A fish processing pickling and salting device
By designing a fish processing and salting device, the automatic salting of fish is achieved by using a flipping mechanism and a brushing mechanism. This solves the problems of hand damage and fishbone scratches caused by manual salting, and realizes uniform salt distribution and improved salting efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 重庆冠磊冷冻食品有限公司
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-23
Smart Images

Figure CN224386640U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of fish processing technology, and more specifically, to a fish processing, pickling, and salting device. Background Technology
[0002] Marinating fish can effectively prevent spoilage, and marinated fish has a unique taste. When marinating fish, you need to first dissect and clean the internal organs and scales, and then sprinkle salt on it for marinating.
[0003] Currently, salting is done manually by sprinkling salt and kneading it in. However, this process can easily cause the palms to become covered in salt, leading to dehydration and damage. Furthermore, the process can result in the palms being scratched by fish bones.
[0004] In view of this, we propose a salting device for fish processing. Utility Model Content
[0005] Technical problems to be solved
[0006] The purpose of this application is to provide a salting device for fish processing and marinating, which solves the technical problems in the above-mentioned background technology, where salting and marinating are done manually, which can easily cause the palms to become covered in salt and suffer from dehydration and damage, and can also cause the palms to be scratched by fish bones. This application achieves the desired technical effect.
[0007] Technical solution
[0008] This application provides a fish processing, salting, and marinating device, which includes a base and further includes:
[0009] A rotating shaft is rotatably sleeved at both ends of the base;
[0010] A processing box is fixedly installed between the two rotating shafts;
[0011] A placement rack is slidably attached to the middle of the processing box;
[0012] A flipping mechanism is installed between the rotating shaft and the base;
[0013] A brushing mechanism is installed inside the processing box.
[0014] Optionally, a door is hinged to one side of the processing box, and the door is bolted to the processing box. Guide rails are fixedly installed on both inner walls of the processing box, and the placement rack is snapped between the guide rails.
[0015] Optionally, the placement rack includes a sliding frame that is slidably engaged between guide rails. Multiple fixed cylinders are fixedly installed on the inner walls of both sides of the sliding frame. A sliding rod is slidably engaged inside the fixed cylinder, and a locking bolt is threaded onto the side wall of the fixed cylinder. A fixed clamp is fixedly installed on the end face of the sliding rod, and a movable clamp is installed on the fixed clamp by bolts. The fish is held between the movable clamp and the fixed clamp.
[0016] Optionally, the brushing mechanism includes a sliding frame, with sliding frames provided in the top and bottom cavities of the treatment box. Guide rods are fixedly installed at both ends of the sliding frame, and the guide rods slide through the treatment box. An electric push rod is fixedly installed on the side wall of the treatment box, and the output rod of the electric push rod is fixedly connected to the guide rod. Multiple crossbars are fixedly installed between the inner walls of the sliding frame. Brush bristles are fixedly installed on one side of the crossbar near the middle of the treatment box, and a support rod is fixedly installed on the other side of the crossbar. A scraper is fixedly installed on the support rod, and the scraper fits against the top and bottom of the inner cavity of the treatment box.
[0017] Optionally, the flipping mechanism includes a drive shaft, which is rotatably sleeved on one side of the base. The drive shaft and the rotating shaft are connected by a drive wheel and a drive belt. A driven wheel is fixedly sleeved on the drive shaft. The outer circumference of the driven wheel has multiple stop grooves. A push groove is formed on the driven wheel between two adjacent stop grooves. A fixed seat is fixedly installed on the side wall of the base. A motor is fixedly installed on the fixed seat. The output shaft of the motor is fixedly sleeved on a driving wheel. A rotating groove is formed on one side of the driving wheel. A push rod is installed on the end face of the driving wheel at the rotating groove through a connecting rod. The push rod movably engages with the push groove. Four stop grooves are evenly distributed along the circumference of the driven wheel. The transmission ratio between the drive shaft and the rotating shaft is 1:2. The diameter of the push rod is equal to the inner cavity width of the push groove. The stop groove is an arc-shaped structure adapted to the outer circumference of the driving wheel. Beneficial effects
[0018] One or more technical solutions provided in this application have at least the following technical effects or advantages:
[0019] Loosen the locking bolts so that the slide bar can slide, unfold the fish and clamp the edges with the movable and fixed clamps. Then manually pull the slide bar to stretch and unfold the fish. Tighten the locking bolts to keep the fish unfolded and fixed in the inner cavity of the sliding frame, making it easy to sprinkle salt on both sides of the fish for marinating.
[0020] The motor drives the drive wheel to rotate continuously. When the rotating groove approaches the driven wheel, the push rod slides into the pushing groove, pushing the driven wheel to rotate a quarter turn. When the rotating groove moves away from the driven wheel, the push rod slides out of the pushing groove, and the outer circumference of the drive wheel engages in the stop groove, causing the driven wheel to stop. In this way, the transmission shaft drives the rotating shaft to rotate intermittently, and the transmission ratio causes the rotating shaft to stop once every half turn, which facilitates the alternating flipping of the fish between the front and back sides. During the flipping of the processing box, the salt moves from the bottom to the top and falls, thus performing repeated salting operations. The electric push rod drives the sliding frame to move back and forth, so that the bristles can easily brush the salt on the fish evenly and sweep the excess salt to the bottom of the processing box. When the processing box is flipped, the salt at the bottom of the processing box gradually flips to the top and falls. The scraper moves back and forth to easily scrape off the salt adhering to the inner wall of the processing box, thus ensuring that the salt can be repeatedly sprinkled on the fish for marinating, achieving the purpose of automatic salting and even marinating. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the overall structure of a fish processing, pickling, and salting device disclosed in a preferred embodiment of this application;
[0022] Figure 2 This is a cross-sectional structural diagram of the processing box disclosed in a preferred embodiment of this application;
[0023] Figure 3 This application discloses a preferred embodiment. Figure 2 Enlarged structural diagram at point A in the middle;
[0024] Figure 4 This is a schematic diagram of a placement rack structure disclosed in a preferred embodiment of this application;
[0025] Figure 5 This application discloses a preferred embodiment. Figure 4 Enlarged structural diagram at point B;
[0026] Figure 6 This is a partial structural diagram of the brushing mechanism disclosed in a preferred embodiment of this application;
[0027] The following are the labels in the diagram: 1. Base; 2. Rotating shaft; 3. Processing box; 4. Box door; 5. Placement rack; 51. Sliding frame; 52. Fixed cylinder; 53. Slide rod; 54. Fixed clamp; 55. Movable clamp; 6. Tilting mechanism; 61. Drive shaft; 62. Driven wheel; 63. Stop groove; 64. Push groove; 65. Fixed seat; 66. Motor; 67. Drive wheel; 68. Rotating groove; 69. Push rod; 7. Brushing mechanism; 71. Sliding frame; 72. Crossbar; 73. Brush bristles; 74. Support rod; 75. Scraper; 76. Guide rod; 77. Electric push rod; 8. Guide rail. Detailed Implementation
[0028] The present application will be further described in detail below with reference to the accompanying drawings.
[0029] Reference Figure 1 and Figure 2 This application provides a fish processing, pickling, and salting device, comprising a base 1, and further comprising: a rotating shaft 2, with rotating shaft 2 rotatably sleeved at both ends of the base 1; a processing box 3, with the processing box 3 fixedly installed between the two rotating shafts 2; a placement rack 5, with the placement rack 5 slidably engaged in the middle of the processing box 3; a flipping mechanism 6, with a flipping mechanism 6 installed between one rotating shaft 2 and the base 1; and a brushing mechanism 7, with the brushing mechanism 7 installed inside the processing box 3. Multiple dissected fish are unfolded and fixed on the placement rack 5, the placement rack 5 slides into the processing box 3, and an appropriate amount of salt is poured into the processing box 3. The flipping mechanism 6 drives the processing box 3 to flip intermittently, so that the fish can alternately face up and down. During the flipping, the salt will fall from top to bottom in the processing box 3 under the action of gravity, so that the salt can be alternately sprinkled on both sides of the fish. At the same time, the brushing mechanism 7 repeatedly brushes both sides of the fish to facilitate the distribution of salt on both sides of the fish and sweeps off excess salt, ultimately achieving automatic salting and uniform pickling.
[0030] Reference Figure 1 The processing box 3 has a door 4 hinged on one side and is bolted to the processing box 3. Guide rails 8 are fixedly installed on both inner walls of the processing box 3. The placement rack 5 is snapped between the guide rails 8. The door 4 is locked with bolts to facilitate closing and opening. The guide rails 8 provide support and limit for the placement rack 5.
[0031] Reference Figure 2 and Figure 4 The placement rack 5 includes a sliding frame 51, which is slidably engaged with the guide rails 8. Multiple fixed cylinders 52 are fixedly installed on the inner walls of both sides of the sliding frame 51. A sliding rod 53 is slidably engaged inside the fixed cylinder 52, and a locking bolt is threaded onto the side wall of the fixed cylinder 52. A fixed clamp 54 is fixedly installed on the end face of the sliding rod 53. A movable clamp 55 is installed on the fixed clamp 54 by bolts. The fish is clamped between the movable clamp 55 and the fixed clamp 54. First, the locking bolt is loosened so that the sliding rod 53 can slide, unfolding the fish and clamping its edges with the movable clamp 55 and the fixed clamp 54. Then, the sliding rod 53 is manually pulled to stretch and unfold the fish. Finally, the locking bolt is tightened to keep the fish unfolded and fixed in the inner cavity of the sliding frame 51.
[0032] Furthermore, during the pickling process, salting can be done in multiple stages, with the parts held by the movable clamp 55 and the fixed clamp 54 staggered each time, making it easier to pickle the clamped parts.
[0033] Reference Figure 2 and Figure 6The brushing mechanism 7 includes a sliding frame 71. The top and bottom cavities of the treatment box 3 are both equipped with sliding frames 71. Guide rods 76 are fixedly installed at both ends of the sliding frame 71, and the guide rods 76 slide through the treatment box 3. An electric push rod 77 is fixedly installed on the side wall of the treatment box 3. The output rod of the electric push rod 77 is fixedly connected to the guide rod 76. Multiple crossbars 72 are fixedly installed on the inner wall of the sliding frame 71. Brush bristles 73 are fixedly installed on one side of the crossbar 72 near the middle of the treatment box 3, and a support rod is fixedly installed on the other side of the crossbar 72. 74. A scraper 75 is fixedly installed on the support rod 74. The scraper 75 fits against the top and bottom of the inner cavity of the processing box 3. When the processing box 3 is flipped and stopped, the electric push rod 77 drives the sliding frame 71 to move back and forth, so that the brush bristles 73 can easily brush the salt on the fish evenly and sweep the excess salt to the bottom of the processing box 3. When the processing box 3 is flipped, the salt at the bottom of the processing box 3 gradually flips to the top and falls off. The scraper 75 moves back and forth to easily scrape off the salt adhering to the inner wall of the processing box 3, thereby ensuring that the salt can be repeatedly sprinkled on the fish for marinating.
[0034] Reference Figure 2 and Figure 3 The flipping mechanism 6 includes a drive shaft 61. The drive shaft 61 is rotatably sleeved on one side of the base 1. The drive shaft 61 is connected to the rotating shaft 2 via a drive wheel and a drive belt. A driven wheel 62 is fixedly sleeved on the drive shaft 61. Multiple stop grooves 63 are formed on the outer circumference of the driven wheel 62. A push groove 64 is formed on the driven wheel 62 between two adjacent stop grooves 63. A fixed seat 65 is fixedly installed on the side wall of the base 1. A motor 66 is fixedly installed on the fixed seat 65. A drive wheel 67 is fixedly sleeved on the output shaft of the motor 66. A rotating groove 68 is formed on one side of the drive wheel 67. A push rod 69 is installed on the end face of the drive wheel 67 at the rotating groove 68 via a connecting rod. The push rod 69 is movably engaged with the push groove 64. The stop groove 63 is along the circumference of the driven wheel 62. There are four evenly distributed drive shafts. The transmission ratio between drive shaft 61 and rotating shaft 2 is 1:2. The diameter of push rod 69 is equal to the inner cavity width of push groove 64. Stop groove 63 is an arc-shaped structure that matches the outer circumference of drive wheel 67. Motor 66 drives drive wheel 67 to rotate continuously. When rotating groove 68 rotates close to driven wheel 62, push rod 69 slides into push groove 64 and pushes driven wheel 62 to rotate a quarter turn. When rotating groove 68 moves away from driven wheel 62, push rod 69 slides out of push groove 64, and outer circumference of drive wheel 67 is engaged in stop groove 63, causing driven wheel 62 to stop. In this way, drive shaft 61 drives rotating shaft 2 to rotate intermittently, and the transmission ratio makes rotating shaft 2 stop once every half turn, which facilitates the alternating flipping of the fish between the front and back.
[0035] Working principle: First, loosen the locking bolts so that the slide rod 53 can slide, unfolding the fish and clamping its edges with the movable clamp 55 and the fixed clamp 54. Then, manually pull the slide rod 53 to stretch and unfold the fish. Tighten the locking bolts to keep the fish unfolded and fixed in the inner cavity of the sliding frame 51. Then, slide the sliding frame 51 into the processing box 3 via the guide rail 8. Pour an appropriate amount of salt into the processing box 3 and close and lock the box door 4. The motor 66 drives the drive wheel 67 to rotate continuously. When the rotating groove 68 rotates close to the driven wheel 62, the push rod 69 slides into the push groove 64 to push the driven wheel 62 to rotate a quarter turn. When the rotating groove 68 moves away from the driven wheel 62, the push rod 69 slides out of the push groove 64, and the outer circumference of the drive wheel 67 is engaged in the stop groove 63. Inside, the driven wheel 62 stops, so the transmission shaft 61 drives the rotating shaft 2 to rotate intermittently. The transmission ratio makes the rotating shaft 2 stop once every half revolution, which facilitates the alternating flipping of the fish between the front and back sides. During the flipping of the processing box 3, the salt moves from the bottom of the processing box 3 to the top and falls down, thus performing repeated salting operations. The electric push rod 77 drives the sliding frame 71 to move back and forth, so the brush bristles 73 can easily brush the salt on the fish evenly and sweep the excess salt to the bottom of the processing box 3. When the processing box 3 is flipped, the salt at the bottom of the processing box 3 gradually flips to the top and falls down. The scraper 75 moves back and forth to easily scrape off the salt adhering to the inner wall of the processing box 3, thus ensuring that the salt can be repeatedly sprinkled on the fish for marinating, achieving the purpose of automatic salting and even marinating.
Claims
1. A fish processing salting and sprinkling device comprising a base (1), characterized in that, Also includes: Rotating shaft (2), both ends of the base (1) are rotatably sleeved with rotating shaft (2); Processing box (3), the processing box (3) is fixedly installed between the two rotating shafts (2); Placement rack (5), the middle part of the processing box (3) is slidably connected to the placement rack (5); A flipping mechanism (6) is installed between one of the rotating shafts (2) and the base (1). The brushing mechanism (7) is installed inside the processing box (3).
2. A fish processing salting and seasoning device as claimed in claim 1, characterized in that: The processing box (3) has a door (4) hinged on one side, and the door (4) is bolted to the processing box (3). Guide rails (8) are fixedly installed on both inner walls of the processing box (3), and the placement rack (5) is snapped between the guide rails (8).
3. A fish processing salting and seasoning device as claimed in claim 2, characterized in that: The placement rack (5) includes a sliding frame (51), which is slidably engaged between guide rails (8). Multiple fixed cylinders (52) are fixedly installed on the inner walls of both sides of the sliding frame (51). A sliding rod (53) is slidably engaged inside the fixed cylinder (52), and a locking bolt is threaded onto the side wall of the fixed cylinder (52). A fixed clamp (54) is fixedly installed on the end face of the sliding rod (53). A movable clamp (55) is installed on the fixed clamp (54) by bolts. The fish is clamped between the movable clamp (55) and the fixed clamp (54).
4. The fish processing salting and seasoning device according to claim 1, characterized in that: The brushing mechanism (7) includes a sliding frame (71). The top and bottom cavities of the treatment box (3) are provided with sliding frames (71). Guide rods (76) are fixedly installed at both ends of the sliding frame (71). The guide rods (76) slide through the treatment box (3). An electric push rod (77) is fixedly installed on the side wall of the treatment box (3). The output rod of the electric push rod (77) is fixedly connected to the guide rod (76). Multiple crossbars (72) are fixedly installed between the inner walls of the sliding frame (71). Brush bristles (73) are fixedly installed on one side of the crossbar (72) near the middle of the treatment box (3). A support rod (74) is fixedly installed on the other side of the crossbar (72). A scraper (75) is fixedly installed on the support rod (74). The scraper (75) fits against the top and bottom of the inner cavity of the treatment box (3).
5. The fish processing salting and seasoning device according to claim 1, characterized in that: The flipping mechanism (6) includes a drive shaft (61). The drive shaft (61) is rotatably sleeved on one side of the base (1). The drive shaft (61) and the rotating shaft (2) are connected by a drive wheel and a drive belt. A driven wheel (62) is fixedly sleeved on the drive shaft (61). The outer circumference of the driven wheel (62) has multiple stop grooves (63). A push groove (64) is opened on the driven wheel (62) between two adjacent stop grooves (63). A fixed seat (65) is fixedly installed on the side wall of the base (1). A motor (66) is fixedly installed on the fixed seat (65). The output shaft of the motor (66) is fixedly sleeved with a drive wheel (67). A rotating groove (68) is opened on one side of the drive wheel (67). A push rod (69) is installed on the end face of the drive wheel (67) at the rotating groove (68) through a connecting rod. The push rod (69) is movably engaged with the push groove (64).
6. A fish processing salting and seasoning device as claimed in claim 5, characterized in that: The stop groove (63) is evenly distributed in four directions along the circumference of the driven wheel (62). The transmission ratio between the drive shaft (61) and the rotating shaft (2) is 1:
2. The diameter of the push rod (69) is equal to the inner cavity width of the push groove (64). The stop groove (63) is an arc-shaped structure that is adapted to the outer circumference of the driving wheel (67).