CN201311361Y - Synthetic test experimental facility of spinneret location of non-corrosive steel wire production line - Google Patents

Abstract

The utility model discloses a synthetic test experimental facility of spinneret location of non-corrosive steel wire production line, wherein a round flying disc is connected with one end of a non-corrosive steel pipe, the other end is connected with a non-corrosive steel flange, one end of a screw spinneret is fixed on the round fly disc through an iron support, a front spherical surface bearing support seat, a turbine and a rear spherical surface bearing support seat are orderly arranged on a hollow non-corrosive main shaft, wherein the turbine is engaged with a worm, the worm is connected with a stepped motor, the stepped motor is fixed on a stepped motor supporting rack, the hollow non-corrosive main shaft is connected with the non-corrosive flange, the other end of the screw spinneret is traversed through the hollow non-corrosive main shaft, a black and white line is arranged on the periphery of the round fly disc, an optical-fiber transducer is correspondingly arranged on the black and white line on the periphery of the non-corrosive steel flange, and a magnetoelectric transducer is arranged on the periphery of the round fly disc. The synthetic test experimental facility can simulate the operation of production facility, various transducers are collocated, and the experimental test and the control research can be carried out under various operation states.

Description

A kind of orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line

Technical field

The utility model relates to the experimental provision of detection and localization, relates in particular to a kind of orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line.

Background technology

Stainless steel wire rod production line in process of production, wire rod sprays from the spinneret of Laying head with the high speed of 50-150 meter per second, spinneret is to be made of spiraltron, when weaving silk work, spiraltron is made high speed rotating.The rolled piece process becomes the wire rod of the circle with certain radius and falls on the stelmor roller-way when weaving silk spiraltron.Because have the gap between roller-way, finished product wire rod head is very easily planted between the roll gap, causes roller-way card line, make the driving motor overcurrent tripping, cause the wire rod accumulation and go out substandard products, owing to reasons such as high temperature, handle very difficulty, what influence was produced carries out in order, and brings economic loss therefrom.Generation for fear of this situation, this just need study the operation of Laying head, solve the difficult problem of head detection and localization and control, but because production on-site environment inclement condition, high temperature, at a high speed, noise, vibrations, dust and spray water mist etc., can't go deep into, the understanding of careful moving law mechanism, seem very necessary so set up to come operation mechanism, detection means etc. studied once cover orifice of spinneret location comprehensive detection experimental simulation device.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line is provided.

Orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line comprises magnetoelectric transducer, the spiral spinneret, Circular flying disk, retort stand, Fibre Optical Sensor, the hollow stainless-steel tube, steel flange, preceding globe bearing supporting base, scroll bar, the stepper motor bearing support, stepper motor, back globe bearing supporting base, turbine, hollow stainless steel main shaft, Circular flying disk is connected with stainless-steel tube one end, the stainless-steel tube other end is connected with steel flange, spiral spinneret one end is fixed on the Circular flying disk by retort stand, be provided with successively on the hollow stainless steel main shaft by preceding globe bearing supporting base, turbine, back globe bearing supporting base, turbine is meshed with scroll bar, the scroll bar stepper motor is connected, stepper motor is fixed on the stepper motor bearing support, hollow stainless steel main shaft is connected with steel flange, the spiral spinneret other end passes hollow stainless steel main shaft, be provided with chequered with black and white lines at the steel flange cylindrical, the chequered with black and white lines corresponding section of steel flange cylindrical is provided with Fibre Optical Sensor, is provided with magnetoelectric transducer in the Circular flying disk periphery.

The utility model can be simulated the operation of production equipment, and disposes various sensors and can carry out experiment test and Control Study under various running statuses, avoids bringing when actual industrial production is moved the danger that can not estimate.

Description of drawings

Accompanying drawing is the orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line structural representation;

Among the figure: magnetoelectric transducer 1, spiral spinneret 2, Circular flying disk 3, L shaped retort stand 4, Fibre Optical Sensor 5, hollow stainless-steel tube 6, stainless steel forward flange 7, preceding globe bearing supporting base 8, scroll bar 9, stepper motor bearing support 10, stepper motor 11, back globe bearing supporting base 12, turbine 13, hollow stainless steel main shaft 14.

Embodiment

As shown in drawings, orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line comprises magnetoelectric transducer 1, spiral spinneret 2, Circular flying disk 3, L shaped retort stand 4, Fibre Optical Sensor 5, hollow stainless-steel tube 6, steel flange 7, preceding globe bearing supporting base 8, scroll bar 9, stepper motor bearing support 10, stepper motor 11, back globe bearing supporting base 12, turbine 13, hollow stainless steel main shaft 14, Circular flying disk 3 is connected with stainless-steel tube 6 one ends, stainless-steel tube 6 other ends are connected with steel flange 7, spiral spinneret one end is fixed on the Circular flying disk 3 by retort stand 4, be provided with successively on the hollow stainless steel main shaft 14 by preceding globe bearing supporting base 8, turbine 13, back globe bearing supporting base 12, turbine 13 is meshed with scroll bar 9, scroll bar 9 stepper motors 11 are connected, stepper motor 11 is fixed on the stepper motor bearing support 10, hollow stainless steel main shaft 14 is connected with steel flange 7, spiral spinneret 2 other ends pass hollow stainless steel main shaft 14, be provided with chequered with black and white lines at steel flange 7 cylindricals, the chequered with black and white lines corresponding section of steel flange 7 cylindricals is provided with Fibre Optical Sensor 5, is provided with magnetoelectric transducer 1 in Circular flying disk 3 peripheries.

The utility model solves the detection and localization difficult problem of orifice of spinneret, and then can control accurately Laying head for deeply probing into the moving law of high speed rotating spiraltron Laying head.

Orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line drives operation by stepper motor 11, and step motor shaft is connected with scroll bar 9 concentric shafts cover, and is installed in axle bed 10 upper supports; Turbine 13 is positioned at hollow stainless steel main shaft 14 middle parts and fixedly connected with it, and turbine on the hollow stainless steel main shaft and the scroll bar on the step motor shaft are formed gear train, and turbine 13 is 0.1mm with scroll bar 9 back lashes, so that stable.

On globe bearing supporting base 8 and the back globe bearing supporting base 12, two groups of FYH globe bearing supporting bases were installed on the base plate before hollow stainless steel main shaft 14 two ends were installed in respectively; Hollow stainless steel main shaft front end and stainless steel rear flange welding one, stainless steel forward flange 7 and 6 welding of hollow stainless-steel tube, two flanges in front and back connect by bolt.

Solderless wrapped connection spiral spinneret 2 on circular flying disc 3 circumference of external diameter Ф 110mm aluminium alloy, the spiral spinneret is a hollow tubular, spinneret 2 is fixed on aluminium alloy disk side by L shaped retort stand 4, make circular flying disc 3 of aluminium alloy and spiral hollow spinneret 2 form one, when wire rod spuing from the hollow solenoid, along with the disk high speed rotating, just formed the wire rod of coiling with certain diameter.Spiral hollow spinneret is made by Ф 8mm stainless steel, to be spiraltron stretch and penetrate hollow stainless-steel tube 6 by involute urve head, and pass hollow stainless steel main shaft 14 always, until exposing at hollow stainless steel main shaft afterbody, wire rod will be delivered to spiraltron from spinneret by afterbody during experiment, spue from orifice of spinneret at last.

Laying head speed is regulated and control system is by stepper motor 11, the power of motor driver, several parts such as controller are formed. pass through adjustment control, provide corresponding pulsed frequency, can control and regulate stepper motor by power drive, the fixing turbine that directly drives of stepper motor and scroll bar, the turbine worm speed ratio is 1: 30, drives whole Laying head operation.

Laying head signals collecting and display system adopt Single Chip Microcomputer (SCM) system, and magnetoelectric transducer, Fibre Optical Sensor and Hall element various types of signal are amplified, imported Single Chip Microcomputer (SCM) system after the shaping, through calculation process, the result are shown on the LCD LCDs.

The utility model becomes miniaturization, incorporate simulation system with stainless steel wire rod production line orifice of spinneret mechanical system, detection system and control system.Orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line possesses various detection meanss.Orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line can carry out speed to be regulated and control.

Claims (1)

1. orifice of spinneret positioning AND synthesis detecting experimental apparatus FOR stainless steel wire rod production line, it is characterized in that comprising magnetoelectric transducer (1), spiral spinneret (2), Circular flying disk (3), L shaped retort stand (4), Fibre Optical Sensor (5), hollow stainless-steel tube (6), steel flange (7), preceding globe bearing supporting base (8), scroll bar (9), stepper motor bearing support (10), stepper motor (11), back globe bearing supporting base (12), turbine (13), hollow stainless steel main shaft (14), Circular flying disk (3) is connected with stainless-steel tube (6) one ends, stainless-steel tube (6) other end is connected with steel flange (7), spiral spinneret one end is fixed on the Circular flying disk (3) by retort stand (4), be provided with successively on the hollow stainless steel main shaft (14) by preceding globe bearing supporting base (8), turbine (13), back globe bearing supporting base (12), turbine (13) is meshed with scroll bar (9), scroll bar (9) stepper motor (11) is connected, stepper motor (11) is fixed on the stepper motor bearing support (10), hollow stainless steel main shaft (14) is connected with steel flange (7), spiral spinneret (2) other end passes hollow stainless steel main shaft (14), be provided with chequered with black and white lines at steel flange (7) cylindrical, the chequered with black and white lines corresponding section of steel flange (7) cylindrical is provided with Fibre Optical Sensor (5), is provided with magnetoelectric transducer (1) in Circular flying disk (3) periphery.