CN217596187U - Batch laser marking mechanism based on transmission line - Google Patents

Abstract

The utility model discloses a batch laser marking mechanism based on transmission line, including the cylinder transmission line, an automatic positioning component for correcting sheet material horizontal position and gesture, top pushes up spacing subassembly and laser marking machine, automatic positioning component sets up in roller transmission line below, including jacking board and a plurality of backup pad, shore cylinder and locating component, locating component includes the location platform, the locating piece, the fixed position gyro wheel, telescopic cylinder, adjustable shelf and activity location gyro wheel, top pushes up spacing subassembly including pushing up the cylinder, the top push pedal, guide arm guide pin bushing assembly, the lifter plate, spacing cylinder and limiting plate, this mechanism utilizes the cylinder transmission line to wait to beat the pay-off of mark sheet material in batches and feeds the pay-off in order, and utilize automatic positioning component to correct sheet material horizontal position gesture, stop the sheet material of waiting to beat the mark by pushing up spacing subassembly again, beat the accurate marking operation of implementing for the sheet material by laser marking machine, it is consuming time to save the assembly line that shuts down, it is consuming time to reduce the station, promote production efficiency.

Description

Batch laser marking mechanism based on transmission line

Technical Field

The utility model relates to a laser marking equipment technical field, concretely relates to laser marking mechanism in batches based on transmission line.

Background

The laser marking equipment that the tradition used sets up outside being independent of the production line, utilize arm or robot to produce on the product of line batch outflow inhales gets marking equipment, transport on producing the line after accomplishing laser marking, this process can restrict and produce line flow speed, influence the production efficiency that the whole was produced the line, for this reason we are necessary to design one kind and produce the direct automatic laser marking equipment of implementing on the line in the conveying, in order to save assembly line downtime latency, it is consuming time to reduce the station, promote and produce the whole production efficiency of line.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose: in view of the technical defects of the traditional laser marking process means in the background technology, a batch laser marking mechanism based on a conveying line is designed, a roller conveying line is used for feeding and feeding batch plates to be marked in order, an automatic positioning assembly is used for correcting the horizontal position posture of the plates, a pushing and limiting assembly is used for stopping the plates to be marked, and the laser marking machine is used for performing accurate marking operation on the plates, so that the shutdown waiting time of a production line is saved, the time consumed by stations is reduced, and the overall production efficiency of the production line is improved.

The technical scheme adopted for solving the problems is as follows:

a batch laser marking mechanism based on a conveying line comprises a roller conveying line, an automatic positioning assembly for correcting the horizontal position and the posture of a sheet material, a pushing limiting assembly for stopping the sheet material to be marked and a laser marking machine driven by an electric sliding screw rod pair,

the roller conveying line is driven by a transmission motor and a transmission chain to rotate at a constant speed, the roller conveying line comprises a plurality of rollers which are arranged in order, the rollers are uniformly fed with plates to be marked at intervals,

the automatic positioning component is arranged below the roller conveying line and comprises a jacking plate, a plurality of supporting plates, a jacking cylinder and positioning components, the supporting plates are fixed on the frame, the jacking cylinder is fixedly connected on the supporting plates, a mandril of the jacking cylinder is fixedly connected with the lower end of the jacking plate to drive the jacking plate to lift, the plurality of positioning components are uniformly arranged on the jacking plate at intervals,

the positioning assembly comprises a positioning table, a positioning block, a fixed positioning roller, a telescopic cylinder, a movable frame and a movable positioning roller, the positioning table is fixedly connected with the positioning block, the fixed positioning roller is arranged on one side of the positioning table, the central shaft of the fixed positioning roller is vertically arranged, the telescopic rods of the telescopic cylinder are horizontally arranged and fixedly connected to one side of the positioning table, the movable frame is fixedly connected to the telescopic rods, the movable frame is arranged on the other side of the positioning table, the movable positioning rollers are symmetrically arranged on the movable frame relative to the fixed positioning roller,

the spacing subassembly of top push sets up a station behind the automatic positioning subassembly to the setting is between adjacent two cylinders, including top push cylinder, push-up board, guide arm guide pin bushing subassembly, lifter plate, spacing cylinder and limiting plate, lifter plate lower extreme four corners is provided with the guide arm to the guide pin bushing cooperation that is equipped with the push-up board four corners is gone up and down to slide, the push-up board links firmly in the frame, spacing cylinder sets up on the lifter plate, and the ejector pin and the limiting plate of spacing cylinder link firmly, the material front end lateral wall of beating mark is just being treated to spacing board, and after injectting this sheet material location, the mark operation is beaten to the implementation of panel material up end assigned position by laser marking machine.

Furthermore, the electric sliding screw rod pair is arranged above the roller conveying line through a supporting frame.

Furthermore, the movable positioning roller is pushed by the telescopic cylinder to slide left and right, and pushes the fixed positioning roller to clamp the fed plate.

Further, the positioning block is parallel to the axis of the roller.

Furthermore, the peripheral cylindrical surface of the fixed positioning roller is higher than the upper end surface of the positioning block.

The beneficial effects of the utility model are that:

this batch laser marking mechanism based on transmission line utilizes the cylinder transmission line to feed the pay-off in order with the batch sheet material of waiting to beat the mark to utilize the automatic positioning subassembly to correct sheet material horizontal position gesture, stop the sheet material of waiting to beat the mark by pushing away spacing subassembly again, carry out accurate marking operation for the sheet material by laser marking machine, save assembly line shut down latency, it is consuming time to reduce the station, promotes the whole production efficiency of production line.

Drawings

Fig. 1 is a schematic structural diagram of a batch laser marking mechanism based on a conveying line according to the embodiment;

FIG. 2 is a side bottom view of the automatic positioning assembly of the present embodiment;

FIG. 3 is a side plan view of the automatic positioning assembly of the present embodiment;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic structural diagram of the positioning assembly of the present embodiment;

FIG. 6 is a partial enlarged view of FIG. 5 at B;

the device comprises a machine frame 1, a limiting cylinder 2, an electric sliding screw rod pair 3, a laser marking machine 4, a field lens 5, a positioning assembly 6, a roller 7, a motor 8, a transmission motor 9, a jacking cylinder 10, a support plate 11, a pushing cylinder 12, a guide rod and guide sleeve assembly 13, a limiting plate 14, a movable positioning roller 15, a telescopic cylinder 16, a positioning block 17, a movable frame 18, a pushing plate 19, a fixed positioning roller 20 and a jacking plate 21.

Detailed Description

The technical solution of the present invention will be described in detail and fully with reference to the accompanying drawings.

Referring to fig. 1-6, the present embodiment provides a batch laser marking mechanism based on a conveying line, which includes a roller conveying line for driving batch sheet materials to feed at a uniform speed, an automatic positioning assembly 6 for correcting the horizontal position and posture of the sheet materials, a pushing and limiting assembly for stopping the sheet materials (not shown in the figure) to be marked, and a laser marking machine 4 driven by an electric sliding lead screw pair 3, wherein the electric sliding lead screw pair 3 is arranged above the roller conveying line through a support frame.

Referring to fig. 1, the roller conveying line is driven by a driving motor 9 and a driving chain to rotate at a constant speed, and includes a plurality of regularly arranged rollers 7, and the rollers 7 are uniformly fed with plates (not shown) to be marked at intervals.

Referring to fig. 2, automatic positioning assembly 6 sets up in roller transmission line below, including jacking board 21 and 3 backup pads 11, shore cylinder 10 and positioning assembly 6, backup pad 11 is fixed in frame 1, has linked firmly shore cylinder 10 on the backup pad 11, and the ejector pin of shore cylinder 10 links firmly with jacking board 21 lower extreme, drives jacking board 21 and goes up and down the action, the interval is provided with a plurality of positioning assembly 6 uniformly on jacking board 21.

Referring to fig. 4 and 6, locating component 6 includes location platform, locating piece 17, fixed positioning gyro wheel 20, telescopic cylinder 16, adjustable shelf 18 and activity positioning gyro wheel 15, the locating piece 17 links firmly on the location platform, fixed positioning gyro wheel 20 sets up in location platform one side, and the vertical setting of center pin of fixed positioning gyro wheel 20, telescopic cylinder 16's telescopic link level is arranged to link firmly in location platform one side, link firmly adjustable shelf 18 on the telescopic link, adjustable shelf 18 sets up at the location platform opposite side, is provided with activity positioning gyro wheel 15 for fixed positioning gyro wheel 20 symmetry on the adjustable shelf 18.

The top pushes away spacing subassembly and sets up a station behind automatic positioning subassembly 6 to the setting is between two adjacent cylinders 7, including top push cylinder 12, push-up board 19, guide arm guide pin bushing subassembly 13, lifter plate, spacing cylinder 2 and limiting plate 14, lifter plate lower extreme four corners is provided with the guide arm to go up and down to slide with the guide pin bushing cooperation that 19 four corners of push-up board were equipped with, push-up board 19 links firmly in frame 1, spacing cylinder 2 sets up on the lifter plate, and the ejector pin of spacing cylinder 2 links firmly with limiting plate 14, limiting plate 14 is just to waiting to beat the sheet material front end lateral wall of mark, prescribes a limit to this sheet material location back, by laser marking machine 4 to the implementation marking operation of the sheet material up end assigned position.

The further implementation scheme is that the movable positioning roller 15 slides left and right under the pushing drive of the telescopic cylinder 16, and pushes and clamps the fed sheet material with the fixed positioning roller 20, so as to adjust the horizontal feeding posture of the sheet material.

In a further embodiment, the positioning block 17 is parallel to the axis of the drum 7, and is used for adjusting the feeding distance between two adjacent sheets and stopping the forward feeding and feeding of the sheets.

In a further embodiment, referring to fig. 4 and 6, the fixed positioning roller 20 has a cylindrical peripheral surface higher than the upper end surface of the positioning block 17, and is configured to roll tangentially with the side wall of the fed sheet and define a horizontal feeding posture of the sheet.

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, modifications, substitutions and alterations can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and the scope of the present invention is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a batch laser marking mechanism based on transmission line which characterized in that: comprises a roller conveying line, an automatic positioning component for correcting the horizontal position and the posture of a sheet material, a pushing and limiting component for stopping the sheet material to be marked and a laser marking machine driven by an electric sliding screw rod pair,

the automatic positioning component is arranged below the roller conveying line and comprises a jacking plate, a plurality of supporting plates, a jacking cylinder and positioning components, the supporting plates are fixed on the frame, the jacking cylinder is fixedly connected on the supporting plates, a mandril of the jacking cylinder is fixedly connected with the lower end of the jacking plate to drive the jacking plate to lift, the plurality of positioning components are uniformly arranged on the jacking plate at intervals,

the positioning assembly comprises a positioning table, a positioning block, a fixed positioning roller, a telescopic cylinder, a movable frame and a movable positioning roller, the positioning block is fixedly connected on the positioning table, the fixed positioning roller is arranged on one side of the positioning table, the central shaft of the fixed positioning roller is vertically arranged, the telescopic rods of the telescopic cylinder are horizontally arranged and fixedly connected on one side of the positioning table, the movable frame is fixedly connected on the telescopic rods, the movable frame is arranged on the other side of the positioning table, the movable positioning rollers are symmetrically arranged on the movable frame relative to the fixed positioning roller,

the top pushes away spacing subassembly and includes top push cylinder, push plate, guide arm guide pin bushing subassembly, lifter plate, spacing cylinder and limiting plate, the marking sheet material front end lateral wall is just being treated to spacing board, prescribes a limit to this sheet material location back, is beaten the mark operation by laser marking machine to the implementation of panel material up end assigned position.

2. A conveyor line based batch laser marking mechanism according to claim 1, characterized in that: the roller transmission line is driven by a transmission motor and a transmission chain to rotate at a uniform speed, the roller transmission line comprises a plurality of rollers which are arranged in order, and the plates to be marked are uniformly fed on the rollers at intervals.

3. A conveyor line based batch laser marking mechanism according to claim 1, characterized in that: the lifting plate is characterized in that guide rods are arranged at four corners of the lower end of the lifting plate and matched with guide sleeves arranged at four corners of the pushing plate to lift and slide, the pushing plate is fixedly connected onto the rack, the limiting cylinder is arranged on the lifting plate, and an ejector rod of the limiting cylinder is fixedly connected with the limiting plate.

4. A conveyor line based batch laser marking mechanism according to claim 1, characterized in that: the electric sliding screw rod pair is arranged above the roller conveying line through a supporting frame.

5. A batch laser marking mechanism according to claim 1, characterized in that: the movable positioning roller is pushed by the telescopic cylinder to slide left and right, and pushes the fixed positioning roller to clamp the fed plate.

6. A conveyor line based batch laser marking mechanism according to claim 1, characterized in that: the positioning blocks are parallel to the axis of the roller.

7. A conveyor line based batch laser marking mechanism according to claim 1, characterized in that: the peripheral cylindrical surface of the fixed positioning roller is higher than the upper end surface of the positioning block.

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