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CN-224224225-U - Chip adsorption device for glass cutting

CN224224225UCN 224224225 UCN224224225 UCN 224224225UCN-224224225-U

Abstract

The utility model discloses a chip adsorption device for glass cutting, which comprises an adjusting frame, wherein a negative pressure pipe is longitudinally and slidingly connected between two longitudinal plates of the adjusting frame, a glass chip adsorption pipe is arranged at an air inlet of an outer cambered surface of the negative pressure pipe, and the chip adsorption device also comprises an adsorption mechanism, wherein the adsorption mechanism comprises a high-pressure pipe, an air outlet pipe and a flow guide pipe, the high-pressure pipe is longitudinally and slidingly connected between the two longitudinal plates of the adjusting frame, the air outlet pipe is arranged at an air blowing port of the outer cambered surface of the high-pressure pipe, and the air outlet pipe is inclined downwards from back to front.

Inventors

  • LANG WEIDONG
  • LI LINLIN
  • TIAN YONGLIANG

Assignees

  • 河南昇达贸易有限公司

Dates

Publication Date
20260512
Application Date
20250625

Claims (7)

  1. 1. The chip adsorption device for glass cutting comprises an adjusting frame (1), wherein a negative pressure pipe (2) is longitudinally and slidably connected between two longitudinal plates of the adjusting frame (1), and a glass chip adsorption pipe (3) is arranged at an air inlet of an outer cambered surface of the negative pressure pipe (2), and is characterized by further comprising an adsorption mechanism (4); The adsorption mechanism (4) comprises a high-pressure pipe (41), an air outlet pipe (42) and a guide pipe (45), wherein the high-pressure pipe (41) is longitudinally and slidably connected between two longitudinal plates of the adjusting frame (1), the air outlet pipe (42) is arranged at an air blowing port of an outer cambered surface of the high-pressure pipe (41), the air outlet pipe (42) is inclined downwards from back to front, the glass chip adsorption pipe (3) is inclined downwards from front to back, and the guide pipe (45) is respectively arranged inside the negative pressure pipe (2) and the high-pressure pipe (41).
  2. 2. The glass cutting chip adsorbing device as set forth in claim 1, wherein the adsorbing mechanism (4) further comprises a baffle plate (43) and side baffle plates (44), the side baffle plates (44) are respectively arranged on the left and right side surfaces of the glass chip adsorbing tube (3), and the baffle plate (43) is arranged between the air outlet tube (42) and the glass chip adsorbing tube (3).
  3. 3. The device for adsorbing the chips for glass cutting according to claim 1, wherein the adsorption mechanism (4) further comprises conical tubes (46), the conical tubes (46) are respectively arranged on the outer cambered surfaces of the guide tubes (45), and the outer edges of the conical tubes (46) are respectively fixedly connected with the inner cambered surfaces of the negative pressure tube (2) and the high pressure tube (41).
  4. 4. The device for adsorbing the chips for glass cutting according to claim 1, wherein the regulating seats (5) are longitudinally and slidably connected in the sliding grooves on the surface of the longitudinal plate of the regulating frame (1), the negative pressure pipe (2) and the high pressure pipe (41) are arranged between the two regulating seats (5), regulating screws (6) are rotationally connected between the front inner wall and the rear inner wall of the sliding groove of the longitudinal plate of the regulating frame (1), and the regulating screws (6) are respectively connected with screw holes in the middle of the regulating seats (5) through threads.
  5. 5. The device for adsorbing the chips for glass cutting according to claim 4, further comprising a single chip microcomputer (10), wherein the single chip microcomputer (10) is positioned on the left side of the adjusting frame (1), and the input end of the single chip microcomputer (10) is electrically connected with an external power supply.
  6. 6. The glass-cutting is with piece adsorption equipment, according to claim 5, wherein the front end of adjusting screw (6) all is equipped with worm wheel (7), is equipped with biax motor (9) in adjusting frame (1) diaphragm inside, and the output shaft end of biax motor (9) all is equipped with worm (8), and worm (8) all rotate with adjusting frame (1) diaphragm inner wall and be connected, and worm (8) are connected with adjacent worm wheel (7) meshing, and the input of biax motor (9) is connected in the output of singlechip (10) electricity.
  7. 7. The device for adsorbing the chips for glass cutting according to claim 1, further comprising an air extraction box (11), wherein the air extraction box (11) is positioned at the lower side of the adjusting frame (1), and connecting hoses (12) are respectively arranged between an air inlet of the air extraction box (11) and left and right openings of the negative pressure pipe (2) and between an air outlet of the air extraction box (11) and left and right openings of the high pressure pipe (41).

Description

Chip adsorption device for glass cutting Technical Field The utility model relates to the technical field of glass cutting, in particular to a chip adsorption device for glass cutting. Background ‌ Glass cutting ‌ refers to a process of cutting glass materials according to a specific shape or size by using a physical or laser technology, the traditional method comprises the steps of scribing a notch on the surface of the glass by using a diamond cutter or a mechanical wheel, then cutting the glass along the notch by using a mechanical means, generating partial fragments in the process of cutting ‌ glass by using a physical mode, enabling the fragments to stay on the surface of a cutting table, and easily scratching the surface of the glass when the glass is cut later, so that the glass fragments are required to be cleaned by using an adsorption device, wherein an authorized publication No. CN 220467820U in the prior art provides a cutting fragment recovery device for hollow glass, which comprises a bottom plate, wherein a first mounting frame is fixedly connected to two sides of the bottom plate, a first adsorption device is fixedly connected to one end of an electric telescopic rod, the electric telescopic rod is started to drive the glass waste to move in a direction away from the second mounting frame, and after a certain distance is moved, the electric motor is rotated to drive the mounting rod to slide, so that the fragments on the top surface of the glass plate are cleaned into a fragment collecting tank by the hairbrush, and the fragments in the glass can be collected by the suction mode, and the fragments can be completely adsorbed on the surface of the glass table, and the fragments can not be completely absorbed by the glass in the process because the clearance between the glass and the surface of the glass is not completely removed. Disclosure of utility model The utility model aims to overcome the existing defects, provides the chip adsorption device for glass cutting, blows up glass chips on the surface of a glass cutting table through oblique blown air flow, reduces adsorption of the glass chips on the surface of the cutting table, enables the adsorption of the glass chips to be more thorough, and can effectively solve the problems in the background art. The utility model provides a chip adsorption device for glass cutting, which comprises an adjusting frame, wherein a negative pressure pipe is longitudinally and slidably connected between two longitudinal plates of the adjusting frame, a glass chip adsorption pipe is arranged at an air inlet of an outer cambered surface of the negative pressure pipe, and the chip adsorption device further comprises an adsorption mechanism; The adsorption mechanism comprises a high-pressure pipe, an air outlet pipe and a guide pipe, wherein the high-pressure pipe is longitudinally and slidably connected between two longitudinal plates of the adjusting frame, the air outlet pipe is arranged at an air blowing port of the outer cambered surface of the high-pressure pipe, the air outlet pipe is inclined downwards from back to front, the glass chip adsorption pipe is inclined downwards from front to back, the guide pipe is respectively arranged in the negative pressure pipe and the high-pressure pipe, glass chips on the surface of the glass cutting table are blown up by oblique blown air flow, the adsorption of the glass chips on the surface of the cutting table is reduced, the adsorption of the glass chips is more thorough, the air pressure in the negative pressure pipe is guided to be distributed more uniformly in the transverse direction, the adsorption of the glass chips is more uniform, and the glass chips on the surface of the glass cutting table are comprehensively adsorbed by matching with the longitudinal movement of the adsorption component. Further, the adsorption mechanism further comprises a baffle and side baffles, the side baffles are respectively arranged on the left side and the right side of the glass chip adsorption tube, the baffles are arranged between the air outlet tube and the glass chip adsorption tube and guide the moving track of the blown glass chips, so that the blown glass chips accurately enter the glass chip adsorption tube. Further, the adsorption mechanism further comprises conical pipes, the conical pipes are respectively arranged on the outer cambered surfaces of the guide pipes, the outer edges of the conical pipes are respectively fixedly connected with the inner cambered surfaces of the negative pressure pipes and the high pressure pipes, the positions of the guide pipes are fixed, and air can conveniently enter the guide pipes. Further, all vertical sliding connection has the regulation seat in the spout on regulation frame longitudinal plate surface, and negative pressure pipe and high pressure pipe all set up between two regulation seats, all rotate between the inner wall around the spout of regulation frame longitudinal pl