CN213497262U - Cutting jig and laser cutting system of adjustable absorption position - Google Patents

Abstract

The utility model provides a cutting jig of adjustable absorption position, including first adsorption device, second adsorption device, first displacement mechanism and second displacement mechanism. All be provided with at least one sucking disc on first adsorption equipment and the second adsorption equipment, first displacement mechanism connect in first adsorption equipment, second displacement mechanism connect in second adsorption equipment. The positions of the suckers on the first adsorption mechanism and the second adsorption mechanism are in different rows and columns. In the laser cutting process, the first adsorption mechanism and the second adsorption mechanism work alternately, the laser cutting position cannot be influenced, the glass position does not need to be adjusted manually, and the cutting efficiency is improved. When the adsorption mechanism is adjusted, the position of the glass and the position of the laser cutting equipment are not changed, and the cutting error of the glass is reduced.

Description

Cutting jig and laser cutting system of adjustable absorption position

Technical Field

The utility model belongs to the technical field of the cutting tool technique and specifically relates to indicate a cutting tool and laser cutting system of adjustable absorption position.

Background

Glass is an important industrial material, and is applied to various industries of national economy, such as the automobile industry, the building industry, medical treatment, displays, electronic products and the like, small optical filters with the size of a few micrometers, glass substrates of flat panel displays of notebook computers, and large-sized glass plates used in the large-scale manufacturing fields of the automobile industry or the building industry and the like. Glass is characterized by hard and brittle properties, which can cause great difficulty in processing.

In the prior art, glass is cut by laser, and unlike the conventional mechanical cutting tool, the energy of the laser beam cuts the glass in a non-contact manner. The energy heats a designated portion of the workpiece to a predefined temperature. This rapid heating process is followed by rapid cooling to produce a vertically oriented stress zone within the glass in which a crack occurs that is free of chips or cracks. Since cracks are generated only by heat, not by mechanical reasons, no chipping or microcracking occurs. But laser when cutting small-size glass, can receive the influence of tool, the absorptive region of tool can't effectively cut, needs artifical adjustment to adsorb the position and just can accomplish whole piece glass cutting, has increased the cost of labor, consequently urgent needs a tool that can adjust the absorption position in cutting process.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a can be at the cutting tool and the laser cutting system of laser cutting glass's in-process adjustment adsorption position, do not need the adsorption position of artifical adjustment tool, increase laser cutting glass's efficiency.

In order to solve the technical problem, the utility model discloses a technical scheme be:

in a first aspect, the present application provides a cutting jig with adjustable adsorption position, which includes a first adsorption mechanism, a second adsorption mechanism, a first displacement mechanism and a second displacement mechanism;

the first adsorption mechanism and the second adsorption mechanism are respectively provided with at least one sucker, the first displacement mechanism is connected to the first adsorption mechanism, and the second displacement mechanism is connected to the second adsorption mechanism;

the position of the sucker on the first adsorption mechanism is different from that of the sucker on the second adsorption mechanism.

Furthermore, the first adsorption mechanism comprises at least 2 cross beams, the cross beams are connected through a first connecting rod, each cross beam is provided with at least two bases, the first displacement mechanism is connected to the first connecting rod, the bases are uniformly arranged on one side of the cross beam away from the first displacement mechanism, a abdication groove is formed between every two adjacent bases, and the base is detachably connected with a sucker;

the second adsorption mechanism comprises at least 2 vertical beams, the vertical beams are connected through a second connecting rod, the second displacement mechanism is connected to the second connecting rod, and one side, far away from the second displacement mechanism, of each vertical beam is detachably connected with a sucker;

the vertical beam is arranged between the abdicating grooves, the suckers on the vertical beam and the cross beam are arranged in a staggered mode, and the first displacement mechanism and the second displacement mechanism are arranged on the same side.

Furthermore, the number of the cross beams is two, the two cross beams are arranged in parallel, each cross beam is provided with five bases, and four abdicating grooves are formed between the bases;

the number of the vertical beams is four, the four vertical beams are arranged in parallel, and each vertical beam is provided with three suckers;

the four vertical beams are correspondingly arranged among the four abdicating grooves.

Further, the sucking discs on the vertical beam are located at two ends and the center of the vertical beam, two adjacent sucking discs on the vertical beam form an avoiding position, and the cross beam corresponds to the avoiding position.

Further, first displacement mechanism and second displacement mechanism all include bottom connecting piece, elevating gear and top connecting piece, elevating gear includes body and expansion end, the bottom connecting piece connect in elevating gear's body, the top connecting piece connect in elevating gear's expansion end.

Furthermore, still be provided with first guide on the bottom connecting piece, be provided with the second guide on the connecting piece of top, first guide sliding connection in the second guide.

In a second aspect, the present application further provides a laser cutting system, which includes a control system, a laser cutting device, a displacement mechanism, a cutting jig, and a positioning device, wherein the laser cutting device, the displacement mechanism, the cutting jig, and the positioning device are all electrically connected to the control system, and the laser cutting device is mounted on the displacement mechanism;

the cutting jig comprises a first adsorption mechanism, a second adsorption mechanism, a first displacement mechanism and a second displacement mechanism;

the first adsorption mechanism and the second adsorption mechanism are respectively provided with at least one sucker, the first displacement mechanism is connected to the first adsorption mechanism, and the second displacement mechanism is connected to the second adsorption mechanism;

the position of the sucker on the first adsorption mechanism is different from that of the sucker on the second adsorption mechanism.

The utility model provides a cutting tool of adjustable absorption position, including first adsorption apparatus structure, second adsorption apparatus structure, first displacement mechanism and second displacement mechanism, first displacement mechanism is used for controlling the position of first adsorption apparatus structure, and second displacement mechanism is used for controlling the position of second adsorption apparatus structure, all is provided with at least one sucking disc on first adsorption apparatus structure and the second adsorption apparatus structure. When the jig works, the first adsorption mechanism fixes glass to be cut through the suckers, when the cutting positions are crossed with the positions of the suckers, the suckers of the second adsorption mechanism fix the glass, and the first adsorption mechanism is retracted under the driving of the first displacement mechanism. The position of the suction pad on the first suction mechanism is different from the position of the suction pad on the second suction mechanism. In the laser cutting process, the first adsorption mechanism and the second adsorption mechanism work alternately, the laser cutting position cannot be influenced, the glass position does not need to be adjusted manually, and the cutting efficiency is improved. When the adsorption mechanism is adjusted, the position of the glass and the position of the laser cutting equipment are not changed, and the cutting error of the glass is reduced.

Drawings

The specific structure of the present invention is detailed below with reference to the accompanying drawings:

fig. 1 is a perspective view of the cutting jig with adjustable adsorption position of the present invention during operation;

fig. 2 is a perspective view of the cutting jig with adjustable adsorption position of the present invention;

fig. 3 is a perspective view of a first adsorption mechanism of the cutting jig with adjustable adsorption position according to the present invention;

fig. 4 is a perspective view of the second adsorption mechanism of the cutting jig with adjustable adsorption position of the present invention.

In the figure: 10-a first adsorption mechanism, 11-a cross beam, 12-a first connecting rod, 13-a base, 14-an abdicating groove, 20-a second adsorption mechanism, 21-a vertical beam, 22-a second connecting rod, 23-an abdicating position, 30-a first displacement mechanism, 31-a bottom connecting piece, 32-a lifting device, 33-a top connecting piece, 40-a second displacement mechanism, 51-a first guiding piece and 52-a second guiding piece.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Laser cutting differs from conventional mechanical cutting tools in that the energy of the laser beam cuts the glass in a non-contact manner. The energy heats a designated portion of the workpiece to a predefined temperature. This rapid heating process is followed by rapid cooling to produce a vertically oriented stress zone within the glass in which a crack occurs that is free of chips or cracks. Since cracks are generated only by heat, not by mechanical reasons, no chipping or microcracking occurs. Thus, the strength of the laser cut edge is stronger than conventional scoring and separating approaches. But laser when cutting glass, can receive the influence of tool, the absorptive region of tool can't effectively cut, needs artifical adjustment to adsorb the position and just can accomplish whole piece glass cutting, has increased the cost of labor, consequently urgent needs a tool that can adjust the adsorption position in cutting process.

Referring to fig. 1 to 4, the present application provides a cutting jig with adjustable absorption position, which includes a first absorption mechanism 10, a second absorption mechanism 20, a first displacement mechanism 30 and a second displacement mechanism 40. The first displacement mechanism 30 is connected to the first adsorption mechanism 10, the second displacement mechanism 40 is connected to the second adsorption mechanism 20, and at least one suction cup is arranged on each of the first adsorption mechanism 10 and the second adsorption mechanism 20. The first displacement mechanism 30 is used to control the operating position of the first adsorption mechanism 10, and the second displacement mechanism 40 is used to control the operating position of the second adsorption mechanism 20. In this embodiment, the position of the suction cup on the first suction mechanism 10 is in a different row and column from the position of the suction cup on the second suction mechanism 20. In this embodiment, the suction cup is used to suck the glass, and other controllable suction devices with similar functions may be used. The sucking disc is connected with air compression equipment and realizes the atmospheric pressure change on sucking disc surface, and then the function of control sucking disc. In the practical use process, various air compression devices meeting the relevant functions can be adopted, and the application is not particularly limited.

By the above, the cutting jig with the adjustable adsorption position provided by the application comprises two independent sub-jig mechanisms. When the cutting jig works, the first adsorption mechanism 10 is close to the glass 100 to be cut under the control of the first displacement mechanism 30, the suction cups on the first adsorption mechanism 10 fix the glass 100 under the action of air pressure difference, and the laser cutting equipment emits laser to cut the glass 100. When the laser beam cuts to the position of the suction cup, in order to avoid damaging the suction cup, the second displacement mechanism 40 controls the second suction mechanism 20 to be close to the glass 100, and when the position of the second suction mechanism 20 is flush with the position of the first suction mechanism 10, the glass 100 is fixed by the suction cup on the second suction mechanism 20. The suction cups on the first suction mechanism 10 release the glass 100 while ensuring safety, and are controlled by the first displacement mechanism 30 to move away from the glass 100 to be cut. Since the position of the suction cup on the first suction mechanism 10 is different from the position of the suction cup on the second suction mechanism 20, the suction cup does not affect the cutting path of the laser beam after the suction mechanism is replaced. The application provides a cutting tool of adjustable absorption position can adjust the absorption position of tool in glass cutting process, does not need artifical the participation, has increased work efficiency, when the adjustment adsorbs the position, and glass's position and laser cutting equipment's position all do not change, have reduced glass's cutting error.

In the cutting jig of adjustable adsorption position that this application provided, first adsorption apparatus constructs 10 and second adsorption apparatus and constructs 20 positions that are used for fixed sucking disc, in order to ensure that the sucking disc that replaces on first adsorption apparatus constructs 10 and the second adsorption apparatus constructs 20 in the course of the work at the wheel can carry out effective absorption to glass, and the sucking disc position on first adsorption apparatus constructs 10 and the second adsorption apparatus constructs 20 can not be too far away mutually. In this embodiment, a scheme that the first adsorption mechanism 10 and the second adsorption mechanism 20 are arranged in a crossing manner is provided, which specifically includes the following steps:

the first adsorption mechanism 10 comprises at least 2 cross beams 11, the cross beams 11 are connected through a first connecting rod 12, and each cross beam 11 is provided with at least two bases 13. The first displacement mechanism 30 is connected with the first connecting rod 12, the bases 13 are uniformly arranged on one side of the cross beam 11 far away from the first displacement mechanism 30, the abdicating groove 14 is formed between the two bases 13, and each base 13 is detachably connected with a sucker.

The second adsorption device 20 comprises at least 2 vertical beams 21, the vertical beams 21 are connected through a second connecting rod 22, the second displacement mechanism 40 is connected to the second connecting rod 22, and one side, away from the second displacement mechanism 40, of each vertical beam 21 is detachably connected with a sucker.

When the vertical beams 21 are positioned between the abdicating grooves 14, the suckers on the vertical beams 21 and the suckers on the cross beams 11 are uniformly arranged in a crossed manner, so that the effective adsorption of the glass is realized. The vertical beams 21 are positioned between the abdicating grooves 14, and the suction cups on the vertical beams 21 are positioned between the bases 13, so that the suction cups on the cross beams 11 and the vertical beams 21 are not distributed in the same row. In this embodiment, the suction cups on the vertical beams 21 are arranged in a staggered manner from the position of the cross beam 11, so that the suction cups on the cross beam 11 and the vertical beams 21 are not distributed in the same row. The suckers on the cross beam 11 and the vertical beam 21 are arranged in different rows and columns, so that the suckers can adsorb different positions of the glass, and the cutting path of the laser beam cannot be influenced in alternate work.

When the first suction mechanism 10 and the second suction mechanism 20 are disposed to intersect with each other, the first displacement mechanism 30 and the second displacement mechanism 40 are disposed on the same side, and the suction cup is disposed on the other side, thereby fixing the glass.

In summary, the first adsorption mechanism 10 is composed of at least 2 cross beams 11, the second adsorption mechanism 20 is composed of at least 2 vertical beams 21, the vertical beams 21 are arranged between the bases 13 on the cross beams 11, so that the first adsorption mechanism 10 and the second adsorption mechanism 20 are arranged in a crossed manner, the positions of the suckers on the first adsorption mechanism 10 and the second adsorption mechanism 20 are not far apart, and the suckers on the first adsorption mechanism 10 and the second adsorption mechanism 20 can be ensured to effectively adsorb glass in the alternate working process. The sucking disc can be dismantled and connect in base 13 or erect roof beam 21, can change when sucking disc operating time is longer, ensures the stability of tool when fixed.

Preferably, the application provides an embodiment, the number of the cross beams 11 is two, the two cross beams 11 are arranged in parallel, five bases 13 are uniformly arranged on each cross beam 11, and four abdicating grooves 14 are formed between the five bases 13. Simultaneously, the number of the vertical beams 21 is four, the four vertical beams 21 are connected through the second connecting rod 22, each vertical beam 21 is evenly provided with three suckers, and the four vertical beams 21 are correspondingly arranged in the four yielding grooves 14. As can be seen from the above, the cross beam 11 and the vertical beam 21 are uniformly arranged in this embodiment, so that the suckers on the first adsorption mechanism 10 and the second adsorption mechanism 20 can effectively adsorb glass during the alternate work.

Further, three suckers on the vertical beam 21 are respectively located at two ends and the center of the vertical beam 21, an avoiding position 23 is formed between every two adjacent suckers, and the position of the cross beam 11 is arranged corresponding to the avoiding position 23. Sucking disc on the crossbeam 11 and the sucking disc on the perpendicular roof beam 21 distribute more evenly this moment, and the sucking disc distributes more rationally, takes turns to the during operation at first adsorption equipment 10 and second adsorption equipment 20, and is more even to glass's fixed effort, prevents to the inhomogeneous glass position slope that leads to the fact of glass adsorption affinity and then influence cutting accuracy.

In the cutting jig with the adjustable adsorption position provided by the application, the first displacement mechanism 30 and the second displacement mechanism 40 are respectively used for controlling the positions of the first adsorption mechanism 10 and the second adsorption mechanism 20, and the rotation work of the first adsorption mechanism 10 and the second adsorption mechanism 20 is realized. In this embodiment, the first and second displacement mechanisms 30 and 40 each include a bottom link 31, a lifting device 32, and a top link 33. The lifting device 32 may be a cylinder or a motor-driven lifting mechanism, the lifting device 32 includes a body and a movable end, the bottom connecting member 31 is connected to the body of the lifting device 32, and the top connecting member 33 is connected to the movable end of the lifting device 32. The alternate operation of the first adsorption mechanism 10 and the second adsorption mechanism 20 is controlled by the lifting device 32. In this embodiment, the top link 33 is connected to the first connecting rod 12 or the second connecting rod 22, and the top link 33 is moved away from or close to the glass by the control of the lifting device 32. In order to increase the stability of the first adsorption mechanism 10 and the second adsorption mechanism 20, a first guide 51 is installed on the bottom link 31, a second guide 52 is installed on the top link 33, and the first guide 51 is slidably connected to the second guide 52, so that the stability of the lifting device 32 during the displacement process is ensured.

Meanwhile, the application also provides a laser cutting system which comprises a control system, a laser cutting device, a displacement mechanism, a cutting jig and a positioning device.

The laser cutting device comprises a laser, a reflecting mirror, a vibrating mirror, a focusing mirror and other components and is used for generating laser beams and focusing the laser beams to the position of a material to be processed. The laser cutting device is arranged on the displacement mechanism and is driven by the displacement mechanism to change the cutting position. The positioning device is used for identifying the position of a material to be processed, the processing precision of the laser cutting system can be improved, and an industrial positioning camera is adopted to position the material in the embodiment. The laser cutting device, the displacement mechanism, the cutting jig and the positioning device are all connected to the control system through electric signals, and cutting work is carried out under the unified coordination of the control system.

In the laser cutting system that this application provided, the cutting tool includes first adsorption mechanism 10, second adsorption mechanism 20, first displacement mechanism 30 and second displacement mechanism 40. The first displacement mechanism 30 is connected to the first adsorption mechanism 10, the second displacement mechanism 40 is connected to the second adsorption mechanism 20, and at least one suction cup is arranged on each of the first adsorption mechanism 10 and the second adsorption mechanism 20. The first displacement mechanism 30 is used to control the operating position of the first adsorption mechanism 10, and the second displacement mechanism 40 is used to control the operating position of the second adsorption mechanism 20. In this embodiment, the position of the suction cup on the first suction mechanism 10 is in a different row and column from the position of the suction cup on the second suction mechanism 20.

By the aforesaid, cutting jig includes two independent sub tool mechanisms in this application. When the cutting jig works, the first adsorption mechanism 10 is close to the glass 100 to be cut under the control of the first displacement mechanism 30, the suction cups on the first adsorption mechanism 10 fix the glass 100 under the action of air pressure difference, and the laser cutting device cooperates with the displacement mechanism to cut the glass 100 along the cutting path. When the laser beam cuts to the position of the suction cup, in order to avoid damaging the suction cup, the second displacement mechanism 40 controls the second suction mechanism 20 to be close to the glass 100, and when the position of the second suction mechanism 20 is flush with the position of the first suction mechanism 10, the glass 100 is fixed by the suction cup on the second suction mechanism 20. The suction cups on the first suction mechanism 10 release the glass 100 while ensuring safety, and are controlled by the first displacement mechanism 30 to move away from the glass 100 to be cut. Since the position of the suction cup on the first suction mechanism 10 is different from the position of the suction cup on the second suction mechanism 20, the suction cup does not affect the cutting path of the laser beam after the suction mechanism is replaced. The application provides a laser cutting system can be in the absorption position of glass cutting in-process adjustment tool, does not need artifical the participation, has increased work efficiency, when the position is adsorbed in the adjustment, and glass's position and laser cutting equipment's position all do not change, have reduced glass's cutting error.

To sum up, the utility model provides a cutting jig of adjustable adsorption position specifically includes first adsorption apparatus structure, second adsorption apparatus structure, first displacement mechanism and second displacement mechanism, and first displacement mechanism is used for controlling first adsorption apparatus structure's position, and second displacement mechanism is used for controlling second adsorption apparatus structure's position, all is provided with at least one sucking disc on first adsorption apparatus structure and the second adsorption apparatus structure. When the jig works, the first adsorption mechanism fixes glass to be cut through the suckers, when the cutting positions are crossed with the positions of the suckers, the suckers of the second adsorption mechanism fix the glass, and the first adsorption mechanism is retracted under the driving of the first displacement mechanism. The position of the suction cup on the first suction mechanism is in a different row and column from the position of the suction cup on the second suction mechanism. In the laser cutting process, the first adsorption mechanism and the second adsorption mechanism work alternately, the laser cutting position cannot be influenced, the glass position does not need to be adjusted manually, and the cutting efficiency is improved. When the adsorption mechanism is adjusted, the position of the glass and the position of the laser cutting equipment are not changed, and the cutting error of the glass is reduced. First adsorption equipment constructs by 2 at least crossbeams and constitutes, and second adsorption equipment constructs by 2 at least perpendicular roof beams and constitutes, erects the roof beam and sets up between the base on the crossbeam to realize first adsorption equipment and second adsorption equipment cross arrangement, the sucking disc position on first adsorption equipment constructs and the second adsorption equipment differs not far, can ensure to take turns to the working process in sucking disc on first adsorption equipment constructs and the second adsorption equipment and can carry out effective absorption to glass. The sucking disc can be dismantled and connect in base or erect the roof beam, can change when sucking disc operating time is longer, ensures the stability of tool when fixed.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (7)

1. The utility model provides an adjustable cutting jig who adsorbs position which characterized in that: the device comprises a first adsorption mechanism, a second adsorption mechanism, a first displacement mechanism and a second displacement mechanism;

the first adsorption mechanism and the second adsorption mechanism are respectively provided with at least one sucker, the first displacement mechanism is connected to the first adsorption mechanism, and the second displacement mechanism is connected to the second adsorption mechanism;

the position of the sucker on the first adsorption mechanism is different from that of the sucker on the second adsorption mechanism.

2. The cutting jig with adjustable absorption position as claimed in claim 1, wherein:

the first adsorption mechanism comprises at least 2 cross beams, the cross beams are connected through a first connecting rod, at least two bases are arranged on each cross beam, the first displacement mechanism is connected to the first connecting rod, the bases are uniformly arranged on one side, away from the first displacement mechanism, of each cross beam, a abdicating groove is formed between every two adjacent bases, and a sucker is detachably connected to each base;

the second adsorption mechanism comprises at least 2 vertical beams, the vertical beams are connected through a second connecting rod, the second displacement mechanism is connected to the second connecting rod, and one side, far away from the second displacement mechanism, of each vertical beam is detachably connected with a sucker;

the vertical beam is arranged between the abdicating grooves, the suckers on the vertical beam and the cross beam are arranged in a staggered mode, and the first displacement mechanism and the second displacement mechanism are arranged on the same side.

3. The cutting jig with adjustable absorption position as claimed in claim 2, wherein:

the number of the cross beams is two, the two cross beams are arranged in parallel, five bases are arranged on each cross beam, and four abdicating grooves are formed between the bases;

the number of the vertical beams is four, the four vertical beams are arranged in parallel, and each vertical beam is provided with three suckers;

the four vertical beams are correspondingly arranged among the four abdicating grooves.

4. The cutting jig with adjustable absorption position as claimed in claim 3, wherein: the sucking discs on the vertical beam are positioned at two ends and the center of the vertical beam, two adjacent sucking discs on the vertical beam form an avoiding position, and the cross beam corresponds to the avoiding position.

5. The cutting jig with adjustable absorption position as claimed in claim 1, wherein: first displacement mechanism and second displacement mechanism all include bottom connecting piece, elevating gear and top connecting piece, elevating gear includes body and expansion end, the bottom connecting piece connect in elevating gear's body, the top connecting piece connect in elevating gear's expansion end.

6. The cutting jig with adjustable absorption position as claimed in claim 5, wherein: still be provided with first guide on the bottom connecting piece, be provided with the second guide on the connecting piece of top, first guide sliding connection in the second guide.

7. The utility model provides a laser cutting system, includes control system, laser cutting device, displacement mechanism, cutting tool and positioner, its characterized in that:

the laser cutting device, the displacement mechanism, the cutting jig and the positioning device are all in electric signal connection with the control system, and the laser cutting device is installed on the displacement mechanism;

the cutting jig comprises a first adsorption mechanism, a second adsorption mechanism, a first displacement mechanism and a second displacement mechanism;

the first adsorption mechanism and the second adsorption mechanism are respectively provided with at least one sucker, the first displacement mechanism is connected to the first adsorption mechanism, and the second displacement mechanism is connected to the second adsorption mechanism;

the position of the sucker on the first adsorption mechanism is different from that of the sucker on the second adsorption mechanism.

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