation and deterioration are prevented.

Claims

1. The broiler granulated feed feeding equipment is characterized by comprising a feeding mechanism (1), wherein a feed conveying mechanism (2) is arranged below the feeding mechanism (1), and feeding mechanisms (3) are arranged on two sides of the feed conveying mechanism (2); the feed conveying mechanism (2) comprises a U-shaped conveying base (201), conveying shafts (202) are arranged at two ends of the conveying base (201), and conveying belts (203) are arranged on the conveying shafts (202); a first motor (204) is arranged between the two conveying bases (201), a first conical gear (205) is fixed on the rotating shaft of the first motor (204), a second conical gear (206) is connected with the first conical gear (205) in a meshed mode, and the rotating shaft of the second conical gear (206) is connected with the conveying shaft (202) through a belt (214); and a spreading plate (207) and a stop plate (208) are respectively arranged above the conveying base (201), the spreading plate (207) and the stop plate (208) are both positioned above the conveying belt (203), the lower edge of the spreading plate (207) is separated from the conveying belt (203) by a distance of a plurality of millimeters, and the lower edge of the stop plate (208) is in sliding connection with the conveying belt (203).

2. The broiler pellet feed delivery apparatus as claimed in claim 1, characterized in that the lower edge of the spreading plate (207) is spaced from the conveyor belt (203) by a distance of 2-20 mm.

3. The broiler granulated feed feeding device according to claim 1, characterized in that the feeding mechanism (1) comprises a feeding cylinder (101) fixed on a conveying base (201), a first discharging cylinder (102) and a second discharging cylinder (103) are sequentially connected to two sides of the feeding cylinder (101), and an outlet of the second discharging cylinder (103) is positioned right above the conveying belt (203);

a base plate (104) is arranged at the bottom of the charging barrel (101), a key shaft (105) is rotatably arranged on the base plate (104), a third conical gear (106) is fixed at the lower end of the key shaft (105), and the third conical gear (106) is in meshed connection with a second conical gear (206); a rotary drum (107) is connected on the key shaft (105) in a key way, an umbrella-shaped top (108) is fixed at the upper end of the rotary drum (107), and the circumference of the umbrella-shaped top (108) is in sliding connection with the inner wall of the charging barrel (101).

4. A broiler pellet feed feeding device as claimed in claim 3, characterized in that a slide rail seat (109) is fixed on the base plate (104), the upper part of the slide rail seat (109) is provided with four inverted V-shaped arc slide rails, four ball head rods (110) are circumferentially arranged on the lower end face of the umbrella-shaped top (108), and the lower end balls of the ball head rods (110) are in sliding connection with the inverted V-shaped arc slide rails.

5. The broiler granulated feed feeding device as claimed in claim 4, characterized in that an arc-shaped plate (111) is embedded on the side wall of the feeding cylinder (101), the arc-shaped plate (111) is in sliding connection with the side wall of the feeding cylinder (101), and the arc-shaped plate (111) can pass through the space between the first discharge cylinder (102) and the feeding cylinder (101); a connecting plate (112) is hinged between the arc-shaped plate (111) and the rotary drum (107), wherein the connecting plate (112) is connected with the rotary drum (107) through a bearing; a rotating shaft (113) is fixed in the connecting plate (112), and two ends of the rotating shaft (113) are fixed in the slide rail seat (109).

6. The broiler pellet feed feeding device according to claim 1, characterized in that a second motor (209) and a sliding groove (210) are further arranged between the two conveying bases (201), a rotating shaft of the second motor (209) is connected with a bidirectional screw rod (211), two L-shaped pushing blocks (212) are connected to the bidirectional screw rod (211) in a threaded mode, the horizontal sections of the L-shaped pushing blocks (212) are slidably arranged in the sliding groove (210), two push-pull rods (213) are horizontally rotated in the horizontal sections of the L-shaped pushing blocks (212), the end portions of the push-pull rods (213) are rotatably connected with connecting rods (215), the connecting rods (215) penetrate through the side walls on the inner sides of the conveying bases (201) and are slidably connected with the side walls, pushing plates (216) are fixedly connected to the end portions of the connecting rods (215), the pushing plates (216) comprise vertical portions and horizontal portions, and the vertical portions of the pushing plates (216) are slidably connected with the conveying belts (203).

7. The broiler pellet feed delivery apparatus as claimed in claim 6, characterized in that a limit post (217) is provided at the intersection of the two push-pull rods (213).

8. The broiler pellet feed feeding device as claimed in claim 6, characterized in that the feeding mechanism (3) comprises a horizontal rack (301) fixed on a push plate (216), a gear (302) is arranged at the end of the conveying base (201), and the horizontal rack (301) is in meshed connection with the gear (302); a plurality of feeding holes are formed in the lateral wall of the outer side of the conveying base (201), a baffle (303) is arranged on the inner side of each feeding hole, the baffle (303) is fixedly connected with a vertical rack (304), and the vertical racks (304) are in meshed connection with the gears (302); a plurality of feeding tanks (305) are arranged outside the conveying base (201).

9. The broiler pellet feed delivery apparatus as claimed in claim 8, characterized in that a pecker (306) is provided outside the delivery chute (305), the pecker (306) being integrally covered over the conveyor belt (203).

10. The broiler pellet feed delivery apparatus as claimed in claim 8, characterized in that the floor of the delivery chute (305) is removably mounted.