CN110845132A

CN110845132A - Efficient internal cutting equipment for glass tube

Info

Publication number: CN110845132A
Application number: CN201911251856.5A
Authority: CN
Inventors: 舒华
Original assignee: 舒华
Current assignee: Jiangsu Famashi Medical Glass Co.,Ltd.
Priority date: 2019-12-09
Filing date: 2019-12-09
Publication date: 2020-02-28
Anticipated expiration: 2039-12-09
Also published as: CN110845132B

Abstract

The invention discloses an internal cutting type efficient cutting device for glass tubes, which structurally comprises a machine body, a liftable glass placing table, a glass tube clamp assembly, glass tubes and a cutting device, wherein the liftable glass placing table is arranged on the machine body, and the glass tube clamp assembly mechanically connected with the machine body is arranged on each of two sides of the liftable glass placing table. Stretch into in the glass pipe through the disc, adopt three cutting wheel synchronous overhanging and rotatory, can be adapted to the glass pipe of different bore sizes, the cutting wheel is from the inner wall of glass pipe to the activity of glass pipe outer wall direction, come to cut the glass pipe, can prevent that outside-in from cutting to the glass pipe production pressure, avoid the glass pipe to appear crack scheduling problem, make the quality of glass pipe can obtain guaranteeing, and can avoid the cuttings to outwards splash, based on the friction electrification principle, can collect the cuttings that produce in the cutting, prevent that the cuttings from splashing.

Description

Efficient internal cutting equipment for glass tube

Technical Field

The invention relates to the technical field of glass processing, in particular to an internal cutting type efficient cutting device for a glass tube.

Background

The glass tube is a kind of glass with sodium oxide, boron oxide and silicon dioxide as basic components, and has excellent mechanical performance, thermal stability, water resistance, alkali resistance, acid resistance and other properties, so that it is widely used in chemical, space flight, military, household, hospital and other fields.

The glass tube needs to be cut during processing, the existing cutting machine cuts the glass tube from the outer wall of the glass tube to the inner wall of the glass tube, the glass tube is of a hollow structure, the cutting piece cuts from outside to inside, certain pressure is applied to the glass tube, the hollow part of the glass tube does not have a supporting point, the problems that cracks and the like appear on two sides of a cutting line of the glass tube are easily caused, the cutting quality of the glass tube is influenced, the glass tube is cut from outside to inside, powder can splash everywhere, and operators are easily injured.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide an internal cutting type efficient cutting device for a glass tube.

The invention is realized by adopting the following technical scheme: an internal cutting type efficient cutting device for glass tubes structurally comprises a machine body, a liftable glass placing table, glass tube clamp assemblies, glass tubes and a cutting device, wherein the liftable glass placing table is mounted on the machine body, the glass tube clamp assemblies mechanically connected with the machine body are arranged on two sides of the liftable glass placing table, the glass tubes are placed on the liftable glass placing table and matched with the cutting device, and the cutting device is mounted on the machine body;

the cutting device comprises a telescopic rod, an energy-saving motor, a disc, a cutting assembly, a glass broken powder collecting assembly and a rotating assembly, wherein the rotating assembly is arranged at the center in the disc, the cutting assembly is connected to the trisection position of the rotating assembly, the glass broken powder collecting assembly is arranged outside the disc, the glass broken powder collecting assembly is connected with the rotating assembly, the telescopic rod is perpendicularly connected to the center of one side, away from the glass broken powder collecting assembly, of the disc, and the telescopic rod is connected with the output shaft of the energy-saving motor through an installation sleeve.

As optimization, the disc is including round hole, annular radiator-grid, cutting wheel expansion gap, disk body, the cutting wheel expansion gap has all been seted up on the outer wall trisection position of disk body, the round hole has been seted up at the center of the one side of disk body, the annular radiator-grid of being connected with the disk body is equipped with on the round hole, an inner wall and the rotating assembly fixed connection of annular radiator-grid are kept away from to the disk body.

As optimizing, the cutting subassembly is including cutting wheel, limiting plate, lead screw, driven bevel gear, nut pair, wheel carrier, the one end of lead screw excessively cooperates driven bevel gear, and other end swing joint has the limiting plate, be equipped with between limiting plate and the driven bevel gear with lead screw threaded connection's nut pair, the vice both sides of nut are connected with the wheel carrier, the wheel carrier is kept away from the vice one end of nut and is installed the cutting wheel, driven bevel gear cooperatees with rotating assembly, cutting wheel and cutting wheel movable port clearance fit, limiting plate and disk body fixed connection.

As optimization, the glass cullet collecting assembly comprises an arc-shaped rod, an outer connecting rod, fur, a connecting disc, a rubber pipe and side plates, the outer wall trisection of the connecting disc is connected with the outer connecting rod, the tail end of the outer connecting rod is connected with the arc-shaped rod, the fur wraps the outer side of the arc-shaped rod, the arc-shaped rod penetrates through the rubber pipe, the fur is in contact with the inner wall of the rubber pipe in a laminating mode, the side plates are connected with the outer side of the rubber pipe, the connecting disc is connected with the rotating assembly, and the rubber pipe is fixed on the outer wall of the disc.

Preferably, the rotating assembly comprises a micro motor, inner connecting rods, fixing rings, a driving bevel gear and a mounting ring, the mounting ring is arranged on an output shaft of the micro motor in an interference fit mode, the inner connecting rods are connected to trisections of the mounting ring, the tail ends of the inner connecting rods are fixedly connected with the inner wall of the driving bevel gear, a convex ring on the outer wall of the driving bevel gear is matched with an inner annular groove of the fixing rings, the micro motor is arranged in the center of the fixing rings and is connected with the inner wall of the disk body, the driving bevel gear is in orthogonal meshing with the driven bevel gear, and the output shaft of the micro motor penetrates through a circular hole to be connected with the center of the connecting disk.

Preferably, one end of the screw rod, which is far away from the cutting wheel, penetrates through the small hole in the fixing ring to be in excessive fit with the driven bevel gear, and the screw rod is connected with the small hole through the bearing ring.

As optimization, the disk body and the fixing ring are arranged in a concentric circle structure, so that the telescopic amount of the three cutting wheels is the same.

Advantageous effects

The invention extends into the glass tube through the telescopic rod by the disc, simultaneously starts the micro motor and the energy-saving motor to operate, the output shaft of the energy-saving motor drives the disc to rotate when rotating, so that the cutting wheel rotates by taking the center of the disc as the center of a circle, meanwhile, when the output shaft of the micro motor rotates, the output shaft of the micro motor drives the driving bevel gear to rotate by taking the output shaft of the micro motor as the shaft under the guiding and limiting effects of the fixing ring through the mounting ring and the inner connecting rod, so that the driving bevel gear drives the three driven bevel gears to synchronously rotate, the lead screw is linked, the nut pair drives the cutting wheel to extend outwards through the wheel carrier along with the rotation of the lead screw, the cutting wheel can adapt to the glass tubes with different calibers, the rotation and the extending outwards extension of the cutting wheel are synchronous, the three cutting wheels synchronously cut the glass tubes, the cutting efficiency is, thereby make outer connecting rod drive the fur and contract in to the rubber tube, the fur takes place the friction with the rubber tube during the internal contraction, based on the friction electrification, can adsorb the cuttings that produces in the cutting process, the clearance of being convenient for collect.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, through the combined arrangement of the telescopic rod, the energy-saving motor, the disc, the cutting assembly, the glass broken powder collecting assembly and the rotating assembly, the disc stretches into the glass tube, the three cutting wheels synchronously stretch out and rotate, the glass tube cutting device can adapt to the glass tubes with different calibers, the cutting wheels move from the inner wall of the glass tube to the outer wall of the glass tube to cut the glass tube, the pressure on the glass tube caused by outside-in cutting can be prevented, the problems of cracks and the like of the glass tube are avoided, the quality of the glass tube can be ensured, the powder can be prevented from splashing outwards, and the powder generated in cutting can be collected and prevented from splashing based on the friction electrification principle.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of an efficient inscribed cutting device for glass tubes according to the present invention.

Fig. 2 is a left side view of the cutting device of the present invention.

Fig. 3 is a right-side view of the cutting device of the present invention.

Fig. 4 is a schematic structural view of a first working state of the interior of the cutting device of the present invention.

Fig. 5 is a schematic structural view of a second internal operating state of the cutting device according to the present invention.

Fig. 6 is a schematic cross-sectional view of a disk of the present invention.

Fig. 7 is a schematic structural view of the cutting assembly of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

machine body-1, liftable glass placing table-2, glass tube clamp component-3, glass tube-4, cutting device-5, telescopic rod-Q1, energy-saving motor-Q2, disk-Q3, cutting component-Q4, glass broken powder collecting component-Q5, rotating component-Q6, round hole-31, annular radiating net-32, cutting wheel movable opening-33, disk body-34, cutting wheel-41, limiting plate-42, screw rod-43, driven bevel gear-44, nut pair-45, wheel carrier-46, arc rod-51, outer connecting rod-52, fur-53, connecting disk-54, rubber tube-55, side plate-56, micromotor-61, inner connecting rod-62, fixing ring-63, rubber tube-55, A driving bevel gear-64 and a mounting ring-65.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 7, the present invention provides a technical solution of an internal cutting type high efficiency cutting apparatus for glass tubes: the glass tube cutting machine structurally comprises a machine body 1, a liftable glass placing table 2, glass tube clamp assemblies 3, glass tubes 4 and a cutting device 5, wherein the liftable glass placing table 2 is installed on the machine body 1, the glass tube clamp assemblies 3 mechanically connected with the machine body 1 are arranged on two sides of the liftable glass placing table 2, the glass tubes 4 are placed on the liftable glass placing table 2, the glass tubes 4 are matched with the cutting device 5, the cutting device 5 is installed on the machine body 1, and the glass tube clamp assemblies 3 are arranged to limit the glass tubes 4 and prevent the glass tubes 4 from loosening in the cutting process;

the cutting device 5 comprises an expansion link Q1, an energy-saving motor Q2, a disk Q3, a cutting assembly Q4, a glass broken powder collecting assembly Q5 and a rotating assembly Q6, wherein the rotating assembly Q6 is arranged at the center in the disk Q3, the three equal parts of the rotating assembly Q6 are connected with cutting assemblies Q4, a glass broken powder collecting assembly Q5 is arranged outside the disk Q3, the glass broken powder collecting assembly Q5 is connected with the rotating assembly Q6, an expansion link Q1 is vertically connected to the center of one surface, away from the glass broken powder collecting assembly Q5, of the disk Q3, the expansion link Q1 is connected with an output shaft of the energy-saving motor Q2 through a mounting sleeve, and the expansion link Q1 is arranged to enable the disk Q3 to extend into or withdraw from the glass tube 4.

Disc Q3 is including round hole 31, annular radiator-grid 32, cutting wheel expansion gap 33, disk body 34, cutting wheel expansion gap 33 has all been seted up on the outer wall trisection position of disk body 34, round hole 31 has been seted up at the center of the one side of disk body 34, the annular radiator-grid 32 of being connected with disk body 34 is equipped with on the round hole 31, disk body 34 keeps away from an inner wall and the rotating assembly Q6 fixed connection of annular radiator-grid 32, the heat dissipation of micromotor 61 is convenient for in the setting of annular radiator-grid 32, the setting of cutting wheel expansion gap 33 is convenient for cutting wheel 41's flexible.

The cutting component Q4 comprises a cutting wheel 41, a limit plate 42, a screw rod 43, a driven bevel gear 44, a nut pair 45 and a wheel carrier 46, one end of the screw rod 43 is excessively matched with a driven bevel gear 44, the other end is movably connected with a limit plate 42, a nut pair 45 in threaded connection with the screw rod 43 is arranged between the limit plate 42 and the driven bevel gear 44, two sides of the nut pair 45 are connected with a wheel carrier 46, one end of the wheel carrier 46 far away from the nut pair 45 is provided with a cutting wheel 41, the driven bevel gear 44 is matched with a rotating component Q6, the cutting wheel 41 is in clearance fit with the movable opening 33 of the cutting wheel, the limit plate 42 is fixedly connected with the disc body 34, the limit plate 42 is arranged to limit the nut pair 45, so as to effectively prevent the nut pair 45 from being separated from the screw rod 43, the wheel frame 46 is arranged to drive the cutting wheel 41 to extend and retract along with the movement of the nut pair 45.

The glass powder collecting component Q5 comprises an arc-shaped rod 51, an outer connecting rod 52, a fur 53, a connecting disc 54, a rubber tube 55 and a side plate 56, wherein the outer connecting rod 52 is connected to the three equal parts of the outer wall of the connecting disc 54, the arc-shaped rod 51 is connected to the tail end of the outer connecting rod 52, the fur 53 is wrapped outside the arc-shaped rod 51, the arc-shaped rod 51 penetrates through the rubber tube 55, the fur 53 is in contact with the inner wall of the rubber tube 55 in an attaching mode, the side plate 56 is connected outside the rubber tube 55, the connecting disc 54 is connected with a rotating component Q6, the rubber tube 55 is fixed to the outer wall of the disc body 34, and the fur 53 and the rubber tube 55 are combined to be arranged, so that the rubber tube 55 rubbed by the fur 53 has negative charges based on the principle of friction electrification, thereby being capable of adsorbing powder generated in the cutting process and being convenient.

The rotating component Q6 comprises a micromotor 61, an inner connecting rod 62, a fixed ring 63, a driving bevel gear 64 and a mounting ring 65, an output shaft of the micro motor 61 is provided with a mounting ring 65 in interference fit, three equal parts of the mounting ring 65 are all connected with inner connecting rods 62, the tail ends of the inner connecting rods 62 are fixedly connected with the inner wall of the driving bevel gear 64, a convex ring on the outer wall of the driving bevel gear 64 is matched with an inner annular groove of the fixing ring 63, the micro motor 61 is arranged in the center of the fixing ring 63 and both are connected with the inner wall of the tray body 34, the driving bevel gear 64 is orthogonally meshed with the driven bevel gear 44, the output shaft of the micro-motor 61 passes through the circular hole 31 to be connected with the center of the connecting disc 54, the fixing ring 63 is arranged to facilitate the installation of the driving bevel gear 64, and at the same time, plays a role of guiding the rotation of the drive bevel gear 64, and the combination of the mounting ring 65 and the inner link 62 is arranged such that the drive bevel gear 64 can rotate with the output shaft of the micro-motor 61.

One end of the screw rod 43, which is far away from the cutting wheel 41, penetrates through a small hole in the fixing ring 63 to be in over fit with the driven bevel gear 44, and the screw rod 43 and the small hole are connected through a bearing ring, so that the driven bevel gear 44 can be meshed with the driving bevel gear 64 and rotate along with the driving bevel gear 64.

The disc body 34 and the fixing ring 63 are arranged in a concentric circle structure, so that the three cutting wheels 41 have the same expansion and contraction amount.

The working principle of the invention is as follows: the glass tube 4 is extended into the liftable glass placing table 2 from one side of the machine body 1 and is placed on the liftable glass placing table 2, the outer wall of the glass tube 4 is lightly clamped through the glass tube clamp assembly 3, the glass tube 4 is limited, the glass tube 4 is prevented from loosening in the cutting process, the glass tube 4 is rapidly cut through the cutting device 5,

the cutting device 5 works specifically as follows: the disk Q3 extends into the glass tube 4 through the telescopic rod Q1, the micro motor 61 and the energy-saving motor Q2 are started to operate, the output shaft of the energy-saving motor Q2 drives the disk Q3 to rotate when rotating, so that the cutting wheel 41 rotates by taking the center of the disk Q3 as the center of a circle, meanwhile, when the output shaft of the micro motor 61 rotates, the mounting ring 65 and the inner connecting rod 62 drive the driving bevel gear 64 to rotate by taking the output shaft of the micro motor 61 as the shaft under the guiding and limiting effects of the fixing ring 63, so that the driving bevel gear 64 drives the driven bevel gear 44 to rotate, the screw rod 43 is linked, the nut pair 45 drives the cutting wheel 41 to extend outwards through the wheel frame 46 along with the rotation of the screw rod 43, the rotation of the cutting wheel 41 is synchronous with the rotation of the outer extending wheel, so as to rapidly cut the glass tube 4, and simultaneously, the output shaft of the micro motor 61 also drives the connecting disc 54 to rotate, so that the outer connecting, the fur 53 rubs with the rubber tube 55 when the skin contracts inwards, and the friction electrification is used for adsorbing the powder generated in the cutting process, so that the collection and the cleaning are convenient.

In summary, the technical progress obtained by the invention compared with the prior art is as follows: according to the invention, through the combined arrangement of the telescopic rod, the energy-saving motor, the disc, the cutting assembly, the glass broken powder collecting assembly and the rotating assembly, the disc stretches into the glass tube, the three cutting wheels synchronously stretch out and rotate, the glass tube cutting device can adapt to the glass tubes with different calibers, the cutting wheels move from the inner wall of the glass tube to the outer wall of the glass tube to cut the glass tube, the pressure on the glass tube caused by outside-in cutting can be prevented, the problems of cracks and the like of the glass tube are avoided, the quality of the glass tube can be ensured, the powder can be prevented from splashing outwards, and the powder generated in cutting can be collected and prevented from splashing based on the friction electrification principle.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an inscribed efficient cutting equipment for glass pipe, its structure includes that organism (1), liftable glass place platform (2), glass pipe clamp subassembly (3), glass pipe (4), cutting device (5), it places platform (2) to be equipped with liftable glass on organism (1), liftable glass places platform (2) both sides and all is equipped with glass pipe clamp subassembly (3) that link to each other with organism (1), liftable glass places and places on platform (2) and manage (4) with cutting device (5) complex glass, cutting device (5) are adorned on organism (1), its characterized in that:

cutting device (5) are including telescopic link (Q1), energy-conserving motor (Q2), disc (Q3), cutting component (Q4), glass broken powder collection subassembly (Q5), rotating assembly (Q6), be equipped with rotating assembly (Q6) of taking cutting component (Q4) in disc (Q3), be equipped with glass broken powder collection subassembly (Q5) of being connected with rotating assembly (Q6) outward, disc (Q3) are connected with energy-conserving motor (Q2) through telescopic link (Q1).

2. The efficient inscribed cutting apparatus for glass tubes as claimed in claim 1, wherein: disc (Q3) is including round hole (31), annular radiator-grid (32), cutting wheel expansion gap (33), disk body (34) are equipped with cutting wheel expansion gap (33) outward, and round hole (31) have been seted up to one side, be equipped with annular radiator-grid (32) of being connected with disk body (34) on round hole (31), disk body (34) link in rotating assembly (Q6).

3. The efficient inscribed cutting apparatus for glass tubes as claimed in claim 1, wherein: cutting subassembly (Q4) is including cutting wheel (41), limiting plate (42), lead screw (43), driven bevel gear (44), nut pair (45), wheel carrier (46), lead screw (43) one end is equipped with driven bevel gear (44), and the other end even has limiting plate (42), be equipped with the nut pair (45) of being connected with lead screw (43) between limiting plate (42) and driven bevel gear (44), nut pair (45) link to each other with cutting wheel (41) through wheel carrier (46), driven bevel gear (44) and rotating assembly (Q6) cooperation, limiting plate (42) are connected with disk body (34).

4. The efficient inscribed cutting apparatus for glass tubes as claimed in claim 1, wherein: the glass cullet collecting assembly (Q5) comprises an arc-shaped rod (51), an outer connecting rod (52), fur (53), a connecting disc (54), a rubber tube (55) and a side plate (56), wherein the connecting disc (54) is connected with the arc-shaped rod (51) through the outer connecting rod (52), the fur (53) is wrapped on the arc-shaped rod (51), the arc-shaped rod (51) penetrates through the rubber tube (55) with the side plate (56), the fur (53) is in contact with the rubber tube (55), the connecting disc (54) is connected with a rotating assembly (Q6), and the rubber tube (55) is connected with a disc body (34).

5. The efficient inscribed cutting apparatus for glass tubes as claimed in claim 1, wherein: the rotating assembly (Q6) comprises a micromotor (61), an inner connecting rod (62), a fixing ring (63), a driving bevel gear (64) and a mounting ring (65), wherein the mounting ring (65) is arranged on the micromotor (61), the mounting ring (65) is connected with the driving bevel gear (64) through the inner connecting rod (62), the driving bevel gear (64) is matched with the fixing ring (63), the micromotor (61) and the fixing ring (63) are both connected with the disc body (34), the driving bevel gear (64) is meshed with the driven bevel gear (44), and the micromotor (61) is further connected with the connecting disc (54).