CN211520837U - Conveyer that processing station can overturn - Google Patents

Abstract

The utility model discloses a conveyer that processing position can overturn, it includes tilting mechanism and two transport mechanism, tilting mechanism is located between two transport mechanism, transport mechanism includes two second transport assembly, second transport assembly includes second main mounting panel, second conveyer belt and second conveying driver, tilting mechanism includes two upset subassemblies, the upset subassembly includes first main mounting panel, upset drive assembly and two first transport assembly, upset drive assembly includes first main mount pad and upset driver, first transport assembly includes first conveyer belt, the conveying brace section mutual disposition of two first conveyer belts. The former transport mechanism conveys the work piece to tilting mechanism department, and the work piece openly beats the mark after, tilting mechanism overturns it, and the work piece reverse side beats the mark after, tilting mechanism conveys it to next transport structure, replaces manual turn-over, improves work efficiency. The utility model discloses it is rational in infrastructure, but wide application beats mark technical field.

Description

Conveyer that processing station can overturn

Technical Field

The utility model relates to a beat mark technical field, in particular to conveyer that processing position can overturn.

Background

Laser marking can be used for marking various characters, symbols and images, and the technology utilizes a marking method that high-energy-density laser irradiates a workpiece locally to enable a surface layer material to be vaporized or to generate a chemical reaction with color change, so that a permanent mark is left. At present, a common marking machine marks a single surface, if double-surface marking is required, a workpiece needs to be turned over manually, the efficiency is low, and the automatic production is not facilitated.

SUMMERY OF THE UTILITY MODEL

For solving above-mentioned technical problem, replace artifical turn-over, improve production efficiency, the utility model provides a conveyer that processing position can overturn, the technical scheme who adopts as follows:

the utility model provides a conveyer that processing position can overturn includes tilting mechanism and two transport mechanism, tilting mechanism is located between two transport mechanism, transport mechanism includes two second conveying subassembly of mutual disposition, the second conveying subassembly includes second main mounting panel, second conveyer belt and second transmission driver, the second conveyer belt with the second transmission driver is installed in the side of second main mounting panel, be the transfer passage between two the second main mounting panel, tilting mechanism includes two upset subassemblies of mutual disposition, the upset subassembly includes first main mounting panel, upset drive assembly and two first transmission subassemblies, two the first transmission subassembly is installed in the homonymy of first main mounting panel, the upset drive assembly includes first main mounting panel and installs the upset driver in first main mounting panel, the output of upset driver pass through the upset transmission shaft with first main mounting panel installation, first transmission assembly includes first transmission belt, two transmission supporting segment of first transmission belt arranges relatively.

Further, first transmission subassembly is including installing the first transmission action wheel of first owner mounting panel side, first transmission action wheel is located the correspondence the middle part of the transmission section of first transmission belt, the first transmission drive shaft has been arranged on the first owner mounting panel, the first transmission action wheel is installed the one end of first transmission drive shaft, first input gear is installed to the other end of first transmission drive shaft, first transmission driver is installed to first owner mount pad, first output gear is installed to first transmission driver's output, on the first owner mounting panel the mounted position of upset transmission shaft is located two between the mounted position of first transmission drive shaft.

Further, the upset limiting plate is installed to the upset transmission shaft, first main mount pad is installed two and is used for supporting the upset buffering portion of upset limiting plate, two the upset buffering portion is located the both sides of upset transmission shaft.

Further, two layering subassemblies that are used for the centre gripping work piece are installed to first main mounting panel, the layering subassembly includes the layering board and compresses tightly the driver, compress tightly the output of driver through compress tightly the drive plate with the layering board installation.

Furthermore, the pressing driver and the pressing strip plate are respectively installed on two sides of the first main installation plate, and a pressing moving groove for the pressing drive plate to pass through is formed in the first main installation plate.

Furthermore, two pressing strip plates in the pressing strip assembly on the first main mounting plate are respectively positioned between the conveying supporting section and the transmission section of the first conveying belt.

Furthermore, the number of the pressing drivers in the pressing strip assembly is two, the pressing strip assembly comprises a first connecting piece, and the two pressing drivers are respectively installed at two ends of the first connecting piece.

Furthermore, first notches are formed in the side faces of the middle portions of the first connecting pieces of the two pressing strip assemblies respectively, the two first notches are opposite, and the turnover transmission shaft is located between the two first notches.

Further, the width of the conveying channel is adjustable, and the second conveying assembly and the overturning assembly on at least one of two sides of the conveying channel can move along a direction perpendicular to the conveying channel.

Further, a second supporting plate is arranged on at least one of two sides of the conveying channel, the second main mounting plate and the first main mounting seat on the corresponding side are mounted on the second supporting plate, a second guide rail is arranged on the lower side of the second supporting plate, and the second supporting plate moves along the second guide rail through a sliding block.

Has the advantages that: the former transport mechanism as the material inlet position conveys the workpiece to the turnover mechanism, after the front surface of the workpiece marks the workpiece, the turnover mechanism turns the workpiece, and after the back surface of the workpiece marks the workpiece, the turnover mechanism conveys the workpiece to the latter transport mechanism as the material outlet position to replace manual turnover, so that the working efficiency is improved. The utility model discloses it is rational in infrastructure, but wide application beats mark technical field.

Drawings

FIG. 1 is a structural view of a turnover mechanism;

FIG. 2 is a block diagram of a first main mounting plate;

FIG. 3 is a block diagram of a first primary mount;

fig. 4 is a structural view of the transfer device.

Detailed Description

The present invention will be further described with reference to fig. 1 to 4.

The utility model relates to a conveyer that processing position can overturn, it includes tilting mechanism and two transport mechanism, tilting mechanism is located two between the transport mechanism, convey the work piece to tilting mechanism department as the former transport mechanism of the material level of advancing, the work piece openly beats the mark back, and tilting mechanism overturns it, and the work piece reverse side is beaten the mark back, and tilting mechanism conveys it to the back transport structure as the material level of going out, and tilting mechanism has and adds station and upset position dual function.

The conveying mechanism comprises two oppositely arranged second conveying assemblies, each second conveying assembly comprises a second main mounting plate 201, a second conveying belt 202 and a second conveying driver 203, the second conveying belts 202 and the second conveying drivers 203 are mounted on the side faces of the second main mounting plates 201, and conveying channels are formed between the two second main mounting plates 201.

In some embodiments, the second conveyor belt 202 and the second conveyor driver 203 are respectively installed on both sides of the second main mounting plate 201, the second conveyor driver 203 is a motor, and the second conveyor assembly further includes two second driving wheels. The output of the second conveyor driver 203 may be mounted with one of the second drive wheels, or the output of the second conveyor driver 203 may be mounted with a second output wheel located in the middle of the driven section of the second conveyor belt 202.

The turnover mechanism comprises two oppositely arranged turnover assemblies, the front end of each turnover assembly is connected with the outlet of the previous second conveying assembly at the same side, and the rear end of each turnover assembly is connected with the inlet of the next second conveying assembly. The upset subassembly includes first main mounting panel 101, upset drive assembly and two first conveying assemblies, and two first conveying assemblies are installed at the homonymy of first main mounting panel 101. If the opposite sides of the two first main mounting boards 101 are taken as the inner sides, the two first conveying assemblies are mounted on the inner sides of the first main mounting boards 101, and the turnover driving assembly is located on the outer sides of the first main mounting boards 101.

The overturning driving assembly comprises a first main mounting seat 102 and an overturning driver 103 mounted on the first main mounting seat 102, the overturning driver 103 can select a motor for use, the output end of the overturning driver 103 is mounted with a first main mounting plate 101 through an overturning transmission shaft 104, one end of the overturning transmission shaft 104 is mounted with the first main mounting plate 101 through a flange, and the other end of the overturning transmission shaft 104 is mounted with the output end of the overturning driver 103 through a flange.

In some embodiments, the turning transmission shaft 104 is provided with a turning limiting plate 111, and the first main mounting seat 102 is provided with two turning buffering parts for abutting against the turning limiting plate 111, and the two turning buffering parts are located at two sides of the turning transmission shaft 104. When the overturning transmission shaft 104 drives the first main mounting plate 101 to overturn, the overturning limiting plate 111 overturns along with the overturning transmission shaft, and the top of the overturning buffering part on the corresponding side abuts against the overturning limiting plate 111. The rollover cushion includes a first stud mounted on the first main mount 102 and a bumper mounted on top of the first stud.

In some embodiments, the first main mounting base 102 is provided with a first supporting portion 112 for supporting the turnover drive shaft 104, and the turnover drive shaft 104 is mounted to the first supporting portion 112 through a rolling bearing, so that the turnover drive shaft 104 rotates smoothly.

The first conveyor assembly comprises a first conveyor belt 105 and the first conveyor assembly further comprises two first drive wheels. The conveying support sections of the two first conveying belts 105 are arranged oppositely, the conveying support sections of the two first conveying belts 105 are parallel, and the first conveying belt 105 on the lower side in the reversing assembly is used as a conveying workpiece.

In some embodiments, the first transmission assembly includes a first transmission driving wheel 106 installed on a side surface of the first main mounting plate 101, the first transmission driving wheel 106 is located in a middle portion of a transmission section of the corresponding first transmission belt 105, a first transmission driving shaft 107 is disposed on the first main mounting plate 101, the first transmission driving wheel 106 is installed at one end of the first transmission driving shaft 107, a first input gear 108 is installed at the other end of the first transmission driving shaft 107, a first transmission driver 109 is installed on the first main mounting plate 102, the first transmission driver 109 may be a motor, a first output gear 110 is installed at an output end of the first transmission driver 109, and the first output gear 110 may drive the first input gear 108 through gear teeth meshing, so as to drive the first transmission assembly. The mounting position of the turning transmission shaft 104 on the first main mounting plate 101 is located between the mounting positions of the two first transmission driving shafts 107, the first output gear 110 is meshed with one of the first input gears 108 before the first main mounting plate 101 is turned over, and the first output gear 110 is meshed with the other first input gear 108 after the first main mounting plate 101 is turned over.

In some embodiments, the first main mounting plate 101 may be clamped by two opposing conveyor support segments of the first conveyor belt 105. In some embodiments, the first main mounting plate 101 is provided with two bead assemblies for clamping a workpiece, and the bead assemblies can be turned and marked conveniently after clamping and fixing the workpiece. The batten assembly includes batten strips 113 and a hold-down actuator 114, and the hold-down actuator 114 may be an air cylinder. The output end of the press driver 114 is mounted with a bar pressing plate 113 via a press driving plate 115, and the two bar pressing plates 113 in the bar assembly are respectively located above and below the conveying passage.

In some embodiments, the pressing strip 113 and the pressing driver 114 are mounted on the same side of the first main mounting plate 101, specifically, on the inner side of the first main mounting plate 101.

In some embodiments, the pressing driver 114 and the pressing plate 113 are respectively installed at both sides of the first main mounting plate 101, specifically, the pressing driver 114 is installed at the outer side of the first main mounting plate 101, the pressing plate 113 is installed at the inner side of the first main mounting plate 101, and the first main mounting plate 101 is formed with a pressing moving slot through which the pressing driving plate 115 passes.

In some embodiments, the batten plates 113 of the two batten assemblies on the first main mounting plate 101 are located between the conveying support section and the conveying section of the two first conveying belts 105, respectively.

In some embodiments, the number of the pressing drivers 114 in the pressing bar assembly is two, the pressing bar assembly includes a first connecting member 117, the two pressing drivers 114 are respectively installed at two ends of the first connecting member 117, the pressing bar plate 113 has a strip-shaped structure, the two pressing drivers 114 respectively drive two ends of the pressing bar plate 113, and the outputs of the two pressing drivers 114 are synchronized through the first connecting member 117.

In some embodiments, the first recesses are formed on the middle side surfaces of the first connecting members 117 of the two bead assemblies, the two first recesses are opposite to each other, and the turnover transmission shaft 104 is located between the two first recesses, so as to prevent the turnover transmission shaft 104 from interfering with the two first connecting members 117 to move towards each other, and prevent the workpiece from being compacted.

In some embodiments, the first main mounting plate 101 is mounted with a first guide rail 116 along which each of the pressing drive plates 115 moves, and the first main mounting plate 101 is moved along the corresponding first guide rail 116 by a slider.

In some embodiments, the width of the transfer path is adjustable to accommodate workpieces of different widths, and the second transfer assembly and the flipper assembly are movable in a direction perpendicular to the transfer path on at least one of the two sides of the transfer path.

In some embodiments, the second transfer assembly and the inversion assembly are separately movable. In some embodiments, the second conveying assembly and the turnover assembly are movable synchronously, the second pallet 204 is disposed on at least one of two sides of the conveying channel, the second main mounting plate 201 and the first main mounting seat 102 on the corresponding side are both mounted on the second pallet 204, the second guide rail 205 is disposed on the lower side of the second pallet 204, the second pallet 204 is moved along the second guide rail 205 by a slide block, and the movement of the second pallet 204 can be realized by one of a screw pair, a rack and pinion drive and a belt drive.

For example: the second conveying assembly and the overturning assembly on one side of the conveying channel are fixed in position, and the second conveying assembly and the overturning assembly on the other side of the conveying channel synchronously move through the second supporting plate 204, so that the width of the conveying channel is adjusted.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. Processing position conveyer that can overturn, its characterized in that: the turnover mechanism comprises a turnover mechanism and two conveying mechanisms, wherein the turnover mechanism is positioned between the two conveying mechanisms, the conveying mechanisms comprise two second conveying assemblies which are oppositely arranged, each second conveying assembly comprises a second main mounting plate (201), a second conveying belt (202) and a second conveying driver (203), the second conveying belts (202) and the second conveying drivers (203) are arranged on the side surfaces of the second main mounting plates (201), a conveying channel is formed between the two second main mounting plates (201), the turnover mechanism comprises two turnover assemblies which are oppositely arranged, each turnover assembly comprises a first main mounting plate (101), a turnover driving assembly and two first conveying assemblies, the two first conveying assemblies are arranged on the same side of the first main mounting plate (101), and each turnover driving assembly comprises a first main mounting seat (102) and a turnover driver (103) arranged on the first main mounting seat (102), the output end of the turnover driver (103) is installed with the first main installation plate (101) through a turnover transmission shaft (104), the first transmission assembly comprises a first transmission belt (105), and the transmission supporting sections of the two first transmission belts (105) are arranged oppositely.

2. The processing station reversible conveyor as claimed in claim 1, wherein: the first conveying assembly comprises a first conveying driving wheel (106) arranged on the side surface of the first main mounting plate (101), the first transmission driving wheel (106) is positioned at the middle part of the transmission section of the corresponding first transmission belt (105), a first transmission driving shaft (107) is arranged on the first main mounting plate (101), the first transmission driving wheel (106) is arranged at one end of the first transmission driving shaft (107), the other end of the first transmission driving shaft (107) is provided with a first input gear (108), the first main mounting seat (102) is provided with a first transmission driver (109), the output end of the first transmission driver (109) is provided with a first output gear (110), the mounting position of the turnover transmission shaft (104) on the first main mounting plate (101) is positioned between the mounting positions of the two first transmission driving shafts (107).

3. The processing station reversible conveyor as claimed in claim 1, wherein: upset limiting plate (111) are installed in upset transmission shaft (104), two are used for supporting in first main mount pad (102) upset buffer portion of upset limiting plate (111), two upset buffer portion is located the both sides of upset transmission shaft (104).

4. The processing station reversible conveyor as claimed in claim 1, wherein: two batten components for clamping workpieces are installed to first main mounting panel (101), the batten components include batten plate (113) and compress tightly driver (114), compress tightly the output of driver (114) through compress tightly drive plate (115) with batten plate (113) installation.

5. The processing station reversible conveyor as claimed in claim 4, wherein: the pressing driver (114) and the pressing strip plate (113) are respectively arranged at two sides of the first main mounting plate (101), and the first main mounting plate (101) is formed with a pressing moving groove for the pressing driving plate (115) to pass through.

6. The processing station reversible conveyor as claimed in claim 4, wherein: two batten plates (113) in the batten assembly on the first main mounting plate (101) are respectively positioned between the conveying supporting section and the conveying section of the first conveying belt (105).

7. The processing station reversible conveyor as claimed in claim 4, wherein: the pressing strip assembly comprises two pressing drivers (114), the pressing strip assembly comprises a first connecting piece (117), and the two pressing drivers (114) are respectively installed at two ends of the first connecting piece (117).

8. The processing station reversible conveyor as claimed in claim 7, wherein: first notches are formed in the side faces of the middle portions of the first connecting pieces (117) of the two pressing strip assemblies respectively, the two first notches are opposite, and the turnover transmission shaft (104) is located between the two first notches.

9. A processing station reversible conveyor as claimed in any one of claims 1 to 8, wherein: the width of the conveying channel is adjustable, and the second conveying assembly and the overturning assembly on at least one of two sides of the conveying channel can move along the direction perpendicular to the conveying channel.

10. The processing station reversible conveyor as claimed in claim 1, wherein: a second supporting plate (204) is arranged on at least one of two sides of the conveying channel, the second main mounting plate (201) and the first main mounting seat (102) on the corresponding sides are mounted on the second supporting plate (204), a second guide rail (205) is arranged on the lower side of the second supporting plate (204), and the second supporting plate (204) moves along the second guide rail (205) through a sliding block.

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