JPH0360760A - Blasting equipment - Google Patents

Abstract

PURPOSE:To uniform surface finishing roughness in both the axial direction and the circumferential direction of a body to be treated by moving a blasting nozzle back and forth along the longitudinal axial direction of the body to be treated by a reciprocating driver and rotating the body to be treated around the longitudinal axis by a rotary driver. CONSTITUTION:Abrasive particles are jetted toward a body 1 to be treated through the blasting nozzles 3a, 3b provided to at least one side on the extension in the longitudinal direction of the body 1 to be treated. Further the blasting nozzles 3a, 3b are moved back and forth along the longitudinal axial direction of the body 1 to be treated by a reciprocating driver 4. Furthermore, the body 1 to be treated is rotated continuously or intermittently around the longitudinal axis by a rotary driver 5. As a result, surface finishing roughness of the surface of the body to be treated, especially of the inner surface of the cylindrical body to be treated uniformed in the axial direction and the circumferential direction.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to a blasting device, and more particularly to a blasting device capable of uniformly blasting the inner surface of a cylindrical object to be treated. .

(Prior Art) Blast treatment is widely practiced as a part of surface treatment to clean the base of the object to be treated and to more completely perform chemical conversion treatment and painting treatment. This blasting process uses fine ceramic particles with high hardness or grids of cast iron as abrasive particles, applies a pressure of about 0.2 to 0.8 MPa, and blows copper from a nozzle onto the surface of the object to be treated. This is an operation to roughen the surface and remove any oxide film or dirt present on the surface.

Conventionally, for example, when blasting the inner surface of a cylindrical object, a worker would hold the nozzle with one hand,
While holding the object to be processed with the other hand or fixing it on the table, spray the blasting material while moving the nozzle in the axial direction inside the object at a certain distance from the object. I am doing it.

However, when the nozzle is moved by a worker's hand movement, the movement is unstable and the surface roughness of the inner circumferential surface of the object to be processed tends to become uneven.

In order to eliminate the unevenness of the finish caused by manual work, the object to be processed is fixed upright on a rotary table, and while the object to be processed is sequentially rotated, blasting material is injected from a nozzle fixed above the object. However, automatic blasting equipment that makes the surface roughness constant in each circumferential direction has also been put into practical use.

<Problems to be Solved by the Invention> However, in the automatic blasting apparatus described above, since the object to be processed is fixed in an upright position, the lower end opening of the object to be processed is in a closed state. Therefore, the flow of the blasting material injected from the nozzle is disturbed by the blasting material reflected from the closed surface, resulting in a drawback that the surface roughness in that area becomes non-uniform.

Especially when the object to be treated is long, the spray distance of the blasting material at each part changes greatly, so the surface roughness of the inner circumferential surface near the nozzle and the inner circumferential surface on the opposite side from the nozzle differs greatly. However, there was a problem in that a uniform finish could not be obtained in the axial direction.

The present invention has been made to solve the above problems, and in particular, the inner surface of a cylindrical object to be treated can be uniformly coated with +1-1.
The object of the present invention is to provide a blasting device capable of processing.

[Structure of the invention]

(Means for Solving the Problems) In order to achieve the above object, a blasting device according to the present invention includes:
A blast nozzle provided on at least one longitudinal extension of the object to be processed and injecting abrasive particles toward the object to be processed, and a reciprocating drive for reciprocating the blast nozzle along the longitudinal axis of the object to be processed. The present invention is characterized by comprising an apparatus and a rotational drive device that continuously or intermittently rotates the object to be processed about a longitudinal axis.

(Operation) According to the blasting device having the above configuration, the blast nozzle reciprocates along the longitudinal axis of the object to be treated by the reciprocating drive device, so that the surface finish roughness in the axial direction of the object to be treated is made uniform. be able to.

In addition, since the object to be processed is continuously or intermittently rotated around its longitudinal direction by the rotary drive device, it is possible to uniformize the surface finish roughness in the circumferential direction of the object to be processed at the same time. Blasting can be performed automatically under uniform conditions.

(Example) Next, an example of the present invention will be described with reference to the accompanying drawings. FIG. 1 and FIG. 2 are a front sectional view and a side sectional view, respectively, showing an embodiment of a blasting device according to the present invention.

That is, the blasting device according to the present embodiment includes a pair of blast nozzles that are provided on opposite sides of a cylindrical object 1 to be treated in the longitudinal direction and that spray abrasive particles 2 toward the object 1 to be treated. 3a, 3b and this blast nozzle 3a
, 3b along the longitudinal axis direction of the object to be processed 1, and a rotary drive device 5 that rotates the object to be processed 1 continuously or intermittently around the longitudinal axis. be done.

In addition, the reciprocating drive unit @4 includes a built-in reduction motor, a rack,
Stroke shaft 7 by a pinion etc. (not shown)
reciprocate horizontally. A stroke shaft 7 is movably held on the side wall of the box-shaped blast container 6.
are equipped with fixing fittings 8a, 8b for adjusting and fixing the horizontal positions of the blast nozzles 3a, 3b in accordance with the dimensions and shape of the object 1 to be processed. Fixing metal fittings 8a, 8
The blast nozzles 3a, 3b are attached to the lower ends of the blast nozzles 3a, 3b via supports 9a, 9b which extend and contract in order to adjust the heights of the blast nozzles 3a, 3b. The mounting angle of each blast nozzle 3a, 3b is set at 45 degrees with respect to the central axis of the object 1 to be processed. Further, dustproof covers 10a and 10b are attached to the penetration portion of the stroke shaft 7 on the inner surface of the blast container 6 in order to prevent abrasive particles from entering the outer surface.

On the other hand, the rotation drive device 5 includes a pair of rotary shafts 1 arranged in parallel on a horizontal plane as shown in FIGS. 1 and 2.
1a, 11b, rubber rollers 12a, 12b respectively attached to the rotary shafts 11a, 11b, and having an outer diameter larger than the outer diameter of the O-rollers 12a, 12b,
A pair of stoppers 13 attached to both ends of each of the rollers 12a, 12b, and the rotary shafts 11a, 11b.
a support support 14 that rotatably supports the rotary shafts 11a and 11b, and a reduction type lh machine 1 that rotates the rotary shafts 11a and 11b.
It consists of 5. Moreover, the reciprocating drive device 4 and the rotary drive device i! A control device 16 for controlling the operation of 5 is attached.

Next, the effects will be explained.

The object to be processed 1 is a pair of rollers 12a, 1 of the rotational drive device 5.
2b and rotated continuously or intermittently. On the other hand, by driving the reciprocating drive device 4, the blast nozzles 3a and 3b reciprocate along the longitudinal axis direction of the object to be processed 1. The blast nozzles 3a and 3b spray abrasive particles 2 onto the inner circumferential surface of the object to be processed 1 while reciprocating, and remove metal oxide films, dirt, etc. attached to the inner circumferential surface along the axial direction. At the same time as cleaning, the inner circumferential surface is roughened and adjusted to a predetermined surface roughness.

At the same time, the object to be processed 1 is the rotary shaft 11a.

11b and the rollers 12a and 12b, the blasting process automatically progresses in the circumferential direction of the inner circumferential surface under substantially the same polishing conditions. At this time, the object 1 to be processed rotates around the axis, but its movement in the longitudinal direction is restricted by the collar 13.13.

Here, the mounting interval of the blast nozzles 3a, 3b is adjusted by changing the mounting position of the fixing fittings 8a, 8b with respect to the stroke shaft 7,
The mounting height of b can be adjusted by changing the lengths of supports 9a and 9b inserted through fixing fittings 8a and 8b. Further, the stroke length, stroke frequency, operating time, etc. of the blast nozzles 3a, 3b are adjusted to appropriate values by the control device 16.

As described above, according to the blasting device according to the present embodiment, the reciprocating drive device 4 drives the blast nozzle 3a.

3b reciprocates along the longitudinal axis direction of the object to be processed 1, so that the surface finish roughness in the axial direction of the object to be processed 1 can be made uniform.

Furthermore, since the object to be processed 1 is rotated continuously or intermittently around the longitudinal axis by the rotational drive device 5, it is possible to uniformize the surface finish roughness in the circumferential direction of the object to be processed at the same time. Blasting can be automatically performed on the entire body 1 under uniform conditions.

Further, the blast nozzles 3a and 3b may both be configured to continuously spray the abrasive particles 2 during operation,
While each blast nozzle 3a, 3b is configured to eject only when it is on the outward path moving in one direction of the object to be treated,
It is also possible to operate with injection stopped on the return trip. In this case, the blast nozzles 3 are arranged oppositely.
The jet streams from a and 3b are less likely to interfere with each other, and the finish of the surface to be blasted can be made more uniform.

Next, more specific effects when using the device of this embodiment will be explained.

A case in which 100 cylindrical drawn pipes with an inner diameter of 30mm, an outer diameter of 36m, and a length of 60M were prepared as the object 1 to be treated, and the inner surface of the pipes was blasted manually using the conventional method, and the other using the apparatus of this embodiment. and the same time (3
The effect was compared with the case where blasting was performed for only 0 seconds).

Blasting conditions (inner diameter of blast nozzle: 6
11II, the injection air pressure was set to 5 atm, the injection distance from the tip of the blast nozzle to the surface to be treated was set to 80 seconds, and Alundum (#60) was used as the abrasive particles. Further, the stroke length of the reciprocating drive device 4 was 35 strokes, the stroke frequency was 30 times per minute, and the number of rotations of the object to be processed 1 was 30 times per minute.

Then, 50 points were selected on the entire inner circumferential surface of the target object obtained by blasting for a predetermined period of time, and the surface roughness of each point was measured and the standard deviation was calculated, as shown in Table 1 below. Got the results.

As is clear from the results shown in Table 1, if the blasting process is performed using the apparatus of this example, there will be little variation in the surface roughness of the object to be treated, and uniform blasting will be possible over the entire object to be treated. Become.

Although not shown in the drawings, as another embodiment, an index disk having a built-in servo mechanism that can rotate an object by an arbitrary angle while holding the object horizontally can be used as the rotation drive device.

In this case, in 43, it becomes possible to uniformly perform one last treatment on a polygonal cylindrical member as an object to be treated, and the objects to be treated can be further expanded.

In the above embodiment, an example was explained in which the inner surface of a cylindrical object to be treated was blasted, but it goes without saying that the apparatus of this embodiment can be applied not only to the inner surface but also to the outer surface of the object to be processed. stomach.

〔Effect of the invention〕

As explained above, according to the blasting apparatus according to the present invention, the blast nozzle reciprocates along the longitudinal axis of the object to be processed by the reciprocating drive device, so that the surface finish roughness in the axial direction of the object to be processed is uniformly obtained. can do.

In addition, since the object to be processed is continuously or intermittently rotated around the longitudinal axis by the rotational drive device, the surface finish roughness in the circumferential direction of the object to be processed can also be made uniform at the same time. Blasting can be automatically carried out under uniform conditions throughout.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view showing an embodiment of a blasting device according to the present invention, and FIG. 2 is a side sectional view taken along arrow n--■ in FIG. DESCRIPTION OF SYMBOLS 1... Object to be processed, 2... rif abrasive material particles, 3a
. 3b...Blast nozzle, 4...Reciprocating drive device, 5
...Rotary drive device, 6...Blast container, 7...
Stroke shaft, 8a, 8b...Fixing metal fittings, 9a
, 9b...Support, 10a, 10b...Dust-proof cover 118.11b...Rotary shaft, 12a,
12b...loaf, 3...stopper, 4...support support, 5...reduction type iei, 6...! lJ control device.

Claims (1)

[Claims] A blast nozzle provided on at least one longitudinal extension of the object to be processed and injecting abrasive particles toward the object to be processed, and a reciprocating drive for reciprocating the blast nozzle along the longitudinal axis of the object to be processed. A blasting device comprising: a blasting device; and a rotational drive device that rotates the object to be processed continuously or intermittently around a longitudinal axis.