CN213969525U

CN213969525U - Novel quick laser marking machine of concatenation data plate

Info

Publication number: CN213969525U
Application number: CN202022726190.9U
Authority: CN
Inventors: 杨宝盛; 杨忠双; 周道峰; 李成文
Original assignee: Hangzhou Hairong Laser Technology Co ltd
Current assignee: Hangzhou Hairong Laser Technology Co ltd
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-08-17
Anticipated expiration: 2030-11-23

Abstract

The utility model discloses a novel quick laser marking machine of concatenation data plate, comprises a workbench, the upper end both sides of workstation all are provided with feed mechanism, the installation pole is installed to the upper surface one side of workstation, one side fixedly connected with installing support of installation pole, just the one end that the installing support kept away from the installation pole is installed the display, one side that the installing support was kept away from to the installation pole has been seted up first sliding tray, first motor is installed to the upper end of installation pole, the first lead screw of output fixedly connected with of first motor. The utility model discloses the structure sets up rationally, and the design is optimized more, is provided with feed mechanism through the both sides at the workstation, when printing, can carry out the last unloading operation of automation through feed mechanism, and for current artifical material loading mode in duplex position, the setting of duplex position and automatic material loading mode can effectively improve the efficiency of laser marking.

Description

Novel quick laser marking machine of concatenation data plate

Technical Field

The utility model relates to a laser marking machine specifically is a novel quick laser marking machine of concatenation data plate.

Background

The laser marking machine is to use laser beam to mark permanent marks on the surface of various materials, and the marking effect is to expose deep layer material by means of evaporation of surface layer material so as to mark exquisite pattern, trademark and character₂The laser marking machine is mainly applied to occasions requiring more fineness and higher precision, and is applied to electronic components, Integrated Circuits (ICs), electricians and electrical appliances, mobile phone communication, hardware products, tool accessories, precision instruments, glasses clocks, jewelry, automobile accessories, plastic keys, building materials and PVC pipes.

When marking, present laser marking machine places the lower extreme at the high-speed scanning galvanometer through the data plate of marking with needs for the people, has listened the inefficiency that the people placed, and the people is for changing the waste time, leads to the marked inefficiency of data plate, and does not have the device that can fix to the data plate when printing, can't fix when printing, can appear beating inclined to one side's phenomenon.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel quick laser marking machine of concatenation data plate to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a novel quick laser marking machine of concatenation data plate, comprises a workbench, the upper end both sides of workstation all are provided with feed mechanism, the installation pole is installed to upper surface one side of workstation, one side fixedly connected with installing support of installation pole, just the one end that the installing support kept away from the installation pole is installed to the installing support, the installing pole is kept away from one side of installing support and is seted up first sliding tray, first motor is installed to the upper end of installing pole, the upper end both sides of workstation all are provided with feed mechanism, the upper surface of workstation are installed the installation pole, the display is installed to one side of installing support, the installing pole is kept away fromThe first lead screw of output fixedly connected with of first motor, the lower extreme of first lead screw runs through the inside that extends to first sliding tray, just the lower extreme of first sliding tray rotates with the inside lower surface of first sliding tray to be connected, the outside threaded connection of first lead screw has first slider, just first slider and first sliding tray sliding connection, the outside one end fixedly connected with backup pad of first slider, the last surface mounting of backup pad has CO₂Radio frequency laser, said CO₂One end of the radio frequency laser is provided with a high-speed scanning galvanometer.

As a further aspect of the present invention: the feeding mechanisms on two sides comprise connecting rods, the two connecting rods are arranged symmetrically on two sides, each connecting rod is fixedly connected with one side of the workbench, a second sliding groove is formed in the upper surface of each connecting rod, one end of each second sliding groove penetrates through the inner part of the upper end of the workbench, a second motor is mounted at one end of each second sliding groove, the output end of each second motor is fixedly connected with a second lead screw, the other end of each second lead screw penetrates through the inner part of each second sliding groove and is rotatably connected with one side of the inner part of the second sliding groove, a second sliding block is in threaded connection with the outer side of each second lead screw, a first connecting plate is fixedly connected with the upper end of each adjacent second sliding block, and an electromagnet is arranged in the middle of the upper surface of each first connecting plate, both sides the one end that the workstation was kept away from to the connecting rod all is provided with places the case.

As a further aspect of the present invention: both sides place the inside of case and all seted up place chamber and both sides place the chamber and run through both sides respectively place the upper end and the outside intercommunication of case, both sides place the case with first fluting has all been seted up to the adjacent one side of workstation both sides, both sides second fluting has all been seted up to first grooved lower extreme, both sides first fluting and both sides the equal fixedly connected with blend stop in both sides of the grooved junction of second, both sides first fluting and second fluting respectively with both sides place the intracavity portion intercommunication.

As a further aspect of the present invention: the second slot has an inner dimension greater than an inner dimension of the first slot.

As a further aspect of the present invention: the vertical direction cross section size of the first connecting plate is matched with the vertical direction cross section size of the second groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model has reasonable structure arrangement and more optimized design, and can carry out automatic feeding and discharging operation through the feeding mechanisms arranged on the two sides of the workbench when printing, and compared with the existing manual feeding mode, the efficiency of laser marking can be effectively improved through the arrangement of double stations and the automatic feeding mode;

2. the utility model discloses a place the bottom half and seted up first fluting, second fluting and first connecting plate, the electro-magnet cooperates the use, make it have magnetism through the electro-magnet circular telegram, can attract placing the intracavity portion data plate of lower extreme, it rotates to drive the second lead screw through the second motor, thereby make the second slider slide at the second sliding tray, the data plate that drives first connecting plate and its upper surface removes, it can carry out magnetism to the data plate and inhale fixedly to remove the in-process, make more stable when printing, make the effect of printing better.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a novel spliced nameplate rapid laser marking machine.

Fig. 2 is a schematic view of a main section structure of the novel spliced nameplate rapid laser marking machine.

Fig. 3 is a schematic view of a top-view cross-sectional structure of the novel spliced nameplate rapid laser marking machine.

Fig. 4 is an enlarged structural schematic diagram of a position a in fig. 1 of the novel spliced nameplate rapid laser marking machine.

In the figure: workstation 1, installation pole 2, installing support 3, display 4, first motor 5, CO₂A radio frequency laser 6, a supporting plate 7, a high-speed scanning galvanometer 8, a placing box 9, a placing cavity 10, a connecting rod 11, a second lead screw 12,The device comprises a first connecting plate 13, an electromagnet 14, a second connecting plate 15, an electric push rod 16, a vertical plate 17, a push plate 18, a barrier strip 19, a second sliding block 20, a second motor 21, a second sliding groove 22, a first sliding groove 23, a first sliding block 24, a first lead screw 25, a first open groove 26 and a second open groove 27.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, in the embodiment of the present invention, a novel spliced nameplate rapid laser marking machine comprises a workbench 1, wherein both sides of the upper end of the workbench 1 are provided with a feeding mechanism, a mounting rod 2 is installed on one side of the upper surface of the workbench 1, a mounting bracket 3 is fixedly connected to one side of the mounting rod 2, a display 4 is installed at one end of the mounting bracket 3 away from the mounting rod 2, a first sliding groove 23 is opened on one side of the mounting rod 2 away from the mounting bracket 3, a first motor 5 is installed on the upper end of the mounting rod 2, a first lead screw 25 is fixedly connected to the output end of the first motor 5, the lower end of the first lead screw 25 extends into the first sliding groove 23, the lower end of the first sliding groove 23 is rotatably connected to the inner lower surface of the first sliding groove 23, a first slider 24 is connected to the outer side of the first lead screw 25 by a thread, and the first slider 24 is slidably connected to the first sliding groove 23, a supporting plate 7 is fixedly connected to one end of the outside of the first sliding block 24, and CO is arranged on the upper surface of the supporting plate 7₂Radio frequency laser 6, CO₂High-speed scanning galvanometer 8 is installed to radio frequency laser 6's one end, through the operation of first motor 5, drives first lead screw 25 and rotates to make first slider 24 go up and down in the inside of first sliding tray 23, thereby drive backup pad 7 and CO₂The radio frequency laser 6 and the high-speed scanning galvanometer 8 are adjusted in height, so that the laser is suitable for different nameplate printing requirements, the adjustment is more convenient, and the scales are arrangedCan conveniently adjust, both sides are provided with feed mechanism and constitute the duplex position, have effectively improved the mark efficiency of beating of data plate.

The two-side feeding mechanisms comprise connecting rods 11, the connecting rods 11 are provided with two connecting rods 11 and are symmetrically arranged on two sides, each connecting rod 11 is fixedly connected with one side of the workbench 1, a second sliding groove 22 is formed in the upper surface of each connecting rod 11, one end of each second sliding groove 22 penetrates through and extends into the upper end of the workbench 1, one end of each second sliding groove 22 is provided with a second motor 21, the output end of each second motor 21 is fixedly connected with a second lead screw 12, the other end of each second lead screw 12 penetrates through and extends into each second sliding groove 22 and is rotatably connected with one side of the inner part of the second sliding groove 22, the outer side of each second lead screw 12 is in threaded connection with a second sliding block 20, the upper end of the adjacent second sliding block 20 is fixedly connected with a first connecting plate 13, and the middle part of the upper surface of each first connecting plate 13 is provided with an electromagnet 14, the end of the connecting rod 11 far away from the workbench 1 at two sides is provided with a placing box 9, the placing cavities 10 at two sides are arranged in the placing box 9 at two sides, the placing cavities 10 at two sides are respectively communicated with the outside after penetrating through the upper end of the placing box 9 at two sides, the adjacent sides of the placing box 9 at two sides and the workbench 1 are respectively provided with a first open slot 26, the lower end of the first open slot 26 at two sides is provided with a second open slot 27, both sides of the joint of the first open slot 26 at two sides and the second open slot 27 at two sides are fixedly connected with a baffle strip 19, the first open slot 26 at two sides and the second open slot 27 at two sides are respectively communicated with the placing cavities 10 at two sides, the inner size of the second open slot 27 is larger than the inner size of the first open slot 26, the cross-section size in the vertical direction of the first connecting plate 13 is matched with the cross-section size in the vertical direction of the second open slot 27, the placing cavity 10 in the placing box 9 is supported by the baffle strip 19, the second motor 21 drives the second lead screw 12 to rotate, so that the second slider 20 slides inside the second sliding groove 22, the first connecting plate 13 enters the lower end of the placing cavity 10 through the second opening groove 27, the electromagnet 14 is electrified to enable the electromagnet to have magnetism, the electromagnet 14 is magnetically connected with the nameplate at the lowest end, then the second motor 21 rotates reversely, and similarly, the first connecting plate 13 moves reversely, the nameplate at the lowest end is driven to move out of the first opening groove 26 through the electromagnet 14, the nameplate is moved to the lower end of the high-speed scanning galvanometer 8 to mark, when the mark is marked, the feeding mechanism at the other end works, after the mark is marked, the feeding mechanism at the other end drives the nameplate to move to the lower end of the high-speed scanning galvanometer 8 to continuously mark, the mark can be continuously marked, and the working efficiency of laser marking is effectively improved.

The utility model discloses a theory of operation is:

during the use, drive first lead screw 25 through the operation of first motor 5 and rotate to make first slider 24 go up and down in the inside of first sliding tray 23, thereby drive backup pad 7 and CO₂The radio frequency laser 6 and the high-speed scanning galvanometer 8 are used for adjusting the height, the radio frequency laser and the high-speed scanning galvanometer 8 are suitable for different nameplate printing requirements and are more convenient to adjust, the scales can be conveniently arranged and adjusted, the feeding mechanisms are arranged on two sides to form double stations, the marking efficiency of the nameplate is effectively improved, when the nameplate is marked, the nameplate is placed in the placing cavity 10 in the placing box 9 and is supported by the barrier strip 19, the second motor 21 drives the second lead screw 12 to rotate, so that the second sliding block 20 slides in the second sliding groove 22, the first connecting plate 13 enters the lower end of the placing cavity 10 through the second open groove 27, the electromagnet 14 is electrified to be magnetic, the electromagnet 14 is magnetically connected with the nameplate at the lowest end, then the second motor 21 rotates reversely, and similarly, the first connecting plate 13 moves reversely, the nameplate at the lowest end is driven to move out of the first open groove 26 through the electromagnet 14, move the 8 lower extremes of high-speed scanning galvanometer and beat the mark, when beating the mark, the feed mechanism of the other end carries out work, beats the mark and accomplishes afterwards, and the feed mechanism of opposite side drives the data plate and shifts to and continue to beat under the high-speed scanning galvanometer 8 and beat the mark, can realize incessant beating mark, effectively improves laser marking's work efficiency.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a novel quick laser marking machine of concatenation data plate, includes workstation (1), its characterized in that: the automatic feeding device is characterized in that feeding mechanisms are arranged on two sides of the upper end of the workbench (1), an installation rod (2) is installed on one side of the upper surface of the workbench (1), an installation support (3) is fixedly connected to one side of the installation rod (2), a display (4) is installed at one end, far away from the installation rod (2), of the installation support (3), a first sliding groove (23) is formed in one side, far away from the installation support (3), of the installation rod (2), a first motor (5) is installed at the upper end of the installation rod (2), a first lead screw (25) is fixedly connected to the output end of the first motor (5), the lower end of the first lead screw (25) penetrates through the first sliding groove (23), the lower end of the first sliding groove (23) is rotatably connected with the inner lower surface of the first sliding groove (23), a first sliding block (24) is connected to the outer side of the first lead screw (25) in a threaded manner, the first sliding block (24) is in sliding connection with the first sliding groove (23), a supporting plate (7) is fixedly connected to one end of the outer portion of the first sliding block (24), and CO is mounted on the upper surface of the supporting plate (7)₂A radio frequency laser (6), the CO₂One end of the radio frequency laser (6) is provided with a high-speed scanning galvanometer (8).

2. The novel spliced nameplate rapid laser marking machine of claim 1, characterized in that: the feeding mechanisms on two sides respectively comprise connecting rods (11), the connecting rods (11) are provided with two connecting rods and are arranged symmetrically on two sides, each connecting rod (11) is fixedly connected with one side of the workbench (1), a second sliding groove (22) is formed in the upper surface of each connecting rod (11), one end of each second sliding groove (22) penetrates through the inner portion of the upper end of the workbench (1), a second motor (21) is installed at one end of each second sliding groove (22), the output end of each second motor (21) is fixedly connected with a second lead screw (12), the other end of each second lead screw (12) penetrates through the inner portion of each second sliding groove (22) and is rotatably connected with one side of the inner portion of the second sliding groove (22), and a second sliding block (20) is in threaded connection with the outer side of each second lead screw (12), the upper end of the second sliding block (20) is fixedly connected with a first connecting plate (13), the middle of the upper surface of the first connecting plate (13) is provided with an electromagnet (14), and the connecting rods (11) on two sides are provided with a placing box (9) at the end far away from the workbench (1).

3. The novel spliced nameplate rapid laser marking machine of claim 2, characterized in that: both sides place the inside of case (9) and all seted up and place chamber (10) and both sides place chamber (10) and run through both sides respectively place the upper end and the outside intercommunication of case (9), both sides place case (9) with first fluting (26) have all been seted up to adjacent one side of workstation (1) both sides, both sides second fluting (27), both sides have all been seted up to the lower extreme of first fluting (26) and both sides the equal fixedly connected with blend stop (19) in both sides of the junction of second fluting (27), both sides first fluting (26) and second fluting (27) respectively with both sides place the inside intercommunication in chamber (10).

4. The novel spliced nameplate rapid laser marking machine of claim 3, wherein: the inner dimension of the second slot (27) is greater than the inner dimension of the first slot (26).

5. The novel spliced nameplate rapid laser marking machine of claim 2, characterized in that: the vertical section size of the first connecting plate (13) is matched with the vertical section size of the second open slot (27).