JPH08173924A - Rod cleaner - Google Patents

Abstract

PURPOSE: To provide a rod cleaning capable of removing the surface contamination of a rod to be cleaned such as an extruded billet simply and positively without the use of an organic solvent. CONSTITUTION: This rod cleaner is composed of rotary brushes 21 opposed to each other, at a position where a rod 8 to be cleaned is held therebetween, a position adjustment mechanism for adjusting a space between these rotary brushes and the rod 8, and a cleaning liquid supply port 30 for supplying a cleaning liquid to the surface of the rod 8.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a rod cleaning machine, and particularly to a rod cleaning suitable for removing strong dirt such as a lubricant adhering to the surface of a hydrostatically extruded superconducting billet. Regarding the machine.

[0002]

2. Description of the Related Art Superconducting magnet devices using metallic superconducting wires such as NbTi and Nb ₃ Sn show stable superconducting characteristics under high current density.
(Magnetic resonance imaging device) is widely used as a magnetic device for medical devices and static magnetic field generation.
Further, it is expected to be applied to various superconducting applied devices such as superconducting generators, superconducting transformers, and magnetic levitation trains. In the above-mentioned superconducting magnet device and various applied devices, as a wire for forming a superconducting coil, a large number of alloy superconducting materials such as NbTi and compound superconducting forming base materials such as Nb ₃ Sn are placed in a stabilizing matrix such as copper. A structure with embedded and thin lines is used.

FIG. 2 shows, as an example of a method of manufacturing a superconducting wire, a method of manufacturing an Nb ₃ Sn superconducting wire by using a tube method. In the figure, the Sn rod 1 is incorporated into a copper tube 2 and becomes a copper clad Sn wire 3 by cold drawing. The copper-clad Sn wire 3 is incorporated into the Nb tube 4 and the copper tube 5 and processed into a hexagon by cold drawing to form a single wire 6. The single wire 6 is cut into a predetermined length, a large number of the single wires 6 are aligned and incorporated into a copper tube 7, and a multi-wire billet 8 is formed by hydrostatic extrusion. This multi-line billet 8 is cold drawn again to obtain wire rods 9a and 9b having predetermined dimensions and cross sections. When these wires 9a and 9b are finally subjected to heat treatment at 650 to 750 ° C. for about 10 to 150 hours, Nb ₃ S along the inner surface of the Nb tube.
The n-layer is generated and exhibits the characteristics as a superconducting wire. In addition, the multi-wire billet 8 is a wire rod 9 of a predetermined size.
The reason why the heat treatment for generating superconductivity is performed after the cold drawing of a and 9b is that the Nb ₃ Sn layer is hard and brittle, and thus the processing after the formation is difficult.

In the case of an alloy type superconducting wire such as NbTi,
A NbTi rod is used in place of the copper clad Sn wire 3 and the Nb tube 4 of FIG. 2, and this is assembled into a copper tube 5 and cold drawn to obtain a single wire 6 having a hexagonal cross section.
And aligning a large number of these into a copper tube 7 and then hydrostatically extruding to form a multi-line billet 8, which is again cold-drawn to form wire rods 9a, 9b of predetermined dimensions and cross sections. become.

FIG. 3 schematically shows a main part of a hydrostatic extruder used in the production of the multi-wire billet 8 described above. A billet having a large number of single wires 6 incorporated in a copper tube 7. The base material 8a is closed by electron beam welding the front end member and the rear end member to both ends, and is housed in the extruder container 11 together with the pressure medium 10. When the tapered tip end of the billet base material is inserted into the die 12 of the extruder and the extrusion ram 13 is advanced to increase the pressure of the pressure medium 10, the billet base material 8a
Since a uniform pressure is applied from around the area other than the die hole, it is extruded from the die 12 of the extruder as a multi-line billet 8 having a reduced diameter to a predetermined size. As described above, the hydrostatic extrusion method is used in the production of superconducting wires because it is a composite material of a stabilized matrix material having good ductility such as copper and a superconducting material having extremely poor ductility such as NbTi or Nb tube. This is because it is the most suitable method for uniformly thinning the inside and outside.

[0006]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
Although it is a very useful method for processing the above-mentioned heterogeneous composite material, it is necessary to sufficiently apply a lubricant to the surface of the extrusion billet due to its characteristics. As the lubricant, a lubricant containing molybdenum disulfide as a main component is usually used, and the lubricant remains on the surface of the extruded billet even after the extrusion is completed. Conventionally, an operator used trichloroethane to manually remove the lubricant residue, but the lubricant remaining on the surface of the extruded billet was dried and solidified and solidified after a lapse of time after extrusion. Peeling work is not easy because a film is formed.
It takes about 4 man-hours to wash one extruded billet having a length of 6 cm and a length of 6 m. Further, trichloroethane is a kind of organic solvent which is feared to affect the environment and the human body as an ozone depleting substance, and its use is not preferable. The present invention has been made in view of such a point, and provides a rod cleaning machine capable of easily and reliably removing surface stains on a cleaned rod such as an extrusion billet without using an organic solvent. The purpose is.

[0007]

SUMMARY OF THE INVENTION A rod cleaning machine according to the present invention adjusts a plurality of rotating brushes arranged opposite to each other at a position sandwiching a rod to be cleaned, and the intervals between the rotating brushes and the rods. It is characterized by comprising a position adjusting mechanism and a cleaning liquid supply port for supplying a cleaning liquid to the surface of the rod.

[0008]

In the washing machine of the present invention, the plurality of rotating brushes arranged around the rod to be cleaned are adjusted in space with respect to the rod to be cleaned by the position adjusting mechanism so that the rods to be cleaned can be operated at an appropriate pressure. The dirt adhering to the surface of the rod to be cleaned is removed with the help of the cleaning liquid supplied from the cleaning liquid supply port while contacting the surface and rotating by the motor.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of a rod cleaning machine of the present invention. An extrusion billet 8 extruded by a hydrostatic extruder is a rotating / transporting roller (not shown) constituting a part of a rotating / transporting mechanism. Guided by the washer container 2
The inside of 0 moves in the axial direction of the extruding billet 8 and rotates slowly about the moving direction. Two rotating brushes 21 are arranged on both sides of the extrusion billet 8. Each of these rotating brushes 21 has a rotating body 21a.
A large number of strong metal wires 21b, such as thin brass wires having a diameter of about 0.2 mm, are planted around the periphery of the rotating body 21a. And is rotated at a predetermined speed by a motor (not shown). A pair of holding plates 22 forming a part of the position adjusting mechanism
Are combined in an X shape by a shaft 23 that rotatably locks the vicinity of each center, and is rotatably locked by a pair of moving metal fittings 24 near the other end. These moving metal fittings 24 are screwed onto the reverse screw rod 25, and when the handle 26 for position adjustment is turned, the distance between the moving metal fittings 24 changes, and accordingly, the leg opening angle of the holding plate 22 and their tips. The rotating brushes 21 mounted in the vicinity are also configured so that the distance between them also changes.

A drainage port 2 opened on the bottom plate of the washing machine container 20.
A circulation pump 28 is connected to 0a via a pipe 27. Further, the tip of the pipe 29 connected to the discharge side of the circulation pump 28 opens in the washing machine container 20 immediately above the extrusion billet 8 to form a washing liquid supply port 30.

In the apparatus of the present invention constructed as described above, the extruded billet 8 which is the rod to be cleaned is guided by the rotating / transporting roller (not shown) and is slowly rotated to proceed into the container 20 of the washing machine. Then, automatically or manually, the circulation pump 28 is operated to drop the cleaning liquid stored in the cleaning liquid tank (not shown) from the cleaning liquid supply port 30 toward the extrusion billet 8. As the cleaning liquid, a weakly alkaline water-soluble type is used.

Here, the position adjusting handle 26 is operated to change the distance between the rotating brushes 21 so that the metal wires 21b contact the surface of the extrusion billet 8 with an appropriate pressing force. In this way, the residue such as the lubricant adhering to the surface of the extruding billet 8 passing while rotating is removed cleanly by the cleaning force of the cleaning liquid and the mechanical peeling effect of the rotating brush. After the extruded billet is washed, the washing liquid accumulated at the bottom of the washing machine container 20 is pumped up by the circulation pump 28 from the drain port 20a through the pipe 27, passes through the pipe 29, and
It is again supplied onto the extrusion billet 8 from the cleaning liquid supply port 30.

As described above, in the present invention,
Since the cleaning power of the cleaning liquid and the mechanical peeling effect of the rotating brush with a strong rigidity are used in combination, it sticks firmly like the residue of lubricant adhered to the surface of the extrusion billet after hydrostatic extrusion. Even such dirt can be removed easily and in a short time. Further, even a weak alkaline water-soluble type cleaning liquid having a weaker degreasing power than conventional trichlene can be sufficiently cleaned and an adverse effect on the global environment and workers can be prevented.

In the above description, the example in which the present invention is applied to the removal of the lubricant residue attached to the surface of the extruded billet during the hydrostatic extrusion process is described, but the present invention is not limited to this. It can be widely applied to cleaning rods with dirt that is difficult to peel off. Also, rotation
The configurations of the transfer mechanism and the position adjusting mechanism are not limited to the above examples.

[0015]

Since the present invention utilizes the synergistic effect of the cleaning power of the cleaning liquid and the mechanical peeling power of the rotating brush, even strong dirt can be removed easily and in a short time. be able to. Further, even a cleaning liquid having a cleaning power weaker than that of conventional trichlene can be sufficiently cleaned and an adverse effect on the global environment and workers can be prevented.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view showing an embodiment of a rod cleaning machine of the present invention.

[FIG. 2] As an example of a method for manufacturing a superconducting wire, Nb ₃ S
It is process explanatory drawing which shows the method of manufacturing the n superconducting wire using a tube method.

FIG. 3 is a schematic view of a main part of a hydrostatic extruder for explaining an example of a method for producing an extrusion billet that is cleaned by the device of the present invention.

[Explanation of symbols]

 6 ... Single wire 8 ... Multi wire billet 9a, 9b ... Wire material 10 ... Pressure medium 11 ... Extruder container 12 ... Die 20 ... Washer container 21 ... Rotating brush 22 ... Holding plate 24 ... … Movement fitting 25 …… Reverse screw rod 28 …… Circulation pump 30 …… Cleaning liquid supply port

Claims (4)

[Claims] 1. A plurality of rotating brushes that are arranged opposite to each other at a position sandwiching a rod to be cleaned, a position adjusting mechanism that adjusts a gap between the rotating brushes and the rod, and a cleaning liquid on the surface of the rod. A rod cleaning machine comprising: a cleaning liquid supply port for supplying the cleaning liquid. 2. The rod cleaning machine according to claim 1, further comprising a rotation / transfer mechanism for rotating the rod to be cleaned in its circumferential direction and transferring it in the axial direction. 3. A position adjusting mechanism axially locks X near the center.
A pair of holding plates combined in a letter shape and having a rotating brush attached near the tips, a pair of moving fittings attached near the other ends of these holding plates, and reverse screws that are respectively screwed into these moving fittings The rod cleaning machine according to claim 1, comprising a rod. 4. A rod to be cleaned is a hydrostatically extruded superconducting billet, a rotating brush is formed by implanting a number of thin brass wires on the surface of a rotating body, and the cleaning liquid is a weak alkaline aqueous solution. The rod cleaning machine according to claim 1, wherein the rod cleaning machine is of a sex type.