CN114589416A

CN114589416A - High-precision laser cutting equipment for mobile phone film

Info

Publication number: CN114589416A
Application number: CN202210355413.6A
Authority: CN
Inventors: ***; 魏方敏
Original assignee: Shenzhen Lihengmei Electronic Technology Co ltd
Current assignee: Shenzhen Lihengmei Electronic Technology Co ltd
Priority date: 2022-04-06
Filing date: 2022-04-06
Publication date: 2022-06-07
Anticipated expiration: 2042-04-06
Also published as: CN114589416B

Abstract

The invention relates to the technical field of laser cutting, in particular to high-precision laser cutting equipment for a mobile phone film. The laser cutting assembly comprises an equipment shell, a control panel, an observation window, a radiating fin, a feed inlet, a first electric guide rail, a laser cutter, a plate fitting platform, a side wing guide groove, an electric control guide block and a lead-in clamping groove, and can be used for preventing the mobile phone film from moving all the time after being placed; the phenomenon of fold on the mobile phone film can be prevented, and the fold of the mobile phone film is prevented from influencing the normal cutting of the mobile phone film.

Description

High-precision laser cutting equipment for mobile phone film

Technical Field

The invention relates to the technical field of laser cutting, in particular to high-precision laser cutting equipment for a mobile phone film.

Background

Laser cutting is a process in which a workpiece is heated by a high energy density laser beam to rapidly increase the temperature, and the material reaches its boiling point in a very short time, begins to vaporize, forming a vapor. These vapors are ejected at a high speed, and the material is cut while the vapors are ejected, so that the application range of the laser cutting apparatus is wide, for example: in the process of cutting the mobile phone film according to the model, laser cutting equipment is used.

The laser cutting equipment for the current mobile phone film has the following problems: the position of the mobile phone film cannot be uniquely fixed, so that the mobile phone film is cut in continuous movement, and the phenomenon that the mobile phone film slips easily occurs due to the fact that the mobile phone film is cut in continuous movement, so that the cutting of the shaped mobile phone film has great deviation, and even the cut mobile phone film cannot be used.

Disclosure of Invention

The invention aims to provide high-precision laser cutting equipment for mobile phone films, which solves the problems in the process.

In order to achieve the purpose, the invention provides the following technical scheme: a high-precision laser cutting device for a mobile phone film is characterized in that a rolling component is located on one side of the inner end of the laser cutting component, the laser cutting component comprises a device shell, a control panel, an observation window, a radiating fin, a feed inlet, a first electric guide rail, a laser cutter, a plate material matching platform, a side wing guide groove, an electric control guide block and a lead-in clamping groove, the control panel is embedded in one side of the upper end of the device shell, the observation window is arranged at the middle end of the device shell, the radiating fin is fixed at one end of the device shell, the feed inlet penetrates through the end far away from the control panel, the first electric guide rail is fixed on one side of the inner end of the device shell, the laser cutting component is sleeved on the first electric guide rail, the plate material matching platform is fixed at the end close to the feed inlet in the device shell, the side wing guide groove is formed in the middle side of the end of the plate material matching platform, the electric control guide blocks are symmetrically positioned at two sides of the inner end of the side wing guide groove, and the carrying-in clamping groove is formed in the middle side of the upper end of the electric control guide block;

the laser cutting assembly further comprises a film sticking and cutting positioning plate fixed with a mobile phone cutting film, and the film sticking and cutting positioning plate is matched with high-precision laser cutting equipment to work and is used for cutting the mobile phone film.

Preferably, the two sides of the inner end of the device shell are symmetrically provided with second electric guide rails connected by screws, wherein the second electric guide rails are positioned at two sides of the plate material inosculating platform, one side of the inner end of the second electric guide rails is provided with a movable slide block, wherein one side of the upper end of the movable sliding block is provided with a fixedly connected inner limiting plate, the middle side of one end of the inner limiting plate is provided with a fixedly connected forward top plate, wherein one side of the consequent top plate is provided with an arc-shaped dislocation block, the other end of the arc-shaped dislocation block is provided with a locking lower pressing rod which is fixedly connected, wherein one side of the upper end of the arc-shaped dislocation block is provided with fixedly connected branch connecting rods, a fixedly connected synchronous control rod is arranged between the two branch connecting rods, the upper side of the middle end of the synchronous control rod is provided with an I-shaped penetrating rod in a penetrating way, the upper end of the I-shaped penetration rod is fixed on the equipment shell, and the I-shaped penetration rod is sleeved with a reaction spring.

Preferably, the inner both sides of feed inlet are run through and are placed the cross-under pole, wherein carry out fixed connection between the one end of cross-under pole and the interior limiting plate, the one end medial side of cross-under pole is run through and is seted up and align the slot, and wherein the other end of cross-under pole arranges fixed connection's avris carrier bar, two place fixed connection's mobile phone membrane between the avris carrier bar and place the board, the one end of avris carrier bar evenly sets up the interior groove, and wherein the slider about the interior upside in interior groove has been placed, supporting baseplate has evenly been placed to the inner in interior groove, and wherein the deformation elastic rod has been placed to the inner in interior groove, dislocation set between deformation elastic rod and the supporting baseplate, wherein adopt the buckle to be connected between supporting baseplate and the deformation elastic rod, the anti-deflection pole has been placed to avris carrier bar upper end, wherein carry out fixed connection between anti-deflection pole and the slider about and.

Preferably, but roll the subassembly and wear the groove, increase the distance groove, lower connecting rod, roll the roller, protection overcoat and insert the push pedal including telescopic link, assembly even board, reverse returning face plate, roll the roller, the distance adjusting, wherein the assembly even board is fixed at the lower extreme of telescopic link, reverse returning face plate symmetry swing joint is at the both ends of assembly even board, and wherein the groove is worn to the distance adjusting runs through and sets up the middle-end upside at reverse returning face plate, increase the distance groove and run through and set up the middle-end downside at reverse returning face plate, and wherein the lower extreme at reverse returning face plate is fixed to the connecting rod down, roll the roller activity and arrange the inner of connecting rod under, wherein protection overcoat cover is in the outside of rolling the roller, insert the one end of push pedal swing joint connecting rod under.

Preferably, the telescopic rod runs through the one end of the equipment shell and is arranged, wherein the telescopic rod is connected with the equipment shell through a buckle, the reverse turnover plate is connected with the assembly connecting plate through a torsion spring, the distance increasing groove runs through the distance adjusting penetrating groove and is formed, the lower connecting rod is connected with the rolling roller through a rotating shaft, and the inserting push plate is located right above the bringing-in clamping groove.

Preferably, the assembly even board one end bilateral symmetry arranges fixed connection's extension sideboard, and wherein fixed connection's lift accuse frame is arranged to the extension sideboard other end, the distance regulating plate has been placed to lift accuse frame's inner downside, and wherein place first spring apart from the regulating plate upper end, lift accuse frame one end is run through and is seted up the groove of lining up, and wherein link branch has been run through to arrange on one side of the groove of lining up.

Preferably, adopt the buckle to be connected between linkage branch and the distance adjusting plate, wherein the tip perk pole has been placed to the below of linkage branch, but fixed connection's extensible pole is arranged to tip perk pole one end, and wherein the articulated upper end of connecting at the arc dislocation piece of the other end of extensible pole, but extensible pole one end embedding arranges the fulcrum post that the pivot is connected, and wherein the other end of fulcrum post is fixed on equipment shell.

Preferably, two distance-adjusting wear groove one end is passed through and is arranged an extrusion activity section of thick bamboo, and wherein extrusion activity section of thick bamboo lower extreme is run through and is arranged the fault, the both ends bilateral symmetry of extrusion activity section of thick bamboo arranges integrated into one piece's lock position lug, and wherein extrusion activity section of thick bamboo middle-end is run through and is arranged T shape guide bar, T shape guide bar is fixed on telescopic link, and wherein the roof that resets is placed to extrusion activity section of thick bamboo upper end one side, the roof that resets runs through assembly even board and arranges, and wherein the upper end of the roof that resets is fixed in telescopic link upper end.

Preferably, the film cutting positioning plate comprises:

positioning the slab layer; and

covering the release film positioning layer attached on the positioning plate layer;

the positioning plate layer comprises a positioning plate hard layer and a film fixing layer covering the upper surface of the positioning plate hard layer, and the release film positioning layer is attached to the upper surface of the positioning plate hard layer through the adhesion or adsorption effect of the film fixing layer;

from type membrane location layer including playing the location limit that leans on the limit location effect, the region that the fixed layer of membrane that the location limit did not cover formed is the location laminating district for the fixed cutting membrane of laminating.

Preferably, the release film positioning layer further comprises a release film which can be uncovered and taken away, and before cutting operation, the release film covers and is attached to a positioning and attaching area formed by the film fixing layer and used for dust prevention.

Preferably, the positioning edge has various shapes, including single-edge positioning, 2-edge positioning, 3-edge positioning or 4-edge positioning.

Compared with the prior art, the invention has the beneficial effects that:

1. the mobile phone cutting film is fixed on the film sticking and cutting positioning plate, and the film sticking and cutting positioning plate can not move all the time after being placed;

2. by the arrangement of the mobile phone film cutting device, the mobile phone film can be rolled before being cut, so that the phenomenon of wrinkles on the mobile phone film can be prevented, and the influence of the wrinkles on the mobile phone film on the normal cutting of the mobile phone film is avoided.

3. The mobile phone cutting film is fixed on the film sticking cutting positioning plate, and the film sticking cutting positioning plate replaces the existing large-size cutting sheet, so that the paper feeding and pressing function is realized, the cutting material can be greatly saved, the cost is reduced, and the environment is protected.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic semi-sectional perspective view of the housing of the apparatus of the present invention;

FIG. 4 is a schematic front view of a half-section of a membrane mounting plate for a mobile phone according to the present invention;

FIG. 5 is a perspective view of the telescoping rod of the present invention;

FIG. 6 is a right side view of the extendable rod of the present invention;

FIG. 7 is a schematic semi-sectional view of a three-dimensional lifting control frame of the sheet metal anastomosis platform of the present invention;

FIG. 8 is a schematic structural view of the present invention;

FIG. 9 is an enlarged view taken at A in FIG. 4 according to the present invention;

FIG. 10 is an enlarged view of the invention at B in FIG. 5;

FIG. 11 is an enlarged view taken at C of FIG. 5 in accordance with the present invention;

FIG. 12 is an enlarged view taken at D of FIG. 3 in accordance with the present invention;

fig. 13 is a structural view of a film cutting positioning plate according to an embodiment of the present invention;

FIG. 14 is a sectional view of a positioning plate for cutting a film according to the present invention;

fig. 15 is a structural view of a film cutting positioning plate according to a second embodiment of the present invention;

in the figure: the device comprises a device shell 1, a second electric guide rail 101, a movable sliding block 102, an inner limit plate 103, a forward top plate 104, an arc-shaped dislocation block 105, a locking lower pressing rod 106, a branch connecting rod 107, a synchronous control rod 108, an I-shaped penetrating rod 109, a reaction spring 1010, a control panel 11, an observation window 12, a heat radiating fin 13, a feed inlet 14, a transverse penetrating rod 1401, an alignment slot 1402, a side bearing rod 1403, a mobile phone film placing plate 1404, a content slot 1405, an upper sliding block 1406, a lower sliding block 1407, a support bottom plate 1408, a deformation elastic rod 1408, an anti-bias rod 1409, a first electric guide rail 15, a laser cutter 16, a plate inosculating platform 17, a side wing guide slot 18, an electric control guide block 19, a carrying slot 110, a telescopic rod 2, an assembly connecting plate 21, an extension side plate 2101, a lifting control frame 2102, a distance adjusting plate 2103, a through slot 2104, a linkage supporting rod 2105, an end tilting rod 2106, an extensible rod 2107, a supporting point post 2108, a reverse plate 22, The adjustable-distance punching groove 23, the extrusion movable cylinder 2301, the locking protrusion 2302, the T-shaped guide rod 2303, the reset top plate 2304, the distance increasing groove 24, the lower connecting rod 25, the rolling roller 26, the protective outer sleeve 27, the insertion push plate 28, the positioning plate layer 31, the positioning plate hard layer 311, the film fixing layer 312, the release film positioning layer 32, the positioning edge 321 and the release film 322.

Detailed Description

Features and exemplary embodiments of various aspects of the present invention will be described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the present invention by illustrating examples of the present invention. The present invention is in no way limited to any specific configuration and algorithm set forth below, but rather covers any modification, replacement or improvement of elements, components or algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques are not shown in order to avoid unnecessarily obscuring the present invention.

Referring to fig. 1 to 15, the present invention provides a technical solution: the laser cutting assembly is positioned at one side of the inner end of the laser cutting assembly, wherein the laser cutting assembly comprises an equipment shell 1, a control panel 11, an observation window 12, a heat dissipation fin 13, a feed inlet 14, a first electric guide rail 15, a laser cutter 16, a plate material matching platform 17, a side wing guide groove 18, an electric control guide block 19 and a carrying-in clamping groove 110, the control panel 11 is embedded into one side of the upper end of the equipment shell 1, the observation window 12 is arranged at the middle end of the equipment shell 1, the heat dissipation fin 13 is fixed at one end of the equipment shell 1, the feed inlet 14 penetrates through one end far away from the control panel 11, the first electric guide rail 15 is fixed at one side of the inner end of the equipment shell 1, the laser cutter 16 is sleeved on the first electric guide rail 15, the plate material matching platform 17 is fixed at one end close to the feed inlet 14 in the equipment shell 1, the side wing guide groove 18 is arranged in the middle of one end of the plate material inosculating platform 17, the electric control guide blocks 19 are symmetrically arranged on two sides of the inner end of the side wing guide groove 18, and the carrying clamping groove 110 is arranged in the middle of the upper end of the electric control guide blocks 19.

By means of the first electric guide rail 15, the laser cutter 16 can slide longitudinally, so as to cut the width of the mobile phone film, and the mobile phone film placing plate 1404 enters the inside of the device housing 1 through the feed opening 14.

Second electric guide rails 101 connected by screws are symmetrically arranged on two sides of the inner end of the equipment shell 1, wherein the second electric guide rails 101 are positioned on two sides of the plate material inosculating platform 17, a movable slide block 102 is arranged on one side of the inner end of the second electric guide rails 101, wherein, an inner limiting plate 103 which is fixedly connected is arranged at one side of the upper end of the movable sliding block 102, a forward top plate 104 which is fixedly connected is arranged at the middle side of one end of the inner limiting plate 103, wherein one side of the consequent top plate 104 is provided with an arc-shaped dislocation block 105, the other end of the arc-shaped dislocation block 105 is provided with a locking lower pressing rod 106 which is fixedly connected, wherein one side of the upper end of the arc-shaped dislocation block 105 is provided with fixedly connected branch connecting rods 107, a fixedly connected synchronous control rod 108 is arranged between the two branch connecting rods 107, the upper side of the middle end of the synchronous control rod 108 is provided with an I-shaped penetrating rod 109 in a penetrating way, wherein the upper end of the I-shaped penetration rod 109 is fixed on the equipment shell 1, and the I-shaped penetration rod 109 is sleeved with a reaction spring 1010.

A transverse rod 1401 is arranged at the two sides of the inner end of the feed inlet 14 in a penetrating way, wherein one end of the transverse rod 1401 is fixedly connected with the inner limiting plate 103, an alignment slot 1402 is arranged at the middle side of one end of the transverse rod 1401 in a penetrating way, wherein the other end of the transverse bar 1401 is provided with a fixedly connected side bearing bar 1403, a fixedly connected mobile phone film placing plate 1404 is placed between the two side bearing bars 1403, one end of the side bearing bar 1403 is uniformly provided with content grooves 1405, wherein, the upper and lower sliders 1406 are arranged at the upper side of the inner end of the content groove 1405, the supporting bottom plate 1407 is evenly arranged at the inner end of the content groove 1405, wherein, the inner end of the containing groove 1405 is provided with a deformation elastic rod 1408, the deformation elastic rod 1408 and the supporting bottom plate 1407 are arranged in a staggered way, wherein adopt the buckle to be connected between supporting baseplate 1407 and the deformation elastic rod 1408, the anti-deflection pole 1409 has been placed to avris carrier bar 1403 upper end, wherein carries out fixed connection between anti-deflection pole 1409 and the slider 1406 from top to bottom.

The pad pasting cutting locating plate includes:

a positioning sheet layer 31; and

a release film positioning layer 32 covering and attached to the positioning sheet layer 31;

the positioning plate layer 31 comprises a positioning plate hard layer 311 and a film fixing layer 312 covering the upper surface of the positioning plate hard layer 311, and the release film positioning layer 32 is attached to the upper surface of the positioning plate hard layer 311 through the adhesion or adsorption effect of the film fixing layer 312;

the release film positioning layer 32 comprises a positioning edge 321 for positioning by edge, and the area formed by the film fixing layer 312 uncovered by the positioning edge 321 is a positioning and adhering area for adhering and fixing the cutting film.

The release film positioning layer 32 further comprises a release film 322 which can be uncovered and taken away, and before cutting operation, the release film 322 covers and attaches a positioning and attaching area formed on the film fixing layer 312 for dust prevention.

The positioning edge 321 has various shapes, including single-edge positioning, 2-edge positioning, 3-edge positioning, or 4-edge positioning.

The film sticking and cutting positioning plate fixed with the mobile phone cutting film is placed on the mobile phone film placing plate 1404, in the placing process, two end parts of the film sticking and cutting positioning plate are respectively inserted into the aligning slots 1401, so that the position of the film sticking and cutting positioning plate is favorably and preliminarily corrected, the further movable sliding block 102 slides on the second electric guide rail 101, the transverse penetrating rod 1401 pulls the side bearing rod 1403 at the moment, the mobile phone film placing plate 1404 gradually penetrates through the feed inlet 14 to enter the inside of the equipment shell 1, meanwhile, in the moving process of the transverse penetrating rod 1401, the forward top plate 104 pushes the arc-shaped dislocation block 105, the anti-loosening lower pressing rod 106 and the branch connecting rod 107 move upwards at the moment, the further synchronous control rod 108 slides on the I-shaped penetrating rod 109, and the reverse acting spring 1010 is subjected to force accumulation deformation, and when the mobile phone film placing plate 1404 is completely positioned on the plate material matching flat plate 17, under the effect of the spring 1010 for attack, the anti-loose pressing rod 106 can press down the anti-bias rod 1409, at the moment, the upper and lower sliding blocks 1406 slide in the inner part of the containing groove 1405, the deformation elastic rod 1408 deforms, and the further anti-bias rod 1409 can press down the two sides of the film sticking and cutting positioning plate.

One of the deformable spring rods 1408 is snap-fit with the upper and lower sliders 1406.

The first electric guide rail 101 can drive the movable slider 102 to move transversely, so that the laser cutter 16 can cut the length of the mobile phone film.

The rolling component comprises a telescopic rod 2, an assembly connecting plate 21, a reverse turning plate 22, a distance adjusting through groove 23, a distance increasing groove 24, a lower connecting rod 25, a rolling roller 26, a protective outer sleeve 27 and an inserting push plate 28, wherein the assembly connecting plate 21 is fixed at the lower end of the telescopic rod 2, the reverse turning plate 22 is symmetrically and movably connected at two ends of the assembly connecting plate 21, the distance adjusting through groove 23 penetrates through the upper side of the middle end of the reverse turning plate 22, the distance increasing groove 24 penetrates through the lower side of the middle end of the reverse turning plate 22, the lower connecting rod 25 is fixed at the lower end of the reverse turning plate 22, the rolling roller 26 is movably arranged at the inner end of the lower connecting rod 25, the protective outer sleeve 27 is sleeved outside the rolling roller 26, and the inserting push plate 28 is movably connected at one end of the lower connecting rod 25.

The insertion push plate 28 is connected with the lower connecting rod 25 by a torsion spring.

The telescopic rod 2 can drive the assembly connecting plate 21 and the reverse overturning plate 22 to move downwards, in the process that the assembly connecting plate 21 and the reverse overturning plate 22 move downwards, the inserting push plate 2108 can firstly enter the interior of the bringing-in clamping groove 110, at the moment, the electric control guide block 19 can slide on the side wing guide groove 18 to the two sides of the plate material matching platform 17, at the moment, the telescopic rod 2 moves downwards, the reverse overturning plate 22 is opened, the rolling roller 26 rolls on the mobile phone film by means of the protective outer sleeve 27, and wrinkles of the mobile phone film before cutting can be prevented.

The telescopic rod 2 penetrates through one end of the equipment shell 1 to be arranged, wherein the telescopic rod 2 is connected with the equipment shell 1 through a buckle, the reverse overturning plate 22 is connected with the assembly connecting plate 21 through a torsion spring, the distance increasing groove 24 penetrates through the distance adjusting penetrating groove 23 to be formed, the lower connecting rod 25 is connected with the rolling roller 26 through a rotating shaft, and the inserting push plate 28 is located right above the bringing-in clamping groove 110.

Fixedly connected extending side plates 2101 are symmetrically arranged on two sides of one end of an assembly connecting plate 21, a fixedly connected lifting control frame 2102 is arranged at the other end of each extending side plate 2101, a distance adjusting plate 2103 is placed on the lower side of the inner end of each lifting control frame 2102, a first spring is placed at the upper end of each distance adjusting plate 2103, a through groove 2104 is formed in one end of each lifting control frame 2102 in a penetrating mode, and a linkage supporting rod 2105 is arranged on one side of each through groove 2104 in a penetrating mode.

Meanwhile, in order to adjust the position of the folded mobile phone film in the flattening process, the linkage support rod 2105 presses the end tilting rod 2106, at the moment, under the action of the support point post 2108, one end of the extensible rod 2107 tilts, the arc-shaped dislocation block 105 and the anti-loosening pressing rod 106 move upwards, the anti-deviation rod 1409 cannot press the mobile phone film, and therefore the anti-deviation rod 1409 cannot influence the adjustment of the mobile phone film in the flattening process of the flattening roller 26.

Adopt the buckle to be connected between linkage branch 2105 and the distance adjusting plate 2103, wherein tip stick up pole 2106 has been placed to the below of linkage branch 2105, and fixed connection's extensible pole 2107 is arranged to tip stick up pole 2106 one end, and wherein the articulated upper end of connecting at arc dislocation piece 105 of the other end of extensible pole 2107, the fulcrum post 2108 that the pivot is connected is arranged in the embedding of extensible pole 2107 one end, and wherein the other end of fulcrum post 2108 is fixed on equipment housing 1.

Further in order to prevent the tilting angle of the extendable rod 2107 from being too large, the distance adjusting plate 2103 can slide in the assembly connecting plate 21, and the first spring deforms, so that the linkage strut 2105 can press the end tilting rod 2106, and the tilting angle of the extendable rod 2107 can be prevented from being too large.

Two roll adjustment wear 23 one end and pass across and arrange extrusion activity section of thick bamboo 2301, wherein extrusion activity section of thick bamboo 2301 lower extreme is run through and is arranged the fault, extrusion activity section of thick bamboo 2301's both ends bilateral symmetry arranges integrated into one piece's lock position lug 2302, wherein extrusion activity section of thick bamboo 2301 middle-end is run through and is arranged T shape guide bar 2303, T shape guide bar 2303 is fixed on telescopic link 2, wherein extrusion activity section of thick bamboo 2301 upper end one side is placed and is reset roof 2304, it runs through assembly even board 21 and arranges to reset roof 2304, wherein the upper end that resets roof 2304 is fixed in telescopic link 2 upper end.

The lower end of the T-shaped guide rod 2303 is sleeved with a second spring, and the reset top plate 2304 is fixed on a part of the telescopic rod 2 which cannot stretch out and draw back.

In the using process of the rolling roller 26, according to the actual rolling condition, the rolling roller 26 can only move outwards and cannot reset when being attached to the mobile phone film, so that the rolling roller 26 can only enlarge the wrinkles of the mobile phone film, in order to avoid the above condition, the extrusion movable cylinder 2301 can perform position adjustment on the distance adjusting through groove 23 by means of the T-shaped guide rod 2303 in the opening process of the reverse turning plate 22, and after the mobile phone film is rolled, the locking protrusion 2302 deforms on the extrusion movable cylinder 2301 and penetrates through the distance adjusting through groove 23, at this time, the locking protrusion 2302 pushes the two reverse turning plates 22, so that the reverse turning plate 22 cannot reset.

Further shrink telescopic link 2, with the help of roof 2304 that resets, can move down extrusion activity section of thick bamboo 2301, when extrusion activity section of thick bamboo 230 goes to move to the position of range finding groove 24, reverse returning plate 22 contracts, and two reverse returning plate 22 contained angles diminish to in the process middle part of second spring, extrusion activity section of thick bamboo 2301 can get back to the inside of range finding wear groove 23 again.

After the release film 322 is uncovered, the mobile phone film to be cut is attached and fixed in the positioning and attaching area, the film attaching and cutting positioning plate attached with the mobile phone film is placed into laser cutting equipment to be cut, the mobile phone film is removed from the film attaching and cutting positioning plate after film cutting operation, the film attaching and cutting positioning plate can be used for cutting the film for the next time, a bottom supporting mode of the film attaching and cutting positioning plate is adopted, the film attaching and cutting positioning plate replaces the existing large-size cutting piece, the paper feeding and pressing functions are achieved, cutting materials can be greatly saved, and cost is reduced.

Different features which are present in different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art upon studying the drawings, the specification, and the claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first", "second" are used to denote a name and not to denote any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various parts appearing in the claims may be implemented by a single hardware or software module. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

Claims

1. The utility model provides a high accuracy laser cutting equipment of cell-phone membrane, includes the laser cutting subassembly that has the cell-phone membrane and puts positive restriction function and roll out the subassembly with prevent cell-phone membrane fold function, its characterized in that: the flattening component is positioned on one side of the inner end of the laser cutting component, the laser cutting component comprises a device shell (1), a control panel (11), an observation window (12), a radiating fin (13), a feed port (14), a first electric guide rail (15), a laser cutter (16), a plate material inosculating platform (17), a side wing guide groove (18), an electric control guide block (19) and a carrying-in clamping groove (110), the control panel (11) is embedded into one side of the upper end of the device shell (1), the observation window (12) is arranged at the middle end of the device shell (1), the radiating fin (13) is fixed at one end of the device shell (1), the feed port (14) penetrates through one end far away from the control panel (11), the first electric guide rail (15) is fixed at one side of the inner end of the device shell (1), and the laser cutting component (16) is sleeved on the first electric guide rail (15), the plate material inosculating platform (17) is fixed at one end, close to the feeding hole (14), in the equipment shell (1), wherein a side wing guiding groove (18) is formed in the middle side of one end of the plate material inosculating platform (17), the electric control guide blocks (19) are symmetrically positioned on two sides of the inner end of the side wing guiding groove (18), and a carrying-in clamping groove (110) is formed in the middle side of the upper end of the electric control guide block (19);

2. The high-precision laser cutting device for the mobile phone film as claimed in claim 1, wherein: the two sides of the inner end of the equipment shell (1) are symmetrically provided with second electric guide rails (101) connected by screws, wherein the second electric guide rails (101) are positioned on two sides of a plate material inosculating platform (17), one side of the inner end of the second electric guide rails (101) is provided with a movable sliding block (102), one side of the upper end of the movable sliding block (102) is provided with a fixedly connected inner limiting plate (103), the middle side of one end of the inner limiting plate (103) is provided with a fixedly connected forward top plate (104), one side of the forward top plate (104) is provided with an arc dislocation block (105), the other end of the arc dislocation block (105) is provided with a fixedly connected anti-loosening lower compression bar (106), one side of the upper end of the arc dislocation block (105) is provided with fixedly connected branch connecting bars (107), a fixedly connected synchronous control bar (108) is arranged between the two branch connecting bars (107), and the upper side of the middle end of the synchronous control bar (108) is provided with an I-shaped penetrating bar (109) in a penetrating way, wherein the upper end of the I-shaped penetration rod (109) is fixed on the equipment shell (1), and the I-shaped penetration rod (109) is sleeved with a reaction spring (1010).

3. The high-precision laser cutting device for the mobile phone film as claimed in claim 1, wherein: the feed inlet is characterized in that transverse rods (1401) are placed on two sides of the inner end of the feed inlet (14) in a penetrating mode, one end of each transverse rod (1401) is fixedly connected with the inner limiting plate (103), an aligning slot (1402) is formed in the middle side of one end of each transverse rod (1401) in a penetrating mode, a side bearing rod (1403) fixedly connected with the other end of each transverse rod (1401) is arranged, a mobile phone film placing plate (1404) fixedly connected with the side bearing rods (1403) is placed between the two side bearing rods, an accommodating groove (1405) is uniformly formed in one end of each side bearing rod (1403), an upper sliding block (1406) and a lower sliding block (1406) are placed on the upper side of the inner end of each accommodating groove (1405), a supporting bottom plate (1407) is uniformly placed at the inner end of each accommodating groove (1405), a deformation elastic rod (1408) is placed at the inner end of each accommodating groove (1408), the deformation elastic rods (1408) and the supporting bottom plates (1407) are arranged in a staggered mode, wherein the supporting bottom plates (1407) are connected with the deformation elastic rods (1408) in a clamping mode, an anti-deflection rod (1409) is arranged at the upper end of the side bearing rod (1403), wherein the anti-deflection rod (1409) is fixedly connected with the upper and lower sliding blocks (1406).

4. The high-precision laser cutting device for the mobile phone film as claimed in claim 1, wherein: the rolling component comprises a telescopic rod (2), an assembly connecting plate (21), a reverse overturning plate (22), a distance adjusting through groove (23), a distance increasing groove (24), a lower connecting rod (25), a rolling roller (26), a protective outer sleeve (27) and an inserting push plate (28), wherein the assembly connecting plate (21) is fixed at the lower end of the telescopic rod (2), the reverse overturning plates (22) are symmetrically and movably connected at the two ends of the assembly connecting plate (21), wherein the distance-adjusting through groove (23) is arranged on the upper side of the middle end of the reverse overturning plate (22) in a penetrating way, the distance-increasing groove (24) penetrates through the lower side of the middle end of the reverse overturning plate (22), wherein the lower connecting rod (25) is fixed at the lower end of the reverse overturning plate (22), the rolling roller (26) is movably arranged at the inner end of the lower connecting rod (25), wherein the protective outer sleeve (27) is sleeved outside the rolling roller (26), and the inserting push plate (28) is movably connected with one end of the lower connecting rod (25).

5. The high-precision laser cutting device for the mobile phone film as claimed in claim 4, wherein: but telescopic link (2) run through the one end of equipment shell (1) and arrange, wherein adopt the buckle to be connected between telescopic link (2) and the equipment shell (1), adopt torsional spring connection between reverse returning face plate (22) and the assembly even board (21), wherein increase apart from groove (24) and run through roll adjustment wear groove (23) and set up, lower connecting rod (25) and roll-over roller (26) between adopt the pivot to be connected, wherein insert push pedal (28) and be located and bring into directly over draw-in groove (110).

6. The high-precision laser cutting device for the mobile phone film as claimed in claim 4, wherein: the assembly is board (21) one end both sides symmetrical arrangement fixed connection's extension sideboard (2101) even, and wherein fixed connection's lift accuse frame (2102) are arranged to extension sideboard (2101) other end, distance adjusting plate (2103) have been placed to the inner downside of lift accuse frame (2102), and wherein first spring has been placed to distance adjusting plate (2103) upper end, lift accuse frame (2102) one end is run through and is seted up through groove (2104), and wherein run through groove (2104) one side and run through and have arranged linkage branch (2105).

7. The high-precision laser cutting device for the mobile phone film as claimed in claim 6, wherein: adopt the buckle to be connected between linkage branch (2105) and distance adjusting plate (2103), wherein the below of linkage branch (2105) has been placed tip and has been tilted pole (2106), but fixed connection's extensible pole (2107) is arranged to tip tilt pole (2106) one end, but wherein the articulated upper end of connecting in arc dislocation piece (105) of the other end of extensible pole (2107), but the fulcrum post (2108) that the pivot is connected are arranged in the embedding of extensible pole (2107) one end, and wherein the other end of fulcrum post (2108) is fixed on equipment shell (1).

8. The high-precision laser cutting device for the mobile phone film as claimed in claim 4, wherein: two roll adjustment poling (23) one end is passed through and is arranged extrusion activity section of thick bamboo (2301), and wherein extrusion activity section of thick bamboo (2301) lower extreme is run through and is arranged the fault, the both ends bilateral symmetry of extrusion activity section of thick bamboo (2301) arranges integrated into one piece's lock position lug (2302), and wherein extrusion activity section of thick bamboo (2301) middle-end is run through and is arranged T shape guide bar (2303), T shape guide bar (2303) are fixed on telescopic link (2), and wherein reduction roof (2304) are placed to extrusion activity section of thick bamboo (2301) upper end one side, reduction roof (2304) run through assembly even board (21) and arrange, wherein the upper end of reduction roof (2304) is fixed in telescopic link (2) upper end.

9. The high-precision laser cutting equipment for the mobile phone films as claimed in claim 1, wherein the film pasting and cutting positioning plate comprises:

a positioning sheet layer (31); and

a release film positioning layer (32) which covers and is attached to the positioning plate layer (31);

the positioning plate layer (31) comprises a positioning plate hard layer (311) and a film fixing layer (312) covering the upper surface of the positioning plate hard layer (311), and the release film positioning layer (32) is attached to the upper surface of the positioning plate hard layer (311) through the adhesion or adsorption effect of the film fixing layer (312);

from type membrane location layer (32) including playing location limit (321) that leans on the limit location effect, the region that membrane fixed bed (312) that location limit (321) do not cover formed is for fixing a position laminating district for the fixed cutting membrane of laminating.

10. The high-precision laser cutting equipment for the mobile phone film is characterized in that the release film positioning layer (32) further comprises a release film (322) which can be removed in a uncovering way, and before the cutting operation, the release film (322) covers and is attached to a positioning and attaching area formed on the film fixing layer (312) for dust prevention.

11. The high-precision laser cutting device for the mobile phone film as claimed in claim 9, wherein the positioning edge (321) has a plurality of shapes, including single-edge positioning, 2-edge positioning, 3-edge positioning or 4-edge positioning.