Egg laying box for white goose breeding

By using a combination of bearing plates, inclined grooves, U-tubes, and cross plates in the egg-laying boxes for white goose farming, along with spring buffers and automatic closing plates, the problem of eggs being easily damaged during the rolling process is solved, achieving efficient protection and convenient collection of eggs.

CN224402596UActive Publication Date: 2026-06-26ANHUI XINHUA ANIMAL HUSBANDRY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI XINHUA ANIMAL HUSBANDRY TECH CO LTD
Filing Date
2025-07-24
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In existing technologies, when eggs are collected by a tilted support plate, they are prone to being squeezed and collided with each other during the rolling process, resulting in damage.

Method used

An egg-laying box for white goose farming was designed, which adopts a combination structure of a support plate, inclined groove, U-tube, cross plate and drive component. The eggs are protected from damage by spring buffer and automatic closing plate, and the eggs are accurately collected by inclined plate and diversion soft strip.

Benefits of technology

It effectively reduces the impact of collisions during the rolling and falling of eggs, lowers the breakage rate, and improves the convenience of operation and breeding efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to the egg production box technical field, concretely speaking is a kind of egg production box for white goose breeding, including box, the load plate is equipped between the opposite side wall of box, the import and export are set up in the both sides side wall of box;The both sides side wall of box is fixed with gentle slope board;The side wall of box is equipped with ventilation groove;The both sides side wall of load plate one end is equipped with inclined slot, the both sides side wall of load plate is equipped with egg outlet groove, and egg outlet groove and inclined slot position correspond;The utility model is driven to press down by egg moving to the inclined plate, and close closing plate, realize respectively to collect egg, avoid egg to roll together and cause its breakage to be accumulated.
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Description

Technical Field

[0001] This utility model belongs to the field of egg-laying box technology, specifically an egg-laying box for raising white geese. Background Technology

[0002] White goose egg-laying boxes are breeding equipment specifically designed for white geese to lay eggs. They are usually made of wood or plastic, which has good heat preservation and comfort. The spacious interior of the box allows the white geese to move freely and lay eggs comfortably. It also has soft bedding to protect the goose eggs from damage. Its reasonable structural design includes ventilation holes to ensure air circulation and facilitates cleaning and disinfection. It helps to create a healthy and quiet egg-laying environment for white geese, thereby improving the egg production rate and the quality of hatching eggs.

[0003] In the prior art, the egg collection platform is usually tilted to collect the eggs. However, this method can easily cause the eggs to be squeezed and collided together when they roll down to the collection point, resulting in damage to the eggs. Therefore, this utility model provides an egg-laying box for white goose farming. Utility Model Content

[0004] To address the shortcomings of existing technologies, a solution is needed to address the problem that while the common method of collecting eggs involves tilting the egg-collecting plate to stack them together, this method can easily cause the eggs to be crushed and damaged as they roll down the tilted plate to the collection point.

[0005] The technical solution adopted by this utility model to solve its technical problem is as follows: A laying box for white goose breeding, comprising a box body, a support plate between opposite side walls of the box body, and inlets and outlets on both side walls of the box body; a ramp plate fixedly connected to both side walls of the box body; ventilation grooves on the side walls of the box body; inclined grooves on both side walls at one end of the support plate, and egg-eating grooves on both side walls of the support plate, with the egg-eating grooves and inclined grooves corresponding to each other; a U-tube fixedly connected between a pair of egg-eating grooves; a set of egg-dropping grooves opened at the bottom of the U-tube, and a set of square tubes fixedly connected to the bottom of the U-tube, with the square tubes and egg-dropping grooves corresponding to each other; sliding grooves opened on both side walls of the square tubes, and a cross plate slidably connected between a pair of sliding grooves, with the bottom of the cross plate fixedly connected to the sliding grooves by a pair of springs; a closing plate slidably connected to the side wall of the U-tube through a receiving groove, with the closing plate and egg-dropping grooves corresponding to each other; a driving component provided near the end of the square tube, and the closing plate sliding through the driving component.

[0006] Preferably, the driving component includes a through groove, and each of the side walls of a group of square tubes has a through groove. An L-block is slidably connected in the through groove. One vertical end of the L-block is inclined toward the square tube. The L-block is fixedly connected to the side wall of the cross plate. An L-plate is fixedly connected to the bottom of the sealing plate. The side wall of the L-plate is fixedly connected to the side wall of the square tube by a spring. A pulling column is fixedly connected to the bottom of the cross plate. A collection groove is opened in the side wall of the square tube. The U-tube is inclined toward the outside of the box.

[0007] Preferably, the support plate is inclined; the side wall of the support plate is rotatably connected to a rotating shaft through a circular groove, and the two ends of the rotating shaft are rotatably connected to the inner wall of the box; a fixing plate is fixed between the side walls of the box, and the top of the fixing plate is fixed to one end of the support plate through a set of springs.

[0008] Preferably, the sidewall of the bearing plate at one end of the inclined groove is fixedly connected to the sidewall of the box body by a stretching pad.

[0009] Preferably, a diversion strip is fixedly connected to the top of the bearing plate; buffer pads are fixedly connected to the inside of the U-tube and the top of the inclined plate.

[0010] Preferably, an inclined plate is fixed to the top of the cross plate.

[0011] The beneficial effects of this utility model are as follows:

[0012] 1. The egg-laying box for raising white geese described in this utility model automatically closes and opens the sealing plate through a drive component. When the eggs fall, the egg-laying trough is closed, and when collecting them, the cross plate can be pulled to open it. The operation is simple and convenient. At the same time, the angle of the supporting plate is automatically adjusted according to the number of white geese, without the need for frequent manual intervention, thus improving the breeding efficiency.

[0013] 2. The egg-laying box for white goose breeding described in this utility model, through the inclined design of the bearing plate, the cooperation between the inclined groove and the egg-laying groove, combined with the spring buffer of the cross plate inside the U tube, and the buffer pad at the top of the U tube and the inclined plate, can reduce the collision and impact of the eggs during rolling and falling in all directions, and greatly reduce the breakage rate of the eggs. Attached Figure Description

[0014] The present invention will be further described below with reference to the accompanying drawings.

[0015] Figure 1 This is a perspective view of the present invention;

[0016] Figure 2 This is a side sectional view of the present invention;

[0017] Figure 3 yes Figure 2 Enlarged view of point A in the middle;

[0018] Figure 4This is a structural diagram of the proximal part of the Chinese tube in this utility model.

[0019] In the diagram: 1. Box body; 2. Bearing plate; 3. Inlet / outlet; 4. Sloping plate; 5. Inclined groove; 6. U-tube; 7. Egg drop trough; 8. Square tube; 9. Cross plate; 10. Enclosing plate; 11. Through groove; 12. L-block; 13. L-plate; 14. Pull column; 15. Collection trough; 16. Fixing plate; 17. Tension pad; 18. Diversion strip; 19. Inclined plate. Detailed Implementation

[0020] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0021] Example 1

[0022] like Figures 1 to 4 As shown, the device includes a box body 1, with a support plate 2 between opposite side walls. Both side walls of the box body 1 have inlets and outlets 3. Both side walls of the box body 1 are fixedly connected to a ramp 4. The side walls of the box body 1 have ventilation grooves. One end of the support plate 2 has inclined grooves 5 on both side walls, and both side walls of the support plate 2 have egg-eating grooves, with the egg-eating grooves and inclined grooves 5 corresponding to each other. A U-tube 6 is fixedly connected between a pair of egg-eating grooves. A set of egg-dropping grooves 7 is opened at the bottom of the U-tube 6, and a set of square tubes 8 is fixedly connected to the bottom of the U-tube 6, with the square tubes 8 corresponding to the egg-dropping grooves 7. Both side walls of the square tubes 8 have sliding grooves, and a cross plate 9 is slidably connected between a pair of sliding grooves. The bottom of the cross plate 9 is connected by a pair of springs and a sliding... The groove is fixedly connected; the side wall of the U-tube 6 is slidably connected to the sealing plate 10 through the receiving groove, and the sealing plate 10 and the egg-laying groove 7 are correspondingly positioned; the near end of the square tube 8 is provided with a driving component, and the sealing plate 10 is driven to slide by the driving component; during operation, the white goose enters the box 1 through the inlet and outlet 3 and lays eggs on the support plate 2. Due to gravity, the laid eggs will roll along the inclined grooves 5 on both sides of one end of the support plate 2, enter the corresponding egg-laying groove, and then roll into the U-tube. When the eggs fall in the U-tube, they will land on the cross plate 9 corresponding to the egg-laying groove 7. The spring plays a role in buffering and shock absorption, protecting the eggs from damage. At the same time, the sealing plate 10 is driven by the driving component to close the egg-laying groove 7, preventing the goose eggs from repeatedly falling onto the same cross plate 9 and causing collision damage to the eggs.

[0023] The driving component includes a through groove 11. Each side wall of a group of square tubes 8 has a through groove 11. An L-block 12 is slidably connected within the through groove 11. One vertical end of the L-block 12 is inclined towards the square tube 8. The L-block 12 is fixedly connected to the side wall of the cross plate 9. An L-plate 13 is fixedly connected to the bottom of the sealing plate 10. The side wall of the L-plate 13 is fixedly connected to the side wall of the square tube 8 via a spring. A pulling column 14 is fixedly connected to the bottom of the cross plate 9. A collection groove 15 is provided on the side wall of the square tube 8. The U-tube 6 is inclined towards the outside of the box body 1. During operation, when an egg falls onto the cross plate 9, the cross plate 9 moves downwards, interacting with the ten... The L-block, which is fixed to the plate 9, slides within the through slot 11. The vertical end of the L-block is tilted, so as it moves downward, the tilted surface presses against the closing plate 10, causing the closing plate 10 to close the egg-drop slot 7, thus achieving the function of closing the egg-drop slot 7. When it is necessary to collect eggs, the pulling column 14 at the bottom of the cross plate 9 can be pulled to move the cross plate 9 downward, and the eggs will fall through the egg-drop slot 7 into the collection slot 15 below the square tube 8. When there is no pressure from eggs at the top of the cross plate 9, the cross plate 9 will reset under the support of the spring at its bottom. Similarly, the spring on the side wall of the L-plate 13 will drive the closing plate 10 to reset, opening the egg-drop slot 7.

[0024] The support plate 2 is inclined; the side wall of the support plate 2 is rotatably connected to a rotating shaft through a circular groove, and the two ends of the rotating shaft are rotatably connected to the inner wall of the box 1; a fixing plate 16 is fixed between the side walls of the box 1, and the top of the fixing plate 16 is fixedly connected to one end of the support plate 2 through a set of springs; when working, the white geese stand on the support plate 2 to lay eggs. The support plate 2 is inclined, and the eggs will roll into the inclined groove 5. When there are too many white geese on the support plate 2, the inclination angle of one end of the support plate 2 is increased to prevent the eggs from accumulating on the support plate 2 and being destroyed by later white geese. When there are few white geese, the inclination angle of the support plate 2 is smaller to prevent the eggs from rolling too fast and colliding and breaking.

[0025] The side wall of the bearing plate 2 at one end of the inclined chute 5 is fixed to the side wall of the box 1 through the stretching pad 17. During operation, when the bearing plate 2 rotates or shakes due to the movement or gravity of the goose, the stretching pad 17 at one end of the inclined chute 5 will stretch or contract accordingly. It can adapt to the position change of the bearing plate 2 and play a connecting and buffering role, preventing the egg from falling out due to the gap between the bearing plate 2 and the box 1 during the process of rolling down from the inclined chute 5, and ensuring that the egg can roll smoothly into the egg-eating trough.

[0026] A diversion strip 18 is fixedly attached to the top of the support plate 2; buffer pads are fixedly attached to the inside of the U-tube 6 and the top of the inclined plate 19. During operation, the diversion strip 18 on the top of the support plate 2 guides the eggs laid by the white geese to the direction of the inclined groove 5, so that the eggs can roll accurately into the egg outlet groove, avoiding the eggs from rolling randomly on the support plate 2 and colliding with each other and getting damaged. The buffer pads inside the U-tube and the top of the inclined plate 19 can absorb the impact force generated by the collision between the egg and the contact surface during the rolling and falling process, further protecting the egg and reducing the possibility of breakage due to collision.

[0027] An inclined plate 19 is fixed to the top of the cross plate 9. During operation, the inclined plate 19 at the top of the cross plate 9 guides the eggs falling from the U-tube, so that the eggs can fall more accurately into the collection tank 15.

[0028] Working principle: The white goose enters the box 1 through inlet / outlet 3 and lays eggs on the support plate 2. Due to gravity, the laid eggs roll along the inclined grooves 5 on both sides of one end of the support plate 2, enter the corresponding egg-discharging groove, and then roll into the U-tube. When the egg falls in the U-tube, it lands on the cross plate 9 corresponding to the egg-discharging groove 7. The spring acts as a buffer and shock absorber, protecting the egg from damage. At the same time, the drive component drives the sealing plate 10 to close the egg-discharging groove 7, preventing the goose egg from repeatedly falling onto the same cross plate 9 and causing collision damage. When the egg lands on the cross plate 9, it causes the cross plate 9 to move downwards, and the L-block fixed to the cross plate 9 will... The L-block slides within the through groove 11. With one vertical end of the L-block tilted, its downward movement causes the tilted surface to press against the closing plate 10, thus sealing the egg-laying groove 7. When eggs need to be collected, the pull post 14 at the bottom of the cross plate 9 can be pulled to move the cross plate 9 downwards, allowing the eggs to fall through the egg-laying groove 7 into the collection groove 15 below the square tube 8. When there is no pressure from eggs at the top of the cross plate 9, it resets under the support of its bottom spring. Similarly, the spring on the side wall of the L-plate 13 causes the closing plate 10 to reset, opening the egg-laying groove 7, allowing the goose to stand on the support plate. Eggs are laid on a 2-layer support plate 2, which is tilted so that the eggs roll into the inclined chute 5. When there are too many geese on the support plate 2, the tilt angle of one end of the support plate 2 is increased to prevent the eggs from piling up on the support plate 2 and being damaged by later geese. When there are fewer geese, the tilt angle of the support plate 2 is smaller to prevent the eggs from rolling too fast and colliding and breaking. When the support plate 2 rotates or shakes due to the movement of the geese or gravity, the stretching pad 17 at one end of the inclined chute 5 will stretch or contract accordingly. It can adapt to the positional changes of the support plate 2 and play a connecting and buffering role, preventing the eggs from being damaged by the contact between the support plate 2 and the geese during the rolling process from the inclined chute 5. The eggs fall through the gaps between the boxes 1, ensuring that they can roll smoothly into the egg-laying trough. The diversion strips 18 on the top of the support plate 2 guide the eggs laid by the white geese to the direction of the inclined trough 5, so that the eggs can roll accurately into the egg-laying trough and avoid disorderly rolling on the support plate 2 and collision damage. The buffer pads inside the U-tube and on the top of the inclined plate 19 can absorb the impact force generated by the collision between the egg and the contact surface during the rolling and falling process, further protecting the egg and reducing the possibility of breakage due to collision. The inclined plate 19 on the top of the cross plate 9 guides the eggs falling from the U-tube, so that the eggs can fall more accurately into the collection trough 15.

[0029] The terms "front," "back," "left," "right," "top," and "bottom" all refer to the figures in the accompanying drawings. Figure 1 Based on the perspective of the observer, the side of the device facing the observer is defined as the front, the left side of the observer is defined as the left, and so on.

[0030] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limiting the scope of protection of this utility model.

[0031] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A laying box for raising white geese, characterized in that: The enclosure includes a box (1), a support plate (2) between opposite side walls of the box (1), and inlets and outlets (3) on both side walls of the box (1); a ramp plate (4) is fixed to both side walls of the box (1); a ventilation groove is provided on the side wall of the box (1); a sloping groove (5) is provided on both side walls at one end of the support plate (2), and an egg outlet groove is provided on both side walls of the support plate (2), with the egg outlet groove and the sloping groove (5) being positioned correspondingly; a U-tube (6) is fixed between a pair of egg outlet grooves; and a set of egg-dropping grooves is provided at the bottom of the U-tube (6). (7) A set of square tubes (8) are fixedly connected to the bottom of the U-tube (6), and the square tubes (8) and the egg-laying groove (7) are in corresponding positions; both sides of the square tubes (8) are provided with sliding grooves, and a cross plate (9) is slidably connected between a pair of sliding grooves. The bottom of the cross plate (9) is fixedly connected to the sliding grooves by a pair of springs; a closing plate (10) is slidably connected to the side wall of the U-tube (6) through a receiving groove, and the closing plate (10) and the egg-laying groove (7) are in corresponding positions; a driving member is provided near the end of the square tube (8), and the closing plate (10) is driven to slide by the driving member.

2. The egg-laying box for raising white geese according to claim 1, characterized in that: The driving component includes a through groove (11). A through groove (11) is provided on the side wall of a group of square tubes (8). An L block (12) is slidably connected in the through groove (11). The vertical end of the L block (12) is inclined toward the square tube (8). The L block (12) is fixedly connected to the side wall of the cross plate (9). An L plate (13) is fixedly connected to the bottom of the closed plate (10). The side wall of the L plate (13) is fixedly connected to the side wall of the square tube (8) by a spring. A pulling column (14) is fixedly connected to the bottom of the cross plate (9). A collection groove (15) is provided on the side wall of the square tube (8). The U tube (6) is inclined toward the outside of the box (1).

3. The egg-laying box for raising white geese according to claim 2, characterized in that: The bearing plate (2) is inclined; the side wall of the bearing plate (2) is rotatably connected to a rotating shaft through a circular groove, and the two ends of the rotating shaft are rotatably connected to the inner wall of the box (1); a fixing plate (16) is fixed between the side walls of the box (1), and the top of the fixing plate (16) is fixed to one end of the bearing plate (2) through a set of springs.

4. The egg-laying box for raising white geese according to claim 3, characterized in that: The side wall of the bearing plate (2) at one end of the inclined groove (5) is fixedly connected to the side wall of the box body (1) by a stretch pad (17).

5. The egg-laying box for raising white geese according to claim 4, characterized in that: A diversion strip (18) is fixedly attached to the top of the bearing plate (2); buffer pads are fixedly attached to the inside of the U-tube (6) and the top of the inclined plate (19).

6. The egg-laying box for raising white geese according to claim 5, characterized in that: An inclined plate (19) is fixed to the top of the cross plate (9).