CN220392289U - Stable conveying chain for lateral bending conveying - Google Patents

Abstract

The utility model relates to the technical field of chains, in particular to a conveying chain for stable lateral bending conveying. The technical scheme adopted by the utility model is as follows: the novel roller comprises an inner chain plate, a sleeve, a roller, an outer chain plate and a pin shaft, wherein the sleeve penetrates through the inner center of the roller, the pin shaft penetrates through the sleeve, the front end and the rear end of the roller are respectively connected with the inner chain plate and the U-shaped inner chain plate, the outer side of the inner chain plate is matched and connected with the outer chain plate, safety gaps are formed between the pin shaft and the sleeve, between the inner chain plate and the outer chain plate, and the two sides of the U-shaped structure of the inner chain plate are respectively matched with the two ends of the roller. The utility model has the advantages that: the situation that free deflection is easy to occur when materials are conveyed in a turning manner in the conveying process is avoided, the quick conveying steering coordination can be met, the conveying steering efficiency can be effectively improved when the chain is used, and the stability of the chain in steering is guaranteed to be better.

Description

Stable conveying chain for lateral bending conveying

Technical Field

The utility model relates to the technical field of chains, in particular to a conveying chain for stable lateral bending conveying.

Background

The existing conveying chain is used for conveying matched materials on the outer chain links when the outer chain links turn sideways, the materials conveyed during use are unstable due to the large gaps between the inner chain links and the outer chain links, free deflection is easy to generate, so that conveying matching requirements of a steering position with large speed cannot be met, the overall conveying efficiency is reduced due to the low speed during steering, the overall use cost is relatively high, and the overall use efficiency is influenced particularly when products with large quantity are sorted and conveyed.

Disclosure of Invention

The utility model aims to provide a conveying chain for stable lateral bending conveying, which adopts a brand-new structural design, is provided with an integral U-shaped structure of an inner chain plate, and is provided with a roller assembly capable of stably steering at one side position connected with the U-shaped structure, so that the roller assembly can be matched with a guide rail on the side for quick conveying and matching during use, the gap between movable assemblies during chain production can be effectively reduced, the condition that free deflection is easy to occur during material steering and conveying during conveying is avoided during conveying, the steering and matching during quick conveying can be met, the steering efficiency during conveying can be effectively improved during use, the stability during chain steering is better, the damage to main chain structures can be effectively reduced during steering, and the whole service life of a chain is prolonged.

The technical scheme of the utility model is as follows:

the utility model provides a stable side bend carries and uses conveyer chain which characterized in that: the novel steering mechanism comprises an inner chain plate, a sleeve, a roller, an outer chain plate and a pin shaft, wherein the sleeve penetrates through the inner center of the roller, the pin shaft penetrates through the sleeve, the front end and the rear end of the roller are respectively connected with the inner chain plate and the U-shaped inner chain plate, the outer side of the inner chain plate is connected with the outer chain plate in a matched mode, safety gaps are formed between the pin shaft and the sleeve, the inner chain plate and the outer chain plate, two sides of a U-shaped structure of the inner chain plate are respectively matched with two ends of the roller, a steering stabilizing assembly is arranged at the middle position of the outer side of the U-shaped inner chain plate, the steering stabilizing assembly comprises a rotating stabilizing shaft and a rotating stabilizing rotor, an integrally formed chain combination fastening plate which is parallel to the central shaft of the roller is arranged at the upper end of the inner chain plate, and the thickness of the rotating stabilizing rotor is smaller than the width of the outer chain plate.

Further, the distance between two adjacent outer link plates is greater than 2 times the diameter length of the rotation stabilizing rotor.

Further, the projection of the chain combination fastening plate in the front-rear direction is located outside the projection area of the outer chain plate in the front-rear direction.

Further, the outer side position of the rotation stabilizing rotor is on the same plane as one side end face of the outer link plate in the width direction.

Further, the U-shaped structure at the middle position of the U-shaped inner chain plate is formed by processing in a bending production mode, the rotary stabilizing rotor is positioned in the U-shaped inner chain plate, and the rotary stabilizing shaft is connected with the U-shaped inner chain plate in a riveting mode.

The utility model has the beneficial effects that:

the utility model adopts a brand new structural design, sets the inner chain plate into an integral U-shaped structure, and sets the roller assembly capable of stably steering at the position of one side connected with the U-shaped structure, so that the roller assembly can be matched with the guide rail on the side for quick conveying and matching during use, the gap between movable assemblies during chain production can be effectively reduced, the situation that free deflection is easy to occur during material steering and conveying during conveying is avoided during conveying, the quick conveying and matching can be met, the steering efficiency during conveying can be effectively improved during use, the stability of the chain during steering is ensured to be better, the damage to the main structure of the chain can be effectively reduced during steering, and the whole service life of the chain is prolonged.

Drawings

FIG. 1 is a schematic front view of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is an enlarged partial schematic view of the F position of the present utility model;

FIG. 4 is a schematic cross-sectional view of the E-E position of the present utility model;

FIG. 5 is a graph showing the effect of the combination of the present utility model with a conveyor assembly;

in the figure: 1. sleeve, 2, sleeve, 3, inner chain plate, 4, pin roll, 5, outer chain plate, 6, U-shaped inner chain plate, 7, rotation stabilizing shaft, 8, rotation stabilizing rotor, 9, safety gap, 10, and conveying guide rail.

Detailed Description

As shown in fig. 1 to 4, the conveying chain for stable lateral bending conveying comprises an inner chain plate 3, a U-shaped inner chain plate 6, a sleeve 1, a roller 2, an outer chain plate 5 and a pin 4, wherein the sleeve 1 passes through the inner center position of the roller 2, the pin 4 passes through the sleeve 1, the front end and the rear end of the roller 2 are respectively connected with the inner chain plate 3 and the U-shaped inner chain plate 6, the outer side of the inner chain plate 3 is connected with the outer chain plate 5 in a matched manner, a safety gap 9 is arranged between the pin 4 and the sleeve 1 and between the inner chain plate 3 and the outer chain plate 5, two sides of the U-shaped structure of the inner chain plate 3 are respectively matched with two ends of the roller 2, a steering stabilizing assembly is arranged at the middle position of the outer side of the U-shaped inner chain plate 6 and comprises a rotating stabilizing shaft 7 and a rotating stabilizing rotor 8, a combined fastening plate which is integrally formed and is mutually parallel with the central shaft of the roller 2 is arranged at the upper end position of the inner chain plate 3, and the rotating stabilizing rotor 8 is smaller than the outer chain plate 5 in thickness dimension. The chain is combined to form a conveying assembly, when the chain is used, a U-shaped inner attaching plate is arranged on the outer side of an inner joint meshed with the chain wheel for transmission, a rotating shaft is arranged on a U-shaped bending plate of the U-shaped inner attaching plate, and a stabilizing rotor is sleeved on the rotating shaft. The chains are used in a left-right pairing mode. During operation sprocket direct action is on interior chain link, drives the material steady operation that carries on the interior attached board of interior chain link between two chains, has avoided the design attached board to carry the material to lead to the fact the unstability of carrying the material because of the free beat of the big clearance that interior chain link, outer chain link flexibility and side bend demand design was brought on the outer chain link. When the chain conveying device works, the U-shaped inner attaching plates at the outer sides of the left and right chain conveying chains act on the running guide rail through the stabilizing rotor fixed by the rotating shaft, so that left and right deflection of materials conveyed on the inner attaching plates of the inner chain links is further avoided. When the conveyed materials turn according to the setting of the conveying line, the right-turning left-side stabilizing rotor acts on the stably conveyed materials on the track, and the left-turning right-side stabilizing rotor acts on the stably conveyed materials on the track. The novel structure design is adopted, the inner chain plate is arranged into an integral U-shaped structure, the roller assembly capable of stably steering is arranged at one side position connected with the U-shaped structure, the guide rail on the side can be matched for rapid conveying and matching during use, gaps between movable assemblies during chain production can be effectively reduced, free deflection is easily generated during material steering and conveying during conveying, rapid conveying steering and matching can be met, the steering efficiency during conveying can be effectively improved during use, stability during chain steering is guaranteed to be better, damage to main chain structures can be effectively reduced during steering, and the whole service life of a chain is prolonged.

As shown in fig. 5, when in use, two groups of chains are matched together, the positions of the combined fastening plates of the chains are matched with the structure for connecting the two groups of chains to form an integral conveying assembly, and when in use, the lateral steering structure can be matched with the conveying guide rail 10, so that the stability and the safety during high-speed conveying are ensured to be more reliable.

Preferably, the distance between two adjacent outer link plates 5 is greater than 2 times the diameter length of the rotation stabilizing rotor 8, the matching range is larger when the side turning is performed, and the safety in the turning process is better.

Preferably, the projection of the chain combination fastening plate in the front-rear direction is located outside the projection area of the outer link plate 5 in the front-rear direction, so that the matching space is larger and the connection safety is better when the combination connection between the chains is performed in the later stage.

Preferably, the outer side of the rotation stabilizing rotor 8 is positioned on the same plane as the one end surface of the outer link plate 5 in the width direction, so that the flatness of one side is better, and the safety in the use of the rotation stabilizing rotor is effectively improved.

Preferably, the U-shaped structure at the middle position of the U-shaped inner link plate 6 is formed by bending, the rotation stabilizing rotor 8 is located inside the U-shaped inner link plate 6, and the rotation stabilizing shaft 7 is connected with the U-shaped inner link plate 6 by riveting, so that the production cost of the structure is lower.

While the foregoing is directed to the preferred embodiments of the present utility model, it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the principles of the present utility model, and such modifications and substitutions should also be considered to be within the scope of the present utility model.

Claims (5)

1. The utility model provides a stable side bend carries and uses conveyer chain which characterized in that: including inner link joint (3), U-shaped inner link joint (6), sleeve (1), roller (2), outer link joint (5) and round pin axle (4), sleeve (1) follow the inside central point of roller (2) puts and passes, round pin axle (4) follow the inside of sleeve (1) passes, both ends respectively with inner link joint (3) around roller (2) U-shaped inner link joint (6) link together, the outside cooperation of inner link joint (3) is connected outer link joint (5), round pin axle (4) with between sleeve (1) inner link joint (3) with all be equipped with safety gap (9) between outer link joint (5), the both sides of the U-shaped structure of inner link joint (3) respectively with the both ends cooperation of roller (2) are in the same place, the outside intermediate position of U-shaped inner link joint (6) is provided with and turns to stabilizing assembly, turn to stabilizing assembly including rotatory stable shaft (7) and rotatory stable rotor (8), the upper end position of inner link joint (3) is equipped with the integrated into a whole with the center pin shaft and the width of roller (2) is less than the combination of the outer link joint (5) is parallel to each other.

2. A conveyor chain for stabilizing lateral bending conveyor according to claim 1, wherein: the distance between two adjacent outer chain plates (5) is more than 2 times of the diameter length of the rotation stabilizing rotor (8).

3. A conveyor chain for stabilizing lateral bending conveyor according to claim 1, wherein: the projection of the chain combination fastening plate in the front-rear direction is positioned outside the projection area of the outer chain plate (5) in the front-rear direction.

4. A conveyor chain for stabilizing lateral bending conveyor according to claim 1, wherein: the outer side of the rotation stabilizing rotor (8) is on the same plane with one side end face of the outer chain plate (5) in the width direction.

5. A conveyor chain for stabilizing lateral bending conveyor according to claim 1, wherein: the U-shaped structure of the middle position of the U-shaped inner chain plate (6) is formed by processing in a bending production mode, the rotary stabilizing rotor (8) is located inside the U-shaped inner chain plate (6), and the rotary stabilizing shaft (7) is connected with the U-shaped inner chain plate (6) in a riveting mode.