Fryer production line feeding elevator

By designing an automated feeding elevator for a frying production line, and utilizing a combination of support rods, crossbars, carrier plates, and drive components, the problems of low efficiency and poor safety of manual feeding are solved, achieving an automated, safe, and efficient feeding process.

CN224325023UActive Publication Date: 2026-06-05CHANGSHUN DANJIA FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGSHUN DANJIA FOOD CO LTD
Filing Date
2025-05-29
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing feeding methods for frying production lines mainly rely on manual labor, which is inefficient and poses safety hazards.

Method used

Design a feeding elevator for a frying production line. It adopts a combination of support rods, crossbars, carrier plates and drive components. It achieves automated feeding by driving a gear rack with a motor. It uses the cooperation of connecting ropes and guide rails to move the materials vertically and horizontally.

Benefits of technology

It eliminates the need for manual feeding, improves production efficiency, enhances safety, and promotes automated production in frying lines.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model is suitable for frying production line technical field provides a kind of feeding elevator on frying production line, including two support rods, two the support rod is symmetrically spaced distribution, two the support rod between being equipped with crosspiece, the both ends of the crosspiece are symmetrically equipped with first clamping slot, the opposite surface of two the support rod is symmetrically equipped with first guide rail, first guide rail and first clamping slot are connected, and the crosspiece is connected with vertical drive component;The lower portion of the crosspiece is equipped with carrier plate, the top side of the carrier plate is equipped with second clamping slot, one side of the crosspiece is equipped with second guide rail, second clamping slot and second guide rail are connected, and the carrier plate is connected with horizontal drive component;The lateral wall of the carrier plate is symmetrically equipped with mounting hole, the inside of the mounting hole is equipped with connecting rope, and the bottom of the connecting rope is connected with feeding box.This scheme does not need artificial feeding, and automatic feeding not only improves efficiency, but also is safer.
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Description

Technical Field

[0001] This utility model belongs to the technical field of frying production line, and in particular relates to a feeding and lifting machine for a frying production line. Background Technology

[0002] Fried foods are made by deep-frying ingredients in hot oil. They are typically golden and crispy on the outside, while remaining tender and smooth on the inside. Common fried foods include fried chicken, French fries, spring rolls, and fried shrimp.

[0003] A frying production line is a specialized equipment and process system designed for the mass production of fried foods. It typically includes multiple steps designed to automate and scale up the production of fried products, ensuring food quality and consistency. The advantages of a frying production line include increased production efficiency, reduced labor costs, and the ability to guarantee product consistency and high quality. These lines are widely used in various food processing plants, especially in the fast food, snack, and frozen food industries.

[0004] When a frying production line is in operation, it needs to be fed. The existing feeding methods are mostly done manually, which is slow and dangerous. In view of this, this application proposes a feeding and lifting machine for a frying production line. Utility Model Content

[0005] The purpose of this invention is to provide a feeding and lifting machine for a frying production line to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a feeding and lifting machine for a frying production line, comprising two support rods, the two support rods being symmetrically spaced apart, a crossbar being provided between the two support rods, the two ends of the crossbar being symmetrically provided with first slots, the opposite sides of the two support rods being symmetrically provided with first guide rails, the first guide rails being connected to the first slots, and the crossbar being connected to a vertical drive assembly;

[0007] A carrier plate is provided below the crossbar, a second slot is provided on one side of the top of the carrier plate, a second guide rail is provided on one side of the crossbar, the second slot and the second guide rail are connected in cooperation, and a transverse drive assembly is connected to the carrier plate.

[0008] The carrier plate has symmetrical mounting holes on its sidewalls. A connecting rope is threaded through the mounting holes, and a feeding box is connected to the bottom of the connecting rope.

[0009] Preferably, the vertical drive assembly includes a first rack, which is vertically disposed on the side wall of the support rod. A first motor is provided on one side of the crossbar, and a first gear is provided at the output end of the first motor. The first gear is engaged with the first rack.

[0010] Preferably, the lateral drive assembly includes a second rack, which is laterally disposed on one side of the crossbar. A second motor is provided on the top side of the carrier plate, and a second gear is provided at the output end of the second motor. The second gear is engaged with the second rack.

[0011] Preferably, one end of the crossbar is symmetrically provided with two fixing plates, and the two fixing plates are symmetrically connected to the side of the carrier plate opposite to the carrier plate. The guide rods pass through the carrier plate and are slidably connected to the carrier plate.

[0012] Preferably, the bottom surface of the support rod is symmetrically provided with casters.

[0013] This utility model has at least the following beneficial effects:

[0014] This utility model provides a feeding and lifting machine for a frying production line, which automatically feeds materials without the need for manual feeding, thus improving efficiency and safety, and greatly facilitating the automated production of the frying production line. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a schematic diagram showing the connection between the connecting rope and the mounting hole of this utility model.

[0017] In the attached diagram, the following are the reference numerals: 1. Support rod; 2. Crossbar; 3. Carrier plate; 4. Mounting hole; 5. Connecting rope; 6. Feeding box; 7. First guide rail; 8. First slot; 9. First rack; 10. First motor; 11. First gear; 12. Guide rod; 13. Second guide rail; 14. Second motor; 15. Second gear; 16. Second rack; 17. Fixing plate. Detailed Implementation

[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. 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 skilled in the art without creative effort are within the scope of protection of the present utility model.

[0019] Example

[0020] Please see Figure 1 and Figure 2This utility model provides a technical solution: a feeding and lifting machine for a frying production line, including two support rods 1, which are symmetrically spaced apart, and a crossbar 2 between the two support rods 1. The two ends of the crossbar 2 are symmetrically provided with first slots 8. The opposite sides of the two support rods 1 are symmetrically provided with first guide rails 7, which are connected to the first slots 8. Specifically, the first slots 8 and the first guide rails 7 are slidably connected. The first guide rails 7 are vertically arranged and fixedly connected to the support rods 1. The crossbar 2 is connected to a vertical drive component.

[0021] A carrier plate 3 is provided below the crossbar 2. A second slot is provided on one side of the top of the carrier plate 3. A second guide rail 13 is provided on one side of the crossbar 2. The second slot and the second guide rail 13 are connected in cooperation. Specifically, the second slot and the second guide rail 13 are slidably connected. The second guide rail 13 is arranged horizontally and is fixedly connected to the crossbar 2. A horizontal drive component is connected to the carrier plate 3.

[0022] The side wall of the carrier plate 3 is symmetrically provided with mounting holes 4. A connecting rope 5 is threaded through the inside of the mounting hole 4. The bottom of the connecting rope 5 is connected to the feeding box 6. Specifically, the connecting rope 5 is fixedly connected to the mounting hole 4 and the feeding box 6.

[0023] In this embodiment, the fried raw materials are placed into the feeding box 6, the feeding box 6 is connected to the connecting rope 5, the vertical drive assembly is activated, and the drive bar 2 moves vertically with the cooperation of the first guide rail 7 and the first slot 8 to adjust the vertical height of the feeding box 6. The horizontal drive assembly is activated, and the drive plate 3 moves horizontally with the cooperation of the second slot and the second guide rail 13 to adjust the horizontal position of the feeding box 6.

[0024] Furthermore, the vertical drive assembly includes a first rack 9, which is vertically disposed on the side wall of the support rod 1. Specifically, the first rack 9 is fixedly connected to the support rod 1. A first motor 10 is provided on one side of the crossbar 2. A first gear 11 is provided at the output end of the first motor 10. Specifically, the first motor 10 is fixedly connected to the crossbar 2, the first gear 11 is fixedly connected to the output end of the first motor 10, and the first gear 11 is engaged with the first rack 9.

[0025] In this embodiment, the first motor 10 rotates, driving the first gear 11 to rotate and move along the first rack 9, thereby driving the crossbar 2 to move vertically in cooperation with the first guide rail 7 and the first slot 8.

[0026] Furthermore, the lateral drive assembly includes a second rack 16, which is laterally arranged on one side of the crossbar 2. Specifically, the second rack 16 is fixedly connected to the crossbar 2. A second motor 14 is provided on the top side of the carrier plate 3. A second gear 15 is provided at the output end of the second motor 14. Specifically, the second motor 14 is fixedly connected to the carrier plate 3, the second gear 15 is fixedly connected to the output end of the second motor 14, and the second gear 15 is engaged with the second rack 16.

[0027] In this embodiment, the second motor 14 rotates, driving the second gear 15 to rotate and move along the second rack 16, driving the carrier plate 3 to move laterally in the cooperation of the second slot and the second guide rail 13.

[0028] Furthermore, two fixing plates 17 are symmetrically provided at one end of the crossbar 2. Specifically, the fixing plates 17 are fixedly connected to the crossbar 2. Guide rods 12 are symmetrically connected to one side of the two fixing plates 17 opposite to the carrier plate 3. Specifically, the guide rods 12 are fixedly connected to the fixing plates 17, and the guide rods 12 pass through the carrier plate 3 and are slidably connected to the carrier plate 3.

[0029] In this embodiment, the movement of the carrier plate 3 is limited by the guide rod 12 to ensure its smooth movement.

[0030] Furthermore, the bottom surface of the support rod 1 is symmetrically equipped with casters.

[0031] In this embodiment, casters facilitate the movement of the entire device.

[0032] The working principle and usage process of this utility model: After the utility model is installed, work according to the above implementation method until all working steps are completed.

[0033] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. It will be apparent to those skilled in the art that this utility model is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or basic characteristics of this utility model. Therefore, the embodiments should be considered exemplary and non-limiting in all respects. The scope of this utility model is defined by the appended claims rather than the foregoing description. Therefore, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this utility model, and no reference numerals in the claims should be construed as limiting the scope of the claims.

[0034] 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, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A feeding elevator for a deep frying production line, characterized in that, It includes two support rods (1), which are symmetrically spaced apart. A crossbar (2) is provided between the two support rods (1). The two ends of the crossbar (2) are symmetrically provided with first slots (8). The opposite sides of the two support rods (1) are symmetrically provided with first guide rails (7). The first guide rails (7) are connected to the first slots (8). The crossbar (2) is connected to a vertical drive assembly. A carrier plate (3) is provided below the crossbar (2). A second slot is provided on one side of the top of the carrier plate (3). A second guide rail (13) is provided on one side of the crossbar (2). The second slot and the second guide rail (13) are connected in cooperation. A transverse drive assembly is connected to the carrier plate (3). The sidewall of the carrier plate (3) is symmetrically provided with mounting holes (4), and a connecting rope (5) is threaded through the inside of the mounting hole (4). The bottom of the connecting rope (5) is connected to a feeding box (6).

2. The feeding elevator for a frying production line according to claim 1, characterized in that: The vertical drive assembly includes a first rack (9), which is vertically arranged on the side wall of the support rod (1). A first motor (10) is provided on one side of the crossbar (2). A first gear (11) is provided at the output end of the first motor (10). The first gear (11) is connected to the first rack (9).

3. The feeding elevator for a frying production line according to claim 1, characterized in that: The lateral drive assembly includes a second rack (16), which is laterally arranged on one side of the crossbar (2). A second motor (14) is provided on the top side of the carrier plate (3). A second gear (15) is provided at the output end of the second motor (14), and the second gear (15) is connected to the second rack (16).

4. The feeding elevator for a frying production line according to claim 1, characterized in that: Two fixing plates (17) are symmetrically provided at one end of the crossbar (2). The two fixing plates (17) are symmetrically connected to the side of the carrier plate (3) with guide rods (12). The guide rods (12) pass through the carrier plate (3) and are slidably connected to the carrier plate (3).

5. The feeding elevator for a frying production line according to claim 1, characterized in that: The bottom surface of the support rod (1) is symmetrically provided with casters.