A new type of feeding machine for chicken farm

By adopting a multi-cylinder combination structure and detachable design in the feeder, the problems of uneven material discharge and easy breakage of the auger are solved, thereby achieving uniform material conveying and improving the strength of the auger, and facilitating maintenance.

CN224368736UActive Publication Date: 2026-06-19杨永山

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
杨永山
Filing Date
2025-07-16
Publication Date
2026-06-19

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    Figure CN224368736U_ABST
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Abstract

The utility model provides a novel chicken farm is with feeding machine, including frame, main wheel, direction wheel and material box, still include first cylinder, parallel interval setting has a plurality, the lower end of first cylinder is coaxial with drive shaft is provided, the end surface of drive shaft is provided with the insertion slot, the lateral wall of first cylinder is provided with the feed inlet that communicates with the inside of material box, second cylinder is detachably connected with the upper end of first cylinder, is equipped with the auger blade in second cylinder, the auger blade is equipped with auger axle, and the lower end of auger axle and auger blade stretches into first cylinder, and the lower end of auger axle is inserted with the insertion slot and inserts transmission cooperation, through above -mentioned setting, can improve the uniformity of material conveying, and have the high strength of shaft auger, and the second cylinder and the detachable cooperation mode of first cylinder also are convenient for the later dismounting maintenance.
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Description

Technical Field

[0001] This utility model relates to the field of feeder technology, and in particular to a novel feeder for chicken farms. Background Technology

[0002] Currently, chicken farms use feeders for feeding. For example, Chinese utility model patent application number 2015205251343 provides a feeder for chicken farms, which includes a hopper, a frame, and an auger conveyor. Multiple discharge ports are set on the conveying pipe of the auger conveyor, and the multiple discharge ports can correspond one-to-one with the multi-layer chicken cages. The frame is equipped with directional wheels and main wheels, and the main wheels are driven by a motor, thereby realizing automatic feeding.

[0003] However, because it uses a single auger for material conveying and adopts a shaftless auger, the material output from multiple outlets is uneven, and the shaftless auger is prone to blade breakage. Utility Model Content

[0004] The purpose of this invention is to solve the above-mentioned problems by providing a new type of feeder for chicken farms.

[0005] To achieve the above objectives, the technical solution of this utility model is as follows: a novel feeder for chicken farms, comprising a frame, main wheels and steering wheels mounted on the frame, a feed bin positioned above the frame, and further comprising:

[0006] The first cylinder has multiple parallel spacings. A drive shaft is coaxially arranged at the lower end of the first cylinder. The end face of the drive shaft is provided with an insertion groove. The side wall of the first cylinder is provided with a feed port that communicates with the inside of the material box.

[0007] The second cylinder is detachably and fixedly connected to the upper end of the first cylinder. The second cylinder is equipped with auger blades, and the auger blades are equipped with auger shafts. The lower ends of the auger shaft and the auger blades extend into the first cylinder, and the lower end of the auger shaft is inserted into the insertion slot for transmission.

[0008] Furthermore, a bottom plate is provided at the lower end of the material box, and multiple bearing seats corresponding one-to-one with multiple first cylinders are provided on the bottom plate. The drive shaft is rotatably mounted on the bearing seats, and the lower ends of the multiple drive shafts are sequentially connected for transmission.

[0009] Furthermore, the first cylinder is fixedly installed with the material box.

[0010] Furthermore, a rotating component is horizontally rotatably mounted on the frame, and the material box is mounted on the rotating component.

[0011] Furthermore, around the axis of rotation of the rotating component, two positioning sleeves are spaced apart on one of the rotating component and the frame, and a positioning pin is provided on the other, with the positioning pin and the positioning sleeves being inserted and positioned together.

[0012] Furthermore, a swinging component is rotatably fitted above the rotating component, the swinging axis of the swinging component is horizontally set, and the material box is detachably and fixedly connected to the swinging component.

[0013] Furthermore, on both sides of the swing axis of the swinging component, the rotating component is threaded with a screw, and the upper end of the screw can abut against the swinging component.

[0014] Furthermore, at least one side of the frame is provided with a guide roller, and the axis of the guide roller is vertically arranged.

[0015] Compared with the prior art, the novel feeder for chicken farms disclosed in this utility model has the following advantages: When the second cylinder is connected to the first cylinder, the lower ends of the auger blades and auger shaft are inserted into the first pipe, and the insertion end of the auger shaft is inserted into the insertion slot to realize the transmission connection. In actual use, the second pipe of different sizes can be selected according to the height of the chicken cage, so that the discharge port of the second pipe corresponds to different layers. Through this setting method, an auger can be set up corresponding to each layer of the chicken cage, which can improve the uniformity of material conveying. Moreover, the shafted auger has high strength and is not easy to fail. The detachable connection between the second cylinder and the first cylinder also facilitates disassembly and maintenance in the later stage. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the first embodiment of a novel feeder for chicken farms according to the present invention.

[0017] Figure 2 This is a side view of the first embodiment of a novel feeder for chicken farms according to the present invention.

[0018] Figure 3 This is a top view schematic diagram of the first embodiment of a novel feeder for chicken farms according to the present invention.

[0019] Figure 4 This is a bottom view of the first embodiment of a novel chicken farm feeder according to the present invention.

[0020] Figure 5 This is a schematic diagram of the structure of the second cylinder and the auger conveyor blades in a novel chicken farm feeder of this utility model.

[0021] Figure 6 This is a schematic diagram of the structure of a novel hidden feed box for chicken farms according to this utility model. Figure 1 .

[0022] Figure 7 This is a schematic diagram of the structure of a novel hidden feed box for chicken farms according to this utility model. Figure 2 .

[0023] Figure 8 for Figure 6 The diagram shown is a partially enlarged structural schematic of point A in a novel chicken farm feeder of this utility model.

[0024] Figure 9 This is a schematic diagram of the feed box in a novel feeder for chicken farms according to this utility model.

[0025] Figure 10 for Figure 9 The diagram shows a partially enlarged structural schematic at point B in this utility model.

[0026] Figure 11 This is a schematic diagram of the connection structure of the transfer platform and swing component of this utility model.

[0027] Figure 12 This is a cross-sectional structural diagram of the transfer platform and connecting parts of this utility model.

[0028] Figure 13 This is a side view of the transfer platform and connector of this utility model.

[0029] Figure 14 This is a schematic diagram of the connection structure between the battery box and the frame in a novel feeder for chicken farms according to this utility model.

[0030] Figure 15 This is a side view of the second embodiment of a novel feeder for chicken farms according to the present invention.

[0031] In the diagram: 1. Material bin; 10. Base plate; 3. Motor; 31. First sprocket; 32. First chain; 33. Bearing seat; 34. Drive shaft; 340. Insertion slot; 35. Second sprocket; 37. Second chain; 4. Screwdriver; 41. First pipe; 410. First connecting flange; 411. Feed inlet; 42. Second pipe; 420. Discharge outlet; 421. Screwdriver blade; 422. Screwdriver shaft; 4220. Insertion end; 7. Frame; 71. Rotating component; 710. Pin; 711. Rotating shaft; 72. Positioning pin; 721. Guide sleeve; 720. Insertion shaft; 73. Positioning sleeve; 74. Swinging component; 740. Mating sleeve; 75. Guide roller; 77. Nut; 770. Screw; 78. Mounting part; 9. Battery box. Detailed Implementation

[0032] The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic diagrams, illustrating only the basic structure of the present invention, and therefore only show the components relevant to the present invention.

[0033] Example 1

[0034] Please refer to Figure 1-5 The technical solution of this utility model is as follows: a novel feeder for chicken farms, including a frame 7, with main wheels and steering wheels mounted on the frame 7, and a feed bin 1 disposed above the frame 7, and further including:

[0035] The first cylinder has multiple parallel spacings. A drive shaft 34 is coaxially arranged at the lower end of the first cylinder. The end face of the drive shaft 34 is provided with an insertion groove 340. The side wall of the first cylinder is provided with a feed inlet 411 that communicates with the inside of the material box 1.

[0036] The second cylinder is detachably and fixedly connected to the upper end of the first cylinder. The second cylinder is equipped with an auger blade 421, and the auger blade 421 is equipped with an auger shaft 422. The lower ends of the auger shaft 422 and the auger blade 421 extend into the first cylinder, and the lower end of the auger shaft 422 is inserted into the insertion slot 340 for transmission.

[0037] Furthermore, a bottom plate 10 is provided at the lower end of the material box 1, and a plurality of bearing seats 33 corresponding one-to-one with a plurality of first cylinders are provided on the bottom plate 10. The drive shaft 34 is rotatably disposed on the bearing seat 33, and the lower ends of the plurality of drive shafts 34 are sequentially connected for transmission.

[0038] Specifically, it should be noted that the novel chicken farm feeder provided in this application is an improvement on a chicken farm feeder described in the background art. Its frame 7, main wheels, and steering wheels are all consistent with those in the background art, and therefore will not be shown in the accompanying drawings of this application, nor will they be described in detail. The improvement of this application lies in that it includes multiple first pipes 41, each extending into the lower end of the feed hopper 1, with a feed inlet 411 provided on its side wall; multiple drive shafts 34 corresponding one-to-one with the first pipes 41 at the lower end of the feed hopper 1; drive shafts 34 being driven and connected to a motor 3; and insertion grooves 340 provided on the end face of the drive shafts 34; a first connecting flange 410 provided at the upper end of the first pipes 41; a second pipe 42, with a second connecting flange adapted to the first connecting flange 410 at its lower end; and auger blades 421 and an auger shaft 422. The auger blades are welded to the auger shaft, and the upper end of the auger shaft is rotatably connected to the upper end of the second pipe 42. To prevent cross-flow, the connection between the auger shaft and the second tube 42 adopts existing technology, which will not be elaborated here. The upper end of the second tube 42 is provided with a discharge port 420, and the lower end of the auger shaft is provided with a plug-in end 4220. The plug-in end 4220 can be any type of hexagonal prism, square prism, or triangular prism, and the plug-in groove 340 is adapted to it. With this setting, when the second tube is connected to the first tube, the auger blades and the lower end of the auger shaft are inserted into the first tube 41, and the plug-in end 4220 of the auger shaft is plugged into the plug-in groove 340 to achieve a transmission connection. In actual use, different sizes of second tubes 42 can be selected according to the height of the chicken cage, so that the discharge port 420 of the second tube 42 corresponds to different layers. With this setting, an auger 4 can be set for each layer of the chicken cage, which can improve the uniformity of material conveying. The auger 4 with shaft has high strength and is not prone to failure. The detachable connection between the second tube and the first tube also facilitates disassembly and maintenance in the later stage.

[0039] For details, please refer to Figures 8-10 The lower end of the material box 1 is provided with a base plate 10, and the bearing seat 33 is detachably and fixedly connected to the base plate 10. The lower end of the drive shaft 34 is provided with two second sprockets 35 spaced apart. Adjacent drive shafts 34 are connected by a second chain 37 and a second sprocket 35. The output shaft of the motor 3 is provided with a first sprocket 31. The first sprocket 31 is connected to a second sprocket 35 on a drive shaft 34 by a first chain 32, thereby achieving the effect of connecting multiple drive shafts 34 by a single motor.

[0040] Furthermore, as a specific implementation method, refer to Figures 1-3 There are four first tubes 41. In actual application, the number of first tubes 41 can be set according to the usage requirements.

[0041] Furthermore, as a specific implementation method, refer to Figure 2The first cylinder is fixedly installed with the feed box 1. The lower end of the first cylinder extends into the feed box 1. The first tube 41 is inclined so as to be able to adapt to multi-layer chicken cages with a stepped arrangement. The first tube 41 is welded and fixed to the feed box 1, which can improve the strength of the entire structure.

[0042] Furthermore, as a specific implementation method, refer to Figures 1-12 A rotating component 71 is horizontally rotatably mounted on the frame 7, and the feed box 1 is mounted on the rotating component 71. A rotating shaft 711 is detachably and fixedly connected to the lower surface of the rotating component 71 via a flange. A second bearing seat 33 adapted to the rotating shaft 711 is provided on the frame 7, allowing the rotating component 71 to rotate in conjunction with the frame 7. The feed box 1 is mounted on the rotating component 71. This configuration allows the feed box 1 to be rotated, adjusting the orientation of the second pipe 42. For rows of chicken cages, without rotating the frame 7, rotating the rotating component 71 180° allows it to feed another row of chicken cages, making it more convenient to use.

[0043] Furthermore, as a specific implementation, around the rotation axis of the rotating component 71, two positioning sleeves 73 are spaced apart on one of the rotating component 71 and the frame 7, and a positioning pin 72 is provided on the other, with the positioning pin 72 and the positioning sleeves 73 engaging in a positioning fit. Specifically, refer to... Figure 1 , Figure 6 , Figure 7 The frame 7 has two positioning sleeves 73 spaced apart, and the rotating part 71 has a positioning pin 72. The rotating part 71 has a guide sleeve 721. The positioning pin 72 and the guide sleeve 721 are guided and engaged. The lower end of the positioning pin 72 is provided with a plug shaft 720. The positioning pin 72 can be guided and adjusted in the vertical direction. The plug shaft 720 is plugged and positioned with the plug sleeve. The two plug sleeves are spaced 180° apart.

[0044] Furthermore, as a preferred embodiment, in order to facilitate the adjustment of the tilt angle of the feed box 1 and the second tube 42 and adapt to chicken cages with different tilt angles, a swinging member 74 is rotatably fitted above the rotating member 71. The swinging axis of the swinging member 74 is set horizontally, and the feed box 1 and the swinging member 74 are detachably and fixedly connected.

[0045] For details, please refer to Figure 11 , Figure 12 The swinging component 74 is a U-shaped groove structure formed by bending sheet metal, with two mating sleeves 740 welded at both ends. The rotating component 71 has pins 710 at both ends that rotate with the two mating sleeves 740, so that the swinging component 74 can swing around the pins 710. The bottom end of the material box 1 is welded with a base plate 10, which is detachably and fixedly connected to the swinging component 74. The space inside the swinging component 74 can provide space for the installation of components such as the bearing seat 33 and the drive shaft 34.

[0046] Furthermore, as a specific implementation method, refer to Figure 11 , Figure 13 Located on both sides of the swing shaft of the swinging member 74, each rotating member 71 is threadedly connected to a screw 770, the upper end of which can abut against the swinging member 74. Specifically, a nut 77 is welded onto the rotating member 71, and a screw 770 is threadedly connected to each nut 77. The upper ends of the two screws 770 abut against the swinging member 74 to position it. When it is necessary to adjust the swing angle of the swinging member 74, the length can be adjusted by rotating the two screws 770, thereby achieving adjustment.

[0047] Furthermore, as a specific implementation method, refer to Figure 13 The frame 7 has a guide roller 75 on at least one side, and the axis of the guide roller 75 is vertically arranged. Specifically, by setting the guide roller 75, during use, the guide roller 75 can be matched with the egg trough at the bottom of the chicken cage to form a guiding fit, thereby guiding the feeder as it moves.

[0048] Furthermore, as a preferred embodiment, refer to Figure 14 The frame 7 is provided with a mounting part 78 that is fixed to the rear axle. The main drive wheel is connected to the rear axle, while the steering wheel is located at the other end of the frame 7. The battery box 9 is located on the side of the frame 7 near the mounting part 78. With this arrangement, the battery box 9 is located on the side of the main drive wheel, away from the steering wheel, which can reduce the load on the steering wheel and facilitate the steering wheel's turning.

[0049] Example 2

[0050] refer to Figure 15 This application provides a feeder for chicken farms in Xinxiang. The difference from Embodiment 1 is that the first cylinder is set inside the feed box 1 and the upper end extends out of the feed box 1. With this setting, the tilt angle of the first cylinder is small, which can be adapted to the vertical three-dimensional placement of existing chicken cages.

[0051] Obviously, the above embodiments are merely illustrative examples for clear explanation and are not intended to limit the implementation. Those skilled in the art will recognize that other variations or modifications can be made based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.

Claims

1. A novel feeding machine for chicken farms, comprising a frame (7), a main row wheel and a direction wheel are arranged on the frame (7), a feed tank (1) is arranged above the frame (7), characterized in that, Also includes: The first cylinder has multiple parallel spacings. A drive shaft (34) is coaxially arranged at the lower end of the first cylinder. The end face of the drive shaft (34) is provided with a plug groove (340). The side wall of the first cylinder is provided with a feed port (411) that communicates with the inside of the material box (1). The second cylinder is detachably and fixedly connected to the upper end of the first cylinder. The second cylinder is equipped with an auger blade (421). The auger blade (421) is equipped with an auger shaft (422). The lower ends of the auger shaft (422) and the auger blade (421) extend into the first cylinder, and the lower end of the auger shaft is inserted into the insertion groove (340) for transmission cooperation.

2. A novel feeding machine for chicken farms according to claim 1, characterized in that, The lower end of the material box (1) is provided with a base plate (10), and the base plate (10) is provided with multiple bearing seats (33) corresponding to multiple first cylinders. The drive shaft (34) is rotatably disposed on the bearing seat (33), and the lower ends of the multiple drive shafts (34) are sequentially connected for transmission.

3. A novel feeding machine for chicken farms as claimed in claim 1, wherein, The first cylinder and the material box (1) are fixedly installed.

4. A novel feeding machine for chicken farms according to claim 1, characterized in that, A rotating component (71) is horizontally rotatably mounted on the frame (7), and the material box (1) is mounted on the rotating component (71).

5. A novel feeder for chicken farms according to claim 4, characterized in that, Around the axis of rotation of the rotating component (71), two positioning sleeves (73) are provided at intervals on one of the rotating component (71) and the frame (7), and a positioning pin (72) is provided on the other. The positioning pin (72) and the positioning sleeve (73) are inserted and positioned together.

6. A novel feeder for chicken farms according to claim 5, characterized in that, The rotating part (71) is rotatably fitted with a swinging part (74) above it. The swinging axis of the swinging part (74) is set horizontally. The material box (1) and the swinging part (74) are detachably and fixedly connected.

7. A novel feeder for chicken farms according to claim 6, characterized in that, Located on both sides of the swing shaft of the swing member (74), the rotating member (71) is threaded with a screw (770), and the upper end of the screw (770) can abut against the swing member (74).

8. A novel feeder for chicken farms according to claim 1, characterized in that, At least one side of the frame (7) is provided with a guide roller (75), and the axis of the guide roller (75) is vertically arranged.