Automatic ramping conveyor for macarons

By designing an automatic inclined conveyor for peach shortbread cookies, and utilizing a horizontal conveyor and an adjustable double-layer frame, the problems of poor versatility and unsuitable thickness in dough conveying in existing technologies are solved, enabling precise transfer and extrusion of the dough, which facilitates subsequent processing.

CN224324549UActive Publication Date: 2026-06-05JINHUA YIYUAN FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JINHUA YIYUAN FOOD CO LTD
Filing Date
2025-08-13
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing dough conveying devices can only transport dough horizontally, which is not very versatile. Furthermore, the dough is not extruded again after being discharged, resulting in a dough thickness that is not suitable for subsequent processing.

Method used

An automatic inclined conveying device was designed, comprising a horizontal conveying device and an adjustable double-layer frame. The inclined angle of the frame is adjusted by a hydraulic device, and the first and second conveying devices are set at intervals to achieve the inclined conveying and extrusion of dough.

Benefits of technology

It enables precise transfer of dough at different heights, avoiding jamming, improving versatility and automation, and facilitating subsequent processing.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224324549U_ABST
    Figure CN224324549U_ABST
Patent Text Reader

Abstract

The utility model discloses an automatic climbing conveying device for peach short biscuit, including main body frame, one side of main body frame is equipped with horizontal conveying device, be equipped with with the rotation connection of double -deck frame on main body frame, be equipped with the hydraulic device of drive double -deck frame rotation between main body frame and double -deck frame, be equipped with first conveying device and second conveying device that set up mutually parallel of up and down on double -deck frame, and first conveying device and second conveying device are set up interval in front and back, and first conveying device is close to horizontal conveying device setting, still be equipped with control assembly on main body frame, and control assembly all electric connection horizontal conveying device, first conveying device, second conveying device and hydraulic device. The utility model discloses through horizontal conveying device first horizontal transfer dough, then through angle adjustable double -deck frame transfer dough, owing to first conveying device and second conveying device are side by side setting, dough can still carry out extrusion while conveying, and it is convenient for subsequent processing.
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Description

Technical Field

[0001] This utility model belongs to the technical field of biscuit processing equipment, specifically relating to an automatic inclined conveying device for peach shortbread biscuits. Background Technology

[0002] After kneading, dough often needs to be transported to a rolling mill for extrusion to achieve the desired thickness. This process typically requires a conveyor system to continuously transfer the dough from the kneading machine to the rolling mill. Patent CN222869743U discloses an extrusion and discharge device for dough production, including a conveying device, a storage bin, a heat-insulating structure, and a pneumatic extrusion assembly. The storage bin has a discharge port, and the pneumatic extrusion assembly is mounted on it. The pneumatic extrusion assembly extrudes the dough into strips, which then fall onto the conveyor through the discharge port. The heat-insulating structure is installed outside the storage bin to maintain a constant temperature. The pneumatic extrusion assembly on the storage bin continuously extrudes the dough from the discharge port. However, existing discharge devices often only allow horizontal transport of the dough, resulting in poor versatility. Furthermore, the dough is not re-extruded after discharge, leading to a relatively thick overall dough thickness, which is detrimental to subsequent extrusion processes. Therefore, it is necessary to design an automatic inclined conveying device for peach shortbread cookies to overcome the above problems. Summary of the Invention

[0003] This invention addresses the problems existing in the prior art by designing an automatic inclined conveying device for peach shortbread cookies. This invention first horizontally transfers the dough through a horizontal conveying device, and then transfers the dough through an angle-adjustable double-layer frame. Since the first and second conveying devices are arranged side by side, the dough can be squeezed while being transported, which facilitates subsequent processing.

[0004] The objective of this invention is achieved through the following technical solution: an automatic inclined conveying device for peach shortbread cookies, comprising a main frame, with a horizontal conveying device on one side of the main frame; a double-layer frame rotatably connected to the main frame, and a hydraulic device for driving the double-layer frame to rotate between the main frame and the double-layer frame; a first conveying device and a second conveying device arranged parallel to each other on the double-layer frame, with the first and second conveying devices spaced apart, and the first conveying device positioned close to the horizontal conveying device; and a control component on the main frame, the control component being electrically connected to the horizontal conveying device, the first conveying device, the second conveying device, and the hydraulic device.

[0005] Preferably, the horizontal conveying device includes a mounting bracket, a horizontal drive roller, a horizontal driven roller, a first conveyor belt, and a first motor; the mounting bracket is flush with the bottom of the main frame, and the two ends of the mounting bracket are respectively provided with a horizontal drive roller and a horizontal driven roller; the first conveyor belt is sleeved on the outer layer of the horizontal drive roller and the horizontal driven roller, and the horizontal drive roller is connected to the first motor. When the first motor is working, it drives the first conveyor belt to rotate relative to the mounting bracket.

[0006] Preferably, the mounting bracket has several bearing mounting seats fixedly connected to its side; the two ends of the horizontal drive roller are respectively mounted on the mounting bracket through bearing mounting seats, and the two ends of the horizontal driven roller are also respectively mounted on the mounting bracket through bearing mounting seats; the first motor is located away from the main frame, and the horizontal driven roller is located close to the initial end of the double-layer frame; the first conveyor belt is located adjacent to the initial end of the first conveying device.

[0007] When the first motor is working, it drives the first conveyor belt to rotate relative to the mounting bracket, thus transporting the dough onto the first conveyor device. Because the first and second conveyor devices are spaced apart, the dough is transported from low to high along the first conveyor device, preventing it from getting stuck at the initial end of the horizontal conveyor device and the double-layer frame. When the dough approaches the initial end of the second conveyor device, it is clamped between the second and third conveyor belts, allowing it to be compressed while being transported, facilitating subsequent processing.

[0008] Preferably, the first conveying device includes a first driven roller, the shaft of which is rotatably connected to the double-layer frame; the shaft of the first driven roller extends toward the main frame, and the shaft of the first driven roller is also rotatably connected to the main frame; a control component is installed on the side of the main frame, and a second conveying device is provided directly above the first conveying device, the first conveying device and the second conveying device being arranged parallel to each other; the control component can synchronously send electrical signals to the first conveying device and the second conveying device.

[0009] Preferably, the first conveying device further includes a first driving roller, a second conveyor belt, and a second motor; the side of the double-layer frame is provided with several bearing mounting seats fixedly connected thereto, and the first driving roller is rotatably connected to the double-layer frame through the bearing mounting seats; the first driven roller is rotatably connected to the double-layer frame through the bearing mounting seats, and the main frame is also provided with several bearing mounting seats fixedly connected thereto, and the rotating shaft of the first driven roller is also rotatably connected to the main frame through the bearing mounting seats; a second conveyor belt is sleeved and installed on the outer layer of the first driving roller and the second driving roller, and the first driving roller is connected to the second motor, which drives the second conveyor belt to rotate relative to the double-layer frame when it is working.

[0010] Preferably, the second conveying device includes a second driving roller, a second driven roller, a third conveyor belt, and a third motor; the side of the double-layer frame is provided with several bearing mounting seats fixedly connected thereto; the second driving roller is rotatably connected to the double-layer frame through the bearing mounting seats; the second driven roller is also rotatably connected to the double-layer frame through the bearing mounting seats; a third conveyor belt is sleeved on the outer layer of the second driving roller and the second driven roller; the second driving roller is connected to the third motor; when the third motor is working, it drives the third conveyor belt to rotate relative to the double-layer frame.

[0011] When the dough needs to be transferred, the conveying angle of the double-layer frame is adjusted in advance by the hydraulic device to determine the conveying height of the dough, so that the dough can fall accurately into the rolling device of the next process. Then, the control component synchronously sends working instructions to the first motor, the second motor and the third motor, so that the second conveyor belt and the third conveyor belt can transport the dough synchronously. Since the second conveyor belt and the third conveyor belt are arranged side by side and adjacent to each other, the dough can also be squeezed during transfer, which is convenient for subsequent processing.

[0012] Preferably, the hydraulic device includes a pair of hydraulic cylinders, one end of which is hinged to the main frame and the other end of which is hinged to the double-layer frame; when the hydraulic cylinder extends or retracts, it causes the double-layer frame to rotate relative to the main frame.

[0013] Preferably, the main frame is provided with a first mounting seat, and the bottom of the oil cylinder is hinged to the first mounting seat; a first pin is provided between the oil cylinder and the first mounting seat to hinge the two; a connecting plate is provided at the bottom of the double-layer frame, and a second pin is provided between the connecting plate and the piston rod of the oil cylinder to hinge the two.

[0014] When the control component sends a working command to the hydraulic cylinder, the cylinder can extend and retract normally, thus facilitating the adjustment of the tilt angle of the double-layer frame. This allows the double-layer frame to accurately connect with the rolling device of the next process, improving its versatility. Here, the first pin is fixed to the first mounting base by a snap ring, which is an existing standard part and is not shown in the accompanying drawings. The second pin is fixed to the connecting plate and the piston rod of the hydraulic cylinder by a snap ring, which is also an existing standard part and is not shown in the accompanying drawings.

[0015] Compared with the prior art, this utility model has the following advantages: 1. By setting a horizontal conveying device and a double-layer frame, with a first conveying device and a second conveying device on the double-layer frame, dough can be transferred at different heights, resulting in better versatility; 2. The tilt angle of the double-layer frame can be adjusted by a hydraulic device to adapt to the adjustment of the dough transfer height, resulting in a high degree of automation; 3. The first and second conveying devices are set at intervals to prevent the dough from getting stuck at the initial end of the horizontal conveying device and the double-layer frame; 4. The dough is rotated by the first and second conveyor belts, and it can also be squeezed during transfer, which facilitates subsequent processing. Attached Figure Description

[0016] Figure 1 This is a perspective view of the present utility model;

[0017] Figure 2 This is a perspective view of the present invention from another angle;

[0018] Figure 3 This is an exploded view of a horizontal conveyor system.

[0019] Figure 4 Exploded views of the first and second conveying devices;

[0020] The diagram shows the following components: 1. Main frame; 2. Horizontal conveyor; 21. Mounting bracket; 22. Horizontal drive roller; 23. Horizontal driven roller; 24. First conveyor belt; 25. First motor; 3. Double-layer frame; 4. Hydraulic device; 41. Oil cylinder; 42. First pin; 43. Second pin; 5. First conveyor; 51. First driven roller; 52. First drive roller; 53. Second conveyor belt; 54. Second motor; 6. Second conveyor; 61. Second drive roller; 62. Second driven roller; 63. Third conveyor belt; 64. Third motor; 7. Control assembly; 8. Bearing mounting base; 9. First mounting base; 10. Connecting plate. Detailed Implementation

[0021] The present invention will be further described below with reference to the embodiments shown in the accompanying drawings:

[0022] like Figures 1 to 4As shown, this embodiment discloses an automatic inclined conveying device for peach shortbread cookies, including a main frame 1, with a horizontal conveying device 2 on one side of the main frame 1; a double-layer frame 3 rotatably connected to the main frame 1, and a hydraulic device 4 for driving the double-layer frame 3 to rotate between the main frame 1 and the double-layer frame 3; a first conveying device 5 and a second conveying device 6 arranged parallel to each other on the double-layer frame 3, with the first conveying device 5 and the second conveying device 6 spaced apart, and the first conveying device 5 positioned close to the horizontal conveying device 2; a control component 7 is also provided on the main frame 1, and the control component 7 is electrically connected to the horizontal conveying device 2, the first conveying device 5, the second conveying device 6, and the hydraulic device 4.

[0023] The horizontal conveying device 2 includes a mounting bracket 21, a horizontal drive roller 22, a horizontal driven roller 23, a first conveyor belt 24, and a first motor 25. The mounting bracket 21 is flush with the bottom of the main frame 1. The two ends of the mounting bracket 21 are respectively provided with the horizontal drive roller 22 and the horizontal driven roller 23. The first conveyor belt 24 is sleeved on the outer layer of the horizontal drive roller 22 and the horizontal driven roller 23. The horizontal drive roller 22 is connected to the first motor 25. When the first motor 25 is working, it drives the first conveyor belt 24 to rotate relative to the mounting bracket 21. The side of the mounting bracket 21 is provided with several bearing mounting seats 8 that are fixedly connected to it. The two ends of the horizontal drive roller 22 are respectively mounted on the mounting bracket 21 through the bearing mounting seats 8, and the two ends of the horizontal driven roller 23 are also respectively mounted on the mounting bracket 21 through the bearing mounting seats 8. The first motor 25 is located away from the main frame 1, and the horizontal driven roller 23 is located close to the initial end of the double-layer frame 3. The first conveyor belt 24 is located adjacent to the initial end of the first conveying device 5.

[0024] The first conveying device 5 includes a first driven roller 51, the shaft of which is rotatably connected to the double-layer frame 3; the shaft of the first driven roller 51 extends toward the main frame 1, and the shaft of the first driven roller 51 is also rotatably connected to the main frame 1; a control component 7 is installed on the side of the main frame 1, and a second conveying device 6 is provided directly above the first conveying device 5, and the first conveying device 5 and the second conveying device 6 are arranged parallel to each other; the control component 7 can synchronously send electrical signals to the first conveying device 5 and the second conveying device 6. The first conveying device 5 further includes a first driving roller 52, a second conveyor belt 53, and a second motor 54; the side of the double-layer frame 3 is provided with several bearing mounting seats 8 fixedly connected thereto, and the first driving roller 52 is rotatably connected to the double-layer frame 3 through the bearing mounting seats 8; the first driven roller 51 is rotatably connected to the double-layer frame 3 through the bearing mounting seats 8, and the main frame 1 is also provided with several bearing mounting seats 8 fixedly connected thereto, and the rotating shaft of the first driven roller 51 is also rotatably connected to the main frame 1 through the bearing mounting seats 8; the first driving roller 52 and the second driving roller 61 are fitted with a second conveyor belt 53, and the first driving roller 52 is connected to the second motor 54. When the second motor 54 is working, it drives the second conveyor belt 53 to rotate relative to the double-layer frame 3. The second conveying device 6 includes a second driving roller 61, a second driven roller 62, a third conveyor belt 63, and a third motor 64. The side of the double-layer frame 3 is provided with several bearing mounting seats 8 fixedly connected thereto. The second driving roller 61 is rotatably connected to the double-layer frame 3 through the bearing mounting seats 8, and the second driven roller 62 is also rotatably connected to the double-layer frame 3 through the bearing mounting seats 8. The third conveyor belt 63 is sleeved on the outer layer of the second driving roller 61 and the second driven roller 62. The second driving roller 61 is connected to the third motor 64. When the third motor 64 is working, it drives the third conveyor belt 63 to rotate relative to the double-layer frame 3.

[0025] The hydraulic device 4 includes a pair of cylinders 41, one end of which is hinged to the main frame 1 and the other end of which is hinged to the double-layer frame 3. When the cylinders 41 extend or retract, they cause the double-layer frame 3 to rotate relative to the main frame 1. The main frame 1 is provided with a first mounting seat 9, and the bottom of the cylinders 41 is hinged to the first mounting seat 9. A first pin 42 is provided between the cylinders 41 and the first mounting seat 9 to hinge the two together. The bottom of the double-layer frame 3 is provided with a connecting plate 10, and a second pin 43 is provided between the connecting plate 10 and the piston rod of the cylinders 41 to hinge the two together.

[0026] The specific operation process of this embodiment is as follows: When the first motor 25 is working, it drives the first conveyor belt 24 to rotate relative to the mounting bracket 21. In this way, the dough can be transported to the first conveyor device 5 via the first conveyor belt 24. Since the first conveyor device 5 and the second conveyor device 6 are arranged at intervals, the dough will be transported from low to high along the first conveyor device 5, thus avoiding the dough getting stuck at the initial end of the horizontal conveyor device 2 and the double-layer frame 3. When the dough approaches the initial end of the second conveyor device 6, the dough will be clamped between the second conveyor belt 53 and the third conveyor belt 63. Thus, the dough can be transported and squeezed at the same time, which facilitates subsequent processing.

[0027] When the control component 7 sends a working command to the hydraulic cylinder 41, the hydraulic cylinder 41 can extend and retract normally, thereby facilitating the adjustment of the tilt angle of the double-layer frame 3. This allows the double-layer frame 3 to accurately connect with the rolling device of the next process, improving its versatility. When the dough needs to be transferred, the conveying angle of the double-layer frame 3 is adjusted in advance by the hydraulic device 4 to determine the conveying height of the dough. Then, the control component 7 synchronously sends working commands to the first motor 25, the second motor 54, and the third motor 64, so that the second conveyor belt 53 and the third conveyor belt 63 can transport the dough synchronously. Since the second conveyor belt 53 and the third conveyor belt 63 are arranged side by side and adjacent to each other, the dough can also be squeezed during transfer.

[0028] The specific embodiments described herein are merely illustrative examples illustrating the spirit of this utility model. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to replace them, without departing from the spirit of this utility model or exceeding the scope defined by the appended claims.

Claims

1. An automatic inclined conveying device for peach shortbread cookies, comprising a main frame (1), characterized in that, A horizontal conveying device (2) is provided on one side of the main frame (1); a double-layer frame (3) is provided on the main frame (1) and rotatably connected thereto; a hydraulic device (4) for driving the double-layer frame (3) to rotate is provided between the main frame (1) and the double-layer frame (3); a first conveying device (5) and a second conveying device (6) are provided on the double-layer frame (3) and arranged parallel to each other, the first conveying device (5) and the second conveying device (6) are arranged at intervals, and the first conveying device (5) is arranged close to the horizontal conveying device (2); a control component (7) is also provided on the main frame (1), and the control component (7) is electrically connected to the horizontal conveying device (2), the first conveying device (5), the second conveying device (6) and the hydraulic device (4).

2. The automatic inclined conveying device for peach shortbread biscuits according to claim 1, characterized in that, The horizontal conveying device (2) includes a mounting bracket (21), a horizontal active roller (22), a horizontal driven roller (23), a first conveyor belt (24), and a first motor (25). The mounting bracket (21) is flush with the bottom of the main frame (1). The two ends of the mounting bracket (21) are respectively provided with a horizontal active roller (22) and a horizontal driven roller (23). The first conveyor belt (24) is sleeved on the outer layer of the horizontal active roller (22) and the horizontal driven roller (23). The horizontal active roller (22) is connected to the first motor (25). When the first motor (25) is working, it drives the first conveyor belt (24) to rotate relative to the mounting bracket (21).

3. The automatic inclined conveying device for peach shortbread biscuits according to claim 2, characterized in that, The mounting bracket (21) has several bearing mounting seats (8) fixedly connected to it on its side; the two ends of the horizontal driving roller (22) are respectively mounted on the mounting bracket (21) through the bearing mounting seats (8), and the two ends of the horizontal driven roller (23) are also respectively mounted on the mounting bracket (21) through the bearing mounting seats (8); the first motor (25) is set away from the main frame (1), and the horizontal driven roller (23) is set close to the initial end of the double-layer frame (3); the first conveyor belt (24) is set adjacent to the initial end of the first conveying device (5).

4. The automatic inclined conveying device for peach shortbread cookies according to claim 1, characterized in that, The first conveying device (5) includes a first driven roller (51), the shaft of the first driven roller (51) is rotatably connected to the double-layer frame (3); the shaft of the first driven roller (51) extends toward the main frame (1), and the shaft of the first driven roller (51) is also rotatably connected to the main frame (1); a control component (7) is installed on the side of the main frame (1), and a second conveying device (6) is provided directly above the first conveying device (5), and the first conveying device (5) and the second conveying device (6) are arranged parallel to each other; the control component (7) can synchronously send electrical signals to the first conveying device (5) and the second conveying device (6).

5. The automatic inclined conveying device for peach shortbread cookies according to claim 4, characterized in that, The first conveying device (5) further includes a first active roller (52), a second conveyor belt (53), and a second motor (54); the side of the double-layer frame (3) is provided with several bearing mounting seats (8) fixedly connected thereto, and the first active roller (52) is rotatably connected to the double-layer frame (3) through the bearing mounting seats (8); the first driven roller (51) is rotatably connected to the double-layer frame (3) through the bearing mounting seats (8), and the main frame (1) is also provided with several bearing mounting seats (8) fixedly connected thereto, and the shaft of the first driven roller (51) is also rotatably connected to the main frame (1) through the bearing mounting seats (8); the first active roller (52) and the second active roller (61) are fitted with a second conveyor belt (53), the first active roller (52) is connected to the second motor (54), and when the second motor (54) is working, it drives the second conveyor belt (53) to rotate relative to the double-layer frame (3).

6. The automatic inclined conveying device for peach shortbread biscuits according to claim 4, characterized in that, The second conveying device (6) includes a second driving roller (61), a second driven roller (62), a third conveyor belt (63), and a third motor (64); the side of the double-layer frame (3) is provided with several bearing mounting seats (8) fixedly connected thereto. The second driving roller (61) is rotatably connected to the double-layer frame (3) through the bearing mounting seats (8), and the second driven roller (62) is also rotatably connected to the double-layer frame (3) through the bearing mounting seats (8); the third conveyor belt (63) is sleeved on the outer layer of the second driving roller (61) and the second driven roller (62). The second driving roller (61) is connected to the third motor (64). When the third motor (64) is working, it drives the third conveyor belt (63) to rotate relative to the double-layer frame (3).

7. The automatic inclined conveying device for peach shortbread biscuits according to claim 1, characterized in that, The hydraulic device (4) includes a pair of oil cylinders (41), one end of which is hinged to the main frame (1) and the other end of which is hinged to the double-layer frame (3); when the oil cylinder (41) extends or retracts, it drives the double-layer frame (3) to rotate relative to the main frame (1).

8. The automatic inclined conveying device for peach shortbread biscuits according to claim 7, characterized in that, The main frame (1) is provided with a first mounting seat (9), and the bottom of the oil cylinder (41) is hinged to the first mounting seat (9); a first pin (42) is provided between the oil cylinder (41) and the first mounting seat (9) to hinge the two; a connecting plate (10) is provided at the bottom of the double-layer frame (3), and a second pin (43) is provided between the connecting plate (10) and the piston rod of the oil cylinder (41) to hinge the two.