CN220144999U - Six-station laser engraving equipment - Google Patents

Abstract

The utility model discloses six-station laser marking equipment which comprises a frame, a side laser marker, a bottom laser marker and a control cabinet, wherein the upper surface of the frame is used as a workbench, the side laser marker and the bottom laser marker are arranged on the workbench, an equally dividing disc, a first screw rod linear module, a second screw rod linear module and a visual detection assembly are further arranged on the workbench, the first screw rod linear module is horizontally fixed on the workbench, a first cylinder is fixed on a screw rod sliding seat of the first screw rod linear module, the bottom laser marker is fixed on a piston rod of the first cylinder, the second screw rod linear module is vertically fixed on the workbench, a cylinder seat is fixed on the second screw rod sliding seat of the second screw rod linear module, the second cylinder is fixed on the piston rod of the second cylinder, and six clamping and positioning seats for placing bottles are arranged on the equally dividing disc. This structure improves work efficiency.

Description

Six-station laser engraving equipment

Technical Field

The utility model relates to the technical field of laser marking, in particular to six-station laser marking equipment.

Background

Laser marking machines are used to mark the surface of various substances with a laser beam, the effect of the marking (also called engraving) being to expose the deep substance by evaporation of the surface substance.

For some bottles, laser marking is required to be performed on the bottom and the side of the bottle 26 after finishing processing, production date information and component information of products inside the bottle 26 are marked, so that the later checking of users is facilitated, for example, patent number 201820526126.6 is provided, the patent name is a laser marking machine suitable for bottle bodies, the laser marking machine is mainly used for solving the problem that the final marking accuracy is affected due to position deviation of the bottles when the bottles are horizontally arranged, one bottle 26 is required to be manually placed into marking equipment from the structure, after one marking is finished, a machine is required to be stopped, then a new bottle 26 is placed into the marking position, the working efficiency is relatively low, the number of times that the machine is stopped once is more, the machine is easy to damage, meanwhile, only the side of the bottle 26 can be marked in the structure, after marking is finished, the bottle is required to be placed into equipment for marking the bottom of the bottle, the equipment processing cost is finally improved, and the working efficiency is further reduced, so that improvement is required.

Disclosure of Invention

The utility model aims to provide six-station laser marking equipment, which solves the problems that the existing laser standard-reaching machine provided in the background technology is low in working efficiency and can not realize simultaneous marking of the side face and the bottom.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a six station laser marking equipment, includes frame, side laser marking ware, bottom laser marking ware, is fixed with the switch board that is used for the control equipment work at the side of frame, the upper surface of frame is as the workstation, side laser marking ware, bottom laser marking ware set up its characterized in that on the workstation: the automatic bottle marking machine is characterized in that an equally dividing disc, a first lead screw linear module, a second lead screw linear module and a visual detection assembly for detecting bottles after marking are further arranged on the workbench, the first lead screw linear module is horizontally fixed on the workbench, a first cylinder stretching along the X-axis direction is fixed on a first lead screw sliding seat of the first lead screw linear module, a bottom laser marking device is fixed on a piston rod of the first cylinder, the second lead screw linear module is vertically fixed on the workbench, a cylinder seat is fixed on a second lead screw sliding seat of the second lead screw linear module, a second cylinder stretching along the Y-axis direction is fixed on the cylinder seat, the second side laser marking device is fixed on a piston rod of the second cylinder, and the side laser marking device and the bottom laser marking device realize simultaneous marking operation on the same bottle.

Preferably, in order to reduce the part, visual detection subassembly include visual fixing support, side visual detector and bottom visual detector, visual fixing support fix on the workstation, visual fixing support on be provided with the crossbeam, the crossbeam is located the top of one of them centre gripping positioning seat, the bottom of crossbeam is provided with the side visual detector that carries out video detection to the bottle side, side visual detector is used for detecting the bottle on the centre gripping positioning seat under, one side of crossbeam is provided with the linking bridge of perpendicular crossbeam, the side of linking bridge is provided with bottom visual detector, bottom visual detector is used for carrying out video detection to the bottle bottom, and side visual detector and bottom visual detector are used for detecting same bottle.

Preferably, in order to fix the bottle conveniently, a clamping groove is formed in the clamping positioning seat, the bottle is horizontally placed in the clamping groove, and the bottle bottom is exposed out of the outer side face of the clamping positioning seat.

Preferably, a baffle is arranged between two adjacent clamping and positioning seats in order to ensure that two adjacent bottles do not influence each other.

Preferably, in order to fix the baffles conveniently, one side of each baffle is clamped in a clamping seat, and the clamping seat is fixed on the workbench.

Preferably, for improving safety, a protective cover with openings at two sides is arranged above the machine frame relative to the equal dividing disc, the outer side of the protective cover is used as a feed inlet, a protective cover for covering all the side laser marker, the bottom laser marker and the visual detection assembly is further arranged on the workbench, and two cabinet doors are arranged at two sides of the protective cover.

As the preference, conveniently adjust the height, improve the stability after laying moreover the bottom of frame is provided with four pulleys and several locating component, and every locating component include one with frame bottom fixed connection's adjusting screw and with adjusting screw threaded connection's adjusting nut, adjusting nut's below is fixed with the spacer bush, the activity of adjusting screw part is pegged graft in the spacer bush bottom is provided with the silica gel pad.

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

1. the structure is provided with six stations, so that six bottles can be placed at one time, and then the bottles are conveyed by the working rotation of the dividing disc, so that the working efficiency is further improved;

2. later stage, the station is far away from the imprinting station, so that the safety is further improved;

3. simultaneously, side and bottom simultaneous imprinting is adopted in marking, so that the working efficiency is further improved, and independent side imprinting or independent bottom imprinting can be performed at the later stage according to the product requirement, so that one machine is multipurpose;

4. the manual work does not need to stand at the side edge of the marking station all the time, so that the manual operation time is shortened, and the labor cost is further reduced.

Drawings

FIG. 1 is a schematic diagram of a six-station laser engraving device in accordance with embodiment 1;

FIG. 2 is a schematic structural diagram of a six-station laser marking apparatus shown in FIG. 1;

FIG. 3 is a schematic diagram of a six-station laser engraving device according to embodiment 1 without a protective cover;

fig. 4 is a schematic diagram of a combination structure of the bottom laser marker, the first linear screw module and the first cylinder in embodiment 1;

fig. 5 is a schematic diagram of a combined structure of the side laser marker, the screw rod linear module two, the cylinder seat and the cylinder two in the embodiment 1;

fig. 6 is a schematic view showing the bottom structure of the frame in embodiment 1;

fig. 7 is an enlarged view at a of fig. 3.

In the figure: the device comprises a frame 1, a side laser marker 2, a bottom laser marker 3, a control cabinet 4, a workbench 5, an equal dividing disc 6, a first screw linear module 7, a first screw slide seat 7-1, a second screw linear module 8, a second screw slide seat 8-1, a visual detection assembly 9, a visual fixing support 901, a side visual detector 902, a bottom visual detector 903, a cross beam 904, a connecting support 905, a first cylinder 10, a cylinder seat 11, a second cylinder 12, a clamping positioning seat 13, a clamping groove 14, a baffle 15, a clamping seat 16, a feed port 17, a protective cover 18, a protective cover 19, a cabinet door 20, a pulley 21, an adjusting screw 22, an adjusting nut 23, a positioning sleeve 24, a silica gel pad 25 and a bottle 26.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-7, the disclosed six-station laser marking device includes a frame 1, a side laser marker 2, and a bottom laser marker 3, a control cabinet 4 for controlling the device to work is fixed on a side of the frame 1, an upper surface of the frame 1 is used as a workbench 5, the side laser marker 2 and the bottom laser marker 3 are disposed on the workbench 5, and the disclosed six-station laser marking device is characterized in that: the automatic bottle marking machine is characterized in that an equally dividing disc 6, a first lead screw linear module 7, a second lead screw linear module 8 and a visual detection assembly 9 for detecting bottles after marking are further arranged on the workbench 5, the first lead screw linear module 7 is horizontally fixed on the workbench 5, a first cylinder 10 stretching along the X-axis direction is fixed on a first lead screw sliding seat 7-1 of the first lead screw linear module 7, a bottom laser marking device 3 is fixed on a piston rod of the first cylinder 10, the second lead screw linear module 8 is vertically fixed on the workbench 5, a cylinder seat 11 is fixed on a second lead screw sliding seat 8-1 of the second lead screw linear module 8, a second cylinder 12 stretching along the Y-axis direction is fixed on the cylinder seat 11, the side laser marking device 2 and the bottom laser marking device 3 achieve simultaneous marking operation on the same bottle, and six clamping positioning seats 13 for placing are arranged on the equally dividing disc 6.

Preferably, in order to reduce the components, the visual inspection assembly 9 comprises a visual fixing support 901, a side visual inspection 902 and a bottom visual inspection 903, wherein the visual fixing support 901 is fixed on the workbench 5, a cross beam 904 is arranged on the visual fixing support 901, the cross beam 904 is positioned above one of the clamping and positioning seats 13, the bottom of the cross beam 904 is provided with the side visual inspection 902 for inspecting the bottle on the clamping and positioning seat 13 under the bottle side, the side visual inspection 902 is used for inspecting the bottle on the clamping and positioning seat 13 under the bottle side, one side of the cross beam 904 is provided with a connecting support 905 of the vertical cross beam 904, the side of the connecting support 905 is provided with the bottom visual inspection 903, the bottom visual inspection 903 is used for inspecting the bottom of the bottle, and the side visual detector 902 and the bottom visual detector 903 are used for detecting the same bottle, in the structure, the bottom visual detector 903 and the side visual detector 902 are both cameras, the side visual detector 902 and the bottom visual detector 903 are electrically connected with the control cabinet 4, photographing of the side and bottom of the bottle 26 moving to the station below the side visual detector 902 and the bottom visual detector 903 by the side visual detector 902 and the bottom visual detector 903 is guaranteed, then the photographed image is sent to the control cabinet 4, the preset marking requirement after analysis is detected after the photo is obtained by the control cabinet 4, and an alarm in the control cabinet 4 is used for alarming and reminding once the requirement is not met, or the bottle 26 is directly turned back to the marking station through the equal dividing disc 6 for marking again. The specific structure of the control cabinet 4 and how to electrically connect the side vision detector 902 and the bottom vision detector 903 are described in the present utility model, which is not described in detail.

Preferably, in order to fix the bottle conveniently, a clamping groove 14 is arranged on the clamping and positioning seat 13, the bottle is horizontally placed in the clamping groove 14, the bottle bottom exposes out of the outer side surface of the clamping and positioning seat 13, and the bottle 26 is limited by arranging the clamping groove 14, so that the bottle is prevented from falling from the clamping and positioning seat 13 along with the rotation of the dividing disc 6.

Preferably, in order to ensure that two adjacent bottles 26 do not affect each other, a baffle 15 is disposed between two adjacent clamping and positioning seats 13, and by disposing the baffle 15, safety is improved, and the two adjacent bottles 26 are prevented from affecting each other.

Preferably, in order to fix the baffles conveniently, one side of each baffle 15 is clamped in a clamping seat 16, the clamping seat 16 is fixed on the workbench 5, in this embodiment, the baffles 15 are firstly clamped on the clamping seat 16, the clamping seat 16 and the baffles 15 can be fixed by screws in the later stage, and the clamping seat 16 is directly fixed on the workbench 5 by screws, so that the baffles 15 can be further conveniently fixed.

As shown in fig. 1 and 2, preferably, in order to improve the safety, a protective cover 18 with two open sides is provided on the frame 1 above the dividing plate 6, the outer side of the protective cover 18 is used as a feed port 17, a protective cover 19 covering all of the side laser marker 2, the bottom laser marker 3 and the vision detection component 9 is further provided on the workbench 5, two sides of the protective cover 19 are provided with a cabinet door 20, and in this embodiment, the cabinet door 20 is convenient to open in a later period for maintenance and detection of internal equipment by setting the cabinet door 20, and meanwhile, the protective cover 19 and the protective cover 18 are provided to improve the safety.

As the preference, conveniently adjust the height, improve the stability after laying in addition be provided with four pulleys 21 and several locating component in the bottom of frame 1, every locating component include one with frame 1 bottom fixed connection's adjusting screw 22 and with adjusting screw 22 threaded connection's adjusting nut 23, adjusting nut 23's below is fixed with the spacer 24, adjusting screw 22 part activity peg graft in the spacer 24 bottom is provided with silica gel pad 25, not only can conveniently remove through the setting of above-mentioned structure in this embodiment, when removing, guarantee through rotatory adjusting nut 23 that the silica gel pad 25 of below breaks away from with ground, then utilize pulley 21 to realize quick movement, when fixing simultaneously, contact with ground after the silica gel pad 25 of below is driven to stretch out and draw back through rotatory adjusting nut 23.

The specific working principle of the structure is as follows:

firstly, a bottle 26 is placed on six clamping and positioning seats 13 in sequence manually, then an equal dividing disc 6 is driven to rotate, when one bottle 26 rotates to a marking station (the marking station is correspondingly provided with the side laser marker 2 and the bottom laser marker 3), after the control cabinet 4 acquires information, the side laser marker 2 and the bottom laser marker 3 are driven to carry out marking treatment according to set marking requirements, in the marking process, a screw rod linear module I7 is operated to drive a screw rod sliding seat I7-1 to horizontally move so as to adjust the marking direction, meanwhile, a cylinder I10 is operated to stretch along the X-axis direction so as to adjust the moving position of the bottom laser marker 3, so that the bottom of the bottle 26 is marked with various information (including product information, product production time and the like), the screw rod linear module II 8 drives the screw rod slide seat II 8-1 to move up and down in the same way, meanwhile, the cylinder II 12 works to stretch and retract along the Y-axis direction to adjust the side laser marker 2 to realize the marking of each information on the side surface of the bottle 26, after the marking is finished, the marked bottle 26 is moved to a detection station under the action of the equal dividing disc 6, the visual detection assembly 9 is utilized to detect the marked parts on the side surface and the bottom of the bottle, after the marking, the equal dividing disc 6 continues to rotate and is conveyed to the next working station, and finally, the bottle is taken by a user, the structure further improves the working efficiency due to the fact that six stations are arranged at one time, then the six bottles 26 are conveyed through the working rotation of the equal dividing disc 6, and in the later period, the working station is far away from the marking station, the safety is further improved, and meanwhile, the side surface and the bottom are adopted for simultaneous marking during the marking, further improving work efficiency, later stage can carry out independent side face marking or independent bottom marking according to the product requirement, realizes a tractor serves several purposes, and the manual work need not stand at the marking station side always moreover, shortens manual operation time, further reduces the cost of labor.

The utility model needs to be explained that the control cabinet 4 as a device for controlling the operation of the device needs to be electrically connected with the side laser marker 2, the bottom laser marker 3, the equal dividing disc 6, the first screw linear module 7, the second screw linear module 8, the side visual detector 902, the bottom visual detector 903, the first cylinder 10 and the second cylinder 12 to realize data transmission, and how to electrically connect and control the device is a conventional technology in the field, so that the device is not specifically described, meanwhile, the equal dividing disc 6 comprises a turntable, a gear and a motor for controlling the turntable to operate, all the specific structures of the first screw linear module 7, the second screw linear module 8, the side laser marker 2 and the bottom laser marker 3 belong to the prior art, and the device is directly available and can not be described in detail.

Claims (7)

1. Six station laser marking equipment, including frame (1), side laser marking ware (2), bottom laser marking ware (3), be fixed with in the side of frame (1) and be used for control cabinet (4) of control equipment work, the upper surface of frame (1) is as workstation (5), side laser marking ware (2), bottom laser marking ware (3) set up workstation (5), its characterized in that: the automatic bottle marking machine is characterized in that an equally dividing disc (6), a first screw linear module (7), a second screw linear module (8) and a visual detection assembly (9) for detecting bottles subjected to marking are further arranged on the workbench (5), the first screw linear module (7) is horizontally fixed on the workbench (5), a first cylinder (10) stretching along the X-axis direction is fixed on a first screw sliding seat (7-1) of the first screw linear module (7), a bottom laser marking device (3) is fixed on a piston rod of the first cylinder (10), the second screw linear module (8) is vertically fixed on the workbench (5), a cylinder seat (11) is fixed on a second screw sliding seat (8-1) of the second screw linear module (8), a second cylinder (12) stretching along the Y-axis direction is fixed on a piston rod of the second cylinder (12), and six clamping seats (13) for placing the bottles are arranged on the equally dividing disc (6).

2. A six-station laser engraving apparatus as defined in claim 1, wherein: visual detection subassembly (9) include visual fixing support (901), side visual detector (902) and bottom visual detector (903), visual fixing support (901) fix on workstation (5), visual fixing support (901) on be provided with crossbeam (904), crossbeam (904) are located the top of one of them centre gripping positioning seat (13), the bottom of crossbeam (904) is provided with side visual detector (902) that carries out video detection to bottle side, side visual detector (902) are used for detecting the bottle on centre gripping positioning seat (13) under to, one side of crossbeam (904) is provided with linking bridge (905) of perpendicular crossbeam (904), the side of linking bridge (905) is provided with bottom visual detector (903), bottom visual detector (903) are used for carrying out video detection to bottle bottom, and side visual detector (902) and bottom visual detector (903) are used for detecting same bottle.

3. A six-station laser engraving apparatus as defined in claim 2, wherein: the clamping and positioning seat (13) is provided with a clamping groove (14), the bottle is horizontally placed in the clamping groove (14), and the bottle bottom is exposed out of the outer side face of the clamping and positioning seat (13).

4. A six-station laser engraving apparatus as defined in claim 3, wherein: a baffle (15) is arranged between two adjacent clamping and positioning seats (13).

5. The six-station laser engraving apparatus of claim 4, wherein: one side of each baffle (15) is clamped in a clamping seat (16), and the clamping seat (16) is fixed on the workbench (5).

6. The six-station laser engraving apparatus of claim 5, wherein: the automatic marking machine is characterized in that a protective cover (18) with openings on two sides is arranged above the machine frame (1) relative to the equal dividing disc (6), a feeding hole (17) is formed in the outer side of the protective cover (18), a protective cover (19) for covering all the side laser marking device (2), the bottom laser marking device (3) and the visual detection assembly (9) is further arranged on the workbench (5), and cabinet doors (20) are arranged on two sides of the protective cover (19).

7. The six-station laser engraving apparatus as defined in claim 6, wherein: the bottom of frame (1) is provided with four pulleys (21) and several locating component, and every locating component includes one with frame (1) bottom fixed connection's adjusting screw (22) and with adjusting screw (22) threaded connection's adjusting nut (23), the below of adjusting nut (23) is fixed with spacer bush (24), adjusting screw (22) part activity peg graft in spacer bush (24) be provided with silica gel pad (25) in spacer bush (24) bottom.