CN222846622U - High-efficient cutter of door and window glass - Google Patents

Abstract

The utility model discloses a high-efficiency cutter for door and window glass, which comprises a mounting frame, wherein a driving roller and a driven roller are rotatably arranged on the mounting frame and driven by a conveying motor arranged on one side of the mounting frame, a glass conveying belt is connected between the driving roller and the driven roller, a Y-axis beam capable of moving forwards and backwards is arranged on the mounting frame, an X-axis moving frame capable of moving leftwards and rightwards is arranged on the Y-axis beam, an air cylinder is arranged on the X-axis moving frame, and a cutting tool bit is arranged at the bottom end of a piston rod of the air cylinder. Compared with the prior art, the utility model has the advantages that the utility model can accurately position and rapidly complete cutting operation by combining a cutting tool bit driven by an air cylinder through a Y-axis and X-axis moving system which is precisely designed, thereby greatly improving the cutting efficiency.

Description

High-efficient cutter of door and window glass

Technical Field

The utility model relates to the technical field of door and window glass processing, in particular to a high-efficiency cutter for door and window glass.

Background

With the vigorous development of the building industry, the demand of door and window glass is increased, and the traditional manual cutting mode is difficult to meet the high-efficiency and accurate production demands. Although the existing automatic cutting equipment is improved, the problems of low cutting efficiency, unstable precision, complex equipment structure, high maintenance cost and the like still exist, and the further development of the glass processing industry is restricted.

Disclosure of utility model

The utility model aims to overcome the technical defects and provide the efficient cutter for the door and window glass.

In order to solve the technical problems, the technical scheme is that the efficient cutter for the door and window glass comprises a mounting frame, wherein a driving roller and a driven roller are rotatably arranged on the mounting frame and driven by a conveying motor arranged on one side of the mounting frame, a glass conveying belt is connected between the driving roller and the driven roller, a Y-axis beam capable of moving forwards and backwards is arranged on the mounting frame, an X-axis moving frame capable of moving leftwards and rightwards is arranged on the Y-axis beam, an air cylinder is arranged on the X-axis moving frame, and a cutting tool bit is arranged at the bottom end of a piston rod of the air cylinder.

Further, one side of mounting bracket is equipped with Y axle transmission case, Y axle transmission case rotation is equipped with Y axle lead screw, Y axle lead screw is driven by the Y axle motor that sets up in Y axle transmission case outer end, threaded connection has Y axle drive seat on the Y axle lead screw, Y axle transmission case both sides all are equipped with Y axle guide slot along length direction, Y axle guide slot sliding is equipped with Y axle connecting plate, the upper end and the lower extreme of Y axle connecting plate are connected with the bottom of Y axle roof beam and the upper portion of Y axle drive seat respectively, one side that the Y axle transmission case was kept away from to the mounting bracket still is equipped with Y axle guide rail and Y axle drive seat's bottom through Y axle slider and Y axle guide rail sliding connection.

Further, the inside of Y axle roof beam is equipped with the cavity, the rotation is equipped with X axle lead screw in the cavity, X axle lead screw is driven by the X axle motor that sets up at Y axle roof beam tip, threaded connection has X axle drive seat on the X axle lead screw, both sides are equipped with X axle guide way around the Y axle roof beam, X axle guide way sliding is equipped with X axle connecting plate, the upper end and the lower extreme of X axle connecting plate are connected with the bottom of X axle movable frame and the upper portion of X axle drive seat respectively.

Further, an air pump is further arranged on the X-axis moving frame and connected with the air cylinder through an air pipe.

Further, guide frames are further arranged on two sides of the front end of the mounting frame, and a plurality of glass guide wheels are rotationally arranged in the guide frames.

Further, the mounting frame is provided with a plurality of support rollers arranged between the driving roller and the driven roller.

Compared with the prior art, the glass cutting machine has the remarkable advantages that the glass cutting machine realizes high efficiency and automation of glass cutting. Through a Y-axis and X-axis moving system which is precisely designed and a cutting tool bit driven by an air cylinder, the utility model can precisely position and rapidly complete cutting operation, thereby greatly improving cutting efficiency. Meanwhile, due to the application of the guide frame and the glass guide wheel, the stable posture of the glass before cutting is ensured, and the cutting precision is further improved. In addition, the seamless connection of the whole cutting and conveying process reduces manual intervention, realizes continuous operation from glass feeding, cutting to discharging, improves production efficiency and reduces labor intensity. In conclusion, the utility model has obvious advantages in high-efficiency cutting, automatic operation and overall functional effects, and is an innovation breakthrough in the glass processing industry.

Drawings

Fig. 1 is a schematic view of a high efficiency cutter for door and window glass according to the present utility model.

Fig. 2 is a schematic view of a high efficiency cutter for door and window glass removal glass conveyor according to the present utility model.

Fig. 3 is a front view showing the internal structure of a Y-axis transmission case in a high efficiency cutter for glass for doors and windows according to the present utility model.

Fig. 4 is a side view of the internal structure of a Y-axis beam in a high efficiency cutter for door and window glass according to the present utility model.

The drawing shows that 1, a mounting frame, 2, a driving roller, 3, a driven roller, 4, a conveying motor, 5, a glass conveying belt, 6, a Y-axis beam, 7, an X-axis moving frame, 8, an air cylinder, 9, a cutting tool bit, 10, a Y-axis transmission box, 11, a Y-axis lead screw, 12, a Y-axis motor, 13, a Y-axis driving seat, 14, a Y-axis guide groove, 15, a Y-axis connecting plate, 16, a Y-axis guide rail, 17, a Y-axis sliding block, 18, an X-axis lead screw, 19, an X-axis motor, 20, an X-axis driving seat, 21, an X-axis guide groove, 22, an X-axis connecting plate, 23, an air pump, 24, an air pipe, 25, a guide frame, 26, a glass guide wheel, 27 and a supporting roller.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals.

It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

In order to make the contents of the present utility model more clearly understood, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

The utility model provides a combine 1-figure 3 of attached hereto, a door and window glass high-efficient cutterbar, including mounting bracket 1, the rotation is equipped with drive roll 2 and driven voller 3 on the mounting bracket 1 and drive roll 2 is driven by the conveying motor 4 that sets up in mounting bracket 1 one side, is connected with glass conveyer belt 5 between drive roll 2 and the driven voller 3, is equipped with the Y axle roof beam 6 that can reciprocate on the mounting bracket 1, is equipped with the X axle movable frame 7 that can control the removal on the Y axle roof beam 6, is equipped with cylinder 8 on the X axle movable frame 7, and the bottom of cylinder 8 piston rod is equipped with cutting tool bit 9.

In one embodiment, one side of the mounting frame 1 is provided with a Y-axis transmission box 10, a Y-axis lead screw 11 is rotationally arranged in the Y-axis transmission box 10, the Y-axis lead screw 11 is driven by a Y-axis motor 12 arranged at the outer end of the Y-axis transmission box 10, a Y-axis driving seat 13 is connected to the Y-axis lead screw 11 in a threaded manner, two sides of the Y-axis transmission box 10 are respectively provided with a Y-axis guide groove 14 along the length direction, a Y-axis connecting plate 15 is slidably arranged in the Y-axis guide groove 14, the upper end and the lower end of the Y-axis connecting plate 15 are respectively connected with the bottom of the Y-axis beam 6 and the upper part of the Y-axis driving seat 13, one side of the mounting frame 1 far away from the Y-axis transmission box 10 is also provided with a Y-axis guide rail 16, and the bottom of the Y-axis driving seat 13 is slidably connected with the Y-axis guide rail 16 through a Y-axis sliding block 17. In this embodiment, the side of the mounting frame 1 is skillfully integrated with a Y-axis transmission box 10, and a precisely configured Y-axis screw 11 in the box ensures precise movement of the Y-axis beam 6 in the vertical direction under the strong driving of a Y-axis motor 12. The Y-axis guide groove 14 is tightly matched with the Y-axis connecting plate 15, and the Y-axis guide rail 16 is connected with the Y-axis sliding block 17 in a sliding way, so that a stable and efficient Y-axis moving system is formed, the stability of the whole structure is improved, and the smoothness and accuracy of the Y-axis beam 6 in the moving process are obviously enhanced.

In one embodiment, a cavity is arranged in the Y-axis beam 6, an X-axis screw rod 18 is rotatably arranged in the cavity, the X-axis screw rod 18 is driven by an X-axis motor 19 arranged at the end part of the Y-axis beam 6, an X-axis driving seat 20 is connected to the X-axis screw rod 18 in a threaded manner, X-axis guide grooves 21 are arranged on the front side and the rear side of the Y-axis beam 6, an X-axis connecting plate 22 is slidably arranged in the X-axis guide grooves 21, and the upper end and the lower end of the X-axis connecting plate 22 are respectively connected with the bottom of the X-axis moving frame 7 and the upper part of the X-axis driving seat 20. The X-axis screw rod 18 drives the X-axis driving seat 20 through threaded connection under the drive of the X-axis motor 19, so as to drive the X-axis moving frame 7 to flexibly move in the horizontal direction. The X-axis guide groove 21 is precisely matched with the X-axis connecting plate 22, so that the moving track of the X-axis moving frame 7 is effectively limited, the movement of the X-axis moving frame in the X-axis direction is ensured to be rapid and accurate, and a solid platform foundation is provided for cutting operation.

In one embodiment, the X-axis moving frame 7 is further provided with an air pump 23, and the air pump 23 is connected with the air cylinder 8 through an air pipe 24. The design not only simplifies the power transmission path, but also improves the response speed of the air cylinder 8, so that the lifting action of the cutter head 9 is quicker and more accurate. The stable air supply of the air pump 23 ensures the continuous and stable work of the air cylinder 8 in the cutting process, and further improves the cutting efficiency and precision.

In one embodiment, the two sides of the front end of the mounting frame 1 are also provided with guide frames 25, and a plurality of glass guide wheels 26 are rotatably arranged in the guide frames 25. The glass guide wheels 26 not only effectively reduce friction and vibration of the glass in the conveying process, but also ensure the stable posture of the glass before cutting, and lay a good foundation for subsequent accurate cutting.

In one embodiment, the mounting frame 1 is provided with a plurality of support rollers 27 between the driving roller 2 and the driven roller 3. These support rollers 27 are evenly distributed and effectively distribute the weight of the support glass conveyor 5 and glass thereon, enhancing the load carrying capacity and stability of the conveyor system. Meanwhile, the device also helps to maintain the flatness of the conveyor belt, avoids deformation or deflection caused by uneven local stress, and further improves the precision and reliability of cutting operation.

Working principle first, the whole glass to be cut is placed on a glass conveyor 5, which glass conveyor 5 is driven jointly by a driving roll 2 and a driven roll 3, powered by a conveyor motor 4. Before the glass moves on the glass conveyor belt 5 and enters the cutting area, the glass firstly passes through the guide frames 25 on the two sides of the front end of the mounting frame 1, and the glass guide wheels 26 in the guide frames guide and position the glass, so that the glass is ensured to maintain a stable posture and a correct position before being cut.

As the glass continues to move, it enters the cutting area formed by the Y-axis beam 6 and the X-axis moving frame 7. Under the drive of the Y-axis motor 12, the Y-axis beam 6 realizes the accurate movement in the front-back direction through the synergistic effect of the Y-axis lead screw 11, the Y-axis guide groove 14 and the Y-axis guide rail 16 in the Y-axis transmission case 10. Meanwhile, the X-axis moving frame 7 is driven by an X-axis motor 19 in the Y-axis beam 6, and flexible movement in the left-right direction is realized through accurate control of an X-axis lead screw 18 and an X-axis guide groove 21. In this way, the cutting head 9 (mounted at the bottom end of the piston rod of the cylinder 8) can be freely moved in a two-dimensional plane to a predetermined cutting position.

When the cutter head 9 is positioned accurately, the air pump 23 supplies air to the air cylinder 8 through the air pipe 24, and drives the piston rod of the air cylinder to descend, so that the cutter head 9 is clung to the glass surface. Subsequently, the cutter head 9 starts to operate to cut the glass. During cutting, the high speed rotation or linear motion of the cutting bit 9 (depending on the particular bit type) creates friction with the glass surface, creating sufficient heat and force to sever the glass.

After the cutting is completed, the air cylinder 8 is lifted up again by the air pump 23 to lift the cutting head 9 to avoid contact with the cut glass. At this point, the glass conveyor 5 continues to convey the cut glass sheet forward, while the remaining glass continues to remain on the conveyor waiting for the next cut.

The whole cutting and conveying process realizes automation and continuity, and greatly improves the efficiency and precision of glass cutting. Meanwhile, the design of the guide frame 25 and the support roller 27 further ensures the stability and safety of the glass during cutting and conveying.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (6)

1. The utility model provides a high-efficient cutterbar of door and window glass, includes mounting bracket (1), its characterized in that, rotate on mounting bracket (1) and be equipped with driving roll (2) and driven voller (3) and driving roll (2) by setting up conveying motor (4) drive in mounting bracket (1) one side, be connected with glass conveyer belt (5) between driving roll (2) and driven voller (3), be equipped with Y axle roof beam (6) that can reciprocate on mounting bracket (1), be equipped with X axle movable frame (7) that can control the removal on Y axle roof beam (6), be equipped with cylinder (8) on X axle movable frame (7), the bottom of cylinder (8) piston rod is equipped with cutting tool bit (9).

2. The efficient cutter for door and window glass according to claim 1, wherein one side of the mounting frame (1) is provided with a Y-axis transmission box (10), a Y-axis lead screw (11) is rotationally arranged in the Y-axis transmission box (10), the Y-axis lead screw (11) is driven by a Y-axis motor (12) arranged at the outer end of the Y-axis transmission box (10), Y-axis driving seats (13) are connected to the Y-axis lead screw (11) in a threaded manner, Y-axis guide grooves (14) are formed in two sides of the Y-axis transmission box (10) along the length direction, Y-axis connecting plates (15) are slidably arranged in the Y-axis guide grooves (14), the upper ends and the lower ends of the Y-axis connecting plates (15) are respectively connected with the bottoms of the Y-axis beams (6) and the upper portions of the Y-axis driving seats (13), and one side of the mounting frame (1) away from the Y-axis transmission box (10) is further provided with Y-axis guide rails (16) and the bottoms of the Y-axis driving seats (13) are slidably connected with the Y-axis guide rails (16) through Y-axis sliding blocks (17).

3. The efficient cutter for door and window glass according to claim 2, wherein a cavity is formed in the Y-axis beam (6), an X-axis screw (18) is rotatably arranged in the cavity, the X-axis screw (18) is driven by an X-axis motor (19) arranged at the end part of the Y-axis beam (6), an X-axis driving seat (20) is connected to the X-axis screw (18) in a threaded manner, X-axis guide grooves (21) are formed in the front side and the rear side of the Y-axis beam (6), an X-axis connecting plate (22) is arranged in the X-axis guide grooves (21) in a sliding manner, and the upper end and the lower end of the X-axis connecting plate (22) are connected with the bottom of the X-axis moving frame (7) and the upper part of the X-axis driving seat (20) respectively.

4. The efficient cutter for door and window glass according to claim 1, wherein an air pump (23) is further arranged on the X-axis moving frame (7), and the air pump (23) is connected with the air cylinder (8) through an air pipe (24).

5. The efficient cutter for door and window glass according to claim 1, wherein guide frames (25) are further arranged on two sides of the front end of the mounting frame (1), and a plurality of glass guide wheels (26) are rotatably arranged on the guide frames (25).

6. A high efficiency cutter for glazing as claimed in claim 1, wherein the mounting frame (1) is provided with a plurality of support rollers (27) located between the drive roller (2) and the driven roller (3).