CN211734183U - Automatic cutting device for glass pulling tube - Google Patents

Abstract

The utility model belongs to the technical field of the auxiliary processing equipment of glass manufacturing, especially, relate to a glass trombone slide automatic cutout device, including stand, mounting panel, lift axle sleeve, lift screw-nut, lift screw axle sleeve, lift lead screw, lift axle, optical axis supporting seat, lower guide rail board, upper guide rail board, reducing gear box, lead screw supporting seat, backing plate, upper bearing, upper shaft, cutter axle water supply support, cutter axle water supply connector, lift axle retaining member, lift axle locking support, reducing gear box, servo motor, hand wheel. Through the utility model discloses can solve current cutting device precision low, and the cutting part collapses the problem that splits, the reliability is low easily.

Description

Automatic cutting device for glass pulling tube

Technical Field

The utility model belongs to the technical field of glass makes auxiliary processing equipment, especially, relate to a glass trombone slide automatic cutout device.

Background

Along with the development of the domestic medical glass tube industry and the improvement of the automation degree of factories, the application range of the glass tube drawing automatic cutting equipment is wider and wider. The requirements on the automation performance, speed, reliability, stability and safety of the automatic glass tube drawing cutting equipment are higher and higher. The existing cutting device has low precision, easy crack of a cutting part and low reliability. Therefore, an automatic cutting device for glass drawing tubes is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a glass trombone slide automatic cutout device that the security performance is high, the precision is high, the cutting position is complete.

In order to achieve the above object, the utility model adopts the following technical scheme:

an automatic cutting device for a glass drawing tube comprises a vertical column, a mounting plate, a lifting shaft sleeve, a lifting screw nut, a lifting screw shaft sleeve, a lifting screw, a lifting shaft, an optical axis supporting seat, a lower guide rail plate, an upper guide rail plate, a reduction box, a screw supporting seat, a base plate, an upper shaft supporting seat, an upper shaft, a cutter shaft water supply support, a cutter shaft water inlet joint, a lifting shaft locking part, a lifting shaft locking support, a reduction box, a servo motor and a hand wheel,

the left surface and the right surface of the upright post are respectively provided with two mounting plates which are arranged up and down;

the lifting screw rod nut, the lifting screw rod shaft sleeve, the lifting screw rod, the screw rod supporting seat and the hand wheel form an up-and-down adjustment driving structure, the two screw rod supporting seats are respectively installed on an upper installation plate and a lower installation plate on the right side of the upright post through a base plate, the lifting screw rod is installed on the screw rod supporting seat through the lifting screw rod shaft sleeve, an upper guide rail plate and a lower guide rail plate are respectively fixed on a rod body of the lifting screw rod through the lifting screw rod nut, and the hand wheel is fixed on an upper;

the lifting shaft is fixed on the lower guide rail plate and the upper guide rail plate through the two lifting shaft sleeves;

the lifting shaft locking piece and the lifting shaft locking support form an up-and-down adjusting locking mechanism, the lifting shaft locking piece is arranged on a shaft body of the lifting shaft, and the lifting shaft locking support is arranged on the lower guide rail plate;

the cutter supporting system comprises an upper shaft support, an upper shaft, a cutter shaft water supply support and a cutter shaft, wherein the upper shaft support is installed on an upper guide rail plate, one end of the upper shaft is connected with the upper shaft support through a nut, the other end of the upper shaft is connected with the cutter shaft water supply support through a nut, one end of the cutter shaft is connected with the cutter shaft water supply support, the other end of the cutter shaft is connected with a reduction box, the reduction box is arranged on a lower guide rail plate, a central hole is formed in the outer side of the cutter shaft, a water inlet connector of the cutter shaft is connected.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses an adjust drive structure and upper and lower guiding mechanism from top to bottom, adjust drive structure from top to bottom and be lift screw nut, lift screw axle sleeve, the lift lead screw, lead screw supporting seat and hand wheel, two lead screw supporting seats are installed respectively on two upper and lower mounting panels on the stand right side through the backing plate, the lift lead screw passes through the lift screw axle sleeve and installs on the lead screw supporting seat, the body of rod of lift lead screw is fixed with upper guide rail plate and lower guide rail plate respectively through lift screw nut, the hand wheel is fixed on the face of cylinder of going up and down the lead screw. The upper and lower guide mechanism comprises a lifting shaft sleeve, a lifting shaft and two optical shaft supporting seats, wherein the two optical shaft supporting seats are respectively and fixedly arranged on an upper mounting plate and a lower mounting plate on the left side of the stand column and used for fixing the lifting shaft, and the lifting shaft is fixed on the lower guide rail plate and the upper guide rail plate through the two lifting shaft sleeves. Through adjusting drive structure and upper and lower guiding mechanism from top to bottom, when guaranteeing the direction precision, reduce installation complexity and cost.

2. The cutter supporting system comprises an upper shaft support, an upper shaft, a cutter shaft water supply support and a cutter shaft, wherein the upper shaft support is installed on an upper guide rail plate, one end of the upper shaft is connected with the upper shaft support through a nut, the other end of the upper shaft is connected with the cutter shaft water supply support through a nut, one end of the cutter shaft is connected with the cutter shaft water supply support, the other end of the cutter shaft is connected with a reduction box, the reduction box is arranged on a lower guide rail plate, a central hole is formed in the outer side of the cutter shaft, a water inlet connector of the cutter shaft is connected. Water flows into the central hole of the cutter shaft from the water inlet joint of the cutter shaft and flows out through the surface hole of the cutter shaft. The reduction gearbox and the servo motor drive the cutter shaft to rotate to drive the cutter to rotate, and water is guided to the cutting edge of the cutter through the air pipe, so that the cutter cools and cuts the glass drawing pipe. The servo motor is adopted to control the cutting motion of the cutter, so that the cutting precision can be improved. And a water-cooling cutting mode is adopted, so that the cutting can be rapidly and stably carried out, and meanwhile, the incision is ensured to be neat without cracking.

Drawings

FIG. 1 is a schematic structural view of the right side of a column of an automatic glass drawing tube cutting device;

FIG. 2 is a schematic structural view of the left side of a column of the automatic glass drawing tube cutting device.

Wherein: 1-upright column; 2-mounting a plate; 3-lifting shaft sleeve; 4-lifting screw rod nut; 5-lifting screw rod shaft sleeve; 6-lifting screw rod; 7-a lifting shaft; 8-optical axis supporting seat; 9-a lower guide rail plate; 10-an upper guide rail plate; 12-a screw rod supporting seat; 13-a backing plate; 15-upper shaft support; 16-an upper shaft; 17-water supply support of cutter shaft; 18-cutter shaft; 19-cutter shaft water inlet joint; 20-a lifting shaft locking member; 21-lifting shaft locking support; 22-a reduction gearbox; 23-a servo motor; 24-hand wheel.

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 work belong to the protection scope of the present invention.

As shown in fig. 1 and 2, an automatic cutting device for glass drawing tubes comprises a vertical column 1, a mounting plate 2, a lifting shaft sleeve 3, a lifting screw nut 4, a lifting screw shaft sleeve 5, a lifting screw 6, a lifting shaft 7, an optical axis supporting seat 8, a lower guide rail plate 9, an upper guide rail plate 10, a reduction box 22, a screw supporting seat 12, a backing plate 13, an upper shaft supporting seat 15, an upper shaft 16, a cutter shaft water supply bracket 17, a cutter shaft 18, a cutter shaft water inlet joint 19, a lifting shaft locking part 20, a lifting shaft locking bracket 21, a servo motor 23 and a hand wheel 24,

two mounting panels 2 are equipped with respectively to the left and right sides of stand 1, and mounting panel 2 sets up from top to bottom, and stand 1 and 4 mounting panels 2 are the bearing structure of whole device, provide sufficient rigid support.

The lifting screw rod nut 4, the lifting screw rod shaft sleeve 5, the lifting screw rod 6, the screw rod supporting seat 12 and the hand wheel 24 form an up-and-down adjustment driving structure, the two screw rod supporting seats 12 are respectively installed on an upper mounting plate 2 and a lower mounting plate 2 on the right of the upright post 1 through the backing plate 13, the lifting screw rod 6 is installed on the screw rod supporting seat 12 through the lifting screw rod shaft sleeve 5, the rod body of the lifting screw rod 6 is respectively fixed with an upper guide rail plate 10 and a lower guide rail plate 9 through the lifting screw rod nut 4, and the hand wheel 24 is fixed on an upper cylindrical surface. The hand wheel 24 is rotated to drive the lower guide rail plate 9 and the upper guide rail plate 10 to move up and down together.

The lifting shaft sleeve 3, the lifting shaft 7 and the optical axis supporting seats 8 form an upper guide mechanism and a lower guide mechanism, the two optical axis supporting seats 8 are respectively and fixedly installed on the upper mounting plate 2 and the lower mounting plate 2 on the left side of the upright post 1 and used for fixing the lifting shaft 7, and the lifting shaft 7 passes through the two lifting shaft sleeve 3 and is fixed on the lower guide rail plate 9 and the upper guide rail plate 10. The lifting shaft sleeve 3 slides up and down relatively along the lifting shaft 7 to provide a guiding function for adjusting the driving mechanism up and down

The lifting shaft locking piece 20 and the lifting shaft locking support 21 form an up-and-down adjusting locking mechanism, the lifting shaft locking piece 20 is arranged on the shaft body of the lifting shaft 7, and the lifting shaft locking support 21 is arranged on the lower guide rail plate 9;

the upper shaft support 15, the upper shaft 16, the cutter shaft water supply support 17 and the cutter shaft 18 form a cutter support system, the upper shaft support 15 is mounted on the upper guide rail plate 10, one end of the upper shaft 16 is connected with the upper shaft support 15 through a nut, the other end of the upper shaft 16 is connected with the cutter shaft water supply support 17 through a nut, one end of the cutter shaft 18 is connected with the cutter shaft water supply support 17, the other end of the cutter shaft 18 is connected with a reduction gearbox 22, the reduction gearbox 22 is arranged on the lower guide rail plate 9, a central hole is formed in the outer side of the cutter shaft 18, a water inlet connector 19 of the cutter shaft 18 is connected with. Water flows into the central hole of the cutter shaft from the water inlet joint 19 of the cutter shaft 18 and flows out through the surface hole of the cutter shaft 18. The reduction box 22 and the servo motor 23 drive the cutter shaft 18 to rotate and drive the cutter to rotate, and water is guided to the cutting edge of the cutter through the air pipe, so that the cutter cools and cuts the glass drawing pipe.

The vertical adjustment drive mechanism and the vertical guide mechanism move synchronously, and the hand wheel 24 is manually shaken to adjust the optimal distance between the cutter and the glass drawing tube.

The above embodiments are only used for illustrating the present invention, and the structure, connection mode and the like of each component can be changed, and all equivalent changes and improvements made on the basis of the technical scheme of the present invention should not be excluded from the protection scope of the present invention.

Claims (1)

1. The utility model provides a glass trombone slide automatic cutting device, including stand (1), mounting panel (2), lift axle sleeve (3), lift screw nut (4), lift screw axle sleeve (5), lift lead screw (6), lift axle (7), optical axis supporting seat (8), lower guide rail board (9), upper guide rail board (10), reducing gear box (22), lead screw supporting seat (12), backing plate (13), upper shaft support (15), upper shaft (16), cutter shaft water supply support (17), cutter shaft (18), cutter shaft water supply connector (19), lift axle retaining member (20), lift axle locking support (21), servo motor (23), hand wheel (24), its characterized in that:

the left surface and the right surface of the upright post (1) are respectively provided with two mounting plates (2), and the mounting plates (2) are arranged up and down;

the lifting screw rod nut (4), the lifting screw rod shaft sleeve (5), the lifting screw rod (6), the screw rod supporting seats (12) and the hand wheel (24) form an up-and-down adjustment driving structure, the two screw rod supporting seats (12) are respectively installed on an upper installation plate (2) and a lower installation plate (2) on the right side of the upright post (1) through backing plates (13), the lifting screw rod (6) is installed on the screw rod supporting seats (12) through the lifting screw rod shaft sleeve (5), a rod body of the lifting screw rod (6) is respectively fixed with an upper guide rail plate (10) and a lower guide rail plate (9) through the lifting screw rod nut (4), and the hand wheel (24) is fixed on an upper cylindrical surface of the lifting screw rod;

the lifting shaft sleeve (3), the lifting shaft (7) and the optical shaft supporting seats (8) form an upper and lower guide mechanism, the two optical shaft supporting seats (8) are respectively and fixedly arranged on an upper mounting plate (2) and a lower mounting plate (2) on the left of the upright post (1) and used for fixing the lifting shaft (7), and the lifting shaft (7) is fixed on a lower guide rail plate (9) and an upper guide rail plate (10) through the two lifting shaft sleeves (3);

the lifting shaft locking piece (20) and the lifting shaft locking support (21) form an up-and-down adjusting locking mechanism, the lifting shaft locking piece (20) is arranged on a shaft body of the lifting shaft (7), and the lifting shaft locking support (21) is arranged on the lower guide rail plate (9);

the cutting tool comprises an upper shaft support (15), an upper shaft (16), a cutting shaft water supply support (17) and a cutting shaft (18) which form a cutting tool support system, wherein the upper shaft support (15) is installed on an upper guide rail plate (10), one end of the upper shaft (16) is connected with the upper shaft support (15) through a nut, the other end of the upper shaft (16) is connected with the cutting shaft water supply support (17) through a nut, one end of the cutting shaft (18) is connected with the cutting shaft water supply support (17), the other end of the cutting shaft (18) is connected with a reduction gearbox (22), the reduction gearbox (22) is arranged on a lower guide rail plate (9), a central hole is formed in the outer side of the cutting shaft (18), a water inlet joint (19) of the cutting shaft (18) is connected with the central hole.

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