CZ278667B6 - Process of glass tubes or rods re-forming and apparatus for making the same - Google Patents

Abstract

Method of postforming of glass tubes or rods with nonrotating external and/or internal surface to decorative external or internal spiral is realized so, that on external surface of glass tube (1) or rod is touchable affected by perpendicular forces to longitudinal axis of glass tube (1) or rod. With the profit is this force developed by winding-up of longitudinal axis of drawing rolls (3) in the angle equal dimension and in the range to 45 degrees with regard to axis perpendicular to longitudinal axis of glass tube (1) or rod device for realization of this method has at least one couple of rotating drawing rolls (3), in which there is at least one drawing roll (3) forced turned. All drawing rolls (3) are in their longitudinal axis adjustable with regard to axis perpendicular to the direction of drawing of glass tube (1) or rod in the range of the angle up to 45 degrees.

Description

A method for creeping glass tubes or bars and apparatus for carrying out the method

Technical field

The invention relates to a method of creeping glass tubes or rods of a non-rotating outer and / or inner surface. The glass tubes or sticks are continuously drawn by the drawing machine on the drawing path between the drawing rolls.

The invention also relates to an apparatus for carrying out this method of forming, which comprises a drawing path, at the end of which a drawing machine with drawing rolls is located for drawing glass tubes or rods.

BACKGROUND OF THE INVENTION

A strip of glass in the form of a glass tube or rod flows out of the feeder through an outlet opening, optionally equipped with a mandrel or plunger, which is guided to the towing path of the towing device. The towing device consists, for example, of an endless tensioning belt tensioned between two rotating rollers. Collets are attached to the surface of the endless tension belt to hold the glass tube or rod on the tension belt. The collets, located at regular intervals on the tension belt, are opened and closed by cams and springs. Upon exiting the cam, the collets are clamped by means of springs and the clamped collets hold the glass tube or rod, which is further carried on the traction track, at the end of which the collets run onto the next cam which opens them. , such as a cutting or chopping device.

Another type of towing device consists of two mutually parallel endless towing straps tensioned between rotating rollers. A glass tube or a rod is guided between the two tension belts.

It is also known a towing device comprising a towing track, at the end of which a towing machine with towing rollers is arranged.

In the above-mentioned methods of guiding the glass tube or rod on the trajectory, it may deflect and to a greater extent may exhibit defects such as the ovality of the outer surface and the eccentric location of the inner opening of the glass tube.

A method of shaping non-rotating inner surfaces of glass rods or non-rotating inner surfaces of glass tubes is known.

E.g. in the Czechoslovak patent no. 143 516 a device for producing glass tubes of non-circular cross-sections is described. This device enables the production of oval tubes, as well as the curvature of oval arcs or tubes of the shape of three, four, five, six or even polygonal surfaces with concave or straight walls and slightly rounded edges. The plastic deformation tube device comprises at least one pair of rotary cone-shaped pressure rollers and a rotary-shaped washer. Thrust

-1T. '

The pulleys of each pair are facing each other with larger diameters and their axes form a defined angle towards the shaped space.

Czechoslovak author's certificate No. 183 162 describes a method of shaping non-circular cross-sections of continuously drawn glass tubes and cylinders, including equipment for carrying out this method. The enamel flows around the tip of the plunger ending with mandrels, according to which the enamel expands and forms to the desired cross-sectional shape and clearance of the drawn tube or cylinder.

The thus obtained glass rods with a non-rotatable outer surface or glass tubes with a non-rotatable outer or inner surface are cut or divided into a desired length in a further technological operation.

SUMMARY OF THE INVENTION

Further creeping of the continuously drawn glass tubes or rods of the non-rotatable outer and / or inner surface allows the creep method according to the invention, characterized in that the outer surface of the glass tube or rod in the drawing machine is subjected to forces perpendicular to the longitudinal axis of the glass tube. sticks.

Advantageously, forces acting in a direction perpendicular to the longitudinal axis of the glass tube are induced by rotating the longitudinal axes of the draw rollers at an angle of equal magnitude and within 45 ° relative to the axis perpendicular to the longitudinal axis of the glass tube.

An apparatus according to the present invention is provided for carrying out this method, comprising a drawing path, at the end of which a drawing machine with drawing rolls is arranged for drawing a glass tube or rod. The principle of the invention is that the tension rollers are rotatable and arranged in at least one pair in which the at least one tension roller is forced to rotate. All draw rollers are adjustable in their longitudinal axes with respect to the axis perpendicular to the drawing direction of the glass tube or rod in the range up to 45 °.

As a result of this solution, the glass tube or bar is rotated about its longitudinal axis on its trajectory and during this rotation the non-rotating surface is formed into a particular spiral appearance. The nature of the spiral depends on the drawing speed, the speed of rotation and the shape of the non-rotating surface, which may have the shape of an n-angle, eg, three, four, five, six, octagon, or star-shaped, arcuate, floral, etc.

If a glass tube or bar is applied in a drawing machine with a force perpendicular to its longitudinal axis, the glass tube or bar is safely guided on the traction path and its non-rotating surface is creeped in the yeast plastic state at the beginning of the traction when rotated on the entire traction path. expensive.

The tension rollers are arranged in at least one pair facing each other to provide the thrust required to pull the tube. The at least one draw roller is forced to rotate. This draw roller spins the glass tube or rod and its movement is transmitted to the next draw roller, which also begins to rotate. The range of adjustment of the angle of the draw rollers in their longitudinal axis relative to the axis perpendicular to the draw direction depends on the desired twist of the glass tru rod and its outer diameter.

Overview of the drawings

DETAILED DESCRIPTION OF THE DRAWINGS The invention is described in detail below in two exemplary embodiments, shown in the accompanying drawings, in which: FIG. 1 shows the guide of the glass tube of the inner square hole to the drawing path where a substantial part of the drawing machine consists of one pair of drawing rolls; FIG. 3 is a graphical representation of the force acting of the draw roller on the shaped glass tube; and FIGS. 4 and 5 show the shapes of glass tubes and glass rods.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

The feeder outlet (not shown) is provided with a cylindrical plunger with equally spaced cylindrical mandrels. The glass flowing out of the feeder opening flows around the plunger, which forms an inner square profile in the glass. The obtained glass tube 1 with an internal square hole is guided to the traction track 2 and therefrom to a traction machine, a substantial part of which is formed by a pair of traction rolls 2 (Fig. 1). For example, the glass tube 1 has an outer diameter of 2 mm, the side of the square inner opening being 0.8 mm. The diameter of the draw rollers 2 ' ¹⁰⁰ n' / their longitudinal axis is deflected from the axis perpendicular to the longitudinal axis of the glass tube 1 by the same angle, 10 °. One of the pulling rollers 2 is forced to rotate and rotates at a speed of 350 rpm. On the outer surface of the glass tube 1 at a drawing speed of 1.8 m. s ¹ is applied tangentially at opposite points by forces acting perpendicularly on the longitudinal axis of the glass tube 1. The forced rotary draw roller 2 rotates the glass tube 1 and the opposite rotary roller 2. and at the beginning of the pulling path 2, when the glass tube 1 is still in a plastic state, it is deformed into an inner spiral, which under the given conditions constitutes a spiral (Fig. 4) with a thread pitch of about 36 mm.

Example 2

A strip of glass flows out of the feed opening of the feeder and is formed into a glass rod 5 of hexagonal cross-section in a known manner. The glass rod 5 is guided to the traction path 2 between the three pairs of traction rolls 2 (Fig. 2). In each pair of draw rollers 2 θθ, one draw roll 2 is forced to be rotated. In the case of a long tensile track 2, all the tensile rollers 2 can be forced to rotate. A glass rod 5 having, for example, a circumferential circle of 5 mm outside diameter,

-3GB 278667 B6 passes through a hauling track 2 at a speed of 0.3 m. with between three pairs of drawing rolls 3 having a diameter of 120 mm, rotating at a speed of 50 revolutions per minute. The longitudinal axes of the draw rollers 2 are rotated at an angle of 15 ° from a direction perpendicular to the longitudinal axis of the glass rod 5.

Under these conditions, the glass rod 5, which is still in a plastic state, is formed into the outer spiral 4 (FIG. 5), whose thread pitch is about 60 mm, at the beginning of the pulling path 2.

To clarify the invention Figure 3 graphically shows the traction stresses exerted on the roller 3. glass tube 1 by the vectors A, B and C and the speed a, b, c. The vector c expresses the force caused by rotation of the traction roller ^{2, and} transmitted to the outer surface of the glass Due to the stiffness of the glass tube 1, the force vector C acting perpendicularly to the longitudinal axis of the draw roller 3 decomposes into two vectors A and B perpendicular to each other. Vector B, acting parallel to the longitudinal axis of the glass tube 1, causes the glass tube 1 to be drawn in a straight direction. Vector A acting tangentially to the surface of the glass tube 1 in a direction perpendicular to the longitudinal axis of the glass tube 1 causes it to rotate about the longitudinal axis.

If c is the peripheral speed of the draw rollers 3, the straight line speed b will correspond to the relation b = c. cos a, where a is the angle of rotation of the draw rollers 2 of the axis perpendicular to the longitudinal axis of the glass tube 1. The peripheral speed a of the rotating glass tube 1 will then correspond to the relation a = c. The resulting rotation speed n of the glass tube 1 will then depend on its outer diameter a

d and will be defined by 'n = --- · .—.

π. d.

Industrial applicability

The solution serves to create a decorative inner or outer spiral on glass tubes 1 or rods 2 of the non-rotating outer and / or inner surface, which are intended for the jewelery industry, for chandelier trimmings and the like.

Claims (3)

A method for creeping glass tubes or rods of a non-rotating outer and / or inner surface that are continuously drawn on a trajectory by a drawing machine between drawing rolls, characterized in that the outer surface of the glass tube or rod is drawn tangentially to the drawing machine. the longitudinal axis of the glass tube or rod. Method according to claim 1, characterized in that the forces acting in a direction perpendicular to the longitudinal axis of the glass tube or rod are caused by rotating the longitudinal axes of the draw rollers at an angle of equal size and within 45 ° relative to the axis perpendicular to the longitudinal axis. the axis of the glass tube or rod. Apparatus for carrying out the method according to claims 1 to 2, comprising a traction track at the end of which is located a traction machine with drawing rolls for drawing a glass tube or rod, characterized in that the rotating drawing rolls (3) are arranged in at least one pair of which at least one draw roller (3) is forced to be rotatable, wherein all draw rollers (3) are adjustable in their longitudinal axes relative to an axis perpendicular to the drawing direction of the glass tube (1) or rod (5) within 45 ° .