CN112499129A - Double-conveying-seat shuttle feeding device - Google Patents

Abstract

The invention provides a shuttle feeding device with double conveying seats, which comprises a base, wherein an installation plate is vertically fixed at the top of the base, an upper guide rail is horizontally fixed at the upper part of one side of the installation plate, a lower guide rail is fixed on the installation plate below the upper guide rail, belt pulleys are movably installed at two ends of the installation plate between the upper guide rail and the lower guide rail, the belt pulleys at two ends of the installation plate are connected through a belt, a tensioning assembly is installed on the installation plate at the outer side of the belt, and the belt is tensioned through the tensioning assembly.

Description

Double-conveying-seat shuttle feeding device

Technical Field

The invention relates to the technical field of vehicle hub production, in particular to a shuttle feeding device with double conveying seats.

Background

The existing hardware workpiece is mostly conveyed by driving a conveying seat through a belt, after the conveying seat finishes one-time conveying, the conveying seat is driven to retreat through belt reversal to feed materials, the materials cannot be fed when the belt is reversed, and the conveying speed is low and the working efficiency is low by adopting the mode.

Disclosure of Invention

The invention aims to provide a shuttle feeding device with double conveying seats, which is reasonable in structure and good in using effect.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: a shuttle feeding device with double conveying seats comprises a base, wherein a mounting plate is vertically fixed at the top of the base, an upper guide rail is horizontally fixed at the upper part of one side of the mounting plate, a lower guide rail is fixed on the mounting plate below the upper guide rail, belt pulleys are movably mounted at two ends of the mounting plate between the upper guide rail and the lower guide rail, the belt pulleys at two ends of the mounting plate are connected through a belt, a tensioning assembly is mounted on the mounting plate at the outer side of the belt, the belt is tensioned through the tensioning assembly, a power motor is mounted at the other side of the mounting plate, a transmission shaft of the power motor penetrates through the mounting plate to be connected with one of the belt pulleys, an upper sliding seat is movably mounted on the upper guide rail, the bottom of the upper sliding seat is connected with the belt, a first conveying seat is mounted at the top of the upper sliding seat, a, the top of the guide post upwards penetrates through the through hole to be connected with the second conveying seat, the bottom of the guide post downwards penetrates through the through hole to be movably connected with the pulley, an inwards concave V-shaped sliding groove is formed in the mounting plate below the lower guide rail, and the pulley is movably embedded in the V-shaped sliding groove.

Tensioning subassembly including tensioning seat, tensioning axle, take-up pulley, limiting plate, tensioning spring, wherein, tensioning seat fixed mounting is on the mounting panel in the belt outside, tensioning axle one end is connected with the U-shaped seat, another tensioning axle passes tensioning seat and limiting plate connection, the epaxial movable sleeve of tensioning between U-shaped seat and the tensioning seat is equipped with the tensioning spring, tensioning spring one end is contradicted with the U-shaped seat, the tensioning spring other end is contradicted with the tensioning seat, movable mounting has the take-up pulley on the U-shaped seat, the wheel face and the belt lateral wall of tensioning wheel are contradicted after the installation.

Guide rail grooves formed by concave parts are respectively arranged on the upper guide rail and the lower guide rail which are far away from one side of the mounting plate, slide blocks are respectively fixed on the inner side walls of the upper slide seat and the lower slide seat, and the slide blocks are movably embedded in the corresponding guide rail grooves.

After the scheme is adopted, the first conveying seat is positioned at the feeding end in the initial state, the workpiece to be processed is placed on the first conveying seat through the previous process, the rotating motor rotates forwards to drive the belt to rotate through the belt pulley, the belt drives the first conveying seat provided with the workpiece to be processed to move towards the processing square head direction through the upper sliding seat, meanwhile, the belt drives the second conveying seat to move towards the feeding end through the lower sliding seat, when the first conveying seat is staggered with the second conveying seat, the pulley moves downwards to the V-shaped tip of the V-shaped sliding groove, the pulley drives the second conveying seat to move downwards to the position below the first conveying seat through the guide pillar, the second conveying seat penetrates through the position below the first conveying seat, the staggered first conveying seat drives the workpiece to be machined to move continuously to the position below the machining head for machining, the staggered pulley moves to the upper portion of the V-shaped sliding groove, and the pulley drives the second conveying seat to move upwards to the feeding end through the guide pillar for feeding; when the workpiece to be processed is processed, and simultaneously the feeding of the second conveying seat is completed, the rotating motor rotates reversely to drive the belt to rotate reversely through the belt pulley, the belt drives the first conveying seat to move to the feeding end through the upper sliding seat, and simultaneously the belt drives the second conveying seat filled with the workpiece to be processed to move towards the tool head through the lower sliding seat, so that reciprocating conveying processing is performed; the invention has the advantages of reasonable structure, high conveying speed and high working efficiency after adopting the scheme.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Figure 2 is a schematic view of the inventive tensioner assembly.

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: the shuttle feeding device with the double conveying seats comprises a base 1, wherein a mounting plate 2 is vertically fixed at the top of the base 1, an upper guide rail 3 is horizontally fixed at the upper part of one side of the mounting plate 2, a lower guide rail 4 is fixed on the mounting plate 2 below the upper guide rail 3, belt pulleys 5 are movably mounted at two ends of the mounting plate 2 between the upper guide rail 3 and the lower guide rail 4, the belt pulleys 5 at two ends of the mounting plate 2 are connected through a belt 6, a tensioning assembly is mounted on the mounting plate 2 at the outer side of the belt 6, the belt 6 is tensioned through the tensioning assembly, a power motor is mounted at the other side of the mounting plate 2, a transmission shaft of the power motor penetrates through the mounting plate 2 to be connected with one of the belt pulleys 5, an upper sliding seat 7 is movably mounted on the upper guide rail 3, the bottom of the upper sliding seat 7 is connected with the, the upper portion of the inner side wall of the lower sliding seat 9 is connected with a belt 6, a through hole which penetrates through the lower sliding seat 9 from top to bottom is formed in the lower sliding seat 9, a guide pillar 11 is movably inserted in the through hole, the top of the guide pillar 11 upwards penetrates through the through hole to be connected with a second conveying seat 12, the bottom of the guide pillar 11 downwards penetrates through the through hole to be movably connected with a pulley 13, an inwards concave V-shaped sliding groove 14 is formed in the mounting plate 2 below the lower guide rail 4, and the pulley 13. Tensioning subassembly including tensioning seat 15, tensioning axle 16, take-up pulley 17, limiting plate 18, tensioning spring 19, wherein, tensioning seat 15 fixed mounting is on the mounting panel 2 in the belt 6 outside, tensioning axle 16 one end is connected with U-shaped seat 20, tensioning axle 16 another passes tensioning seat 15 and is connected with limiting plate 18, movable sleeve is equipped with tensioning spring 19 on the tensioning axle 16 between U-shaped seat 20 and the tensioning seat 15, 19 one end of tensioning spring is contradicted with U-shaped seat 20, the 19 other end of tensioning spring is contradicted with tensioning seat 15, movable mounting has take-up pulley 17 on the U-shaped seat 20, the wheel face of take-up pulley 17 is contradicted with 6 lateral walls of belt after the installation. Guide rail grooves 21 formed by concave parts are respectively arranged on the upper guide rail 3 and the lower guide rail 4 which are far away from one side of the mounting plate 2, and sliding blocks are respectively fixed on the inner side walls of the upper sliding seat 7 and the lower sliding seat 9 and are movably embedded in the corresponding guide rail grooves 21.

After the scheme is adopted, the first conveying seat is positioned at the feeding end in the initial state, the workpiece to be processed is placed on the first conveying seat through the previous process, the rotating motor rotates forwards to drive the belt to rotate through the belt pulley, the belt drives the first conveying seat provided with the workpiece to be processed to move towards the processing square head direction through the upper sliding seat, meanwhile, the belt drives the second conveying seat to move towards the feeding end through the lower sliding seat, when the first conveying seat is staggered with the second conveying seat, the pulley moves downwards to the V-shaped tip of the V-shaped sliding groove, the pulley drives the second conveying seat to move downwards to the position below the first conveying seat through the guide pillar, the second conveying seat penetrates through the position below the first conveying seat, the staggered first conveying seat drives the workpiece to be machined to move continuously to the position below the machining head for machining, the staggered pulley moves to the upper portion of the V-shaped sliding groove, and the pulley drives the second conveying seat to move upwards to the feeding end through the guide pillar for feeding; when the workpiece to be processed is processed, and simultaneously the feeding of the second conveying seat is completed, the rotating motor rotates reversely to drive the belt to rotate reversely through the belt pulley, the belt drives the first conveying seat to move to the feeding end through the upper sliding seat, and simultaneously the belt drives the second conveying seat filled with the workpiece to be processed to move towards the tool head through the lower sliding seat, so that reciprocating conveying processing is performed; the invention has the advantages of reasonable structure, high conveying speed and high working efficiency after adopting the scheme.

Claims (3)

1. The utility model provides a double delivery seat feedway that shuttles back and forth, it is including base (1), its characterized in that: the top of a base (1) is vertically fixed with a mounting plate (2), the upper part of one side of the mounting plate (2) is horizontally fixed with an upper guide rail (3), the mounting plate (2) below the upper guide rail (3) is fixed with a lower guide rail (4), belt pulleys (5) are movably mounted at two ends of the mounting plate (2) between the upper guide rail (3) and the lower guide rail (4), the belt pulleys (5) at two ends of the mounting plate (2) are connected through a belt (6), a tensioning assembly is mounted on the mounting plate (2) at the outer side of the belt (6), the belt (6) is tensioned through the tensioning assembly, a power motor is mounted at the other side of the mounting plate (2), a transmission shaft of the power motor penetrates through the mounting plate (2) to be connected with one of the belt pulleys (5), an upper sliding seat (7) is movably mounted on the upper guide rail (3), the bottom of the upper sliding seat (7), lower slide (9) are movably mounted on lower guide rail (4), the upper portion of the inner side wall of lower slide (9) is connected with belt (6), a through hole which penetrates through from top to bottom is formed in lower slide (9), guide pillar (11) is movably inserted in the through hole, the top of guide pillar (11) upwards penetrates through the through hole and is connected with second conveying seat (12), the bottom of guide pillar (11) downwards penetrates through the through hole and is movably connected with pulley (13), a concave V-shaped sliding groove (14) is formed in mounting plate (2) below lower guide rail (4), and pulley (13) is movably embedded in V-shaped sliding groove (14).

2. A dual shuttle feeder as claimed in claim 1 wherein: tensioning subassembly including tensioning seat (15), tensioning axle (16), take-up pulley (17), limiting plate (18), tensioning spring (19), wherein, tensioning seat (15) fixed mounting is on mounting panel (2) in belt (6) outside, tensioning axle (16) one end is connected with U-shaped seat (20), tensioning axle (16) another passes tensioning seat (15) and is connected with limiting plate (18), movable sleeve is equipped with tensioning spring (19) on tensioning axle (16) between U-shaped seat (20) and tensioning seat (15), tensioning spring (19) one end is contradicted with U-shaped seat (20), tensioning spring (19) other end is contradicted with tensioning seat (15), movable mounting has take-up pulley (17) on U-shaped seat (20), the wheel face and the belt (6) lateral wall of take-up pulley (17) after the installation are contradicted.

3. A dual shuttle feeder as claimed in claim 1 wherein: guide rail grooves (21) formed by concave parts are formed in the upper guide rail (3) and the lower guide rail (4) which are far away from one side of the mounting plate (2), slide blocks are fixed on the inner side walls of the upper slide seat (7) and the lower slide seat (9), and the slide blocks are movably embedded in the corresponding guide rail grooves (21).

Images