CN210789727U - Intelligent laser cutting machine positioning structure for quartz piece processing - Google Patents

Abstract

The utility model provides an intelligence laser cutting machine location structure of quartz plate processing usefulness, including support and work platform, there is the cutting machine tool bit work platform's top surface through bolted connection, one side of cutting machine tool bit is equipped with locating component, locating component is including L type fixed plate, just there is the motor through bolted connection on the L type fixed plate, one side of motor is connected with the screw rod, the one end surface of screw rod is equipped with screw nut in proper order, screw nut's bilateral symmetry is equipped with sliding assembly, two sliding assembly all includes the connecting plate, every the equal symmetrical welding in bottom of connecting plate has the side arm, has two with one side of one side be equipped with running gear, two between the side arm running gear's bottom all meshes and is connected with straight guide rail tooth. The utility model discloses, through locating component's application, can realize providing the guarantee of precision for the location that the quartz plate removed to realize improving the quality and the production efficiency of quartz plate product.

Description

Intelligent laser cutting machine positioning structure for quartz piece processing

Technical Field

The utility model mainly relates to a technical field of location structure, concretely relates to intelligence laser cutting machine location structure of quartz chip processing usefulness.

Background

The laser cutting machine focuses laser emitted from a laser into a laser beam with high power density through an optical path system. The laser beam irradiates the surface of the workpiece to make the workpiece reach a melting point or a boiling point, and simultaneously, the high-pressure gas coaxial with the laser beam blows away the molten or gasified metal. And finally, the material is cut along with the movement of the relative position of the light beam and the workpiece, so that the cutting purpose is achieved. The laser cutting processing is to replace the traditional mechanical knife by invisible light beams, the mechanical part of a laser tool bit is not in contact with a workpiece, and the surface of the workpiece cannot be scratched in the working process; the laser cutting speed is high, the cut is smooth and flat, and subsequent processing is generally not needed; the cutting heat affected zone is small, the deformation of the plate is small, and the cutting seam is narrow (0.1 mm-0.3 mm); the notch has no mechanical stress and no shearing burr; the processing precision is high, the repeatability is good, and the surface of the material is not damaged; the numerical control programming can be used for processing any plan, the whole board with large breadth can be cut, a die does not need to be opened, and the method is economical and time-saving.

In the cutting process of the quartz plate, the requirements on the quality and precision of the cutting machine are increasingly improved, if the cutting machine is not provided with a positioning structure with good precision as a support, the product quality of the produced quartz plate is influenced, and if manual calibration is adopted, the labor and the time are more wasted.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides an intelligence laser cutting machine location structure of quartz plate processing usefulness for solve the technical problem who proposes in the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

an intelligent laser cutting machine positioning structure for quartz plate processing comprises a support and a working platform, the top end surface of the working platform is connected with a cutter head of the cutting machine through a bolt, one side of the cutter head of the cutting machine is provided with a positioning component, the positioning component comprises an L-shaped fixing plate which is connected with the top end surface of the working platform through a bolt, the L-shaped fixing plate is connected with a motor through a bolt, the output end of the motor penetrates through the L-shaped fixing plate and is connected with an encoder, one side of the encoder close to the cutter head of the cutting machine is connected with a screw rod, one end of the screw rod far away from the encoder is sequentially connected with a first supporting plate, a screw nut and a second supporting plate in a penetrating way, the bottom ends of the first supporting plate and the second supporting plate are connected with the top end surface of the working platform through bolts;

the surface of the top end of the screw nut is connected with a feeding clamp fixing plate through a bolt, and sliding assemblies are symmetrically arranged on two sides of the bottom end of the feeding clamp fixing plate;

the two sliding assemblies respectively comprise connecting plates, the two connecting plates are connected with the bottom end surface of the feeding clamp fixing plate through bolts, side arms are symmetrically welded at the bottom end of each connecting plate, a rotating gear is arranged between the two side arms on the same side, and the center of each rotating gear is respectively and alternately connected with the two side arms on the same side through a rotating shaft;

two the bottom of rotating gear is equipped with the track groove, two be equipped with straight guide rail tooth in the cell body in track groove, and two rotating gear respectively with two straight guide rail tooth meshing is connected.

Further, the both sides of pay-off clamp fixed plate all are equipped with dustproof subassembly, dustproof subassembly is including first sliding frame, two first sliding frame pass through the bolt respectively with the both sides side surface of pay-off clamp fixed plate is connected, and every first sliding frame is kept away from one side of pay-off clamp fixed plate all is equipped with fixed frame, fixed frame pass through the bolt with work platform's top surface is connected, just fixed frame with be equipped with a plurality of second sliding frame between the first sliding frame, it is a plurality of all there is dustproof cloth through bolted connection between second sliding frame, the first sliding frame with one side and the fixed frame.

Furthermore, sliding chutes are symmetrically arranged on two sides of the bottom end of the first sliding frame, and the lengths of the sliding chutes are equal to the lengths of the track grooves.

Furthermore, two the bottom of first sliding frame and a plurality of second sliding frame all is equipped with the sliding block, and two first sliding frame and a plurality of the second sliding frame all through a plurality of the sliding block with spout sliding connection.

Furthermore, both sides of the groove bodies of the two sliding grooves are connected with a terminal post through thread engagement.

Furthermore, two sides of the groove body of the two rail grooves are connected with buffer columns through threaded engagement.

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

this structural design is reasonable, and convenient to use through the cooperation of locating component and dustproof subassembly, can realize providing the guarantee of precision for the location that the quartz plate removed to realize improving the quality and the production efficiency of quartz plate product, the concrete performance does: the angular displacement of the motor can be converted into an electric signal through the encoder on one side of the motor, so that accurate positioning is provided for the numerical value of the angular displacement required by the motor, meanwhile, torque is provided for the screw rod on the output end of the motor through the rotation of the motor in the positioning assembly, then the horizontal translation of the screw nut on the outer surface of the screw rod and the feeding clamp fixing plate on the top end of the screw nut can be driven through the rotation of the screw rod, so that the quartz plates clamped by the feeding clamp can be accurately conveyed and positioned, the stability can be provided for the horizontal displacement of the screw nut through the mutual meshing of straight guide rail teeth of the rotating gears at the bottom ends of the two sides of the feeding clamp fixing plate in the sliding assembly, when the screw nut is horizontally displaced, the displacement for driving the plurality of second sliding frames can be realized through the first sliding frame connected with the feeding clamp fixing plate, so that the dustproof cloth between the second sliding frames and the first sliding frame can be, and then the avoidance that the machining precision of the quartz plate is influenced by the fact that the scraps splashed by cutting the quartz plate enter the track groove is achieved.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the positioning assembly of the present invention;

fig. 3 is a schematic view of a partial structure of the sliding assembly of the present invention;

fig. 4 is a schematic structural view of the dustproof assembly of the present invention;

fig. 5 is a schematic view of a partial structure of the dustproof assembly of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to the accompanying drawings 1-5, an intelligence laser cutting machine location structure of quartz plate processing usefulness, including support 1 and work platform 2, there is cutting machine tool bit 3 on the top surface of work platform 2 through bolted connection, one side of cutting machine tool bit 3 is equipped with locating component 4, locating component 4 is including L type fixed plate 41, L type fixed plate 41 through the bolt with work platform 2's top surface is connected, just there is motor 42 through bolted connection on L type fixed plate 41, motor 42's output runs through L type fixed plate 41 is connected with encoder 43, encoder 43 is close to one side of cutting machine tool bit 3 is connected with screw rod 44, screw rod 44 is kept away from the one end through connection in proper order of encoder 43 has first backup pad 45, screw nut 46 and second backup pad 47, first backup pad 45 with the bottom of second backup pad 47 all through the bolt with work platform 2's top table 47 The surfaces are connected; the top end surface of the screw nut 46 is connected with a feeding clamp fixing plate 48 through a bolt, and two sides of the bottom end of the feeding clamp fixing plate 48 are symmetrically provided with sliding assemblies 49; the two sliding assemblies 49 respectively comprise connecting plates 491, the two connecting plates 491 are respectively connected with the bottom end surfaces of the feeding clamp fixing plates 48 through bolts, the bottom ends of the connecting plates 491 are respectively symmetrically welded with side arms 492, a rotating gear 493 is arranged between the two side arms 492 on the same side, and the center of each rotating gear 493 is respectively connected with the two side arms 492 on the same side in a penetrating manner through a rotating shaft 494; the bottom ends of the two rotating gears 493 are provided with rail grooves 495, straight guide rail teeth 496 are arranged in groove bodies of the two rail grooves 495, and the two rotating gears 493 are respectively meshed with the two straight guide rail teeth 496.

Referring to fig. 2, two sides of the groove body of the two rail grooves 496 are respectively connected with a buffer post 497 through thread engagement. In this embodiment, the limit of the translation distance of the rotating gear 493 in the track groove 496 may be realized by using the buffer posts 497 that are engaged with both sides of the groove body of the two track grooves 496 through threads.

Referring to fig. 4, sliding grooves 54 are symmetrically formed at both sides of the bottom end of the first sliding frame 51, and the length of the sliding grooves 54 is equal to the length of the rail groove 496. In the present embodiment, the sliding track grooves are provided for the first sliding frame 51 and the second sliding frame 53 by the sliding grooves 54 symmetrically disposed on both sides of the bottom end of the first sliding frame 51.

Referring to fig. 4, both sides of the groove bodies of the two sliding grooves 54 are connected with a stop column 56 through threaded engagement. In this embodiment, the limit of the sliding distance of the plurality of second sliding frames 53 in the sliding groove 54 can be realized by the stop posts 56 connected by screw engagement at both sides of the groove body of the sliding groove 54.

Referring to fig. 5, the two sides of the feeding clamp fixing plate 48 are provided with dust-proof assemblies 5, each dust-proof assembly 5 includes a first sliding frame 51, the two first sliding frames 51 are respectively connected with the side surfaces of the two sides of the feeding clamp fixing plate 48 through bolts, a fixing frame 52 is provided on one side of each first sliding frame 51 away from the feeding clamp fixing plate 48, the fixing frame 52 is connected with the top end surface of the working platform 2 through bolts, a plurality of second sliding frames 53 are provided between the fixing frame 52 and the first sliding frames 51, and dust-proof cloths 53 are connected between the plurality of second sliding frames 53 and the first sliding frames 51 and the fixing frame 52 on the same side through bolts. In this embodiment, since the two first sliding frames 51 are respectively connected with the side surfaces of the two sides of the feeding clamp fixing plate 48 through bolts, the two first sliding frames 51 can be fixed on the two sides of the feeding clamp fixing plate 48, so that the displacement of the two first sliding frames 51 is driven by the displacement of the feeding clamp fixing plate 48, and since the fixing frame 52 is connected with the top end surface of the working platform 2 through bolts, the fixing of the fixing frame 52 on the working platform 2 can be realized.

Referring to fig. 5 again, the bottom ends of the two first sliding frames 51 and the plurality of second sliding frames 53 are respectively provided with a sliding block 55, and the two first sliding frames 51 and the plurality of second sliding frames 53 are respectively connected with the sliding groove 54 in a sliding manner through the plurality of sliding blocks 55. In the present embodiment, the sliding of the first slide frame 51 and the second slide frame 53 in the slide groove 54 can be facilitated by the slide blocks 55 provided at the bottom ends of the two first slide frames 51 and the plurality of second slide frames 53.

The utility model discloses an operation mode has as follows:

when positioning the quartz plate, firstly, the encoder 43 on one side of the motor 42 is used to convert the angular displacement of the motor 42 into an electric signal to be transmitted to a computer, meanwhile, the rotation of the motor 42 in the positioning component 4 is used to provide torque for the screw 44 on the output end thereof, then the rotation of the screw 44 is used to drive the horizontal displacement of the screw nut 46 on the outer surface of the screw 44 and the feeding clamp fixing plate 48 on the top end of the screw nut 46, then the connecting plate 491 connected with the feeding clamp fixing plate 48 is used to drive the horizontal translation of the rotating gear 493 at the bottom end of the connecting plate 491, then the rotation of the rotating gear 493 on the straight guide rail teeth 495 on the top end of the rail groove 496 is used to provide support points on two sides for the horizontal displacement of the feeding clamp fixing plate 48, and when the feeding clamp fixing plate 48 is horizontally displaced, two first sliding frames 51 are respectively connected with the side surfaces on two sides of the feeding clamp fixing, realize fixing two first sliding frames 51 in the both sides of pay-off clamp fixed plate 48 to utilize the displacement of pay-off clamp fixed plate 48 to drive two first sliding frames 51's displacement, the horizontal displacement of the first sliding frame 51 of rethread realizes driving the horizontal displacement of a plurality of second sliding frames 53 on spout 54, thereby realizes the shrink and the expansion of dustproof cloth 53 between first sliding frame 51, second sliding frame 53 and the fixed frame 52, thereby realizes avoiding to the sweeps that cut off.

The above description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the method and the technical solution of the present invention are not substantially improved or directly applied to other occasions without improvement, and are all within the protection scope of the present invention.

Claims (6)

1. An intelligent laser cutting machine positioning structure for quartz plate processing comprises a bracket and a working platform, it is characterized in that the top end surface of the working platform is connected with a cutter head of the cutting machine through a bolt, one side of the cutter head of the cutting machine is provided with a positioning component, the positioning component comprises an L-shaped fixing plate which is connected with the top end surface of the working platform through a bolt, the L-shaped fixing plate is connected with a motor through a bolt, the output end of the motor penetrates through the L-shaped fixing plate and is connected with an encoder, one side of the encoder close to the cutter head of the cutting machine is connected with a screw rod, one end of the screw rod far away from the encoder is sequentially connected with a first supporting plate, a screw nut and a second supporting plate in a penetrating way, the bottom ends of the first supporting plate and the second supporting plate are connected with the top end surface of the working platform through bolts;

the surface of the top end of the screw nut is connected with a feeding clamp fixing plate through a bolt, and sliding assemblies are symmetrically arranged on two sides of the bottom end of the feeding clamp fixing plate;

the two sliding assemblies respectively comprise connecting plates, the two connecting plates are connected with the bottom end surface of the feeding clamp fixing plate through bolts, side arms are symmetrically welded at the bottom end of each connecting plate, a rotating gear is arranged between the two side arms on the same side, and the center of each rotating gear is respectively and alternately connected with the two side arms on the same side through a rotating shaft;

two the bottom of rotating gear all is equipped with the track groove, two be equipped with straight guide rail tooth in the cell body in track groove, and two rotating gear respectively with two straight guide rail tooth meshing is connected.

2. The positioning structure of an intelligent laser cutting machine for quartz plate processing according to claim 1, wherein both sides of the feeding clamp fixing plate are provided with dustproof components, each dustproof component comprises a first sliding frame, the two first sliding frames are respectively connected with both side surfaces of the feeding clamp fixing plate through bolts, a fixing frame is arranged on one side of each first sliding frame away from the feeding clamp fixing plate, the fixing frame is connected with the top end surface of the working platform through bolts, a plurality of second sliding frames are arranged between the fixing frame and the first sliding frame, and dustproof cloth is connected between the plurality of second sliding frames and the first sliding frame and the fixing frame on the same side through bolts.

3. The positioning structure of an intelligent laser cutting machine for processing quartz wafers as claimed in claim 2, wherein sliding grooves are symmetrically arranged on both sides of the bottom end of the first sliding frame, and the length of the sliding grooves is equal to the length of the track grooves.

4. The positioning structure of an intelligent laser cutting machine for processing quartz plates as claimed in claim 3, wherein the bottom ends of the two first sliding frames and the plurality of second sliding frames are provided with sliding blocks, and the two first sliding frames and the plurality of second sliding frames are connected with the sliding grooves in a sliding manner through the plurality of sliding blocks.

5. The intelligent laser cutting machine positioning structure for processing the quartz plate as claimed in claim 4, wherein both sides of the groove bodies of the two sliding grooves are connected with a stop column through threaded engagement.

6. The intelligent laser cutting machine positioning structure for processing the quartz plate as claimed in claim 1, wherein two sides of the groove body of the two rail grooves are respectively connected with a buffer column through threaded engagement.

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