JPH01203089A - Cleaning apparatus for cylindrical bodies such as bolts - Google Patents

Abstract

PURPOSE:To efficiently clean bolts, etc., by installing an operation apparatus, arranging a rotor in the inside of a sleeve of which one end is opened, attaching an arm movable swingingly and having a brush to the rotor, and setting a retaining ring to bind the arm. CONSTITUTION:A bolt (A) is inserted from a ring 9 in the bottom end of a sleeve 1. The illustration indicates the case that a large diameter bolt (A) and a small diameter bolt (a) are inserted at the same time, the location of the retaining ring 8 is previously set according to the diameter of the bolts (A) and (a), and the position of the arm 6 is properly set. When the motor 4 is operated, the brush 7 is rotated and slid around the bolts (A) and (a) due to the rotation of the rotor 2 to remove foreign substances adhering to the bolts and at the same time clean the bolts (A) and (a) by polishing. Then, with the bar 3b and the handle 4a held by hands, the whole of the apparatus is moved upwards, and the whole of the bolts (A) and (a) are cleaned. The dust generated in the process is discharged outside through the hose 10 by blower 11.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a cleaning device for cleaning cylindrical bodies such as bolts, shafts or bottles.

[Conventional technology]

2. Description of the Related Art Various bolts and nuts are used as means for joining members in general industrial machines and mechanical structures used for special purposes. These bolts and nuts are connected 4
In order to inspect or replace parts, it is common to remove bolts and clean the threaded parts. The easiest way to clean such bolts is to rub the circumference with a metal brush or the like to remove dirt and foreign matter, and this work has traditionally been done manually. In addition, we have developed a dedicated gluing and Q-ning device for specific bolts, making work more efficient.

[Problem to be solved by the invention]

By the way, boilers, nuclear reactors, steam turbines, and their peripheral equipment related to thermal power generation and nuclear power generation are periodically inspected based on legal regulations or voluntarily. During this inspection work, disassembling mechanical parts is not paid, and bolts and nuts are also subject to strict inspection. For example, when inspecting a bolt, it is necessary to remove deposits from the threaded portion and clean it by polishing.

However, if the bolts are cleaned manually using a brush or a rotating brush, there is a limit to the work efficiency. Further, even if a dedicated cleaning device is used for the work, scattering of dust generated during the 11th work cannot be avoided. Particularly in the case of nuclear power generation, if dust is generated during work, the problem of radioactive contamination becomes serious, and it is necessary to avoid this as much as possible.

For this reason, conventional measures have been taken such as setting up a tent or the like at the work site and collecting the dust generated by the work into a processing facility using a blower or the like. However, since it is necessary to set up a tent every time the work is carried out, there is a problem in that the work efficiency is poor.

Furthermore, when working in a tent, the only work that can be done is cleaning the bolts that have been removed from the mechanical structure.

For example, in the case of something that cannot be transported to a working position, such as a stud bolt for a turbine casing, it is necessary to newly install a tent in the area surrounding the bolt. Furthermore, even if you use a dedicated cleaning device,
Since it does not have its own sealing mechanism, it must be worked inside the tent, and no improvement in work efficiency can be expected.

In order to solve these problems, the present applicant has proposed a device that can efficiently clean bolts, etc. in a patent application filed in 1983.
It has already been filed as No. 238011. In this device, a rotatable rotor is disposed within a sleeve that encloses the bolt, and the bolt is inserted into the rotor, and the bolt can be cleaned by polishing the bolt with a brush provided on the circumference.

However, the structure is such that an arm is pivotally mounted around the rotor and the brush is applied to the circumferential surface of the bolt by utilizing the centrifugal force acting on the arm. For this reason, when the rotor rotates at high speed, the arms are essentially free ends, and vibrations are generated considerably. In other words, since the arm becomes a mass point, there is a risk of resonance depending on the rotor rotational speed, arm length, etc., and the entire device will vibrate greatly. Therefore, when working by holding the nozzle of the device by hand, there is a problem in that it not only puts a heavy burden on the worker but also causes noise and damage to the device itself.

SUMMARY OF THE INVENTION Therefore, it is an object of the present invention to efficiently clean a cylindrical body such as a bolt, and to suppress the vibration of the device so that the work can be carried out easily.

[Means to solve the problem]

In order to achieve the above object, the cleaning device of the present invention includes a cylindrical rotor into which a cylindrical body such as a bolt can be inserted in the axial direction from the open end, into a sleeve that is open on the same side as the open end. The sleeve is housed substantially coaxially, a driving device for rotationally driving the rotor is provided in the sleeve, an arm having a brush portion that comes into sliding contact with the circumferential surface of the cylindrical body is swingably attached to the circumferential surface of the rotor, and the The present invention is characterized in that a retaining ring for restraining the posture of the arm is provided on the circumferential surface of the rotor.

[Effect]

By rotating the rotor into which the bolt is inserted, a brush section provided on the arm is brought into contact with the circumferential surface of the bolt to clean it, and this work is carried out within a sleeve that forms a space closed to the outside. Further, one end of the arm is restrained by a retaining ring, so that the arm does not swing violently when the rotor rotates at high speed, and the generation of vibration and noise is suppressed.

〔Example〕

Hereinafter, features of the present invention will be specifically explained with reference to embodiments shown in the drawings.

FIG. 1 is a longitudinal cross-sectional view showing a working situation of a cleaning device according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of the device taken along the line II in FIG. 1. In this embodiment, Pole A will be described with reference to a stud bolt fixed to the turbine casing.

Bolts A are fixed to the turbine casing at a constant pitch. Then, the cleaning device covers the entire portion of Pole A, and uses a built-in cleaning mechanism to clean and polish the circumferential surface of Pole A.

The cleaning device has a cylindrical sleeve 1 as an outer member, and a rotor 2 is disposed coaxially with the sleeve 1 inside. In order to rotatably support this rotor 2,
A base block 3 is integrated with the upper end of the sleeve 1, and the rotor 2 is connected to it by a bearing 3a built into the base block 3. Furthermore, a motor 4 using air pressure for rotationally driving the rotor 2 is disposed above the base block 3.

This motor 4 has a structure that rotates its output shaft at high speed by supplying compressed air, and its handle portion 4
A is connected to a compressed air supply hose 4b and is provided with a switch 4c for activation and deactivation. In addition,
There is a bar 3 on the outer periphery of the base block 3 that can be used to transport the device or adjust the posture with respect to the bolt Δ by hand during work.
Set b.

The rotor 2, which is rotationally driven by the motor 4, has a cylindrical shape with an open lower end and a circular internal cross section. Cleaning mechanisms for cleaning the circumferential surface of Pole A are provided at four locations on the outer periphery.

This cleaning mechanism mainly consists of four arms 6 that are pivotally connected to the outer peripheral surface of the rotor 2 by pins 5 (see Fig. 2), and has a brush section 7 in which many small diameter steel wires are implanted in the lower part. It is set up. The pin 5 is arranged so that its axis is horizontal and perpendicular to the radial direction of the rotor 2, thereby making it possible to swing the arm 6 in the vertical plane and toward the center of the rotor 2. can do. In addition,
A separate auxiliary arm 6a is pivotally attached to the tip of the arm 6 by a pin 6b, so that the posture of the brush portion 7 can be changed in accordance with the outer diameter of the bolt A. As a result, even when cleaning a bolt having a particularly small outer diameter, it is possible to perform work without the tip of the brush portion 7 hitting each bolt.

Furthermore, a retaining ring 8 is provided around the outer periphery of the rotor 2 to restrain the upper end of the arm 6. This retaining ring 8 is rotatably screwed onto the rotor 2 by a screw 8a connection, and is moved in the axial direction of the rotor 2 by the rotation. In addition, the attitude of the arm 6 can be changed by forming a tapered surface 8b having a smaller diameter on the surface facing the arm 6 side, and by abutting the inner wall of the upper end of the arm 6 against this tapered surface 8b. A lock bolt 8c is provided on the upper circumferential wall of the retaining ring 8, thereby fixing the retaining ring 8 at a predetermined position on the rotor 2.

Further, a ring 9 is provided on the inner periphery of the lower end of the sleeve 1 for aligning with the pole A and for making the inside of the sleeve 1 a substantially closed space. This ring 9 has an inner diameter that corresponds to the outer diameter of the pole A to be worked on. In order to prevent damage to the screws of bolt A, the fitting part 9 is made of a hard synthetic resin material on the surface where bolt A is fitted.
a, and has a two-layer structure including a metal annular body 9b that supports the fitting portion 9a. By providing such a ring 9, the sleeve 1 can be arranged concentrically with respect to the bolt 8, and can be easily inserted into the built-in rotor 2. Further, even when the rotor 2 rotates at high speed, the entire device can operate smoothly without chatter or interference between the inner wall of the rotor 2 and the circumferential surface of the rotor 2. Note that the inner diameter of the fitting portion 9a of the ring 9 is set such that there is a slight gap between the holes A and A.

Furthermore, a hose 10 is connected to the sleeve l for disposing of dust and the like generated during cleaning work to the outside. This hose 10 is made of a flexible material and is connected to a suction blower 11 which is installed separately from the cleaning device.

In the above configuration, in order to perform the cleaning work of the pole 1-A, the apparatus is set so that the pole 1-A is inserted through the ring 9 at the lower end of the sleeve 1. At this time, since the sleeve 1 can be aligned with the bolt A by the ring 9, the insertion of the bolt A into the rotor 2 located inside is also quickly performed.

Here, in FIG. 1, the case where the large diameter port) A and the small diameter port) a are inserted simultaneously is shown, and the left arm 6
is shown in a position for cleaning the large diameter bolt A and the right hand arm 6 for cleaning the small diameter bolt a). By setting the position of the retaining ring 8 in advance according to the diameter of the bolts A and a to be cleaned, the posture of the arm 6 is appropriately set.

That is, in the case of a large-diameter pole) A, the retaining ring 8 is set at a high position so that the upper end of the arm 6 hits the small-diameter portion of the tapered surface 8b. Further, when the diameter is small (a), the retaining ring 8 is moved downward so that the upper end of the arm 6 comes into contact with the large diameter portion of the tapered surface 8b. By such an operation, when the pole A has a large diameter, the arm 6 stands up in the vertical direction, and the brush portion 7 can be brought into contact with the circumferential surface of the pole A. Furthermore, in the case of a small-diameter bolt a, the lower end of the arm 6 can be inclined so as to move toward the center so that the brush portion 7 can be brought into contact with the bolt a.

Next, when compressed air is supplied to the motor 4 to rotate its output shaft, the rotation of the rotor 2 causes the brush portion 7 to rotate while slidingly contacting the circumferential surfaces of the bolts A and a. Then, the brush portion 7 removes foreign matter adhering to the poles A and a, and at the same time cleans them by polishing. And bar 3b
The entire bolt A can be cleaned by holding the handle portion 4a and gradually moving the entire device upward. Note that the rotation speed of the rotor 2 is, for example, 600.
~1300 rpm.

Dust and the like generated during the leaning process are discharged to the outside from the hose IO by the suction force of the blower 11 and disposed of at an appropriate collection facility (not shown). Note that the fitting portion 9 of the ring 9 provided at the lower end of the sleeve 1
As mentioned above, a has an inner diameter that does not come into close contact with the circumferential surface of the bolt.

As a result, air can flow in from the gap between the ring 9 and the blower 11, and suction by the blower 11 can be performed without any problem. Moreover, since this gap is small and the air inside the sleeve 1 flows in the direction of the hose 10 as if being sucked, dust does not leak out from between the bolt 8 and the ring 9. Therefore, the dust generated during the cleaning work does not leak to the outside, making it possible to improve the working environment and solving the problem of radioactivity during maintenance and inspection work on equipment using nuclear power.

Also, the arm 6 is the bolt A to be cleaned.

It is maintained in a fixed posture by a retaining ring 8 according to the diameter of a. That is, when the rotor 2 rotates, since the upper portion of the arm 6 is pivotally connected by the pin 5, the attitude of the arm 6 is changed so that the lower end side, which has a heavier mass, opens outward due to centrifugal force. In response to this change in attitude, the upper end of the arm 6 changes its attitude inward, and the upper end abuts against the tapered surface 8b of the retaining ring 8, thereby restricting the overall attitude of the arm 6. Therefore, if the position of the retaining ring 8 is appropriately set according to the outer diameter of the cleaning poles A and a, the brush portion 7 can polish the circumferential surfaces of the poles A and H with appropriate contact pressure. It can be cleaned.

By restraining and holding the arm 6 as described above, the generation of vibrations caused by high-speed rotation of the rotor 2 is suppressed compared to cleaning using only centrifugal force as described in the section of the prior art. In other words, the arm 6 is a swinging member pivotally connected to the rotor 2 by the pin 5, but during operation, the retaining ring 8 restrains the upper end of the arm 6 and the arm 6 becomes integrated with the rotor 2, which prevents vibrations. and noise generation can be effectively suppressed.

In the embodiment, the bolts Δ, a are of a built-in type fixed to the structure, but the apparatus of the present invention can also be applied to the case of cleaning the bolt alone.

In other words, if the bolt is placed in an upright or horizontal position using a jig or the like for fixing the bolt, cleaning work can be carried out in exactly the same manner as described above.

In addition to bolts, work objects include mechanical elements such as pins and shafts. For the brush portion 7, instead of using steel wire, wires made of stainless steel, brass, etc., or nylon wires can be used, and the brush portion 7 may be selected from wires suitable for the member to be cleaned.

〔Effect of the invention〕

As explained above, in the cleaning device of the present invention, a rotor is provided for inserting the cylindrical body inside the sleeve that encloses the cylindrical body including the space around it,
At the same time as the rotor rotates, the brush portion provided on the arm is brought into contact with the circumferential surface of the cylindrical body. Therefore, compared to the conventional case of relying on manual work, the process becomes simpler and more efficient. In particular, for mechanical structures that require uniformity of cleanliness through cleaning, it is possible to finish each bolt, etc. to a uniform degree of cleanliness, ensuring that work meets specified conditions through inspection and management. can be done. Further, since the cylindrical body to be cleaned is surrounded by the sleeve, generated dust and the like will not be spread, and the working environment can be improved. Furthermore, since the posture of the arm is fixedly restrained by the retaining ring, even if the arm rotates at high speed, there is no shaking or vibration due to centrifugal force, making handling easier and preventing equipment damage due to resonance etc. .

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view showing a working state of a cleaning device according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of the device taken along lines 1 to 2 in FIG. 1. Sleeve 2: Rotor 3: Base block 4: Motor 5: Pin 6: Arm 7; Bran part 8: Retaining ring 9: Ring
10: Hose 11 nib blower A, a: Bolt patent applicant
Toyomitsu Sangyo Co., Ltd. Agent Masu Kobori (and 2 others) January 12, 1989 Director General of the Japan Patent Office Yoshi 1) Takeshi Moon 1 Indication of the case 1988 Patent Application No. 26206 2 Name of the invention Cleaning device for cylindrical bodies such as bolts 3, relationship with the case of the person making the amendment Patent applicant 4, attorney's specification 6, content of amendment (1) The scope of the claims is amended as follows. A cleaning device for a cylindrical body such as a bolt, characterized in that a retaining ring is provided on the circumferential surface of the rotor. ” (2) “Can be attached from the open end” on page 5, lines 7 to 13 of the specification is corrected as follows.

Claims (1)

[Claims] 1. A cylindrical rotor into which a cylindrical body such as a bolt can be inserted in the axial direction from the open end is housed almost coaxially in a sleeve that is open on the same side as the open end, and the rotor is rotated in the sleeve. A driving device is provided, an arm having a brush portion that slides on the circumferential surface of the cylindrical body is swingably attached to the circumferential surface of the rotor, and a retaining ring for restraining the posture of the arm is attached to the circumferential surface of the rotor. A cleaning device for a cylindrical body such as a bolt, characterized in that the cleaning device is provided in a cylindrical body such as a bolt.