Multifunctional device for cooking utensil production

By designing a multi-functional cookware production device, utilizing hydraulic components, cutting components, and a circular guide rail conveyor line, the problem of low efficiency in existing equipment has been solved. This achieves efficient, stable, and precise material conveying and cutting, reduces manual intervention, and improves production efficiency.

CN224444723UActive Publication Date: 2026-07-03ZHEJIANG AOTENG IND TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG AOTENG IND TECHNOLOGY CO LTD
Filing Date
2025-04-03
Publication Date
2026-07-03

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  • Figure CN224444723U_ABST
    Figure CN224444723U_ABST
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Abstract

A multifunctional device for cookware production includes a processing device, a loading and unloading device, and a ring-shaped guide rail conveyor system located between the processing device and the loading and unloading device. The processing device includes a frame with a worktable inside. A hydraulic device is located near the left end of the worktable, and a cutting component is located near the right end of the worktable. The loading and unloading device is located behind the processing device and is divided into a loading port and a unloading port. The loading port is located on the left side of the loading and unloading device, and the unloading port is located on the right side of the loading and unloading device. Loading and unloading trolleys are located below the loading and unloading ports to ensure the stability of the overall device, realize cyclic conveying, significantly improve the processing efficiency of the equipment, and can simultaneously perform multi-directional and multi-angle shearing with higher stability and precision. It effectively reduces manual intervention and improves the flexibility and convenience of material transportation.
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Description

Technical Field

[0001] This utility model relates to the field of cookware processing technology, specifically to a multifunctional device for cookware production. Background Technology

[0002] Cookware is an essential tool in the kitchen for cooking and heating food, widely used in homes, restaurants, and food processing facilities. It is typically made of metals such as stainless steel, aluminum alloy, or cast iron, which offer good thermal conductivity, high-temperature resistance, and durability to meet various cooking needs. The production of cookware involves multiple processing steps, from raw material selection to final product packaging, each step being crucial. First, suitable metal materials are selected according to design requirements. Next comes stretch forming, where flat metal sheets are pressed into the desired cookware shape using hydraulic equipment, and then cut to appropriate sizes and shapes. The prior art, such as the multifunctional mechanical equipment for producing stainless steel cookware disclosed in Chinese Utility Model Publication CN215824776U, includes a housing. A first servo motor is disposed on one side of the housing, a first lead screw is disposed on one side of the first servo motor, a first threaded sleeve is fitted around the first lead screw, a first hydraulic press is disposed at the bottom of the first threaded sleeve, a first hydraulic column is disposed at the bottom of the first hydraulic press, an electric suction cup is disposed at the bottom of the first hydraulic column, a support column is disposed on one side of the bottom of the housing, an automatic controller is disposed on the outer surface of the front section of the support column, a base is disposed at the bottom of the support column, a storage platform is disposed on the upper outer surface of the base, a second hydraulic press is disposed inside the base near the storage platform, and a second hydraulic column is disposed on the top of the second hydraulic press.

[0003] The material movement is achieved solely by driving the first lead screw with a first servo motor installed inside the housing. While this method can accomplish basic conveying tasks, its movement speed and range are limited. Furthermore, it only has one first hydraulic column and one electric suction cup at the bottom, resulting in extremely low work efficiency during operation. It requires waiting for one pot to be processed before processing the second pot. Moreover, during operation, it is still necessary to manually place the material onto the storage platform, and after processing, it is also necessary to manually remove the processed pot, which is quite troublesome. Summary of the Invention

[0004] To address the aforementioned problems, this utility model provides a multifunctional device for cookware production:

[0005] A multifunctional device for cookware production includes a processing device, a loading and unloading device, and a ring-shaped guide rail conveyor system located between the processing device and the loading and unloading device. The processing device includes a frame with a worktable inside. A hydraulic device is located near the left end of the worktable, and a cutting component is located near the right end of the worktable. The loading and unloading device is located behind the processing device and is divided into a loading port and a unloading port. The loading port is located on the left side of the loading and unloading device, and the unloading port is located on the right side of the loading and unloading device. Loading and unloading trolleys are located below the loading and unloading ports to ensure the stability of the overall device, realize cyclic conveying, significantly improve the processing efficiency of the equipment, and can simultaneously perform multi-directional and multi-angle shearing with higher stability and precision. It effectively reduces manual intervention and improves the flexibility and convenience of material transportation.

[0006] Preferably, the hydraulic device includes a sleeve column, which is fixedly connected to the top surface of the workbench. A hydraulic push rod is provided inside the sleeve column. A hydraulic press is fixedly connected to the bottom of the hydraulic push rod. A flexible push rod head is provided at the top of the hydraulic push rod, which ensures the stability of the hydraulic device and reduces impact damage to the material surface, making it more efficient and safer.

[0007] Preferably, the cutting assembly includes a fixed base, which is fixedly connected to the top surface of the workbench. A cutting rotating shaft is provided inside the fixed base. A rubber plug is provided at the top of the cutting rotating shaft. A cutting rotating motor is fixedly connected to the bottom of the cutting rotating shaft. Double-blade shearing blade assemblies are provided on both sides of the cutting rotating motor, which ensures the accuracy and safety of the cutting process and greatly improves the processing efficiency of materials during the cutting process.

[0008] Preferably, the dual-blade shearing assembly is located on both sides of the cutting rotary motor. The dual-blade shearing assembly includes a first fixing plate located near the cutting rotary motor. The first fixing plate is provided with a bearing seat, a ball screw is provided on the bearing seat, a screw nut is provided on the ball screw, a fixing block is fixedly connected to the screw nut, and a shearing blade is provided on the top of the fixing block. A second fixing plate is provided at the end of the ball screw away from the bearing seat, and a shearing servo motor is provided on the second fixing plate, realizing high-precision and high-efficiency shearing processing.

[0009] Preferably, the annular guide rail conveyor device includes a connecting frame, which is fixedly connected to the processing equipment and the loading / unloading equipment respectively. A drive motor is provided at the left end of the connecting frame, and a drive shaft is provided at the right end of the drive motor and the connecting frame. A rotating wheel is provided on the drive shaft, and a transmission belt is provided on the rotating wheel. A connecting block is fixedly connected to the outside of the transmission belt, and an electromagnetic chuck device is fixedly connected to the connecting block. An annular track is provided above the electromagnetic chuck device, which realizes efficient cyclic conveying of materials between the processing equipment and the loading / unloading equipment, greatly improving production continuity and processing efficiency.

[0010] Preferably, the electromagnetic chuck device includes a sliding column connected to a circular track. A fixed plate is fixedly connected below the sliding column, and a conveyor hydraulic press is provided below the fixed plate. A conveyor push rod is fixedly connected to the lower end of the conveyor hydraulic press, and an electromagnetic chuck is provided at the bottom of the conveyor push rod, thereby realizing the flexibility and reliability of material adsorption and height adjustment.

[0011] Preferably, the loading / unloading trolley includes a trolley with a first telescopic plate. Two first telescopic plates are located near the left and right ends of the top surface of the trolley, respectively. A second telescopic plate is located above the first telescopic plates. A storage plate is fixedly connected above the second telescopic plate. A telescopic hydraulic press is located between the two first telescopic plates. The telescopic hydraulic press is fixedly connected to the top surface of the trolley. A telescopic push rod is fixedly connected to the top of the telescopic hydraulic press. The top of the telescopic push rod is fixedly connected to the storage plate. The storage plate has several partition plates, and a material box is provided on the partition plates. This significantly improves the adaptability and ease of operation of the loading / unloading trolley.

[0012] Preferably, the material feeding box includes a box body, and the box body is provided with a plurality of compression springs. A placement plate is fixedly connected above the compression springs to provide cushioning and shock absorption protection for the material.

[0013] The beneficial effects of this utility model are:

[0014] 1. The design of the hydraulic and cutting components greatly ensures the stability of the device, effectively reduces material damage during working contact, and effectively guarantees the flexibility and processing efficiency during the cutting process. It can perform multi-directional and multi-angle shearing simultaneously with higher precision.

[0015] 2. The design of the circular guide rail conveyor device enables cyclic conveying between the processing equipment and the unloading equipment, which greatly improves the overall processing efficiency of the device and effectively ensures safety during transportation, thus guaranteeing the stable operation and reliable performance of the overall equipment.

[0016] 3. The design of the loading and unloading equipment and trolleys facilitates operators to quickly distinguish and manage materials, greatly reduces manual intervention, enhances the versatility and flexibility of the equipment, and improves the flexibility and convenience of material transportation. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the structure of this utility model;

[0018] Figure 2 This is a rear view of the present invention;

[0019] Figure 3 This is a schematic diagram of the structure of the annular guide rail conveyor device of this utility model;

[0020] Figure 4 This is a top view of the annular guide rail conveyor device of this utility model;

[0021] Figure 5 This is a schematic diagram of the electromagnetic chuck device of this utility model;

[0022] Figure 6 This is a schematic diagram of the processing equipment of this utility model;

[0023] Figure 7 This is a cross-sectional view of the processing equipment of this utility model;

[0024] Figure 8 This is a schematic diagram of the structure of the loading and unloading equipment of this utility model;

[0025] Figure 9 This is a schematic diagram of the structure of the loading and unloading trolley of this utility model;

[0026] Figure 10 This is a schematic diagram of the material feeding box of this utility model.

[0027] Reference numerals: 1. Processing equipment; 101. Frame; 102. Workbench; 103. Hydraulic device; 131. Hydraulic press; 132. Hydraulic push rod; 133. Sleeve column; 134. Soft push rod head; 104. Cutting assembly; 141. Cutting rotary motor; 142. Cutting rotary shaft; 143. Fixed seat; 144. Rubber plug; 105. Double-blade shearing blade assembly; 151. First fixed plate; 152. Bearing seat; 153. Ball screw; 154. Screw nut; 155. Fixed block; 156. Shearing blade; 157. Second fixed plate; 158. Shearing servo motor; 2. Loading and unloading equipment; 201. Loading port; 202. Unloading port; 3. Circular guide rail conveyor device; 301, connecting frame; 302, drive motor; 303, drive shaft; 304, rotating wheel; 305, transmission belt; 306, connecting block; 307, circular track; 308, sliding column; 309, fixed plate; 310, conveyor line hydraulic press; 311, conveyor line push rod; 312, electromagnetic chuck; 313, electromagnetic chuck device; 4. Loading and unloading trolley; 401, trolley; 402, first telescopic plate; 403, second telescopic plate; 404, telescopic hydraulic press; 405, telescopic push rod; 406, placement plate; 407, partition plate; 408, material box; 481, box body; 482, compression spring; 483, placement plate. Detailed Implementation

[0028] The following is in conjunction with the appendix Figure 1-10 The present invention will be further described below.

[0029] like Figure 1-2 As shown: This embodiment discloses a multifunctional device for cookware production, including a processing device 1, a loading and unloading device 2, and a ring-shaped guide rail conveyor device 3 located between the processing device 1 and the loading and unloading device 2. The processing device 1 includes a frame 101, a workbench 102 is provided inside the frame 101, a hydraulic device 103 is provided near the left end of the workbench 102, and a cutting component 104 is provided near the right end of the workbench 102. The loading and unloading device 2 is located behind the processing device 1. The loading and unloading device 2 is divided into a loading port 201 and a unloading port 202. The loading port 201 is located on the left side of the loading and unloading device 2, and the unloading port 202 is located on the right side of the loading and unloading device 2. A loading and unloading trolley 4 is provided below the loading port 201 and the unloading port 202.

[0030] like Figure 7 As shown: The hydraulic device 103 includes a sleeve 133, which is fixedly connected to the top surface of the workbench 102. A hydraulic push rod 132 is provided inside the sleeve 133. A hydraulic press 131 is fixedly connected to the bottom of the hydraulic push rod 132. A flexible push rod head 134 is provided at the top of the hydraulic push rod 132.

[0031] like Figure 6-7As shown: The cutting assembly 104 includes a fixed base 143, which is fixedly connected to the top surface of the workbench 102. A cutting rotating shaft 142 is disposed within the fixed base 143. A rubber plug 144 is provided at the top of the cutting rotating shaft 142. A cutting rotating motor 141 is fixedly connected to the bottom of the cutting rotating shaft 142. Double-blade shearing assemblies 105 are disposed on both sides of the cutting rotating motor 141. The double-blade shearing assemblies 105 are respectively located on both sides of the cutting rotating motor 141. Each double-blade shearing assembly 105 includes a first fixed... The first fixing plate 151 is located near the cutting rotary motor 141. The first fixing plate 151 is provided with a bearing seat 152. The bearing seat 152 is provided with a ball screw 153. The ball screw 153 is provided with a screw nut 154. A fixing block 155 is fixedly connected to the screw nut 154. A shearing blade 156 is provided on the top of the fixing block 155. A second fixing plate 157 is provided at the end of the ball screw 153 away from the bearing seat 152. A shearing servo motor 158 is provided on the second fixing plate 157.

[0032] like Figure 1-4 As shown: The annular guide rail conveyor device 3 includes a connecting frame 301, which is fixedly connected to the processing equipment 1 and the loading / unloading equipment 2 respectively. A drive motor 302 is provided at the left end of the connecting frame 301, and a drive shaft 303 is provided at the right end of the drive motor 302 and the connecting frame 301. A rotating wheel 304 is provided on the drive shaft 303, and a transmission belt 305 is provided on the rotating wheel 304. A connecting block 306 is fixedly connected to the outside of the transmission belt 305, and an electromagnetic chuck device 313 is fixedly connected to the connecting block 306. An annular track 307 is provided above the electromagnetic chuck device 313.

[0033] like Figure 5 As shown: The electromagnetic chuck device 313 includes a sliding column 308, which is connected to a circular track 307. A fixing plate 309 is fixedly connected below the sliding column 308. A conveyor hydraulic press 310 is provided below the fixing plate 309. A conveyor push rod 311 is fixedly connected to the lower end of the conveyor hydraulic press 310. An electromagnetic chuck 312 is provided at the bottom of the conveyor push rod 311.

[0034] like Figure 8-9As shown: The loading and unloading trolley 4 includes a trolley 401. The trolley 401 is provided with a first telescopic plate 402. Two first telescopic plates 402 are respectively located near the left and right ends of the top surface of the trolley 401. A second telescopic plate 403 is provided above the first telescopic plates 402. A storage plate 406 is fixedly connected above the second telescopic plate 403. A telescopic hydraulic press 404 is provided between the two first telescopic plates 402. The telescopic hydraulic press 404 is fixedly connected to the top surface of the trolley 401. A telescopic push rod 405 is fixedly connected to the top of the telescopic hydraulic press 404. The top of the telescopic push rod 405 is fixedly connected to the storage plate 406. A plurality of partition plates 407 are provided on the storage plate 406. A material box 408 is provided on the partition plate 407.

[0035] like Figure 10 As shown: The material box 408 includes a box body 481, and a plurality of compression springs 482 are provided inside the box body 481. A placement plate 483 is fixedly connected above the compression springs 482.

[0036] In use of this utility model: The material to be processed is placed on the loading / unloading trolley 4, then the trolley is placed at the loading port 201, and another loading / unloading trolley 4 is placed at the unloading port. The device is then started, and the drive motor 302 starts. When the electromagnetic chuck device 313 rotates to the loading port 201, the drive motor 302 stops rotating. The conveyor hydraulic press 310 drives the conveyor push rod 311 to push the electromagnetic chuck 312 above the material. After the electromagnetic chuck 312 picks up the material, the conveyor hydraulic press 310 drives the conveyor push rod 311 to retract, the drive motor 302 starts, and the electromagnetic chuck device 313 carries the material to the processing equipment 1 for processing. When the material is above the hydraulic device 103, the electromagnetic chuck device... The material is placed on the sleeve column 133 by the device 313. Then the hydraulic press 131 is started, and the hydraulic push rod 132 is pushed upward. The soft push rod head 134 on the hydraulic push rod 132 and the electromagnetic chuck 312 perform hydraulic processing on the material. After processing, the electromagnetic chuck device 313 puts the processed material into the fixed seat 143. Then the cutting rotation motor 141 is started, and the cutting rotation shaft 142 drives the material to rotate. Then the shearing servo motor 158 is started, and the shearing blade 156 moves towards the material to cut it. After cutting, the electromagnetic chuck device 313 picks up the processed material and puts it into the feeding box 408 below the feeding port 202 through the ring guide rail conveyor device 3, thus completing the processing of the material.

[0037] Obviously, the above embodiments of this utility model are merely illustrative examples and not intended to limit the implementation of this utility model. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations. However, these obvious variations or modifications derived from the essential spirit of this utility model still fall within the protection scope of this utility model.

Claims

1. A multifunctional device for pot production, comprising a processing device (1), a feeding and discharging device (2) and a ring rail conveying line device (3) located between the processing device (1) and the feeding and discharging device (2), characterized in that: The processing equipment (1) includes a frame (101), a workbench (102) is provided inside the frame (101), a hydraulic device (103) is provided near the left end of the workbench (102), a cutting component (104) is provided near the right end of the workbench (102), the loading and unloading equipment (2) is located behind the processing equipment (1), the loading and unloading equipment (2) is divided into a loading port (201) and a unloading port (202), the loading port (201) is located on the left side of the loading and unloading equipment (2), the unloading port (202) is located on the right side of the loading and unloading equipment (2), and a loading and unloading trolley (4) is provided below the loading port (201) and the unloading port (202).

2. A multi-functional apparatus for the production of cookware as claimed in claim 1, wherein: The hydraulic device (103) includes a sleeve (133), which is fixedly connected to the top surface of the workbench (102). A hydraulic push rod (132) is provided inside the sleeve (133). A hydraulic press (131) is fixedly connected to the bottom of the hydraulic push rod (132), and a soft push rod head (134) is provided at the top of the hydraulic push rod (132).

3. The multi-functional apparatus for producing a pot according to claim 1, wherein: The cutting assembly (104) includes a fixed base (143), which is fixedly connected to the top surface of the workbench (102). The fixed base (143) is provided with a cutting rotating shaft (142), and a rubber plug (144) is provided at the top of the cutting rotating shaft (142). A cutting rotating motor (141) is fixedly connected to the bottom of the cutting rotating shaft (142), and double-blade shearing assemblies (105) are provided on both sides of the cutting rotating motor (141).

4. The multi-functional apparatus for producing a pot according to claim 3, wherein: The double-blade shearing assembly (105) is located on both sides of the cutting rotary motor (141). The double-blade shearing assembly (105) includes a first fixing plate (151) located near the cutting rotary motor (141). The first fixing plate (151) is provided with a bearing seat (152). The bearing seat (152) is provided with a ball screw (153). The ball screw (153) is provided with a screw nut (154). A fixing block (155) is fixedly connected to the screw nut (154). A shearing blade (156) is provided on the top of the fixing block (155). A second fixing plate (157) is provided at the end of the ball screw (153) away from the bearing seat (152). A shearing servo motor (158) is provided on the second fixing plate (157).

5. The multi-functional apparatus for producing a pot according to claim 1, wherein: The annular guide rail conveyor device (3) includes a connecting frame (301), which is fixedly connected to the processing equipment (1) and the loading and unloading equipment (2) respectively. A drive motor (302) is provided at the left end of the connecting frame (301), and a drive shaft (303) is provided at the right end of the drive motor (302) and the connecting frame (301). A rotating wheel (304) is provided on the drive shaft (303), and a transmission belt (305) is provided on the rotating wheel (304). A connecting block (306) is fixedly connected to the outside of the transmission belt (305), and an electromagnetic chuck device (313) is fixedly connected to the connecting block (306). An annular track (307) is provided above the electromagnetic chuck device (313).

6. The multi-functional apparatus for producing a pot according to claim 5, wherein: The electromagnetic chuck device (313) includes a sliding column (308), which is connected to a circular track (307). A fixed plate (309) is fixedly connected below the sliding column (308), and a conveyor hydraulic press (310) is provided below the fixed plate (309). A conveyor push rod (311) is fixedly connected to the lower end of the conveyor hydraulic press (310), and an electromagnetic chuck (312) is provided at the bottom of the conveyor push rod (311).

7. The multi-functional apparatus for producing a pot according to claim 1, wherein: The loading and unloading trolley (4) includes a trolley (401), on which a first telescopic plate (402) is provided. Two first telescopic plates (402) are located near the left and right ends of the top surface of the trolley (401). A second telescopic plate (403) is provided above the first telescopic plate (402). A storage plate (406) is fixedly connected above the second telescopic plate (403). A telescopic hydraulic press (404) is provided between the two first telescopic plates (402). The telescopic hydraulic press (404) is fixedly connected to the top surface of the trolley (401). A telescopic push rod (405) is fixedly connected to the top of the telescopic hydraulic press (404). The top of the telescopic push rod (405) is fixedly connected to the storage plate (406). A plurality of partition plates (407) are provided on the storage plate (406). A material box (408) is provided on the partition plate (407).

8. The multi-functional apparatus for producing a pot according to claim 7, wherein: The feeding box (408) includes a box body (481), and a plurality of compression springs (482) are provided inside the box body (481). A placement plate (483) is fixedly connected above the compression springs (482).