JPS611421A - Plane straightening device - Google Patents

Abstract

PURPOSE:To adjust freely a parallel between metallic dies, and to execute a straightening working of high accuracy by a low pressure by constituting a titled device so that a pressure surface of one metallic die is brought to ultrasonic vibration, and the other metallic mold holds the metallic mold body on a supporting base through an elastic body. CONSTITUTION:A material to be worked 3 is inserted into between pressure surfaces 6a, 12a of the first and the second metallic dies 6, 12 placed oppositely in a frame 17, the surfaces 6a, 12a are pressed by a pressure mechanism 16, and the working material 3 is straightened to a plane. In this case, the pressure surface 6a of the die 6 supported by a flange 7b is brought to an ultrasonic vibration through a cone 7 by an ultrasonic vibrator 9, also the die 12 is held by a supporting base 12d through an elastic body 13, a recessed part 12b is supported pivotally by a projecting part 12e, and the surfaces 6a, 12a are adjusted in parallel. In this way, the material to be worked can be straightened with high accuracy by a low pressure. This device is used for working VTR parts, a capstan motor, etc. for which a degree of parallelization is required.

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a flat surface straightening processing device, for example, for straightening parts such as VTR parts and capstan motors that require flatness and parallelism in predetermined parts. related to things.

[Prior art]

Conventionally, as devices for straightening flat surfaces, there have been devices using roller levelers, devices using presses, and the like. A flat surface straightening processing device using a roller leveler straightens a workpiece by inserting it between a pair of rotating objects (for example, rotating rollers), and the workpiece is compressed by each roller. and bending is applied and straightened. This processing equipment uses rotating objects such as rollers, so
Processing time is short and suitable for mass production. However, if the workpiece has irregularities, only small irregularities can be corrected by inserting a rubber butt between rollers, but large irregularities cannot be corrected.

In this way, the straightening process using a roller leveler is limited by the shape of the workpiece.

Next, a straightening processing device using a press will be explained with reference to the drawings. FIG. 1 is a sectional view of a straightening device using a planar die, and FIG. 2 is a sectional view of an apparatus using a protruding die. In the figure, in the fllVi first mold, for example, the upper mold, (la
) is provided on the lower surface of the upper mold ill and is finished with a predetermined flatness.
The fc upper mold protrusion (2) is provided with a large number of square pyramid-shaped protrusions, as shown in the plan view in Fig. 3(a) and the floor plan in Fig. 3(b). In the second mold, for example, the lower mold (2a) is provided on the upper surface of the lower mold (2) and is finished with a predetermined flatness hL lower mold pressing surface, (2b) is the lower mold (2)
) is provided on the upper surface of the upper die and faces the upper die protrusion (1b), the lower die protrusion has the same shape, (3) is the workpiece, and (4) raises and lowers the upper die +11, and the upper die pressing surface (la ) k Lower die pressing surface (2
a) or the upper mold protrusion (1b) to the lower mold protrusion (2b)
This is a pressurizing ram that presses against the air, and is operated by a pressurizing mechanism (not shown) K connected to the pressurizing ram using hydraulic pressure or the like.゛(
6j This is a support stand that supports the lower mold (2). On the right, in the figure, the arrow indicates the direction in which the upper die (1) or the lower die (2) is pressed by the pressure mechanism.

A workpiece (3) is placed between the upper mold pressing surface (la) and the lower mold pressing surface (2a
) for straightening by pressing between both pressing surfaces (la).
, It is necessary to adjust the parallelism in (2a) to a predetermined value, and if this parallelism is poor, problems will occur in the parallelism and plate thickness of the processed product, making it impossible to obtain a good product. For this reason, generally between the processing ram (4) and the upper mold fl+, or between the support stand (5)
A spacer is inserted between the mold and the lower mold (2), and the assembly is performed, and the parallelism of both pressing surfaces (IA) and (2a) is adjusted to a predetermined value. After this, the workpiece (3) is placed on the lower mold pressing surface (2a), and the upper mold (1) is pressed against the pressing ram (4).
Lower the upper mold pressing surface (1 &) in the direction of the arrow and press the lower mold pressing surface (suddenly) K to both pressing surfaces (stop). (2a) Straighten the workpiece (3) inserted at the same time. do. In this way, this device straightens the workpiece (3) by plastic deformation, so a large pressing force is required. Therefore, from the viewpoint of pressing force, it is only applicable to small parts such as washers. In addition, since a depression is created in the center of the mold due to the elastic deformation of the molds fll and f21, the pressing surfaces (Ha) and (2a) of the mold must be formed into a convex #f shape due to the pressurizing force. (+l, (Difficulty adjusting parallelism between 21 □") In addition to this, there was a drawback that good flatness could not be obtained by M degrees! 7.

Next, the correction processing device using the protrusion type A shown in FIG.
This is usually called Nanakome-uchi, and the upper mold protrusion (1b)
This is a flattening processing device that partially makes the surface of the workpiece (3) into a concave shape using the lower die protrusion (2b) and obtains flatness as a whole. The opening of the processing tool Il1 is the same as that of the planar mold described above, but there are protrusions (1b), (21
Since the flatness of the workpiece (3) differs depending on the depth of depression of the protrusions ()), it is necessary to adjust the amount of depression or the pressing force. In addition, the processing f
Product C has design problems because it leaves impressions on the surface.
Furthermore, the critical flatness is generally about 0.1 mm,
It is not suitable for processing items that require highly accurate flatness, such as VTR parts and capstan motors.

As mentioned above, conventional flat surface straightening processing devices have drawbacks such as the need for various adjustments during processing, the need for a large pressing force, and the inability to obtain highly accurate flatness. There was.

[Summary of the invention]

This invention was made in order to eliminate the above-mentioned drawbacks of the conventional one. Insert the workpiece into the press 1frIlthi of the second mold, and press the first mold. In the flattening processing position where the pressing surface of the second mold is pressed by the pressing mechanism to flatten the workpiece, the first. D) One of the pressing surfaces of the second mold is configured to vibrate ultrasonically, and the other mold is connected to the mold body, and a mold support that pivotally supports this mold body and holds it via an elastic body. It is an object of the present invention to provide a flat surface straightening processing device that can freely adjust the parallelism between both molds by being configured with a stand, and can secure a highly accurate flat surface with low load.

[Actual example of invention]

An embodiment of the present invention will be described with reference to the drawings. In Fig. 4, the f611ri first mold is the same as the conventional equipment.
(6a) is a pressing surface provided at one end of the horn (6), (6b) is a force at the other end of the horn (6). ) machined hfC female screw, (7) horn (6) K ultrasonic vibration 11Jf: cone to transmit, (7a) Keiko-y (7
) female thread machined from -4), ' (7t+) is the 7 lange provided in the center of the coe/(7), (8) is the horn (6) and cone +71 & connecting bolt, ( 9
) is a vibrator driven by a high-frequency power source (1 not shown) which is the source of ultrasonic vibration, and the generated ultrasonic vibration is transmitted from the vibrator (9) to the cone (7) using the generated ultrasonic vibration flange (7b) as a fulcrum. , horn (6) K transmission tongue, pressing surface (6a)
is adjusted so that the amplitude of is a predetermined value. +101t
A support that supports the fi horn (6), cone (7) and vibrator (9), (kawa is a flange (7b) '7 support (
10) A holder for fastening with bolts, (a 121-piece second mold, for example, a lower mold, which has a pressing surface (12a) facing the pressing surface (6a) at one end, and a pressing surface (12a) facing the pressing surface (6a) at the other end. For example, a lower mold body (12c) having a recess (12b) made of a hemispherical surface
It consists of an F-type support stand (m). (12e) is provided at the center of the upper surface of the lower die support stand (121), and the recess (
121))), +131 is an elastic body such as rubber that has both end faces in the center, (14) is a flat washer, (I5) is a flat washer 041 and an elastic body U. Three or more bolts are provided around the lower mold (M) to fasten the lower mold main body (12C) and the lower mold support (12i).

This F-type support stand (1m) has four hemispherical parts (12b
) and the convex part (12e), the lower mold body (12c) is pivoted from the button, and at the same time the lower mold body (12c) is supported via the elastic body Q31.
c) hold. (16I is a pressurizing mechanism such as a hydraulic cylinder, (I71 is a frame.

Next, I will explain the operation. The workpiece (3) is placed on the pressing force [fi (12a), the horn (6) is lowered in the direction of arrow A by the pressing ram (4) connected to the pressing mechanism ge+, and the pressing surface (5) is lowered in the direction of arrow A. ) generates ultrasonic vibrations by a +91K vibrator just before it comes into contact with the workpiece (3).

As shown in Fig. 5 at the final stage of machining, this ultrasonic vibration presses the workpiece (3) with the pressing surface (transmission) + (l rough), reaches a predetermined pressing force, and then continues for a predetermined holding time. is vibrated in the direction of arrow B until the end. Generally, it is known that when ultrasonic vibration is added to plastic working, there are nine effects described below.

(b) The frictional force between the molds or between the mold and the workpiece is reduced. Therefore, the movement of the workpiece that has not been inserted between the molds or between the molds becomes smooth.

(b) The deformation resistance of the workpiece material decreases, making it easier to process.

e→ The temperature of the workpiece increases, making it easier to process.

2) The workpiece is hammered at high speed using an ultrasonic wave with a frequency of about 15 kHz that transmits vibrations.

Specially, the hammering effect shown in K, 2) is mainly applied to U) ~ (C).
The workpiece (3) is straightened by the combination of these effects, and highly accurate flatness can be obtained with low pressure. Furthermore, the pressing surface (6a
) is pressed against the pressing surface (12a) of the lower mold [121], the lower mold main body (12c) is held by the lower mold support (12i) by the repulsive force of the elastic body (131), and the lower mold main body ( 12C) is pivotally supported by the lower mold support (m) at the uneven parts (12b) and (12e) of the hemispherical surface, so even if the parallelism is adjusted to some degree poorly, the pressing surface (
6a).

(12a) becomes parallel. In addition, due to the reduction of the frictional force of the above effect (a) due to the pressing force with the addition of ultrasonic vibration at this time, the pressing surface (6a) + (12a) I' is automatically and more smoothly i become parallel. For this reason, parallelism adjustment, which was difficult in the past, is automatically performed.
Various adjustments are no longer necessary.

Next, an example of straightening processing using the plane straightening processing apparatus according to the present invention will be described. The workpiece is a cold rolled steel plate with a thickness of 1.
The ctmm one was punched out to a size of 55mm. The pressing force n IF was 1300 kg, and ultrasonic vibration was applied for 5 seconds at this pressing force. As a result, the flatness before processing is 0.
, 1mm -' 0, 2mm, after processing it is about 0.
It was improved to 0.05mm. On the other hand, when pressing with the same pressure without applying ultrasonic waves, there was no significant difference in parallelism from before processing (force). Therefore, highly accurate parallelism was obtained by ultrasonic vibration.

In the above two embodiments, the lower mold (121) is on the fixed side and the horn (6) is moved to apply ultrasonic vibration, or even if the mold is turned upside down, the same effect as in the above embodiment can be obtained.

Furthermore, the concave part (1zb) and the convex part (scoop) are limited to these.For example, by inverting the mold support stand (12i)
The mold body (12c) may be supported by the mold body (12c).Although the mold body (12c) is made of a twisted elastic body (131), it is not limited to kneading, and any elastic body such as a spring may be used.

In the above-mentioned actual example, the I''i-covered 7JD material (3) is plate-shaped, but it is not limited to this and may be of any shape.

〔Effect of the invention〕

According to the invention as described above, the first... In the flattening processing device, the workpiece is inserted between the pressing surfaces of the second mold, and the pressing surface of the second mold is pressed by a pressing mechanism to flatten the workpiece. ．． A mold support stand configured to ultrasonically vibrate one of the pressing surfaces of the second mold, and pivotally supports the other mold body and the mold body and holds the mold body via an elastic body. By configuring this, the parallelism between both molds can be adjusted freely, and there is an effect that the half-opening can be ensured with low pressure.

[Brief explanation of drawings]

Figures 1 and 2 are a cross-sectional view showing a flat surface straightening processing device using a conventional flat type and a protrusion type, respectively, and Figure 3 (a3 and (bl ld) is a plan view of the main part of Figure 2. Fig. 4 is a partial sectional view showing a flat part straightening processing device using JK rolling JK according to the present invention, and Fig. 5 shows a state at the final stage of processing in an embodiment of the present invention. It is an enlarged cross-sectional view of the main part. (3)... Work material, (6)... First mold, (6a
)...Press surface, (9)...Super Shinbo vibration holder, 1121
...Second mold, (1)...Press surface, (121:1
)...Concavity, (12c)--Mold body, (121)
-...Mold support stand, (12e)...Protrusion, (13)
... Elastic body, 01!1... Pressure mechanism, (171...
·flame. f:r In the figures, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Claims] A workpiece is inserted between the pressing surfaces of the first and second molds that are arranged opposite to each other in the frame, and the pressing surfaces of the first and second molds are pressurized by the pressing mechanism and pressed. In the plane straightening processing device for flattening the workpiece, the pressing surface of either the first or second mold is configured to vibrate ultrasonically, and the other mold is connected to the mold body and this mold. 1. A flat surface straightening processing device comprising a mold support that pivotally supports a main body and holds the main body via an elastic body.