A forming apparatus for food processing
By driving the mold to flip through the support frame and conveying mechanism, combined with the reciprocating motion of the servo motor and push plate, the danger of explosion and indentation of the telescopic cylinder is solved, ensuring the quality of the finished food product. The residue is separated by the scraper and conveying mechanism, realizing a safe and efficient food forming process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZIXI PURE CULTURE TOURISM OPERATION CO LTD
- Filing Date
- 2025-06-04
- Publication Date
- 2026-06-23
AI Technical Summary
The telescopic cylinder is located inside the forming box, which poses a risk of fire and explosion in the cooling or baking chamber. Furthermore, the contact area between the bottom of the formed food and the moving plate with the "V" shaped structure in the middle is small, which can easily leave indentations on the food and reduce the quality of the finished product.
The system employs a support frame and a conveyor mechanism, utilizing a first reciprocating mechanism and a pusher plate driven by a servo motor to achieve the reciprocating motion of the base plate. Combined with a conveyor belt and scraper structure, it ensures that food is smoothly ejected and avoids indentations. At the same time, a scraper and conveyor mechanism are set up to separate residues, and a second reciprocating mechanism and a shower head are used for cleaning.
This technology enables food to be ejected without indentations, improving the quality of the finished product. Furthermore, the cleaning and residue separation structure enhances the safety and efficiency of the equipment.
Smart Images

Figure CN224386731U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food processing technology, specifically to a forming device for food processing. Background Technology
[0002] In food processing, forming equipment is needed to maintain the stable shape of food during processing.
[0003] A search revealed a Chinese patent (CN222583624U) disclosing a food processing and forming device. This device includes a lifting and discharging mechanism located at the bottom of the forming cavity. When food demolding is required, a telescopic cylinder controls the rotation of two moving plates along a rotating shaft. This causes the tops of the two moving plates to slide towards the center within a groove. Since the moving plates are tilted at this time, and the tops penetrate the middle of the groove, food can be ejected during the process. The generated residue falls into the placement tank along with the tilted moving plate, achieving the effect of not affecting subsequent molding work. However, in actual use, it was found that the telescopic cylinder is set inside the molding box. During the process of the molding box entering the cooling chamber or baking chamber, the telescopic cylinder inside will also enter the cooling chamber or baking chamber, which poses a risk of explosion. The bottom of the molded food is lifted and discharged by the moving plate with the middle "V" structure. The contact area between the moving plate and the molded food is small, which can easily leave indentations on the molded food and reduce the quality of the finished food. Therefore, we propose a molding equipment for food processing. Utility Model Content
[0004] The technical problem to be solved by this application is that the telescopic cylinder is set inside the forming box. When the forming box enters the cooling chamber or baking chamber, the telescopic cylinder inside will also enter the cooling chamber or baking chamber, which poses a risk of combustion and explosion. The bottom of the formed food is lifted and discharged by the moving plate with the middle "V" structure. The contact area between the moving plate and the formed food is small, which easily makes it easy to press indentations on the formed food, reducing the quality of the finished food.
[0005] To solve the above technical problems, this application provides a food processing forming device, including a support frame and a conveying mechanism. Two sets of conveying mechanisms are provided at the upper end of the support frame. Multiple molds are equidistantly arranged between the two sets of conveying mechanisms and inside the support frame. A base plate for placing food is slidably connected inside the mold. The conveying mechanism drives the multiple molds to circulate.
[0006] A servo motor is installed on one side of the support frame. The output end of the servo motor, which extends into the support frame, is equipped with a first reciprocating mechanism. The first reciprocating mechanism is located between multiple molds. A push plate is provided at the bottom of the first reciprocating mechanism. The servo motor and the first reciprocating mechanism drive the push plate to move back and forth, thereby ejecting the food from the bottom plate.
[0007] In some embodiments, the first reciprocating mechanism includes a turntable and a guide plate. The turntable is rotatably mounted on both sides inside the support frame. A transmission block is rotatably mounted on one side of the turntable at an eccentric position. The guide plate is located between the two turntables. A guide hole penetrating both ends is opened at the center of the guide plate. The guide hole is adapted to the size of the transmission block. The top of the push plate is fixedly connected to the bottom of the guide plate.
[0008] In some embodiments, a through hole adapted to the size of the push plate is provided at the center of the bottom of the mold, slide rods are symmetrically installed on the bottom of the base plate, slide holes adapted to the size of the slide rods are provided on both sides of the bottom of the mold, and limit blocks are installed at the bottom end of the slide rods extending out of the slide holes.
[0009] In some embodiments, the conveying mechanism includes four first rollers rotatably mounted inside the support frame, wherein two of the first rollers are connected to the output ends of a first stepper motor mounted on both sides of the support frame, and a first conveyor belt is tensioned and sleeved on the outer side of adjacent first rollers, and the two sides of a plurality of molds are fixedly connected to the inner side of the first conveyor belt.
[0010] In some embodiments, a scraper is installed on the inner side of the support frame and at the bottom of the mold, and the bottom of the scraper has an inclined surface.
[0011] In some embodiments, a conveying mechanism is provided inside the support frame and at the lower end of the scraper. The support frame is U-shaped, and one end of the support frame has symmetrically opened discharge holes for placing the conveying mechanism. The conveying mechanism includes a second stepper motor, a second roller, and a second conveyor belt. Two second rollers are rotatably installed in the discharge holes. A second conveyor belt is tensioned and sleeved on the outer side of the two second rollers. Multiple mesh holes for separating food residue are equidistantly opened on the outer side of the second conveyor belt. One end of one of the second rollers is connected to the output end of the second stepper motor installed at one end of the support frame. A collection box is placed at the bottom of the support frame and at the bottom of the second conveyor belt.
[0012] In some embodiments, two fixing plates are symmetrically installed on the top of the support frame. One fixing plate is equipped with a storage body for storing food raw materials, and the other fixing plate is equipped with a baking chamber for baking food.
[0013] This utility model has at least the following beneficial effects:
[0014] The mold is driven to circulate by the conveying mechanism. After the mold moves to the bottom of the first conveyor belt, the mold flips over and the bottom plate flips to the top. The first reciprocating mechanism on the support frame drives the push plate to move up and down. When the push plate moves down, it contacts the bottom plate and pushes the bottom plate, so that the food is pushed out from the bottom of the mold. The push plate is flat and has a large contact area with the food, so it will not leave indentations on the food, thereby increasing the quality of the finished food. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the support frame in Embodiment 1 of this utility model;
[0016] Figure 2 This is a cross-sectional view of the internal structure of the support frame in Embodiment 1 of this utility model;
[0017] Figure 3 This is a cross-sectional view of the internal structure of the mold during the food ejection process of this utility model;
[0018] Figure 4 This is a schematic diagram of the structure of the mold of this utility model when it is inverted;
[0019] Figure 5 This is a side view of the overall structure of Embodiment 1 of this utility model;
[0020] Figure 6 This is a cross-sectional view of the internal structure of the support frame in Embodiment 2 of this utility model;
[0021] Figure 7 This is a schematic diagram of the structure on the inclined plate in Embodiment 2 of this utility model;
[0022] Figure 8 This is a rear view of the overall structure of Embodiment 2 of this utility model.
[0023] In the diagram: 1. Support frame; 2. Conveying mechanism; 201. First stepper motor; 202. First rotating roller; 203. First conveyor belt; 3. Mold; 301. Through hole; 302. Sliding hole; 4. Base plate; 5. Servo motor; 6. First reciprocating mechanism; 7. Push plate; 8. Scraper; 9. Conveying mechanism; 901. Second stepper motor; 902. Second rotating roller; 903. Second conveyor belt; 10. Discharge hole; 11. Collection box; 12. Turntable; 13. Transmission block; 14. Guide plate; 1401. Guide hole; 15. Sliding rod; 16. Limiting block; 17. Fixing plate; 18. Baffle; 19. Water tank; 20. Inclined plate; 21. Sewage box; 22. Water pump; 23. Second reciprocating mechanism; 24. Telescopic pipe; 2401. Shower head; 25. Pulley; 26. Belt. Detailed Implementation
[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0025] Example 1
[0026] Please see Figure 1-5 This utility model provides a technical solution: a food processing forming device, including a support frame 1 and a conveying mechanism 2. Two fixed plates 17 are symmetrically installed on the top of the support frame 1. A storage body for storing food raw materials is installed on one fixed plate 17. The storage body extends out of the bottom of the fixed plate 17 and is connected to a discharge port with a valve. The amount of food raw materials discharged from the storage body through the discharge port is controlled by the valve. A baking chamber for baking food is installed on the other fixed plate 17. A cooling chamber can be installed for processed and cooled food. Two sets of conveying mechanisms 2 are provided at the upper end of the support frame 1. Multiple molds 3 are equidistantly arranged between the two sets of conveying mechanisms 2 and inside the support frame 1. A base plate 4 for placing food is slidably connected inside the mold 3. The mold 3 and the base plate 4 are made of stainless steel, which is corrosion-resistant and high temperature resistant. The multiple molds 3 are driven to circulate by the conveying mechanism 2. The cavity formed between the mold 3 and the base plate 4 is used to place the processed raw materials.
[0027] The conveying mechanism 2 includes four first rollers 202 rotatably mounted inside the support frame 1. Two of the first rollers 202 are connected to the output ends of the first stepper motors 201 mounted on both sides of the support frame 1. A first conveyor belt 203 is tensioned and sleeved on the outer side of the adjacent first rollers 202. The first conveyor belt 203 is made of Teflon material and can enter the baking chamber or cooling chamber with the molds 3. The two sides of the multiple molds 3 are fixedly connected to the inner side of the first conveyor belt 203. The multiple molds 3 are cyclically moved by the first stepper motor 201, the first rollers 202 and the first conveyor belt 203. Since the molds 3 are fixedly connected to the first conveyor belt 203, the molds 3 are flipped over when they move to the bottom of the first conveyor belt 203, which facilitates the movement of the base plate 4 to push the food out from the bottom of the molds 3.
[0028] A servo motor 5 is installed on one side of the support frame 1. The output end of the servo motor 5, which extends into the support frame 1, is provided with a first reciprocating mechanism 6. The first reciprocating mechanism 6 is located between multiple molds 3. A push plate 7 is provided at the bottom of the first reciprocating mechanism 6. The push plate 7 is driven to move back and forth by the servo motor 5 and the first reciprocating mechanism 6, so that the bottom plate 4 ejects the food.
[0029] The first reciprocating mechanism 6 includes a turntable 12 and a guide plate 14. The turntable 12 is rotatably mounted on both sides inside the support frame 1. A transmission block 13 is rotatably mounted on one side of the turntable 12 at an eccentric position. The guide plate 14 is located between the two turntables 12. A guide hole 1401 is opened at the center of the guide plate 14, which passes through both ends. The guide hole 1401 is adapted to the size of the transmission block 13. The top of the push plate 7 is fixedly connected to the bottom of the guide plate 14.
[0030] When mold 3 moves to the bottom of the first conveyor belt 203, mold 3 and base plate 4 flip over. Base plate 4 is located at the bottom of push plate 7. Servo motor 5 is started, driving turntable 12 to rotate. Turntable 12 drives transmission block 13 to rotate eccentrically. When transmission block 13 rotates, it slides back and forth in guide hole 1401, driving guide plate 14 to move up and down. Guide plate 14 drives push plate 7 to move up and down. When push plate 7 moves downward, its bottom contacts the top of base plate 4 and drives base plate 4 to move downward, so that food is ejected from the bottom of mold 3. When base plate 4 moves up and down, it can clean the residue remaining on the inner wall of mold 3.
[0031] A through hole 301, which is adapted to the size of the push plate 7, is provided at the center of the bottom of the mold 3. The push plate 7 enters the through hole 301 and contacts the bottom plate 4 inside the mold 3 when it moves downward. Slide rods 15 are symmetrically installed on the bottom of the bottom plate 4. Slide holes 302, which are adapted to the size of the slide rods 15, are provided on both sides of the bottom of the mold 3. Limiting blocks 16 are installed at the bottom end of the slide rods 15 that extend out of the slide holes 302. The limiting blocks 16 can completely cover the slide holes 302, which can limit the slide rods 15 and prevent the bottom plate 4 from sliding out of the mold 3.
[0032] A scraper 8 is installed on the inner side of the support frame 1 and at the bottom of the mold 3. The bottom of the scraper 8 is provided with an inclined surface. When food adheres to the bottom plate 4 and cannot be removed, the conveying mechanism 2 drives the food adhered to the bottom plate 4 to move. When it comes into contact with the scraper 8, it scrapes the food off the bottom plate 4 and can also clean the residue remaining on the bottom plate 4.
[0033] A conveying mechanism 9 is provided inside the support frame 1 and at the lower end of the scraper 8. The support frame 1 is U-shaped. One end of the support frame 1 has symmetrically opened discharge holes 10 for placing the conveying mechanism 9. The conveying mechanism 9 includes a second stepper motor 901, a second roller 902, and a second conveyor belt 903. Two second rollers 902 are rotatably installed in the discharge holes 10. The second conveyor belt 903 is tensioned and sleeved on the outer side of the two second rollers 902. Multiple mesh holes for separating food residue are opened at equal intervals on the outer side of the second conveyor belt 903. One end of one of the second rollers 902 is connected to the output end of the second stepper motor 901 installed at one end of the support frame 1. A collection box 11 is placed at the bottom of the support frame 1 and at the bottom of the second conveyor belt 903. Food that falls falls onto the second conveyor belt 903, and the residue falls into the collection box 11 through the mesh holes. The second stepper motor 901 is started, and the food after demolding is conveyed through the second roller 902 and the second conveyor belt 903.
[0034] Example 2
[0035] Please see Figure 6-8 This utility model provides a technical solution: Based on embodiment 1, this utility model provides another technical solution: A baffle 18 is installed at the bottom inside the support frame 1. The baffle 18 is located at the bottom of the first conveyor belt 203 and does not contact the first conveyor belt 203 and the mold 3. The first reciprocating mechanism 6, scraper 8, conveying mechanism 9 and collection box 11 are located at one end of the baffle 18. A water tank 19 is installed at the bottom inside the support frame 1 and at the other end of the baffle 18. A water inlet pipe with a valve is opened on one side of the water tank 19. The water inlet pipe extends out of the support frame 1 and injects cleaning liquid into the water tank 19 through the water inlet pipe. An inclined plate 20 is installed at the other end of the baffle 18 and the top of the water tank 19. A sewage box 21 is placed at the bottom inside the support frame 1 and at one end of the water tank 19.
[0036] The support frame 1 is equipped with a second reciprocating mechanism 23, which has the same structure as the first reciprocating mechanism 6. The second reciprocating mechanism 23 is located at the other end of the baffle 18 and at the bottom of the first conveyor belt 203 and the mold 3. A pulley 25 is installed on the turntable 12 located on the other side of the support frame 1 in the first reciprocating mechanism 6 and the second reciprocating mechanism 23. The pulley 25 is rotatably connected to the other side of the support frame 1. A belt 26 is tensioned on the outer side of the two pulleys 25. The end of the inclined plate 20 away from the baffle 18 extends to the top of the sewage box 21. A water pump 22 is installed on the top of the water tank 19. The output end of the water pump 22 extending out of the inclined plate 20 is connected to a telescopic pipe 24. The telescopic pipe 24 passes through the top of the guide plate 14 of the second reciprocating mechanism 23 and is connected to a shower head 2401.
[0037] The servo motor 5 drives the turntable 12 in the first reciprocating mechanism 6 to rotate, and the pulley 25 drives the turntable 12 in the second reciprocating mechanism 23 to rotate, thereby realizing the up and down movement of the shower head 2401. When the shower head 2401 moves upward, the water pump 22 is started, and the cleaning liquid in the water tank 19 is sprayed out from the shower head 2401 to clean the mold 3 and the base plate 4 that it passes through, so as to avoid food oil stains remaining on the mold 3 and the base plate 4. The wastewater after cleaning drips onto the inclined plate 20 and flows into the wastewater box 21 through the inclined surface of the inclined plate 20.
[0038] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention.
Claims
1. A forming apparatus for food processing comprising a support frame (1) and a conveying mechanism (2), characterized in that: The upper end of the support frame (1) is provided with two sets of conveying mechanisms (2). Multiple molds (3) are equidistantly arranged between the two sets of conveying mechanisms (2) and inside the support frame (1). A base plate (4) for placing food is slidably connected inside the mold (3). The multiple molds (3) are driven to circulate by the conveying mechanisms (2). A servo motor (5) is installed on one side of the support frame (1). The output end of the servo motor (5) extending into the support frame (1) is provided with a first reciprocating mechanism (6). The first reciprocating mechanism (6) is located between multiple molds (3). A push plate (7) is provided at the bottom of the first reciprocating mechanism (6). The push plate (7) is driven to move back and forth by the servo motor (5) and the first reciprocating mechanism (6) to push the food out of the bottom plate (4).
2. The food processing forming apparatus of claim 1, wherein: The first reciprocating mechanism (6) includes a turntable (12) and a guide plate (14). The turntable (12) is rotatably mounted on both sides inside the support frame (1). A transmission block (13) is rotatably mounted on one side of the turntable (12). The guide plate (14) is located between the two turntables (12). A guide hole (1401) is opened at the center of the guide plate (14) and passes through both ends. The guide hole (1401) is adapted to the size of the transmission block (13). The top of the push plate (7) is fixedly connected to the bottom of the guide plate (14).
3. The food processing forming equipment according to claim 2, characterized in that: The mold (3) has a through hole (301) at the center of its bottom that matches the size of the push plate (7). The bottom of the base plate (4) is symmetrically equipped with slide rods (15). The mold (3) has slide holes (302) on both sides of its bottom that match the size of the slide rods (15). The bottom end of the slide rod (15) extending out of the slide hole (302) is equipped with a limit block (16).
4. The food processing forming equipment according to claim 1, characterized in that: The conveying mechanism (2) includes four first rollers (202) rotatably mounted inside the support frame (1), two of which are connected to the output ends of a first stepper motor (201) mounted on both sides of the support frame (1). A first conveyor belt (203) is tensioned and sleeved on the outer side of adjacent first rollers (202), and the two sides of multiple molds (3) are fixedly connected to the inner side of the first conveyor belt (203).
5. The food processing forming equipment according to claim 1, characterized in that: A scraper (8) is installed on the inner side of the support frame (1) and at the bottom of the mold (3), and the bottom of the scraper (8) is provided with an inclined surface.
6. The food processing forming equipment according to claim 5, characterized in that: A conveying mechanism (9) is provided inside the support frame (1) and at the lower end of the scraper (8). The support frame (1) is U-shaped. One end of the support frame (1) is symmetrically provided with discharge holes (10) for placing the conveying mechanism (9). The conveying mechanism (9) includes a second stepper motor (901), a second roller (902), and a second conveyor belt (903). Two second rollers (902) are rotatably installed in the discharge hole (10). The outer sides of the two second rollers (902) are tensioned and fitted with a second conveyor belt (903). The outer side of the second conveyor belt (903) is provided with multiple mesh holes for separating food residue at equal intervals. One end of one of the second rollers (902) is connected to the output end of the second stepper motor (901) installed at one end of the support frame (1). A collection box (11) is placed at the bottom of the support frame (1) and at the bottom of the second conveyor belt (903).
7. The food processing forming equipment according to claim 1, characterized in that: The top of the support frame (1) is symmetrically equipped with two fixing plates (17). One fixing plate (17) is equipped with a storage body for storing food raw materials, and the other fixing plate (17) is equipped with a baking chamber for baking food.