A duck claw soaking device for making duck claw soup
By designing a device that includes a soaking tank, a storage tank, a turntable, and a discharge pipe, the problems of wasted marinade and damage to duck feet during the soaking process are solved, achieving uniform distribution and conservation of marinade while protecting the integrity of the duck feet.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FUJIAN PINGGE FOOD CO LTD
- Filing Date
- 2025-06-17
- Publication Date
- 2026-06-09
Smart Images

Figure CN224330245U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of duck feet production technology, and in particular to a duck feet soaking device for making pickled duck feet. Background Technology
[0002] Pickled duck feet originate from Longyan, Fujian, and are a local Hakka snack from Xinfeng, Shaoguan, belonging to the Fujian cuisine. They are served as breakfast, late-night snacks, tea snacks, or as a garnish during meals, as well as a convenient food for leisure after meals. To make pickled duck feet, the duck feet are placed in a pickling device and soaked in marinade.
[0003] However, because duck feet create a lot of gaps when piled inside the soaking tank, more marinade is needed in the later stages. Existing marinade is usually used only once or twice, which leads to waste. Current technology uses pressing to reduce the gaps between duck feet, but this can damage the duck feet and easily compromise their integrity. Utility Model Content
[0004] The purpose of this invention is to address the problems existing in the background technology by proposing a duck feet soaking device for making duck feet.
[0005] The technical solution of this utility model is a duck feet soaking device for making duck feet, which includes a soaking tank, a storage tank, a filter plate, a turntable, a sealed base plate and a discharge pipe.
[0006] The soaking tank has openings at both the top and bottom, and a frame is installed at the bottom. A storage tank is located directly above the soaking tank, and a first cylinder is installed on the soaking tank to drive its lifting and lowering. A storage chamber is located on the upper inner side of the storage tank, filled with various fillers. A circular groove is located on the lower inner side of the storage tank, and a circular discharge hole communicating with the groove is located at the bottom of the storage chamber. A turntable is rotatably mounted within the circular groove, and multiple material holes are located on the turntable. A discharge bend is located at the bottom of the storage chamber, with its upper end communicating with the circular groove. A servo motor is installed on the storage tank. A rotating shaft is connected to the output shaft of the servo motor, and the rotating shaft is connected to the turntable; the discharge pipe is located at the bottom of the storage tank, and multiple packing outlet holes are opened on the discharge pipe; the rotating shaft moves through the storage tank and is connected to the discharge pipe; a through hole is opened at the center of the upper end of the discharge pipe, and the discharge pipe communicates with the discharge bend through the through hole; the sealing base is located at the bottom of the soaking tank, and a second cylinder for driving its lifting and lowering is installed below the sealing base; the filter plate is inclinedly set below the sealing base, and multiple first filter holes are opened on the filter plate; a second material box is set below the bottom of the filter plate, and a first material box is set directly below the filter plate.
[0007] Preferably, the upper part of the sealed chassis has a frustum structure.
[0008] Preferably, a conical cover is provided on the sealed chassis, and multiple second filter holes are opened on the conical cover. A spline shaft is rotatably mounted on the conical cover, and a stirring blade is installed on the spline shaft. The stirring blade is located inside the conical cover. A rotating pipe is connected to the center of the bottom end of the discharge pipe, and the spline shaft is slidably connected to the rotating pipe along the length of the rotating pipe.
[0009] Preferably, a mounting groove is provided in the middle of the upper end of the turntable, a rotating ring is provided in the mounting groove, a ratchet is installed on the rotating shaft, the ratchet is located inside the rotating ring, a sliding groove is provided on the rotating ring, a wedge block is slidably installed in the sliding groove, and a spring is provided in the sliding groove.
[0010] Preferably, a vibration motor is installed on the frame.
[0011] Preferably, both sides of the filter plate are equipped with enclosures.
[0012] Preferably, the filter plate is provided with a protective cylinder that extends through its upper and lower ends, and the lower part of the second cylinder is installed inside the protective cylinder.
[0013] Compared with the prior art, this utility model has the following beneficial technical effects: When the servo motor is started, it drives the rotating shaft to rotate, and the rotating shaft drives the turntable and the discharge pipe to rotate. When the material hole is aligned with the circular discharge hole, the filler stored in the storage chamber enters the material hole through the circular discharge hole. When the material hole containing the filler moves to the position directly above the discharge bend, the filler is discharged into the discharge pipe through the discharge bend. Finally, it is discharged into several gaps inside the soaking tank through multiple filler outlet holes on the discharge pipe. As the discharge pipe rotates horizontally, it helps to improve the uniformity of the discharge. After the discharge pipe stops rotating, the filler no longer flows out. By adding duck feet and filling the material at the same time, the gaps inside the soaking tank can be filled, which can reduce the use of marinade and avoid waste of marinade. Attached Figure Description
[0014] Figures 1-3 All of these are schematic diagrams of the structure of this utility model.
[0015] Figure 4 This is a cross-sectional view of the soaking box / storage box in this utility model.
[0016] Figure 5 This is a schematic diagram of the structure of the turntable in this utility model.
[0017] Figure 6 for Figure 5 A magnified schematic diagram of the structure at point A.
[0018] Reference numerals: 1. Soaking tank; 2. Storage tank; 201. Storage cavity; 202. Circular groove; 203. Discharge bend; 204. Circular discharge hole; 3. First cylinder; 4. Frame; 5. Filter plate; 501. First filter hole; 6. Enclosure; 7. First material box; 8. Second material box; 9. Servo motor; 10. Guide rod; 11. Vibration motor; 12. Drain pipe; 13. Valve; 14. Protective cylinder; 15. Second cylinder; 16. Rotating shaft; 17. Turntable; 171. Material hole; 18. Rotating pipe; 19. Sealed base; 20. Stirring blade; 21. Conical cover; 211. Second filter hole; 22. Splined shaft; 23. Ratchet; 24. Rotary ring; 241. Slide groove; 25. Spring; 26. Wedge block; 27. Discharge pipe. Detailed Implementation
[0019] Example 1
[0020] like Figures 1-5 As shown in the figure, the duck feet soaking device for making duck feet proposed in this embodiment includes a soaking tank 1, a storage tank 2, a filter plate 5, a turntable 17, a sealed base plate 19, and a discharge pipe 27.
[0021] The soaking tank 1 has openings at both the top and bottom, and a frame 4 is installed at the bottom of the soaking tank 1; the storage tank 2 is located directly above the soaking tank 1, and a first cylinder 3 for driving the storage tank 2 to rise and fall is installed on the soaking tank 1. A guide rod 10 is connected to the frame 4, and the storage tank 2 is slidably mounted on the guide rod 10.
[0022] A storage chamber 201 is provided on the upper inner side of the storage box 2. The storage chamber 201 is funnel-shaped. To facilitate feeding, a feeding pipe communicating with the storage chamber 201 is provided at the upper end of the storage box 2. The storage chamber 201 is filled with several fillers. A circular groove 202 is provided on the lower inner side of the storage box 2. A circular discharge hole 204 communicating with the circular groove 202 is provided at the bottom of the storage chamber 201. A turntable 17 is rotatably installed in the circular groove 202. The turntable 17 is clearance-fitted with the circular groove 202. Multiple material holes 1 are provided on the turntable 17. 71. A discharge bend 203 is provided at the bottom of the storage chamber 201. The upper end of the discharge bend 203 is connected to the circular groove 202. A servo motor 9 is installed on the storage box 2. A rotating shaft 16 is connected to the output shaft of the servo motor 9. The rotating shaft 16 is connected to the turntable 17. The discharge pipe 27 is located at the bottom of the storage box 2. Multiple filler outlet holes are opened on the discharge pipe 27. The rotating shaft 16 movably passes through the storage box 2 and is connected to the discharge pipe 27. A through hole is opened at the center of the upper end of the discharge pipe 27. The discharge pipe 27 is connected to the discharge bend 203 through the through hole.
[0023] A sealed base 19 is located at the bottom of the soaking tank 1. It should be noted that a sealing ring is provided on the sealed base 19, and the upper part of the sealed base 19 is a frustum structure. A second cylinder 15 for driving its lifting and lowering is installed below the sealed base 19. The filter plate 5 is inclinedly arranged below the sealed base 19 and is connected to the frame 4. Multiple first filter holes 501 are opened on the filter plate 5. Both sides of the filter plate 5 are provided with a barrier 6, which surrounds the perimeter of the filter plate 5 to prevent the material from slipping off the perimeter. A second material box 8 is provided below the bottom of the filter plate 5, and a first material box 7 is provided directly below the filter plate 5. A protective cylinder 14 is provided on the filter plate 5, penetrating its upper and lower ends. The lower part of the second cylinder 15 is installed inside the protective cylinder 14.
[0024] A vibration motor 11 is installed on the frame 4. Starting the vibration motor 11 can accelerate the discharge of the packing and help to compact the packing and duck feet.
[0025] Furthermore, this technical solution uses a PLC controller to control the equipment.
[0026] In this embodiment, duck feet are placed into the soaking tank 1 through the upper end, so that the duck feet are laid flat on the bottom of the soaking tank 1. The servo motor 9 is started to drive the rotating shaft 16 to rotate. The rotation of the rotating shaft 16 drives the turntable 17 and the discharge pipe 27 to rotate. When the material hole 171 is aligned with the circular discharge hole 204, the filler stored in the storage cavity 201 enters the material hole 171 through the circular discharge hole 204. It should be noted that the filler can be 316 stainless steel hollow beads. As the turntable 17 continues to rotate, the material hole 171 containing the filler moves... After reaching the position directly above the discharge bend 203, the filler is discharged into the discharge pipe 27 through the discharge bend 203, and finally discharged into several gaps inside the soaking tank 1 through multiple filler outlet holes on the discharge pipe 27. As the discharge pipe 27 rotates horizontally, it helps to improve the uniformity of the discharge. When the gaps are visually filled, duck feet are continuously added, and then filler is added in a similar manner to the above, so that the filler mixes with the duck feet to fill the gaps between the duck feet. Through the above structure, the use of marinade can be reduced, avoiding waste of marinade.
[0027] After the duck feet are marinated, the liquid marinade inside the soaking tank 1 is drained. Furthermore, a drain pipe 12 is connected to the bottom of the soaking tank 1, and a valve 13 is installed on the drain pipe 12. After opening the valve 13, the liquid inside the soaking tank 1 is drained through the drain pipe 12. It should be noted that a filter screen is installed at the inner end of the drain pipe 12.
[0028] The second cylinder 15 drives the sealed chassis 19 to move downward, causing the sealed chassis 19 to separate from the bottom of the soaking tank 1. The duck feet and filler inside the soaking tank 1 fall onto the filter plate 5 through the opening at the bottom of the soaking tank 1. The first filter hole 501 is set to separate the duck feet and filler. The second material box 8 and the first material box 7 are used to receive the duck feet and filler, respectively.
[0029] Example 2
[0030] like Figures 4-6 As shown in this embodiment, a duck feet soaking device for making duck feet is proposed. Compared with Embodiment 1, in this embodiment, a conical cover 21 is provided on the sealed base 19. The conical cover 21 has multiple second filter holes 211. A splined shaft 22 is rotatably mounted on the conical cover 21. A stirring blade 20 is mounted on the splined shaft 22. The stirring blade 20 is located inside the conical cover 21. A rotating pipe 18 is connected to the center of the bottom end of the discharge pipe 27. The rotating pipe 18 is coaxially arranged with the rotating shaft 16. The splined shaft 22 rotates along the center of the shaft. The tube 18 is slidably connected to the rotating tube 18 along its length. The inner wall of the rotating tube 18 is provided with a keyway that matches the key on the spline shaft 22. The upper middle part of the turntable 17 is provided with a mounting groove, in which a rotating ring 24 is provided. A ratchet 23 is mounted on the rotating shaft 16. The ratchet 23 is located inside the rotating ring 24. A sliding groove 241 is provided on the rotating ring 24. A wedge block 26 is slidably mounted in the sliding groove 241. A spring 25 is provided in the sliding groove 241. It should be noted that the rotating shaft 16 is movable through the turntable 17.
[0031] In this embodiment, the conical cover 21 allows the duck feet to slide to the periphery during discharge, preventing them from accumulating at the bottom center of the sealed chassis 19. When the servo motor 9 drives the ratchet 23 to rotate counterclockwise, it drives the rotating ring 24 to rotate with the cooperation of the wedge block 26. The rotating ring 24 drives the turntable 17 fixed to it to rotate, ensuring the continuous discharge of filler during the rotation of the turntable 17. When the ratchet 23 rotates clockwise, it does not drive the rotating ring 24 to rotate, leaving the turntable 17 in a non-rotating state. However, the discharge pipe 27 and the stirring blade 20 rotate normally. This state is only used when the filler is added and the marinade is stirred and mixed periodically. During mixing, new filler is prevented from being discharged. Furthermore, the stirring blade 20 is located inside the conical cover 21, which can block the duck feet from the stirring blade 20, preventing the stirring blade 20 from damaging the integrity of the duck feet during rotation.
[0032] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited thereto. Various changes can be made within the scope of knowledge possessed by those skilled in the art without departing from the spirit of the present invention.
Claims
1. A duck feet soaking device for making pickled duck feet, characterized in that, It includes a soaking tank (1), a storage tank (2), a filter plate (5), a turntable (17), a sealed base plate (19), and a discharge pipe (27); The soaking tank (1) is open at both the top and bottom, and a frame (4) is installed at the bottom of the soaking tank (1); the storage tank (2) is located directly above the soaking tank (1), and a first cylinder (3) for driving the storage tank (2) to lift is installed on the soaking tank (1); a storage chamber (201) is opened in the upper part of the inner side of the storage tank (2), and the storage chamber (201) is filled with several fillers; a circular groove (202) is opened in the lower part of the inner side of the storage tank (2), and a circular discharge hole (204) communicating with the circular groove (202) is provided at the bottom of the storage chamber (201); a turntable (17) is rotatably installed in the circular groove (202), and multiple material holes (171) are opened on the turntable (17); a discharge bend (203) is provided at the bottom of the storage chamber (201), and the upper end of the discharge bend (203) is connected with the circular groove (202); a servo motor is installed on the storage tank (2). The motor (9) has a rotating shaft (16) connected to its output shaft, and the rotating shaft (16) is connected to the turntable (17). The discharge pipe (27) is located at the bottom of the storage box (2), and multiple packing outlet holes are provided on the discharge pipe (27). The rotating shaft (16) moves through the storage box (2) and is connected to the discharge pipe (27). A through hole is provided at the center of the upper end of the discharge pipe (27), and the discharge pipe (27) is connected to the discharge bend (203) through the through hole. The sealing base (19) is located at the bottom of the soaking tank (1), and a second cylinder (15) for driving its lifting and lowering is installed below the sealing base (19). The filter plate (5) is inclined and located below the sealing base (19), and multiple first filter holes (501) are provided on the filter plate (5). A second material box (8) is provided below the bottom end of the filter plate (5), and a first material box (7) is provided directly below the filter plate (5).
2. The duck feet soaking device for making pickled duck feet according to claim 1, characterized in that, The upper part of the sealed chassis (19) is a frustum structure.
3. The duck feet soaking device for making pickled duck feet according to claim 2, characterized in that, A conical cover (21) is provided on the sealed chassis (19). Multiple second filter holes (211) are provided on the conical cover (21). A spline shaft (22) is rotatably mounted on the conical cover (21). An agitator (20) is mounted on the spline shaft (22). The agitator (20) is located inside the conical cover (21). A rotating tube (18) is connected to the center of the bottom end of the discharge pipe (27). The spline shaft (22) is slidably connected to the rotating tube (18) along the length direction of the rotating tube (18).
4. The duck feet soaking device for making pickled duck feet according to claim 3, characterized in that, A mounting groove is provided in the middle of the upper end of the turntable (17), and a rotating ring (24) is provided in the mounting groove. A ratchet (23) is installed on the rotating shaft (16). The ratchet (23) is located inside the rotating ring (24). A sliding groove (241) is provided on the rotating ring (24). A wedge block (26) is slidably installed in the sliding groove (241). A spring (25) is provided in the sliding groove (241).
5. The duck feet soaking device for making pickled duck feet according to claim 1, characterized in that, A vibration motor (11) is installed on the frame (4).
6. The duck feet soaking device for making pickled duck feet according to claim 1, characterized in that, Both sides of the filter plate (5) are equipped with enclosures (6).
7. The duck feet soaking device for making pickled duck feet according to claim 1, characterized in that, The filter plate (5) is provided with a protective cylinder (14) that runs through its upper and lower ends, and the lower part of the second cylinder (15) is installed inside the protective cylinder (14).