CS258230B1 - High-speed galette for fiber repair - Google Patents

Abstract

A high-speed galette driven by a synchronous electric motor consists of a free, rotatable support shaft mounted in a bearing housing and provided with a continuous cavity, inside which, through a bearing, a hollow support axis of a heating element located in the galette cavity is mounted. A drive shaft ends with a friction disc with a pressure spring for torque transmission passes through this axis.

Description

The solution relates to a high-speed rotating cylinder of a special design with heating of its peripheral surface, known as a heated galet, which serves for heating around its periphery in several belts of the running filament.

High-speed fiber heating galleys are known, consisting essentially of a shaft mounted in a bearing housing such that one end thereof is coupled to the drive of the galette and the other end of the bearing housing protruding as a cantilever, by means of its own hub. The bead comprises an annular cavity formed by the inside of the bead housing and its hub, the respective radially ribs joining the two parts as one unit as far as possible at the edge of the bead which appears to be remote with respect to the bearing housing. Preferably, a fixed, non-rotatable heater, together with its energy connections, is fastened directly to the housing body in the cavity thus determined.

However, this design of the simplest solutions has the disadvantage that, due to the particular dimensions of the heater while at the same time resulting in a structurally unfavorable bearing arrangement of the shaft-galette, the rigidity of the system is achieved which increases the performance and dimensions of the heater. causes that the critical speeds of the shaft-in-shaft assembly in question are not sufficiently distant from those required, which for each such design solution represents a certain threshold beyond which the speed of the in-shell cannot be gradually increased.

In addition to this substantial disadvantage, however, when considering the drive of a galette with a synchronous electric motor without a slip clutch, in such devices commonly used, there is also the disadvantage of having a relatively high installed output of the electric motor, merely because of the high value. of the starting torque of this type of drive at the start of the galet.

These drawbacks are overcome by the solution according to the invention by altering the manner of bearing of the galet onto the shafts in such a way that the bearing is not an obstacle to achieving the required rigidity of the rotating shaft-galet assembly. In addition, since the change in question also required a change in the manner in which the heater was housed in the cavity of the galette and consequently a change in the way of propulsion of the galette, the design solution made it possible which allows slipping during the start of the galet, reduces the starting torque of the drive several times.

The present high speed filament heater according to the invention is formed by a bearing shaft mounted in a bearing body, at the end of which a fixed bead is attached by means of a releasable cone preferably provided with a differential and locking nut for mounting and securing the joint, the bearing shaft being hollow. In this continuous cavity, by means of a bearing and holder, preferably designed as a part of the bearing body, there is a non-rotatably supported support axis, allowing non-rotatably fastening of the heating element in the galvanic cavity as well as its respective energy connection, the support axis being hollow. Its axial cavity is a non-contacting drive shaft for transmitting torque from the drive to the galet by means of a friction disc mounted at its end, which by its friction surface is pressed by means of a spring on the galet friction surface, thereby driving the frictional forces.

This solution makes it possible to select the dimensions of the support shaft so as to achieve stiffness satisfying high revolutions and to free up space in the cavity of the galet so that the dimensions of the heater can be increased. In addition, by reducing the starting torque of the drive, it is possible to reduce the installed power of the synchronous electric motor.

The attached drawing shows a schematic longitudinal axial section through a high speed godet roll for heating the filaments of the invention, which comprises a supporting shaft 2 mounted in the bearing housing 2 ^{and at} its end with a bolted 2 ^L're fixed installation godet 2 · bolted 2 j ® conical hub 5 with j6 differential nut and lock nut 2 ·

It further comprises a support axis 11 which is guided through a continuous cavity of the support shaft 11, mounted in the holder 10 both rigidly and in the bearing 9 in a cursory manner, in order to secure the heater 12 in the hollow cavity 14 and position the energy connections 13. from the drive 17 on the pallet 3, it is provided with a drive shaft 16 disguised by the axial cavity 15 of the support axis 11, and a friction disc 18 mounted on the shaft end, this disc 18 being pressed by a spring 19 onto the friction surface 20.

The device in question works as follows:

High-speed galley 2 mounted on the support shaft]. freely rotatably mounted in the bearing housing 2 is driven by the transmission of torque from the drive 17 by means of a drive shaft 16 which has a friction disc 18 mounted at its end. This disc 18 is pressed by a spring 19 onto the frictional frictional surface 20 3. Powered. By selecting the spring thrust intensity 19, it is possible to determine the slipping moment of this drive. The heater 2 is provided by the heater 12 together with its energy connections 13, which are non-rotatably fastened in the hollow cavity 14 by means of a support axis 11.

The high speed filament heater according to the present invention can be used to heat a continuously running filament, film, or similar material wherever prior art devices due to insufficient stiffness of the rotating shaft assembly and the dimensions of the respective heater do not allow to increase the operating speed. .

Claims (1)

3 253230 It further comprises a support axis 11 which is passed through the continuous cavity j) of the support shaft 11 mounted in the holder 10 fixedly and in the bearing 9 in order to fix the heating body 12 in the galet cavity 14 as well as the location of the energy connections 13. the torque from the drive 17 to the galet 3 is provided with a drive shaft 16 overhanging the axle cavity 15 of the axle 11, and a friction disc 18 mounted on the shaft end, the disc 18 being pressed by the spring 19 onto the galet frictional surface 20. The apparatus in question operates as follows: on the support shaft 1 free rotatably mounted in the bearing housing 2 is driven by the transmission of the torque from the drive 17 via the drive shaft 16, which has a friction disc 18 mounted at its end. This disc 18 is pressed against the galvanic friction surface 20 by a spring 19, thereby acting by frictional action. silgaletu 3. po háňa. By selecting the spring pressure intensity 19, it is possible to determine the torque of the drive. The heating of the galet 2 secures the heating body 12 together with its energizing connections 13, which are not rotated by the support axis 11 fixed in the galet cavity 14,. The fiber high speed galet according to the present invention can be used for heating the continuous fiber, film, or elsewhere where the prior art devices do not allow for an increase in operating speed due to the lack of rigidity of the rotating shaft assembly. SUBJECT MATTER The high speed galet for heating the fiber consists of a heater mounted in its cavity, a support shaft and a synchronous electric drive characterized in that the support gears (1) are provided with a continuous cavity (8) inside which is hollow by a bearing (9) a supporting axle (11) of the heating body (12) situated in the galet cavity (14) and through which the drive shaft (16) passes through the friction disc (18) and has a thrust (19) for transmitting the torque, the support shaft (1) being free, rotatable in bearing housing (2). 1 drawing