CN107932765B - A kind of cutting base station and cutting equipment - Google Patents

Abstract

The present invention provides a kind of cutting base station and cutting equipment, and the cutting base station includes: pedestal；Multiple splicing blocks are provided with fluting on at least part of splicing block, and at least partly described splicing block in multiple splicing blocks is respectively provided on the base, and the surface far from the pedestal is mutually spliced to form substrate placed side；Wherein, it is arranged in the splicing block on the base, at least partly splicing block is provided with fluting, and on the substrate placed side, the fluting on the different splicing blocks is spliced to form the cutting path in correspondence region to be cut.The cutting base station constitutes cutting base station by the way that multiple splicing blocks are arranged, so that the manufacturing cost of cutting base station reduces, and saves a large amount of manufacturing time.

Description

A kind of cutting base station and cutting equipment

Technical field

The present invention relates to display fabrication techniques field, a kind of cutting base station and cutting equipment are referred in particular to.

Background technique

In display manufacturing, progress substrate cut is essential technical process, for being by entire substrate cut Multiple independent substrates, the display equipment for needing size and shape is made.

As shown in fig.1, needing for cutting board to be cut to be placed on cutting base station 1, wherein cutting when carrying out substrate cut The corresponding required matched fluting 2 of size and shape setting for cutting the small area substrate formed on base station is cut, when formation is cut Laser path, to complete cutting process.

With the development of display technology, show that structure and the shape of equipment are increasing, according to Fig. 1, for different structure The substrate cut that equipment is shown with shape, then need to design different cutting base stations.Since the fabrication cycle of cutting base station is longer, It usually requires two months, therefore for a variety of display products of different shapes, when carrying out product design by cutting base The manufacturing time of platform and the limitation of cost, when especially carrying out cutting relevant technical identification, this inconvenience is especially apparent, and is caused Influence the progress of product design and manufacture.

Summary of the invention

The purpose of technical solution of the present invention is to provide a kind of cutting base station and cutting equipment, for solving cutting for the prior art The display product that base station is only applicable to single shape is cut, for the display product of different structure form, needs to manufacture cutting respectively Base station, the problem for causing the efficiency of cost waste and product design and manufacture lower.

The embodiment of the present invention provides a kind of cutting base station, wherein the cutting base station includes:

Pedestal；

Multiple splicing blocks are provided with fluting on at least part of splicing block, and in multiple splicing blocks at least The part splicing block is respectively provided on the base, and the surface far from the pedestal is mutually spliced to form substrate placed side；

Wherein, it is arranged in the splicing block on the base, at least partly splicing block is provided with fluting, the substrate On placed side, the fluting on the different splicing blocks is spliced to form the cutting path in corresponding region to be cut.

Preferably, the cutting base station, wherein multiple splicing blocks, including first part's splicing block are arranged in institute Formation substrate placed side on pedestal is stated, the fluting on the different splicing blocks is spliced to form cutting for the region to be cut of first shape Cut the first state in path；And substrate placed side, different institutes are formed on the base including the setting of second part splicing block State the fluting on splicing block be spliced to form the second shape region to be cut cutting path the second state.

Preferably, the cutting base station, wherein connector is respectively arranged on each splicing block, by described Connector, the splicing block can be detachably connected with the base.

Preferably, the cutting base station, wherein the pedestal is made of ferromagnetic metal material, the connector It is made of magnetic material, on the base, the connector and pedestal absorption connect for the splicing block setting.

Preferably, the cutting base station, wherein each splicing block is respectively formed as hexahedral shape, and setting exists Two adjacent sides of the splicing block on the pedestal, the two neighboring splicing block are fitted and connected.

Preferably, the cutting base station, wherein multiple vacuum absorption holes, each spelling are provided on the pedestal Connect the through-hole that multiple connection first end faces and second end face are provided on block；Wherein the splicing block is set on the pedestal, The first end face forms a portion of the substrate placed side, and the second end face is fitted and connected with the pedestal, institute Through-hole is stated to be connected with the vacuum absorption holes.

Preferably, the cutting base station, wherein sealing ring, the sealing ring are additionally provided on each splicing block Side setting between the first end face and the second end face.

Preferably, the cutting base station, wherein multiple splicing blocks include the first splicing block, wherein described first It is set on splicing block to be recessed in the first end face far from the pedestal, from the first side adjacent with the first end face Extend to the second side opposite with first side；Multiple splicing blocks further include the second splicing block, second splicing block Upper set is recessed in the first end face far from the pedestal, extends to from the first side adjacent with the first end face The third side adjacent with first side.

Preferably, the cutting base station, wherein the fluting on first splicing block is arranged along a straight line, and described Fluting on two splicing blocks is formed as winding arc, or is sequentially connected and including at least two along the portion of different straight lines setting Point.

The embodiment of the present invention also provides a kind of cutting equipment, wherein including described in any item cutting base stations as above.

At least one of specific embodiment of the invention above-mentioned technical proposal has the advantages that

Base station is cut described in the embodiment of the present invention, by the way that multiple splicing blocks are arranged, is formed using splicing form for placing The mode of the substrate placed side of cutting board to be cut, the cutting base station of difference display product, part splicing block can reuse, nothing It need to carry out entirely cutting designing and manufacturing for base station, so that the manufacturing cost of cutting base station reduces, and save a large amount of system Make the time.

Detailed description of the invention

Fig. 1 is the planar structure schematic diagram that the prior art cuts base station；

Fig. 2 is the planar structure schematic diagram that base station is cut described in the specific embodiment of the invention；

Fig. 3 is the schematic diagram of the section structure that base station is cut described in the specific embodiment of the invention；

Fig. 4 is in cutting base station described in the specific embodiment of the invention, wherein the schematic diagram of the section structure of a splicing block；

Fig. 5 is in cutting base station described in the specific embodiment of the invention, wherein the overlooking structure diagram of a splicing block；

Fig. 6 is the planar structure schematic diagram of pedestal in cutting base station described in the specific embodiment of the invention；

Fig. 7 a to Fig. 7 e is in cutting base station described in the specific embodiment of the invention, and the splicing block of set different structure is put down Face structural schematic diagram.

Specific embodiment

To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool Body embodiment is described in detail.

The specific embodiment of the invention provides a kind of cutting base station, by the way that multiple splicing blocks are arranged, is formed using splicing form For placing the mode of the substrate placed side of cutting board to be cut, for the small area substrate of different shapes to be cut, only need The splicing block with removable parts is designed, without carrying out designing and manufacturing for entire cutting base station, so that cutting base station Manufacturing cost reduces, and saves a large amount of manufacturing time.

Specifically, as shown in Figures 2 and 3, cutting base station described in the specific embodiment of the invention specifically includes:

Pedestal 10；

Multiple splicing blocks 20, in specific Fig. 2, on pedestal 10, each section divided by a dotted line is formed as a spelling Block 20 is connect, is wherein at least provided with fluting 21 on the splicing block 20 of part, and at least partly splicing block in multiple splicing blocks 20 20 are arranged on pedestal 10, and the surface far from pedestal 10 is mutually spliced to form substrate placed side 22；

Wherein, at least partly splicing block 20 for the splicing block 20 being arranged on pedestal 10 is provided with fluting 21, puts in substrate It sets on face 22, the fluting 21 on different splicing blocks 20 is spliced to form the cutting path 40 in corresponding region 30 to be cut.

Specifically, the cutting path 40 on substrate placed side 22 is formed as along the edge setting in region 30 to be cut, each portion The groove body of split-phase connection, the shape in region 30 to be cut, size and to be cut the shape to form small area substrate, size Match.When cutting board to be cut is placed on substrate placed side 22, cutting laser beam can be scanned along cutting path 40, make area to be cut Domain 30 is mutually separated with cutting board to be cut, furthermore by the groove body for 21 splits formation of respectively slotting on each splicing block 20, avoids light beam energy It is enough reflected on cutting board to be cut, causes the damage for treating cutting substrate.

In the specific embodiment of the invention, multiple splicing blocks, including first part's splicing block are set on the base to form substrate Placed side, the fluting on different splicing blocks are spliced to form the first state of the cutting path in the region to be cut of first shape；With And be set on the base including second part splicing block and to form substrate placed side, the fluting on different splicing blocks is spliced to form second Second state of the cutting path in the region to be cut of shape.

The splicing block of above structure form is used to form first part's splicing block and use in the region to be cut of first shape It may include the identical splicing block in part in the second part splicing block in region to be cut for forming the second shape, it is right in this way In the substrate of the different product form for the formation of being cut, it is only necessary to which the splicing block of removable parts, part splicing block can repeat It utilizes, is only applicable in reduce and design and manufacture the entirely cost of cutting base station and time, the cutting base station for solving the prior art In the display product of single shape, for the display product of different structure form, needs to manufacture cutting base station respectively, cause cost The lower problem of the efficiency of waste and product design and manufacture.

In the specific embodiment of the invention, in conjunction with shown in Fig. 2 and Fig. 3, each splicing block 20 is respectively placed in the flat of pedestal 10 On table top 11, which is formed as plane, wherein each splicing block 20 is also respectively formed far from the flat surface 11 of pedestal 10 For plane, it is to be parallel to that each splicing block 20, which is set to the substrate placed side 22 that when institute's split is formed in the flat surface 11 of pedestal 10, The plane of flat surface 11.

Further, in the specific embodiment of the invention, refering to Fig. 3, each splicing block 20 is respectively formed as hexahedral shape, if The splicing block 20 on pedestal 10 is set, two adjacent sides of two neighboring splicing block 20 are fitted and connected.Using the set-up mode, In the flat surface 11 of pedestal 10, each splicing block 20 is successively arranged along ranks, and is closely connected between adjacent splicing block 20, It is not spaced.

In addition, passing through connector 23, splicing block as shown in fig.4, be respectively arranged with connector 23 on each splicing block 20 20 can be detachably connected with pedestal 10.Specifically, in the specific embodiment of the invention, pedestal 10 uses ferromagnetic metal material system At, splicing block is made of aluminium or aluminum alloy materials, and but it is not limited to this, and connector 23 is made of magnetic material, wherein When splicing block 20 is arranged in the flat surface 11 of pedestal 10, the flat surface 11 of connector 23 and pedestal 10, which is adsorbed, to be connected.Using this Mode, when 10 over-assemble splicing block 20 of pedestal forms cutting base station, it is only necessary to splicing block 20 is placed on pedestal 10, it can Enough realize the close connection of splicing block 20 and pedestal 10；When separating splicing block 20 with pedestal 10, it is only necessary to overcome splicing block Magnetic adsorptive power between 20 and pedestal 10, the installation and removal process of above-mentioned splicing block 20 is simply, conveniently.

Preferably, using connector 23 made of magnetic material at least two, Ke Yifen in the specific embodiment of the invention It is casually arranged on the baseplane for being placed in splicing block 20, and the baseplane of connector 23 and the baseplane of splicing block 20 are located at same put down Face, when being installed on pedestal 10, the baseplane of the baseplane of connector 23 and splicing block 20 with the flat surface 11 of pedestal 10 It is fitted and connected.

Further, in conjunction with Fig. 3 to Fig. 6, multiple vacuum absorption holes 12 is provided on pedestal 10, are arranged on each splicing block 20 There is the through-hole 26 of multiple connection first end faces 24 and second end face 25；Wherein splicing block 20 is set on pedestal 10, first end face 24 form a portion of substrate placed side, and second end face 25 (corresponding above-mentioned baseplane) is fitted and connected with pedestal 10, leads to Hole 26 is connected with vacuum absorption holes 12.

According to Fig. 4 and Fig. 5, different number of open can be set in the first end face 24 and second end face 25 of splicing block 20 Hole, as long as first end face 24 can be enable, which to be connected to formation with the aperture in second end face 25, penetrates 20 first end face 24 of splicing block With the through-hole of second end face 25.

In the specific embodiment of the invention, preferably, being also respectively provided with sealing on each splicing block 20 refering to Fig. 4 and Fig. 5 Circle 50, side setting of the sealing ring 50 between the first end face 24 and second end face 25 of splicing block 20.It specifically, can be with By opening up groove on four sides of splicing block 20 and connector 23, sealing ring 50 is embedded to the shape of inside grooves Sealing ring 50 is installed on splicing block 20 by formula.Further, preferably, on the side of splicing block 20, sealing ring 50 is set to Splicing block 20 makes the through-hole 26 of splicing block 20 and pedestal 10 by the setting of sealing ring 50 close to the position of second end face 25 Sealing is realized between vacuum absorption holes, to avoid gas leakage.

Using above-mentioned set-up mode, in conjunction with Fig. 2 to Fig. 6, base station is cut described in the specific embodiment of the invention, when will be to be cut Cutting board is placed in the splicing of multiple splicing blocks 20 when being formed by substrate placed side 22, by using vacuum adsorption equipment the bottom of to The vacuum absorption holes 12 of seat 10 carry out suction vacuum processing, using the through-hole 26 being connected on splicing block 20 with vacuum absorption holes 12, to Cutting substrate, which can adsorb, to be fixed on cutting base station, and movement when cutting is avoided.

In the specific embodiment of the invention, preferably, according to fig. 2 and Fig. 3, on the section for being parallel to substrate placed side 22, Preferably, each splicing block 20 is formed as regular quadrangle.The splicing block 20 that can certainly be formed as part is regular quadrangle, portion The splicing block 20 divided is rectangular structure.

Specifically, for example, on the section for being parallel to substrate placed side 22, the size of each splicing block 20 can be The quadrangle of 25mm × 25mm, by the size of unified each splicing block 20, so that constituting different structure shape region to be cut Splicing block 20 may be implemented to exchange.In addition, splicing block 20 can also design and produce 1mm × 25mm, 2mm × 25mm, 5mm × 25mm Etc. other sizes, to realize the filling when splicing of different structure shape region to be cut.

Further, it preferably, refering to Fig. 2 and Fig. 3, is provided on each splicing block 20 of fluting 21, set fluting 21 Depth it is identical, and perpendicular to fluting 21 extending direction, slot 21 each position point it is of same size, such as fluting 21 Depth can be 8mm, width 1.5mm is certainly not limited in the design size.

When illustrating only part splicing block in the embodiment of the present invention, in Fig. 2 and being set on pedestal 10, multiple 20 phases of splicing block It is spliced to form a kind of state in the region to be cut of shape, the part splicing block 20 in replacement Fig. 2 slots 21 on splicing block 20 Shape difference when, multiple 20 phases of splicing block can be made to be spliced to form the region to be cut of another shape.

Specifically, multiple splicing blocks (area to be cut including that with split can be at least one shape of the cutting base station Whole splicing blocks in domain), it may include the first splicing block, wherein set the be recessed at far from pedestal on the first splicing block On one end face, opposite second side is extended to from the first side adjacent with first end face；Multiple splicing blocks further include second Splicing block, it is set on the second splicing block to be recessed in the first end face far from pedestal, from adjacent with first end face first Side extends to adjacent third side.

Specifically, refering to Fig. 7 a to Fig. 7 e, in Fig. 7 a and Fig. 7 b, fluting 21 set by splicing block 20 is set along a straight line It sets, in first end face 24, extends to opposite with first side 241 from the first side 241 adjacent with first end face 24 Two side faces 242 are formed as the first splicing block；In Fig. 7 c to Fig. 7 d, fluting 21 set by splicing block 20 includes at least two Be sequentially connected and along different straight lines setting part, in first end face 24, from the first side 241 adjacent with first end face 24 The third side 243 adjacent with first side 241 is extended to, the second splicing block is formed as；In figure 7e, set by splicing block 20 Fluting 21 be formed as winding arc, in first end face 24, from the first side 241 adjacent with first end face 24 extend to The adjacent third side 243 of first side 241, is formed as the second splicing block.

In conjunction with Fig. 2, the first above-mentioned splicing block be can be set in a wherein edge in region 30 to be cut, the second splicing block It can be set in the corner location in region to be cut, when being set to the fixation of first splicing block at edge in region 30 to be cut, The second splicing block by switching corner location is fluting of different shapes, thus it is possible to vary the region to be cut that splicing block is spliced 30 shape.

It therefore,, can be with for the display product of different structure form using cutting base station described in the specific embodiment of the invention Pass through the splicing block mode of only removable parts, it can realize and cut to a kind of structure type cutting base station to another structure type The switching of base station, part splicing block can reuse, so that the cost for designing and manufacturing entire cutting base station and time are reduced, The cutting base station for solving the prior art is only applicable to the display product of single shape, for the display product of different structure form, It needs to manufacture cutting base station respectively, the problem for causing the efficiency of cost waste and product design and manufacture lower.

On the other hand the specific embodiment of the invention also provides a kind of cutting equipment, the cutting base station including structure as above, knot Close attached drawing and more than detailed description, those skilled in the art should be able to understand to be cut using described in the specific embodiment of the invention The specific structure for cutting the cutting equipment of base station, is no longer described in detail herein.

Above-described is the preferred embodiment of the present invention, it should be pointed out that the ordinary person of the art is come It says, under the premise of not departing from principle of the present invention, can also make several improvements and retouch, these improvements and modifications should also regard For protection scope of the present invention.

Claims (10)

1. a kind of cutting base station, which is characterized in that the cutting base station includes:

Pedestal；

Multiple splicing blocks are provided with fluting on at least part of splicing block, and in multiple splicing blocks at least partly The splicing block is respectively provided on the base, and the surface far from the pedestal is mutually spliced to form substrate placed side；

Wherein, it is arranged in the splicing block on the base, at least partly splicing block is provided with fluting, and the substrate is placed On face, the fluting on the different splicing blocks is spliced to form the cutting path in corresponding region to be cut.

2. cutting base station according to claim 1, which is characterized in that multiple splicing blocks, including first part's splicing Block setting forms substrate placed side on the base, and the fluting on the different splicing blocks is spliced to form the to be cut of first shape Cut the first state of the cutting path in region；And substrate is formed on the base including the setting of second part splicing block and is placed Face, the fluting on the different splicing blocks are spliced to form the second state of the cutting path in the region to be cut of the second shape.

3. cutting base station according to claim 1, which is characterized in that be respectively arranged with connection on each splicing block Part, by the connector, the splicing block can be detachably connected with the base.

4. cutting base station according to claim 3, which is characterized in that the pedestal is made of ferromagnetic metal material, The connector is made of magnetic material, and on the base, the connector and the pedestal are inhaled for the splicing block setting It is attached to connect.

5. cutting base station according to claim 1, which is characterized in that each splicing block is respectively formed as hexahedron Shape, is arranged the splicing block on the base, and two adjacent sides of the two neighboring splicing block are fitted and connected.

6. cutting base station according to claim 1, which is characterized in that multiple vacuum absorption holes are provided on the pedestal, The through-hole of multiple connection first end faces and second end face is provided on each splicing block；Wherein the splicing block is set to institute It states on pedestal, the first end face forms a portion of the substrate placed side, and the second end face and the pedestal paste Connection is closed, the through-hole is connected with the vacuum absorption holes.

7. cutting base station according to claim 6, which is characterized in that it is additionally provided with sealing ring on each splicing block, The sealing ring is around the side setting between the first end face and the second end face.

8. cutting base station according to claim 1, which is characterized in that multiple splicing blocks include the first splicing block, Described in it is set on the first splicing block be recessed in the first end face far from the pedestal, from adjacent with the first end face First side extend to the second side opposite with first side；Multiple splicing blocks further include the second splicing block, described It is set on second splicing block to be recessed in the first end face far from the pedestal, from adjacent with the first end face first Side extends to the third side adjacent with first side.

9. cutting base station according to claim 8, which is characterized in that the fluting on first splicing block is set along a straight line It sets, the fluting on second splicing block is formed as winding arc, or is sequentially connected and including at least two along different straight lines The part of setting.

10. a kind of cutting equipment, which is characterized in that including the described in any item cutting base stations of claim 1 to 9.