CN217438033U - Ultrafast laser processing glass cutting table capable of automatically pushing material - Google Patents

Abstract

The utility model relates to the technical field of glass cutting, and discloses an ultrafast laser processing glass cutting table capable of automatically pushing materials, which comprises a cutting mechanism and a transfer mechanism, wherein the transfer mechanism is positioned below the cutting mechanism; cutting mechanism is including cutting box, case lid, laser cutting device, feed opening, feeding conveyer belt, exit conveyor, blank platform and blank mouth, the case lid passes through hinge rotation and installs in the upper end of cutting box, laser cutting device fixed mounting is at the lower extreme of case lid, the fixed below that sets up at laser cutting device of feed opening, feeding conveyer belt fixed mounting is at the left end of cutting box. This ultrafast laser machining glass cutting bed that can push away material automatically, cutting glass that can continuation to can continuation with the gentle derivation of glass, realize full-automatic cutting and ejection of compact work, not only cutting speed improves greatly, ejection of compact stable in structure simultaneously, also stronger to glass's protectiveness.

Description

Ultrafast laser processing glass cutting table capable of automatically pushing material

Technical Field

The utility model relates to a glass-cutting technical field specifically is an ultrafast laser processing glass cutting bed that can push away material automatically.

Background

Laser cutting machining has now become a mature industrial process. Metals are the main object of laser cutting, and other materials capable of laser cutting include plastics, ceramics, silicon wafers, glass and the like.

Because the glass structure is fragile, automatic blanking is difficult to realize when carrying out laser cutting to ordinary glass, generally needs artifical supplementary unloading, and this just leads to unloading speed greatly reduced, and still can influence going on of follow-up cutting work.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a can push away ultrafast laser processing glass cutting bed of material automatically to propose in solving above-mentioned background art because glass structure is comparatively fragile, be difficult to realize automatic unloading when carrying out laser cutting to ordinary glass, generally need artifical supplementary unloading, this just leads to unloading speed greatly reduced, and can also influence the problem of going on of follow-up cutting work.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an ultrafast laser processing glass cutting table capable of automatically pushing materials comprises a cutting mechanism and a transfer mechanism, wherein the transfer mechanism is positioned below the cutting mechanism;

cutting mechanism is including cutting box, case lid, laser cutting device, feed opening, feeding conveyer belt, exit conveyor, blank platform and blank mouth, the case lid passes through hinge rotation and installs in the upper end of cutting box, laser cutting device fixed mounting is at the lower extreme of case lid, the fixed below that sets up at laser cutting device of feed opening, feeding conveyer belt fixed mounting is at the left end of cutting box, exit conveyor fixed mounting is at the right-hand member of cutting box, blank platform fixed mounting is in the upper end of feed opening, the blank mouth runs through the upper end that sets up at the blank platform.

Preferably, cutting mechanism still includes damping rotation axis, rotatory area and blowing board, the rotatory inside of installing at the feed opening of damping rotation axis, rotatory outer end at the damping rotation axis of taking, blowing board fixed mounting is in the outer end in rotatory area, and this glass cutting bed can continuation cutting glass to can continuation with the derivation that glass is mild, realize full-automatic cutting and ejection of compact work, not only cutting speed improves greatly, ejection of compact stable structure simultaneously, and is also stronger to glass's protectiveness.

Preferably, the transfer mechanism comprises a transfer conveyor belt, a transfer conveying box, a reserved groove, a protection spring, a guide wheel, a lower pull belt, a material storage plate and a weight lever, the transfer conveyor belt is fixedly arranged below the cutting box body, the transfer conveying box is arranged at the upper end of the transfer conveyor belt, the reserved groove is fixedly arranged at the left side and the right side inside the transfer conveying box, the reserved groove is L-shaped, the upper end of the reserved groove extends inwards to the inner side of the transfer conveying box, the protection spring is fixedly connected to the bottom inside the reserved groove, the guide wheel is rotatably arranged at the upper part of the inner end of the transfer conveying box, one end of the lower pull belt is fixedly connected with the upper end of the protection spring, the middle part of the lower pull belt is rotatably connected with the guide wheel, the right end of the lower pull belt is arranged at the inner side of the transfer conveying box, the material storage plate is fixedly arranged at the outer end of the lower pull belt, the counterweight rod is fixedly connected with the lower end of the lower draw belt, the elastic coefficient of the protective spring is set, the counterweight rod is matched with the cut glass, each piece of glass can fall on the material storage plate, the lower draw belt can be moved by the distance between the material storage plates, and the glass is enabled to be orderly stacked in the transfer conveying box.

Preferably, the blowing board is the outer end of annular distribution at rotatory area, the material storage plate is the equidistance and distributes in the outer end of stretching strap down, and the blowing board of a plurality of equidistant distributions and the switching station that the material storage plate can be quick, and after work was accomplished with the material storage plate to a certain group of blowing board, subsequent a group of blowing board and material storage plate just can be timely reachd appointed station, ensure that the work that the glass cutting bed can be quick.

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

1. the ultrafast laser processing glass cutting table capable of automatically pushing materials can continuously cut glass, can continuously and smoothly guide the glass out, realizes full-automatic cutting and discharging work, greatly improves the cutting speed, has a stable discharging structure, and has strong protection on the glass;

2. the ultrafast laser processing glass cutting table capable of automatically pushing materials is provided with the elastic coefficient of a protection spring, so that the elastic coefficient is matched with the cut glass, each piece of glass can fall on a material storage plate, a lower pull belt can move by the distance of the space between the material storage plates, and the glass is enabled to be neatly stacked in a transfer conveying box;

3. this ultrafast laser beam machining glass cutting bed that can push away material automatically, a plurality of equidistant distribution's blowing board and stock board switching station that can be quick, after work is accomplished with the stock board to a certain group blowing board, subsequent a group blowing board and the designated station of arrival that the stock board just can be timely ensure that the work that the glass cutting bed can be quick.

Drawings

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

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

FIG. 3 is a schematic view of a cross-sectional structure of a transfer box of the present invention;

FIG. 4 is a second schematic view of the structure of the transferring and conveying box of the present invention;

fig. 5 is a schematic view of the cross-sectional structure of the guide wheel of the present invention.

In the figure: 1. a cutting mechanism; 2. a transfer mechanism; 101. cutting the box body; 102. a box cover; 103. a laser cutting device; 104. a feeding port; 105. a feed conveyor; 106. a discharge conveyor belt; 107. a material cutting table; 108. cutting a material port; 109. a damping rotating shaft; 110. rotating the belt; 111. a material placing plate; 201. a transfer conveyor; 202. a transfer transport box; 203. reserving a groove; 204. a guard spring; 205. a guide wheel; 206. a lower drawstring; 207. storing a material plate; 208. a weight lever; 209. and (5) taking and placing the groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an ultrafast laser processing glass cutting table capable of automatically pushing materials comprises a cutting mechanism 1 and a transfer mechanism 2, wherein the transfer mechanism 2 is positioned below the cutting mechanism 1; the cutting mechanism 1 comprises a cutting box body 101, a box cover 102, a laser cutting device 103, a feed opening 104, a feeding conveyor belt 105, a discharge conveyor belt 106, a cutting table 107 and a cutting opening 108, wherein the box cover 102 is rotatably installed at the upper end of the cutting box body 101 through a hinge, the laser cutting device 103 is fixedly installed at the lower end of the box cover 102, the feed opening 104 is fixedly arranged below the laser cutting device 103, the feeding conveyor belt 105 is fixedly installed at the left end of the cutting box body 101, the discharge conveyor belt 106 is fixedly installed at the right end of the cutting box body 101, the cutting table 107 is fixedly installed at the upper end of the feed opening 104, the cutting opening 108 is arranged at the upper end of the cutting table 107 in a penetrating manner, the cutting mechanism 1 further comprises a damping rotating shaft 109, a rotating belt 110 and a feed discharging plate 111, the damping rotating shaft 109 is rotatably installed inside the feed opening 104, the rotating belt 110 is rotatably installed at the outer end of the damping rotating shaft 109, the feed discharging plate 111 is fixedly installed at the outer end of the rotating belt 110, firstly, glass is placed on a feeding conveyor belt 105 and guided in by the feeding conveyor belt 105, after strip-shaped glass enters a blanking table 107, a laser cutting device 103 is started to cut the middle part of the glass, an outer frame is guided out from an discharging conveyor belt 106, the cut glass can pass through a blanking port 108 and fall into a lower discharging port 104, the cut glass falls onto a discharging plate 111 due to the limit of the discharging plate 111 in the discharging port 104, the discharging plate 111 is driven to drive a rotating belt 110 to slowly rotate at the outer end of a damping rotating shaft 109 under the action of the gravity of the glass until the discharging plate 111 drives the glass plate to reach the lower part of the discharging port 104, the discharging conveyor belt 106 of the feeding conveyor belt 105 and the laser cutting device 103 continue to work in the process of downward movement of the glass, the glass above continuously falls onto other discharging plates 111, and finally the glass is discharged from the discharging port 104, and the glass can be continuously cut, the glass can be continuously and smoothly guided out, full-automatic cutting and discharging work is realized, the cutting speed is greatly improved, the discharging structure is stable, and the glass is protected;

the transfer mechanism 2 comprises a transfer conveyor belt 201, a transfer conveyor box 202, a reserved groove 203, a protection spring 204, a guide wheel 205, a lower pull belt 206, a material storage plate 207 and a balance weight 208, the transfer conveyor belt 201 is fixedly arranged below the cutting box body 101, the transfer conveyor box 202 is positioned at the upper end of the transfer conveyor belt 201, the reserved groove 203 is fixedly arranged at the left side and the right side of the interior of the transfer conveyor box 202, the reserved groove 203 is L-shaped, the upper end of the reserved groove 203 extends inwards to the inner side of the transfer conveyor box 202, the protection spring 204 is fixedly connected to the bottom of the interior of the reserved groove 203, the guide wheel 205 is rotatably arranged at the upper part of the inner end of the transfer conveyor box 202, one end of the lower pull belt 206 is fixedly connected with the upper end of the protection spring 204, the middle part of the lower pull belt 206 is rotatably connected with the guide wheel 205, the right end of the lower pull belt 206 is positioned at the inner side of the transfer conveyor box 202, the material storage plate 207 is fixedly arranged at the outer end of the lower pull belt 206, the counterweight rod 208 is fixedly connected at the lower end of the lower pull belt 206, the transfer conveyor belt 201 is periodically started and moves the transfer conveying box 202 to the position right below the feed opening 104, the glass in the feed opening 104 directly falls on the material storage plate 207 on the inner side of the transfer conveying box 202 after falling, because the material storage plate 207 is connected with the lower pull belt 206, the lower pull belt 206 drives the protection spring 204 to move through the guide wheel 205, the lower pull belt 206 pulls out a certain distance and moves another group of material storage plates 207 to the position above the transfer conveying box 202 and continues material receiving work, after the transfer conveying box 202 is fully stored, the transfer conveyor belt 201 can be started again to move the transfer conveying box 202 out and move a new transfer conveying box 202 to the position below the feed opening 104, the elastic coefficient of the protection spring 204 is set to be matched with the cut glass, each piece of glass falling on the material storage plate 207 can enable the lower pull belt 206 to move by the distance of the material storage plate 207, ensure that the glass is neatly stacked in the transfer conveyor box 202;

the transfer mechanism 2 further comprises a taking and placing groove 209, the taking and placing groove 209 is fixedly arranged at the inner end of the transfer conveying box 202, when the glass needs to be taken out from the transfer conveying box 202, the palm can conveniently stretch into the glass, the discharging plates 111 are annularly distributed at the outer end of the rotary belt 110, the material storage plates 207 are equidistantly distributed at the outer end of the lower pull belt 206, a plurality of discharging plates 111 and material storage plates 207 which are equidistantly distributed can rapidly switch stations, after a certain group of discharging plates 111 and material storage plates 207 complete the work, the subsequent group of discharging plates 111 and material storage plates 207 can timely reach a specified station to ensure that the glass cutting table can rapidly work, the upper ends of the feeding conveyor belt 105, the discharging conveyor belt 106 and the material cutting table 107 are positioned on the same horizontal plane, the upper end of the transfer conveying box 202 and the cutting box 101 are slightly spaced, the arrangement ensures that the cut glass only drops down at a small height during the transfer, the phenomenon that the falling height is too high and the direction is difficult to control is avoided, and meanwhile, the glass can be prevented from being damaged.

The working principle is as follows: firstly, glass is placed on a feeding conveyor belt 105 and is guided in by the feeding conveyor belt 105, after strip-shaped glass enters a blanking table 107, a laser cutting device 103 is started to cut off the middle part of the glass, an outer frame is guided out from a discharging conveyor belt 106, the cut glass can pass through a blanking port 108 and fall into a lower discharging port 104, the cut glass falls onto a discharging plate 111 due to the limit of the discharging plate 111 in the blanking port 104, the discharging plate 111 is driven to drive a rotating belt 110 to slowly rotate at the outer end of a damping rotating shaft 109 under the action of the gravity of the glass until the discharging plate 111 drives the glass plate to reach the lower part of the discharging port 104, the discharging conveyor belt 106 of the feeding conveyor belt 105 and the laser cutting device 103 continue to work in the process of downward moving of the glass, the glass above continuously falls onto other discharging plates 111, finally the glass is discharged from the discharging port 104, a transfer conveyor belt 201 is started periodically and moves a transfer conveying box 202 to the position right below the blanking port 104, the glass in the blanking opening 104 directly falls on the material storage plate 207 on the inner side of the transferring and conveying box 202 after falling, and because the material storage plate 207 is connected with the lower pull belt 206, the lower pull belt 206 can drive the protection spring 204 to move through the guide wheel 205, the lower pull belt 206 is pulled out for a certain distance and enables another group of material storage plates 207 to move to the upper side of the transferring and conveying box 202 and continue to carry out material receiving work, and after the transferring and conveying box 202 is fully stored, the transferring and conveying belt 201 can be started again to move the transferring and conveying box 202 out, and a new transferring and conveying box 202 can be moved to the lower part of the blanking opening 104.

It should be finally noted that the above contents are only used to illustrate the technical solutions of the present invention, but not to limit the protection scope of the present invention, and the simple modification or equivalent replacement performed by the technical solutions of the present invention by those skilled in the art does not depart from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. The utility model provides an ultrafast laser processing glass cutting bed that can push away material automatically, includes cutting mechanism (1) and transport mechanism (2), its characterized in that: the transfer mechanism (2) is positioned below the cutting mechanism (1);

cutting mechanism (1) is including cutting box (101), case lid (102), laser cutting device (103), feed opening (104), feeding conveyer belt (105), exit conveyor (106), blank platform (107) and blank mouth (108), case lid (102) is installed in the upper end of cutting box (101) through hinge rotation, laser cutting device (103) fixed mounting is at the lower extreme of case lid (102), the fixed below that sets up at laser cutting device (103) of feed opening (104), feeding conveyer belt (105) fixed mounting is at the left end of cutting box (101), exit conveyor (106) fixed mounting is at the right-hand member of cutting box (101), blank platform (107) fixed mounting is in the upper end of feed opening (104), blank mouth (108) run through the upper end that sets up at blank platform (107).

2. The ultrafast laser processing glass cutting table capable of automatically pushing material according to claim 1, wherein: cutting mechanism (1) still includes damping rotation axis (109), rotatory area (110) and blowing board (111), the rotatory inside of installing at feed opening (104) of damping rotation axis (109), rotatory outer end at damping rotation axis (109) of taking (110) rotation to install, the outer end at rotatory area (110) of blowing board (111) fixed mounting.

3. The ultrafast laser processing glass cutting table capable of automatically pushing material according to claim 2, wherein: the transfer mechanism (2) comprises a transfer conveyor belt (201), a transfer conveyor box (202), a reserved groove (203), a protection spring (204), a guide wheel (205), a pull-down belt (206), a material storage plate (207) and a balance weight rod (208), the transfer conveyor belt (201) is fixedly arranged below the cutting box body (101), the transfer conveyor box (202) is located at the upper end of the transfer conveyor belt (201), the reserved groove (203) is fixedly arranged on the left side and the right side of the interior of the transfer conveyor box (202), the reserved groove (203) is L-shaped, the upper end of the reserved groove (203) extends inwards to the inner side of the transfer conveyor box (202), the protection spring (204) is fixedly connected to the bottom of the interior of the reserved groove (203), the guide wheel (205) is rotatably arranged on the upper portion of the inner end of the transfer conveyor box (202), one end of the pull-down belt (206) is fixedly connected with the upper end of the protection spring (204), the middle part and the leading wheel (205) swivelling joint of lower stretching strap (206), the right-hand member of lower stretching strap (206) is located the inboard of transporting transfer case (202), deposit board (207) fixed mounting is in the outer end of lower stretching strap (206), counterweight rod (208) fixed connection is at the lower extreme of lower stretching strap (206).

4. The ultrafast laser processing glass cutting table capable of automatically pushing material according to claim 3, wherein: the transfer mechanism (2) further comprises a taking and placing groove (209), and the taking and placing groove (209) is fixedly arranged at the inner end of the transfer conveying box (202).

5. The ultrafast laser processing glass cutting table capable of automatically pushing material according to claim 4, wherein: the material placing plates (111) are annularly distributed at the outer end of the rotary belt (110), and the material storing plates (207) are equidistantly distributed at the outer end of the lower pull belt (206).

6. The ultrafast laser processing glass cutting table capable of automatically pushing material according to claim 5, wherein: the upper end of feeding conveyer belt (105), exit conveyor (106) and blank platform (107) is located same horizontal plane, the upper end of transporting transport case (202) leaves small interval with cutting box (101).

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