CN219097734U - Multifunctional part conveying mechanism - Google Patents

Abstract

The utility model provides a multifunctional part conveying mechanism, which relates to the field of part production line equipment, and comprises: the first conveying roller way, the second conveying roller way, the third conveying roller way and the fourth conveying roller way are sequentially arranged, and each conveying roller way is provided with an independent driving motor; motors on the first conveying roller way, the second conveying roller way and the third conveying roller way realize bidirectional conveying through a control system, and the fourth conveying roller way realizes unidirectional conveying; and a probe detection device is arranged on the second conveying roller way. According to the utility model, four sections of conveying roller ways are arranged, wherein the first three sections of conveying roller ways can realize bidirectional conveying, and the tail end conveying roller way can realize unidirectional conveying, so that various flexible and changeable processing modes can be realized.

Description

Multifunctional part conveying mechanism

Technical Field

The utility model relates to the field of accessory production lines, in particular to a multifunctional part conveying mechanism.

Background

The heavy metal castings are conveyed in sections by adopting conveying roller ways generally, each section of conveying roller way is provided with a driving device, the heavy metal castings can be conveyed stably, the existing conveying roller ways are sequentially connected, corresponding operation is carried out on each conveying roller way, products are put in from the head end of the conveying roller way, conveying is carried out through the split conveying roller ways after detection or sorting operation, but products can be added in the middle section of the conveying roller ways on a complex production line generally, and meanwhile, the existing conveying roller ways cannot convey various types of parts simultaneously.

Disclosure of Invention

In view of the problems in the prior art, the present utility model provides a multifunctional part transfer mechanism, comprising: the first conveying roller way, the second conveying roller way, the third conveying roller way and the fourth conveying roller way are sequentially arranged, and each conveying roller way is provided with an independent driving motor; the motors on the first conveying roller way, the second conveying roller way and the third conveying roller way realize bidirectional conveying through a control system, and the fourth conveying roller way carries out unidirectional conveying; and a probe detection device is arranged on the second conveying roller way.

As a preferred embodiment of the present utility model, the probe detection apparatus includes:

the mounting seat is fixed to the side of the second conveying roller way;

the fixed riser, fixed riser is installed on the mount pad, movable diaphragm, cylinder subassembly are installed respectively to the both sides of fixed riser, cylinder subassembly fixed mounting is to the back of fixed riser, the movable part of cylinder subassembly runs through forward fixed riser, the movable diaphragm is installed the front side of fixed riser, the movable diaphragm with the movable part of cylinder subassembly links to each other, install the probe rod subassembly on the movable diaphragm.

As a preferable scheme of the utility model, the telescopic probe rod of the probe rod assembly extends forwards through the movable transverse plate, the spring assembly is sleeved outside the telescopic probe rod, the cylinder assembly drives the movable transverse plate to push forwards, the movable transverse plate drives the probe rod assembly to move forwards, and when the telescopic probe rod on the probe rod assembly encounters an obstacle, the spring assembly is compressed, and the telescopic probe rod is retracted into the probe rod assembly.

As a preferable scheme of the utility model, a switch board and a signal bracket are arranged at the left end and the right end of the movable transverse board 7, the signal bracket is specifically a right-angle plate structure, one side of the signal bracket is arranged by being clung to the back surface of the movable transverse board, the other side of the signal bracket is arranged backwards perpendicular to the back surface of the movable transverse board, a displacement sensor is arranged on the other side of the signal bracket, the displacement sensor moves along with the movable transverse board, two groups of proximity switches are arranged above the moving track of the displacement sensor, and the proximity switches are fixed to the top of a fixed vertical board through a mounting frame.

As a preferable scheme of the utility model, the positions of the two pairs of contact switches can be adjusted and set according to the needs, and the telescopic distance of the cylinder assembly is determined according to the positions of the two pairs of contact switches.

As a preferable mode of the utility model, the mounting seat is fixed through a bolt assembly, and an adjusting pad is arranged below the mounting seat.

Compared with the prior art, the utility model provides a multifunctional part conveying mechanism, which has the following beneficial effects:

1. according to the utility model, four sections of conveying roller ways are arranged, wherein the first three sections of conveying roller ways can realize bidirectional conveying, and the tail end conveying roller way can realize unidirectional conveying, so that various flexible and changeable processing modes can be realized.

2. According to the utility model, the probe detection device is arranged on the second conveying roller way, so that the type of the part newly added on the conveying roller way is detected, and the part which is manually put in is recorded.

Drawings

FIG. 1 is an overall top view of a multi-function part transfer mechanism.

Fig. 2 is a schematic perspective view of a probe detection apparatus.

Fig. 3 is a front view of the probe detection apparatus.

Fig. 4 is a top view of the probe detection apparatus.

Fig. 5 is a side view of a probe detection apparatus.

Wherein: 1-a first conveying roller way; 2-a second conveying roller way; 3-a third conveying roller way; 4-a fourth conveying roller way; 5-fixing a vertical plate; a 6-cylinder assembly; 7-a movable cross plate; 8-a probe rod; 9-a switch board; 10-a displacement sensor; 11-a proximity switch; 12-mounting frame; 13-a mounting base; 14-adjusting the backing plate.

Description of the embodiments

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

As shown in fig. 1, the present utility model provides a multi-functional part transfer mechanism comprising: the first conveying roller way 1, the second conveying roller way 2, the third conveying roller way 3 and the fourth conveying roller way 4 are sequentially arranged, and each conveying roller way is provided with an independent driving motor; motors on the first conveying roller way 1, the third conveying roller way 2 and the third conveying roller way 3 realize bidirectional conveying through a control system, and the fourth conveying roller way 4 carries out unidirectional conveying; and a probe detection device is arranged on the second conveying roller way 2.

In the first working state: the mechanical arm puts the qualified parts on a third conveying roller way 3, and the conveying roller way conveys the qualified parts on a fourth roller way and enters the next procedure;

in the second working state: the mechanical arm puts the product suspected to be defective on a third conveying roller way, the first conveying roller way, the second conveying roller way and the third conveying roller way are reversed to convey the part to the first conveying roller way, the part on the first conveying roller way is manually detected again, the defective part is manually unloaded when the part is unqualified, and the first conveying roller way, the second conveying roller way and the third conveying roller way positively convey the part to return the part to a fourth conveying roller way when the part is qualified;

in the third working state: the operator manually feeds on the first conveying roller, the second conveying roller and the third conveying roller positively convey the parts to the fourth conveying roller, and the probe detection device is used for detecting the types of the parts when the parts pass through the second conveying roller.

Thereby realizing a plurality of flexible and changeable conveying processing methods.

As shown in fig. 2 to 5, the probe detection apparatus of the present utility model includes:

a mounting base 13, the mounting base 13 being fixed to the side of the second conveying roller way 2;

the fixed riser 5, fixed riser installs on mount pad 13, movable diaphragm 7 is installed respectively to fixed riser 5's both sides, cylinder subassembly 6 fixed mounting is to fixed riser 5's the back, cylinder subassembly 6's movable part runs through fixed riser 5 forward, movable diaphragm 7 installs fixed riser 5's front side, movable diaphragm 7 links to each other with cylinder subassembly 6's movable part, install the probe subassembly on the movable diaphragm, the flexible probe 8 of probe subassembly runs through movable diaphragm 7 and stretches out forward, the outside cover of flexible probe 8 is equipped with spring assembly, cylinder subassembly 6 drives movable diaphragm 7 and releases forward, movable diaphragm 7 drives the probe subassembly and moves forward, spring assembly compresses when flexible probe 8 on the probe subassembly meets the obstacle, flexible probe is retracted in the probe subassembly. The telescopic probe rod 8 stretches to different parts to perform different-degree shrinkage operation, and the part types are detected and judged according to the shrinkage degree of the telescopic probe rod 8.

In order to adjust and control the start and end positions of the movable transverse plate 7, the utility model is provided with a switch plate 9 and a signal bracket at the left end and the right end of the movable transverse plate 7, the signal bracket is in particular a right-angle plate structure, one side of the signal bracket is arranged by being clung to the back surface of the movable transverse plate 7, the other side of the signal bracket is arranged perpendicularly to the back surface of the movable transverse plate 7 and is provided with a displacement sensor 10, the displacement sensor 10 moves along with the movable transverse plate 7, two sets of contact switches 11 are arranged above the moving track of the displacement sensor 10, the contact switches 11 are fixed to the top of the fixed vertical plate 5 through a mounting frame 12, the positions of the two sets of contact switches 11 can be adjusted and set according to requirements, and the telescopic distance of the cylinder component 6 is determined according to the positions of the two sets of contact switches 11.

In order to adjust the height position of the telescopic probe rod 8, the mounting seat 13 of the utility model is fixed by a bolt assembly, and an adjusting pad 14 is arranged below the mounting seat 13. The overall height is adjusted by adjusting the pad 14.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (6)

1. A multi-functional part transfer mechanism, comprising: the first conveying roller way (1), the second conveying roller way (2), the third conveying roller way (3) and the fourth conveying roller way (4), wherein the first conveying roller way (1), the second conveying roller way (2), the third conveying roller way (3) and the fourth conveying roller way (4) are sequentially arranged, and each conveying roller way is provided with an independent driving motor; the motors on the first conveying roller way (1), the second conveying roller way (2) and the third conveying roller way (3) realize bidirectional conveying through a control system, and the fourth conveying roller way (4) carries out unidirectional conveying; and a probe detection device is arranged on the second conveying roller way (2).

2. The multi-purpose part transfer mechanism of claim 1, wherein said probe inspection device comprises:

a mounting seat (13), wherein the mounting seat (13) is fixed to the side of the second conveying roller way (2);

fixed riser (5), fixed riser is installed on mount pad (13), movable diaphragm (7), cylinder subassembly (6) are installed respectively to the both sides of fixed riser (5), cylinder subassembly (6) fixed mounting is to the back of fixed riser (5), the movable part of cylinder subassembly (6) runs through forward fixed riser (5), movable diaphragm (7) are installed fixed riser (5) front side, movable diaphragm (7) with the movable part of cylinder subassembly (6) links to each other, install the probe subassembly on the movable diaphragm.

3. The multifunctional part conveying mechanism according to claim 2, wherein a telescopic probe rod (8) of the probe rod assembly extends forwards through the movable transverse plate (7), a spring assembly is sleeved outside the telescopic probe rod (8), the cylinder assembly (6) drives the movable transverse plate (7) to push forwards, the movable transverse plate (7) drives the probe rod assembly to move forwards, and when the telescopic probe rod (8) on the probe rod assembly encounters an obstacle, the spring assembly is compressed, and the telescopic probe rod is retracted into the probe rod assembly.

4. A multifunctional part conveying mechanism according to claim 3, characterized in that a switch board (9) and a signal bracket are installed at the left end and the right end of the movable transverse board (7), the signal bracket is specifically a right-angle plate structure, one side of the signal bracket is arranged by being clung to the back surface of the movable transverse board (7), the other side of the signal bracket is arranged backwards perpendicular to the back surface of the movable transverse board (7), a displacement sensor (10) is installed on the other side of the signal bracket, the displacement sensor (10) moves along with the movable transverse board (7), two groups of contact switches (11) are arranged above the moving track of the displacement sensor (10), and the contact switches (11) are fixed to the top of the fixed vertical board (5) through a mounting frame (12).

5. A multi-function part transfer mechanism according to claim 4, wherein the positions of the two sets of contact switches (11) are adjustable as required, and the cylinder assembly (6) determines the telescopic distance according to the positions of the two sets of contact switches (11).

6. The multifunctional part conveying mechanism according to claim 5, wherein the mounting seat (13) is fixed through a bolt assembly, and an adjusting pad (14) is arranged below the mounting seat (13).

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