CN115650573A - Full-automatic glass laser cutting machine - Google Patents

Abstract

The invention relates to the field of laser cutting, in particular to a full-automatic glass laser cutting machine, which comprises: a frame; the laser cutting device is erected in the middle of the rack; a feeding device and a discharging device which are arranged close to the laser cutting device are respectively and fixedly arranged at the two ends of the rack; the glass clamping and conveying device is arranged right below the laser cutting device; the waste collecting device is arranged on the rack; the method is characterized in that: glass centre gripping transmission device includes: the machining platform and a linear reciprocating driver for driving the machining platform to reciprocate along the long edge direction of the rack; the linear reciprocating driver is fixedly arranged on the rack in a linear reciprocating driving way; the processing platform is fixedly installed at the output end of the linear reciprocating driver, so that the full-automatic feeding and discharging, cutting and automatic waste material collecting work of the glass can be completed, the manual work is not needed, the working efficiency is high, and the potential safety hazard is small.

Description

Full-automatic glass laser cutting machine

Technical Field

The invention relates to the field of laser cutting, in particular to a full-automatic glass laser cutting machine.

Background

When the glass is manufactured, the glass cutting is an important process, wherein the laser cutting processing replaces the traditional mechanical knife by the invisible light beam, has the characteristics of high precision, quick cutting, no limitation on cutting patterns, automatic typesetting, material saving, smooth cut, low processing cost and the like, and can be gradually improved or replaced by the traditional metal cutting process equipment;

current laser cutting equipment, when cutting glass, all carry out the material loading through the manual work to glass, the glass that finished product cutting was accomplished is taking off through the manual work after processing finishes, cleaning the cutting waste material, it is very hard and time consuming when needing to beat to carry out glass cutting work in batches, and the workman is very easily by the glass fish tail in transport and the clearance process to glass, the potential safety hazard is great, so we need a full-automatic glass laser cutting machine, thereby realize full automatization completion to last unloading of glass, cutting and to the automatic collection work of waste material, need not the manual work, work efficiency is high, the potential safety hazard is little.

Disclosure of Invention

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

preferably, a full-automatic glass laser cutting machine includes:

a frame;

the laser cutting device is erected in the middle of the rack and is used for cutting glass; a feeding device and a discharging device which are arranged close to the laser cutting device are respectively and fixedly arranged at two ends of the rack;

the glass clamping and conveying device is arranged right below the laser cutting device and is used for driving the glass to perform reciprocating movement work from the end part of the rack to the other end of the rack;

the waste collecting device is arranged on the rack and fixedly arranged at the other end far away from the feeding device;

the method is characterized in that:

glass centre gripping transmission device includes: the machining platform and a linear reciprocating driver for driving the machining platform to reciprocate along the long edge direction of the rack;

the linear reciprocating driver is fixedly arranged on the rack in a reciprocating manner and is arranged along the long side direction of the rack;

and the processing platform is fixedly arranged at the output end of the linear reciprocating driver.

Preferably, the linear reciprocating driver comprises a first screw rod sliding table horizontally arranged in the middle of the rack along the long side direction of the rack and guide rods arranged on two sides of the first screw rod sliding table in a mirror image state;

the fixing frames are provided with two fixing frames which are respectively sleeved on the end parts of the guide rods.

Preferably, the processing platform comprises a placing platform, a plurality of long circular grooves are formed in the placing platform, a rectangular blocking block is further arranged on one side of the long edge of the placing platform, and the blocking block is arranged close to the feeding device;

the clamping frames are connected with the long circular grooves in a sliding mode and are arranged at two ends of the placing platform in a sliding mode respectively, the side of each clamping frame is further provided with a convex block, and a threaded through hole penetrates through the surface of each convex block from top to bottom;

and the jacking nut is in threaded connection with the threaded through hole.

Preferably, the laser cutting device comprises a laser cutting head and a first coordinate robot for driving the laser cutting head to move in multiple degrees of freedom, and the laser cutting head is fixedly arranged at the output end of the first coordinate robot;

first coordinate robot, first coordinate robot erects and installs in the frame middle part, first coordinate robot comprises a set of horizontal reciprocating motion subassembly and vertical reciprocating motion subassembly.

Preferably, the feeding device comprises a quilting vehicle and an adsorption component telescopically arranged at the output end of the quilting vehicle;

the glass feeding assembly is arranged right below the quilting vehicle;

the adsorption component comprises a first mounting frame and a plurality of suckers distributed on the first mounting frame, and the output ends of the suckers are arranged right above the glass feeding component.

Preferably, the glass feeding assembly comprises a placing base which is arranged right below the quilting vehicle;

the vertical plates are arranged in a plurality of groups, are arranged on the placing base in a vertical state in a surrounding mode and form a placing cavity in a surrounding mode;

the bearing table is slidably arranged in the placing cavity and used for stacking and placing the glass to be cut;

electric putter, electric putter is vertical state setting and places on the base, electric putter's tip and the lower extreme fixed connection of plummer.

Preferably, the blanking assembly comprises a blanking manipulator and a finished product collecting box for storing finished glass, the blanking manipulator is arranged at the other end far away from the feeding device in a vertical state, and the finished product collecting box is arranged beside the blanking manipulator.

Preferably, the waste collecting device comprises a second screw rod sliding table which is fixedly arranged at one end close to the blanking device, and the second screw rod sliding table is arranged on one side of the rack along the long edge direction of the rack;

the sliding frame and the second screw rod sliding table are arranged on the other side in a mirror image state, and a sliding block is arranged inside the sliding frame in a sliding mode;

the second mounting frame is erected and mounted on the rack, and two ends of the second mounting frame are fixedly connected with the output end of the second lead screw sliding table and the sliding block respectively;

the two long-axis cylinders are arranged and are arranged in a mirror image state respectively, and the output ends of the long-axis cylinders penetrate through the second mounting frame and are arranged towards the rack;

the cleaning frame is fixedly arranged at the output end of the long shaft cylinder and consists of a first long plate and a second long plate, the first long plate and the second long plate are spliced into a T shape, and the surface of the second long plate is also provided with an avoidance notch;

and the waste collection box is arranged right below the end part of the rack and is arranged at one end close to the blanking device.

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

the invention completes the multi-station work of driving the glass to be cut through the linear reciprocating driver and the processing platform, and comprises the following specific steps: when glass needs to be cut, a worker firstly drives the glass clamping and conveying device to work, so that the linear reciprocating driver drives the processing platform with the output end fixedly arranged to move to one end close to the feeding device, and then the glass to be cut is fed through the feeding device;

the invention finishes the glass cutting and the collection work after the cutting through the laser cutting device and the blanking device, and comprises the following specific steps: after the feeding is finished, the processing platform drives the glass to move to a position right below the laser cutting device, the glass is cut through the laser cutting device, the cut glass is driven to one end close to the blanking device through the processing platform, and then the cut glass is captured and collected through the blanking device;

the invention finishes the collection work of the cutting waste through the waste collection device, and comprises the following specific steps: the glass waste remained on the processing platform is finally collected and recycled by the waste collecting device.

Drawings

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

FIG. 2 is a perspective view of the glass holding and transferring device of the present invention;

FIG. 3 is a perspective view of the processing platform of the present invention;

FIG. 4 is a perspective view of the loading device of the present invention;

FIG. 5 is a side view of the glass feed assembly of the present invention;

FIG. 6 is a perspective view of the glass feed assembly of the present invention;

FIG. 7 is a perspective view of the glass holding conveyor and blanking unit of the present invention;

figure 8 is a perspective view of the waste collection device of the present invention.

The reference numbers in the figures are:

1-a frame; 2-laser cutting device; 3-a feeding device; 4-a blanking device; 5-a glass clamping and conveying device; 6-a waste collection device; 7-a linear reciprocating drive; 8-processing the platform; 9-a first screw rod sliding table; 10-a guide bar; 11-a fixing frame; 12-a placement platform; 13-oblong grooves; 14-a barrier; 15-a clamping frame; 16-a bump; 17-tightening the nut; 18-a laser cutting head; 19-a first coordinate robot; 20-quilting; 21-an adsorption component; 22-a glass feed assembly; 23-a first mounting frame; 24-a suction cup; 25-placing a base; 26-vertical plate; 27-a carrier table; 28-electric push rod; 29-a blanking manipulator; 30-a finished product collection box; 31-a second screw rod sliding table; 32-a carriage; 33-a slide block; 34-a second mounting frame; 35-long axis cylinder; 36-a cleaning frame; 37-a second long plate; 38-avoiding the notch; 39-a waste collection box; 40-first long plate.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 8, a full-automatic glass laser cutting machine includes:

a frame 1;

the laser cutting device 2 is erected in the middle of the rack 1, and the laser cutting device 2 is used for cutting glass; a feeding device 3 and a discharging device 4 which are arranged close to the laser cutting device 2 are respectively and fixedly arranged at the two ends of the frame 1;

the glass clamping and conveying device 5 is arranged right below the laser cutting device 2, and the glass clamping and conveying device 5 is used for driving glass to perform reciprocating movement work from the end part of the rack 1 to the other end of the rack 1;

the waste collecting device 6 is arranged on the rack 1, and the waste collecting device 6 is fixedly arranged at the other end far away from the feeding device 3;

the method is characterized in that:

the glass holding and conveying device 5 includes: the machining platform 8 and a linear reciprocating driver 7 for driving the machining platform 8 to reciprocate along the long edge direction of the frame 1;

the linear reciprocating driver 7 is fixedly installed on the rack 1 in a linear reciprocating driving mode, and the linear reciprocating driver 7 is arranged along the long edge direction of the rack 1;

and the processing platform 8 is fixedly arranged at the output end of the linear reciprocating driver 7.

When needs cut glass, the staff at first drives 5 work of glass centre gripping transmission device, make the straight reciprocating motion driver 7 drive the processing platform 8 that drives output fixed mounting and remove to the one end that is close to loading attachment 3, then treat the glass of cutting through loading attachment 3 and carry out the material loading, the material loading finishes the back processing platform 8 and drives glass and remove to laser cutting device 2 under, cut glass through laser cutting device 2, the glass after the cutting finishes drives to the one end that is close to unloader 4 by processing platform 8, then snatch the collection through unloader 4 to the glass that the cutting finishes, and the glass waste material of reserving on processing platform 8 then collects it at last through garbage collection device 6 and is utilizing.

Referring to fig. 2, the linear reciprocating driver 7 comprises a first screw rod sliding table 9 horizontally arranged in the middle of the frame 1 along the long side direction of the frame 1 and guide rods 10 arranged on two sides of the first screw rod sliding table 9 in a mirror image state;

the number of the fixing frames 11 is two, and the fixing frames 11 are respectively sleeved on the end portions of the guide rods 10.

When the processing platform 8 is required to be driven to move, the first lead screw sliding table 9 is driven to work by the external power supply, the first lead screw sliding table 9 is connected to drive the processing platform 8 with the output end fixedly installed to slide back and forth along the output direction of the first lead screw sliding table 9, the guide rod 10 is connected with the processing platform 8 in a sliding mode, and the guide rod 10 is used for guiding and supporting when the processing platform 8 works.

Referring to fig. 3, the processing platform 8 includes a placing platform 12, a plurality of oblong grooves 13 are further formed in the placing platform 12, a rectangular blocking block 14 is further arranged on one side of a long edge of the placing platform 12, and the blocking block 14 is arranged in a direction close to the feeding device 3;

the number of the clamping frames 15 is two, the clamping frames 15 are connected with the long circular grooves 13 in a sliding mode, the clamping frames 15 are arranged at the two ends of the placing platform 12 in a sliding mode respectively, a convex block 16 is further arranged beside each clamping frame 15, and a threaded through hole penetrates through the surface of each convex block 16 from top to bottom;

and the jacking nut 17 is tightly screwed, and the jacking nut 17 is in threaded connection with the threaded through hole.

Before transmitting glass, the staff at first can loosen the tight nut 17 in top and then place the glass that the piece was waited to cut on 8 surfaces of processing platform, the block 14 setting is blockked in the preferential conflict of lateral wall that waits to cut glass, make glass set up between two parties in 8 middle parts of processing platform, adjust clamping frame 15 thereupon, make clamping frame 15's the clamping face support and lean on glass both sides and set up, the non-complete conflict glass lateral wall setting of clamping face, it places the clearance to leave between clamping face and the glass, the completion is screwed tight nut 17 behind glass's the centre gripping and is made the tight to place the platform 12 surfaces in top of tight nut 17 tip top, thereby accomplish the fixed work to clamping frame 15.

Referring to fig. 1, the laser cutting device 2 includes a laser cutting head 18 and a first coordinate robot 19 for driving the laser cutting head 18 to move with multiple degrees of freedom, and the laser cutting head 18 is fixedly installed at an output end of the first coordinate robot 19;

first coordinate robot 19, 19 erects and installs in frame 1 middle part of the first coordinate robot, 19 first coordinate robot is constituteed through a set of horizontal reciprocating motion subassembly and vertical reciprocating motion subassembly.

Under the working state, the first coordinate robot 19 is coded by the controller, so that the first coordinate robot 19 drives the laser cutting head 18 to cut the glass according to the required cutting path, thereby completing the cutting work of the glass, and the controller is not shown in the prior art.

Referring to fig. 4, the feeding device 3 comprises a quilting vehicle 20 and an absorption assembly 21 telescopically mounted at an output end of the quilting vehicle 20;

a glass feed assembly 22, the glass feed assembly 22 being disposed directly below the quilting vehicle 20;

the suction assembly 21 includes a first mounting frame 23 and a plurality of suction cups 24 disposed on the first mounting frame 23, and the output ends of the suction cups 24 face to the position right above the glass supply assembly 22.

When needing to treat cutting glass and carry out material loading staff drive quilting vehicle 20 work, quilting vehicle 20 does not show in detail for prior art in the picture, drive the work of first mounting bracket 23 that the output set up through quilting vehicle 20, order about first mounting bracket 23 and remove to glass feed assembly 22 directly over, then the vertical decline of the first mounting bracket 23 of drive is close to towards the glass surface, along with the removal sucking disc 24 of first mounting bracket 23 also removes thereupon, stop the decline after the output conflict glass surface of sucking disc 24, drive vacuum pump work extraction sucking disc 24 inside air, thereby adsorb glass, then remove to the output of glass centre gripping transmission device 5 under quilting vehicle 20's drive, thereby the material loading work of treating cutting glass is accomplished.

Referring to fig. 5 and 6, the glass feed assembly 22 includes a placement base 25, the placement base 25 being disposed directly below the quilting vehicle 20;

the vertical plates 26 are arranged in a plurality of groups, and the vertical plates 26 are arranged on the placing base 25 in a vertical surrounding manner to form a placing cavity in a surrounding manner;

the bearing table 27 is slidably arranged in the placing cavity, and the bearing table 27 is used for stacking and placing the glass to be cut;

the electric push rod 28, the electric push rod 28 is vertical state setting and placing on the base 25, the tip of electric push rod 28 and the lower extreme fixed connection of plummer 27.

After adsorbing assembly 21 absorbs away glass, electric putter 28 work, thereby electric putter 28 output extends and promotes plummer 27 and rises, drives the glass that plump in plummer 27 upper end and rises thereupon, rises to and stops after the tip that erects version 26 keeps the level when glass to accomplish the feed work to glass.

Referring to fig. 7, the blanking assembly includes a blanking manipulator 29 and a finished product collection box 30 for storing the finished glass, the blanking manipulator 29 is vertically disposed at the other end far away from the feeding device 3, and the finished product collection box 30 is disposed beside the blanking manipulator 29.

Glass after cutting by the laser cutting device 2 is driven by the glass clamping and conveying device 5 to move to one end close to the blanking device 4 and then stop, the blanking mechanical arm 29 works to absorb and collect finished glass after cutting and place the finished glass into the finished product collection box 30, the finished product collection box 30 is used for storing the finished glass after cutting, and the output end of the blanking mechanical arm 29 is detachably provided with adsorption components 21 aiming at the finished glass with different sizes.

Referring to fig. 8, the scrap collecting device 6 includes a second screw rod sliding table 31, the second screw rod sliding table 31 is fixedly installed at one end close to the blanking device 4, and the second screw rod sliding table 31 is arranged at one side of the frame 1 along the long side direction of the frame 1;

the sliding frame 32 is arranged on the other side in a mirror image state with the second screw rod sliding table 31, and a sliding block 33 is arranged inside the sliding frame 32 in a sliding mode;

the second mounting rack 34 is erected and mounted on the rack 1, and two ends of the second mounting rack 34 are respectively fixedly connected with the output end of the second screw rod sliding table 31 and the sliding block 33;

two long-axis cylinders 35 are arranged, the long-axis cylinders 35 are arranged in a mirror image state, and the output ends of the long-axis cylinders 35 penetrate through the second mounting frame 34 and face the rack 1;

the cleaning frame 36 is fixedly arranged at the output end of the long shaft cylinder 35, the cleaning frame 36 is composed of a first long plate 40 and a second long plate 37, the first long plate 40 and the second long plate 37 are spliced to form a T shape, and the surface of the second long plate 37 is further provided with an avoidance notch 38;

a waste collection box 39, wherein the waste collection box 39 is arranged right below the end part of the frame 1, and the waste collection box 39 is arranged at one end close to the blanking device 4.

After the finished glass who processes the flat surface is taken away by the unloading subassembly under operating condition, the vertical decline of long axis cylinder 35 drive output end fixed mounting cleans 36 and is close to towards 8 surfaces of processing platform, it stops to contradict to clean 36 planes of frame after until the tip of the long board 37 of second, then drive second lead screw slip table 31 work and drive second mounting bracket 34 and remove towards waste collection box 39 orientation to inside with waste material propelling movement to waste collection box 39, thereby accomplish the collection work of cleaning to the waste material.

The working principle of the invention is as follows:

the method comprises the following steps: when glass needs to be cut, a worker firstly drives the glass clamping and conveying device 5 to work, so that the linear reciprocating driver 7 drives the processing platform 8 fixedly installed at the output end to move to one end close to the feeding device 3, and then the glass to be cut is fed through the feeding device 3;

step two: after the feeding is finished, the processing platform 8 drives the glass to move to a position right below the laser cutting device 2, the laser cutting device 2 is used for cutting the glass, the cut glass is driven to one end close to the discharging device 4 by the processing platform 8, and then the cut glass is captured and collected by the discharging device 4;

step three: the glass waste remaining on the processing platform 8 is finally collected and utilized by the waste collecting device 6.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A full-automatic glass laser cutting machine, comprising:

a frame (1);

the glass cutting machine comprises a rack (1), a laser cutting device (2), a cutting device and a cutting device, wherein the laser cutting device (2) is erected in the middle of the rack (1), and the laser cutting device (2) is used for cutting glass; a feeding device (3) and a discharging device (4) which are arranged close to the laser cutting device (2) are respectively and fixedly arranged at the two ends of the rack (1);

the glass clamping and conveying device (5) is arranged right below the laser cutting device (2), and the glass clamping and conveying device (5) is used for driving glass to perform reciprocating movement work from the end part of the rack (1) to the other end of the rack (1);

the waste collecting device (6) is arranged on the rack (1), and the waste collecting device (6) is fixedly arranged at the other end far away from the feeding device (3);

the method is characterized in that:

the glass holding and conveying device (5) comprises: the machining device comprises a machining platform (8) and a linear reciprocating driver (7) for driving the machining platform (8) to reciprocate along the long side direction of a rack (1);

the linear reciprocating driver (7) is fixedly installed on the rack (1) in a reciprocating mode, and the linear reciprocating driver (7) is arranged along the long edge direction of the rack (1);

and the processing platform (8), and the processing platform (8) is fixedly arranged at the output end of the linear reciprocating driver (7).

2. The full-automatic glass laser cutting machine according to claim 1,

the linear reciprocating driver (7) comprises a first screw rod sliding table (9) horizontally arranged in the middle of the rack (1) along the long side direction of the rack (1) and guide rods (10) which are arranged on two sides of the first screw rod sliding table (9) in a mirror image state;

the number of the fixing frames (11) is two, and the fixing frames (11) are respectively sleeved on the end parts of the guide rods (10).

3. The full-automatic glass laser cutting machine according to claim 2,

the processing platform (8) comprises a placing platform (12), a plurality of long circular grooves (13) are further formed in the placing platform (12), a rectangular blocking block (14) is further arranged on one side of the long edge of the placing platform (12), and the blocking block (14) is arranged in the direction close to the feeding device (3);

the two clamping frames (15) are arranged, the two clamping frames (15) are in sliding connection with the long circular groove (13), the clamping frames (15) are arranged at two ends of the placing platform (12) in a sliding mode respectively, a convex block (16) is further arranged beside each clamping frame (15), and a threaded through hole penetrates through the surface of each convex block (16) from top to bottom;

the jacking nut (17) is in threaded connection with the threaded through hole.

4. The full-automatic glass laser cutting machine according to claim 1,

the laser cutting device (2) comprises a laser cutting head (18) and a first coordinate robot (19) for driving the laser cutting head (18) to move in multiple degrees of freedom, and the laser cutting head (18) is fixedly arranged at the output end of the first coordinate robot (19);

first coordinate robot (19), first coordinate robot (19) erect and install in frame (1) middle part, first coordinate robot (19) constitute through a set of horizontal reciprocating motion subassembly and vertical reciprocating motion subassembly.

5. The full-automatic glass laser cutting machine according to claim 1,

the feeding device (3) comprises a quilting vehicle (20) and an adsorption component (21) which is telescopically arranged at the output end of the quilting vehicle (20);

the glass feeding assembly (22), the glass feeding assembly (22) is arranged right below the quilting vehicle (20);

the adsorption component (21) comprises a first mounting frame (23) and a plurality of suckers (24) distributed on the first mounting frame (23), and the output ends of the suckers (24) are arranged right above the glass feeding component (22).

6. The full-automatic glass laser cutting machine according to claim 5,

the glass feeding assembly (22) comprises a placing base (25), and the placing base (25) is arranged right below the quilting vehicle (20);

the vertical plates (26) are arranged in a plurality of groups, and the vertical plates (26) are arranged on the placing base (25) in a vertical state in a surrounding mode to form a placing cavity in a surrounding mode;

the bearing table (27), the bearing table (27) is slidably arranged in the placing cavity, and the bearing table (27) is used for stacking and placing the glass to be cut;

electric putter (28), electric putter (28) are vertical state setting and place on base (25), the lower extreme fixed connection of the tip and plummer (27) of electric putter (28).

7. The full-automatic glass laser cutting machine according to claim 1,

the blanking assembly comprises a blanking mechanical arm (29) and a finished product collecting box (30) used for storing finished glass, the blanking mechanical arm (29) is arranged at the other end far away from the feeding device (3) in a vertical state, and the finished product collecting box (30) is arranged at the side of the blanking mechanical arm (29).

8. The full-automatic glass laser cutting machine according to claim 1,

the waste collecting device (6) comprises a second screw rod sliding table (31), the second screw rod sliding table (31) is fixedly arranged at one end close to the blanking device (4), and the second screw rod sliding table (31) is arranged on one side of the rack (1) along the long edge direction of the rack (1);

the sliding frame (32), the sliding frame (32) and the second screw rod sliding table (31) are arranged on the other side in a mirror image state, and a sliding block (33) is further arranged inside the sliding frame (32) in a sliding mode;

the second mounting rack (34) is erected and mounted on the rack (1), and two ends of the second mounting rack (34) are fixedly connected with the output end of the second screw rod sliding table (31) and the sliding block (33) respectively;

the number of the long shaft cylinders (35) is two, the long shaft cylinders (35) are arranged in a mirror image state, and the output ends of the long shaft cylinders (35) penetrate through the second mounting frame (34) and are arranged towards the rack (1);

the cleaning frame (36) is fixedly arranged at the output end of the long shaft cylinder (35), the cleaning frame (36) is composed of a first long plate (40) and a second long plate (37), the first long plate (40) and the second long plate (37) are spliced to form a T shape, and the surface of the second long plate (37) is further provided with an avoidance notch (38);

the waste collection box (39), the waste collection box (39) is arranged under the end part of the rack (1), and the waste collection box (39) is arranged at one end close to the blanking device (4).

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