A conveying device for rack machining

By designing a conveyor device for rack and pinion processing, and utilizing a combination of conveyor belt and feeding belt, the long-distance continuous conveying and convenient feeding of racks were achieved. This solved the problems of low transfer efficiency and laborious feeding of heavy racks, improved processing efficiency, and reduced conveyor belt wear.

CN224376925UActive Publication Date: 2026-06-19SUZHOU TOYOKA SEIKI CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU TOYOKA SEIKI CO LTD
Filing Date
2025-06-17
Publication Date
2026-06-19

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  • Figure CN224376925U_ABST
    Figure CN224376925U_ABST
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Abstract

The utility model discloses a conveying device for rack processing, it includes: conveying frame, the top left and right direction of conveying frame is embedded and is slidably assembled with conveyer belt, the left side rear portion of conveying frame is fixedly connected with the loading frame, the top middle rear position of loading frame is embedded and is slidably assembled with the loading belt, the top front side of loading belt is horizontally erected with the slide, the top of slide, loading belt and conveyer belt keeps horizontal and is flush, the right side of slide is slidably attached with conveyer belt, the left side of slide is erected with the reciprocating cylinder, the right side output end downside of reciprocating cylinder is slidably matched with slide, and the remote continuous conveying and the convenient loading operation of rack processing spare are carried out, save the transfer time and improve the transfer efficiency, and then improve the overall processing efficiency of rack, avoid the impact loss of conveyer belt caused by rack processing spare in the loading process simultaneously, ensure the orderly transfer of rack processing spare.
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Description

Technical Field

[0001] This utility model relates to the field of rack and pinion processing and conveying technology, and in particular to a conveying device for rack and pinion processing. Background Technology

[0002] Rack and pinion machining is a crucial part of the machinery manufacturing industry, widely used in the transmission systems of various mechanical equipment. As a linear motion transmission component, the rack and pinion converts rotary motion into linear motion through meshing with gears. Due to its high precision and smooth transmission, it is widely used in machine tools, automobiles, robots, lifting equipment, and many other fields. Rack and pinion machining typically includes several steps such as material selection, rough machining, finish machining, heat treatment, and surface treatment. Rough machining uses equipment such as sawing machines and milling machines to perform preliminary processing on the material, cutting it into the required shape and size.

[0003] Cut rack parts often need to be transferred in batches by truck to the next process. Large racks are quite heavy, making manual unloading and transfer difficult. This can significantly reduce overall processing efficiency during large-scale transfers. In addition, most belt conveyors require manual loading, which is time-consuming, labor-intensive, and has low conveying efficiency. During loading, rack parts can also cause impact damage to the conveyor belt. Utility Model Content

[0004] The purpose of this utility model is to provide a conveying device for rack processing, which can remotely and continuously transport rack processing parts and facilitate loading operations, saving transfer time and improving transfer efficiency, thereby improving the overall processing efficiency of racks, while avoiding impact damage to the conveyor belt caused by rack processing parts during loading, and ensuring the orderly transfer of rack processing parts.

[0005] To achieve the above objectives, a conveying device for rack machining is provided, comprising: a conveyor frame, a conveyor belt slidably fitted onto the top of the conveyor frame in a left-right direction, a first drive wheel set and a first auxiliary wheel set respectively fitted onto the inner sides of the left and right ends of the conveyor belt, the motor end of the first drive wheel set being fitted and fixedly fitted onto the conveyor frame, the output end of the first drive wheel set and the left and right ends of the first auxiliary wheel set being rotatably fitted onto the conveyor frame, baffles symmetrically mounted on the front and rear sides of the conveyor belt, the bottom of each baffle being fixedly connected to the conveyor frame, a loading frame fixedly connected to the rear left side of the conveyor frame, a loading belt slidably fitted onto the top of the loading frame in a left-right direction at the middle-rear position of the top of the loading frame, a second auxiliary wheel set and a second drive wheel set respectively fitted onto the inner sides of the front and rear ends of the loading belt, limit frames symmetrically fixed to the top of the left and right sides of the loading belt, and a sliding plate horizontally mounted on the front top of the loading belt, the sliding plate, the loading belt, and the top of the conveyor belt being kept horizontally aligned. The right side of the slide plate slides against the conveyor belt, and a pad is fixedly connected to the bottom of the slide plate. The bottom of the pad is fitted and fixed to the loading frame. A reciprocating cylinder is mounted on the left side of the slide plate, and the corresponding part of the reciprocating cylinder is fitted and fixed to the loading frame. The lower side of the right output end of the reciprocating cylinder slides against the slide plate. A limit baffle is fixedly connected to the upper front side of the slide plate. Several support columns are vertically fixed to the bottom of the conveyor frame and the loading frame. Tripods are fixedly connected to the bottom of each support column. By setting the conveyor belt and the loading belt respectively, the rack and pinion parts are transported remotely and continuously, and the loading operation is convenient. This saves transfer time and improves transfer efficiency, thereby improving the overall processing efficiency of the rack and pinion. The loading belt is also equipped with a slide plate and a reciprocating cylinder to mechanically and automatically push the rack and pinion parts transported to the slide plate onto the conveyor belt for stable reciprocating feeding. This avoids impact damage to the conveyor belt caused by the rack and pinion parts during the loading process and ensures the orderly transfer of the rack and pinion parts.

[0006] According to the aforementioned conveying device for rack machining, an elastic pad is fixedly attached to the rear side of the limiting baffle, and the rear side of the elastic pad is covered with a slip film. This provides elastic limiting and blocking for the rack machining parts conveyed onto the slide plate.

[0007] According to the aforementioned conveying device for rack machining, a rubber sleeve is fitted and fixed to the right output end of the reciprocating cylinder, and the rubber sleeve is pressed and adhered to the rack machining part. This allows for flexible contact and pushing of the rack machining part.

[0008] According to the aforementioned rack and pinion processing conveyor, the outer surface of the feeding belt is covered with a layer of anti-slip film pad. This provides sufficient friction to assist the rack in transferring the workpiece onto the slide plate.

[0009] According to the aforementioned conveying device for rack and pinion machining, the bottom end of each tripod is fixedly connected with an anti-slip pad to ensure the overall anti-slip stability of the setup.

[0010] According to the aforementioned conveying device for rack machining, a limiting sleeve is fitted and mounted on the outer bottom of the reciprocating cylinder, and the right side of the limiting sleeve is fixedly connected to the loading frame. This assists in supporting the reciprocating cylinder while maintaining the horizontality of its output direction.

[0011] The above-mentioned solution has the following beneficial effects:

[0012] In this invention, a conveyor belt and a feeding belt are set up to carry out remote and continuous conveying and convenient feeding of rack parts, saving transfer time and improving transfer efficiency, thereby improving the overall processing efficiency of racks. The feeding belt is also equipped with a sliding plate and a reciprocating cylinder to mechanically and automatically push the rack parts conveyed on the sliding plate onto the conveyor belt for reciprocating and stable feeding, avoiding impact damage to the conveyor belt caused by the rack parts during the feeding process, and ensuring the orderly transfer of rack parts.

[0013] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0014] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0015] Figure 1 This is an overall schematic diagram of a conveying device for rack processing according to the present invention;

[0016] Figure 2 This is a schematic diagram of the connection structure of the conveyor frame in a conveying device for rack processing according to the present invention;

[0017] Figure 3 This is a schematic diagram of the connection structure of the loading rack in a conveying device for rack processing according to the present invention;

[0018] Figure 4 This is a schematic diagram of the connection structure of the sliding plate in a conveying device for rack processing according to this utility model.

[0019] Legend:

[0020] 1. Conveyor frame; 2. Conveyor belt; 3. First drive wheel set; 4. First auxiliary wheel set; 5. Stop bar; 6. Feeding frame; 7. Feeding belt; 8. Second drive wheel set; 9. Second auxiliary wheel set; 10. Limiting frame; 11. Slide plate; 12. Pad; 13. Reciprocating cylinder; 14. Limiting baffle; 15. Elastic pad; 16. Support column; 17. Triangle frame; 18. Anti-slip pad; 19. Limiting housing. Detailed Implementation

[0021] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.

[0022] Reference Figure 1-4 This utility model provides a conveying device for rack processing, including: a conveyor frame 1, a conveyor belt 2 that is slidably fitted onto the top of the conveyor frame 1 in the left-right direction, a first drive wheel set 3 and a first auxiliary wheel set 4 that are respectively fitted onto the inner sides of the left and right ends of the conveyor belt 2, the motor end of the first drive wheel set 3 being fitted and fixed to the conveyor frame 1, the output end of the first drive wheel set 3 and the left and right ends of the first auxiliary wheel set 4 being fitted and rotatably connected to the conveyor frame 1, and baffles 5 that are symmetrically mounted on the front and rear sides of the conveyor belt 2, the bottom of the baffles 5 being fixedly connected to the conveyor frame 1, for linear long-distance conveying of rack processing parts.

[0023] A feeding frame 6 is fixedly connected to the left rear part of the conveyor frame 1. A feeding belt 7 is fitted and slidably assembled in the left and right directions at the top middle and rear position of the feeding frame 6. The inner sides of the front and rear ends of the feeding belt 7 are respectively fitted with the second auxiliary wheel group 9 and the second drive wheel group 8. Limiting frames 10 are symmetrically fixed on the top of the left and right sides of the feeding belt 7. A layer of anti-slip film pad is covered on the outer surface of the feeding belt 7. The rack and pinion parts are arranged in parallel on the top surface of the feeding belt 7 and conveyed forward at a uniform speed.

[0024] A sliding plate 11 is horizontally mounted on the top front side of the feeding belt 7. The tops of the sliding plate 11, the feeding belt 7, and the conveyor belt 2 are kept horizontally aligned. The right side of the sliding plate 11 slides against the conveyor belt 2. A pad 12 is fixedly connected to the bottom of the sliding plate 11, and the bottom of the pad 12 is fitted and fixedly engaged with the feeding frame 6. A reciprocating cylinder 13 is mounted on the left side of the sliding plate 11, and the corresponding part of the reciprocating cylinder 13 is fitted and fixedly engaged with the feeding frame 6. The lower side of the right output end of the reciprocating cylinder 13 slides against the sliding plate 11. A rubber sleeve is fitted and fixedly engaged with the right output end of the reciprocating cylinder 13, and the rubber sleeve is correspondingly engaged with the rack and pinion. The workpiece is squeezed and bonded. A limiting sleeve 19 is fitted and mounted on the outer bottom of the reciprocating cylinder 13. The right side of the limiting sleeve 19 is fixedly connected to the feeding frame 6. A limiting baffle 14 is fixedly connected to the upper front side of the slide plate 11. An elastic pad 15 is attached and fixed to the rear side of the limiting baffle 14. A layer of sliding film covers the rear side of the elastic pad 15. The rack and pinion parts conveyed to the slide plate 11 are automatically and mechanically pushed onto the conveyor belt 2 for reciprocating and stable feeding operations. This avoids the rack and pinion parts causing impact damage to the conveyor belt 2 during the feeding process and ensures the orderly transfer of the rack and pinion parts.

[0025] Several support columns 16 are vertically fixed to the bottom of the conveyor frame 1 and the feeding frame 6. Tripods 17 are fixedly connected to the bottom of each support column 16. Anti-slip pads 18 are fixedly connected to the bottom of each tripod 17 to raise the conveyor line and keep it horizontal and stable.

[0026] Working principle: In this utility model, by setting up a conveyor belt 2 and a feeding belt 7, the rack processing parts are remotely and continuously transported and conveniently fed, saving transfer time and improving transfer efficiency, thereby improving the overall processing efficiency of the rack. The feeding belt 7 is also equipped with a sliding plate 11, which works with a reciprocating cylinder 13 to mechanically and automatically push the rack processing parts conveyed to the sliding plate 11 onto the conveyor belt 2 for reciprocating and stable feeding, avoiding impact damage to the conveyor belt 2 caused by the rack processing parts during the feeding process, and ensuring the orderly transfer of the rack processing parts. The end of the conveyor belt 2 away from the feeding belt 7 is directly connected to the next process.

[0027] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.

Claims

1. A conveying device for rack machining, comprising: A conveyor frame (1) is characterized in that a conveyor belt (2) is slidably fitted on the top of the conveyor frame (1) in the left and right directions. A first drive wheel set (3) and a first auxiliary wheel set (4) are respectively fitted on the inner sides of the left and right ends of the conveyor belt (2). The motor end of the first drive wheel set (3) is fitted and fixed to the conveyor frame (1). The output end of the first drive wheel set (3) and the left and right ends of the first auxiliary wheel set (4) are respectively fitted and rotatably connected to the conveyor frame (1). Baffles (5) are symmetrically mounted on the front and rear sides of the conveyor belt (2). The bottom of the baffles (5) is fixedly connected to the conveyor frame (1). A feeding frame (6) is fixedly connected to the rear left side of the conveyor frame (1). A feeding belt (7) is slidably fitted on the top middle and rear position of the feeding frame (6) in the left and right directions. A second auxiliary wheel set (9) and a second drive wheel set (8) are respectively fitted on the inner sides of the front and rear ends of the feeding belt (7). The top of the left and right sides of the conveyor belt (6) is symmetrically fixed with limit frames (10). The top front of the feed belt (7) is horizontally mounted with a slide plate (11). The top of the slide plate (11), the feed belt (7) and the conveyor belt (2) are kept horizontal and flush. The right side of the slide plate (11) slides against the conveyor belt (2). The bottom of the slide plate (11) is fixedly connected with a pad (12). The bottom of the pad (12) is fitted and fixed to the feed frame (6). A reciprocating cylinder (13) is mounted on the left side of the conveyor frame (1), and the reciprocating cylinder (13) is fitted and fixed to the loading frame (6). The lower side of the output end of the reciprocating cylinder (13) is slidably engaged with the slide plate (11). A limit baffle (14) is fixedly connected to the upper front side of the slide plate (11). Several support columns (16) are vertically fixed to the bottom of the conveyor frame (1) and the loading frame (6). A tripod (17) is fixedly connected to the bottom of each support column (16).

2. The conveying device for rack processing according to claim 1, wherein An elastic pad (15) is attached and fixed to the rear side of the limiting baffle (14), and the rear side of the elastic pad (15) is covered with a layer of slip film.

3. The conveying device for rack processing according to claim 1, wherein A rubber sleeve is fitted and fixed to the right output end of the reciprocating cylinder (13), and the rubber sleeve is pressed and adhered to the rack machining part.

4. The conveying device for rack machining according to claim 1, characterized in that, The outer surface of the feeding belt (7) is covered with a layer of anti-slip film.

5. The conveying device for rack machining according to claim 1, characterized in that, The bottom of each tripod (17) is fixedly connected with an anti-slip pad (18).

6. The conveying device for rack machining according to claim 1, characterized in that, The bottom outer side of the reciprocating cylinder (13) is fitted with a limiting sleeve (19), and the right side of the limiting sleeve (19) is fixedly connected to the feeding frame (6).