JP2008137116A - Press-fitting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a press-fitting device with a self-centering mechanism, which can press-fit a press-fitting accommodation member set on a lower jig and a press-fitting member mounted on an upper jig, in a manner conforming a center axis of the former to a center axis of the latter by employing a simple structure, to thereby reduce a breakage caused by interference of the members with each other. <P>SOLUTION: The lower jig is formed of: a columnar base portion 7 which has a collar 7b at a lower portion, and is set on a device mount; and a receiving portion 6 having a collar 6f at an upper portion and a receiving plate 6b formed at the center of an upper surface 6c of the collar 6f, for setting the press-fitting accommodation member thereon. The receiving portion 6 is connected to the base portion 7 in a manner arbitrarily floating in the vertical and horizontal directions by a coil spring 8 arranged between the collar 6f and the collar 7b. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a press-fitting device provided with a self-centering mechanism.

  As shown in FIG. 6 (a), the conventional press-fitting device 1 is equipped with a vacuum tube 2c connected to a vacuum pump (not shown), and a vacuum-fitting component 4 such as a valve seat that is in vacuum communication with the vacuum tube 2c. An upper jig 2 having an opening 2b, a joint 1c connected to the protrusion 2a of the upper jig 2, and a press mechanism 1b for driving a drive shaft 1d attached to the tip of the joint 1c in the press-fitting direction using hydraulic pressure or a motor as power. And a receiving jig 3a for installing a press-fitting part 5 such as a housing, and a lower jig 3 installed and fixed to the apparatus base 1a. The press-fitting part 4 is inserted into the mounting opening 2b by an operator or a conveying device. The press-fitting part 5 was installed in the receiving tray 3a, and the press-fitting part 4 was press-fitted into the press-fitting part 5 by the press mechanism 1b. However, in such a press-fitting device, if the dimensional accuracy of the device itself is low, as shown in FIG. 6B, the center axis A of the press-fit component 4 and the center axis B of the press-fit component 5 do not coincide with each other. The press-fit component 4 and the press-fit component 5 interfere with each other. For this reason, in order to make the center axis A of the press-fit component 5 installed in the tray 3a of the lower jig 3 and the center axis B of the press-fit component 4 mounted on the upper jig 2 coincide with each other with high accuracy, There was a problem that the dimensional accuracy had to be increased and the manufacturing cost of the press-fitting device was increased. For this reason, it is composed of a spring and a pin, and is provided with a pusher pin that presses the press-fit component toward the center of the saucer at every 120 degrees on the side of the catch plate, so that the press-fit component is installed at the center of the saucer (For example, refer to Patent Document 1).

JP-A-7-96425

  In the conventional press-fitting device, the pressed parts are placed in the center of the tray by pressing the pusher pin. Therefore, the dimensional accuracy of the pusher pins is very high so that each pusher pin presses the pressed parts evenly. There was a problem that had to be done. Further, when the pusher pins are worn or the springs are weakened by use, there is a problem that each pusher pin cannot press the press-fit parts uniformly and the press-fit parts are not installed at the center of the tray. In this case, since the press-fitting component and the press-fitted component are press-fitted in an interference state, the press-fitting component or the like is damaged. Further, there is a problem that workability deteriorates because the work piece must be installed in a state where the tip of the pusher pin protrudes into the tray. Further, in order to improve the deterioration of workability, it is necessary to separately provide an operating mechanism for the pusher pin, and there is a problem that the production cost increases.

  The present invention has been made to solve the above-described problems, and the center axis of the press-fit component installed in the lower jig and the press-fit component mounted on the upper jig are made to coincide with each other with a simple configuration. An object of the present invention is to obtain a press-fitting device having a self-centering mechanism that can be press-fitted and, as a result, can reduce the cause of damage due to interference between components.

  The press-fitting device according to the present invention is characterized in that a lower jig is provided with a base portion installed on a device base and a receiving portion having the tray and connected to the base portion in a floating state by an elastic body. And

  According to the present invention, with a simple configuration, it is possible to realize a self-centering mechanism that matches the center axes of the press-fit component installed on the lower jig and the press-fit component mounted on the upper jig. The manufacturing cost can be reduced.

Hereinafter, an example of an embodiment of the present invention will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
FIG. 1 is a partial cross-sectional view illustrating an example of a configuration of a portion that is a feature of the press-fitting device according to the first embodiment. The press-fitting device according to the first embodiment has a flange 7b at the lower part, a columnar base portion 7 installed on an apparatus stand (not shown), and a flange 6f at the upper part. And a cylindrical receiving portion 6 provided with a receiving tray 6b for installing a press-fit component such as a valve seat at the center of the upper surface 6c. The receiving portion 6 is disposed between the flange 6f and the flange 7b. The coil spring 8 is connected to the base portion 7 so as to be movable in the vertical and horizontal directions (hereinafter referred to as a floating state). Further, in order to prevent the coil spring 8 from being caught, R portions 6 a and 7 a are provided at the ends of the lower surface 6 d of the receiving portion 6 and the upper surface 7 c of the base portion 7, respectively. Further, in order to prevent the coil spring 8 from being caught, the outer diameter 7d of the upper surface 7c of the base portion 7 is configured to be smaller than the outer diameter 6e of the lower surface 6d of the receiving portion 6. Since other configurations are the same as those of the conventional press-fitting device, the same reference numerals are given and description thereof is omitted.

Next, the operation will be described.
FIG. 2 shows the operation of the press-fitting device according to the first embodiment. (A) is the figure which showed the state which mounted | wore the press-fit component 4 in the mounting port 2b of the upper jig 2, and installed the press-fit component 5 in the receiving tray 6b. The press-fit component 4 and the press-fit component 5 are provided with taper portions 4a and 5a for matching the central axes A and B, respectively. In this state, the center axis A of the press-fit component 4 and the center axis B of the press-fit component 5 do not coincide with each other. (B) shows a state in which the upper jig 2 is lowered by a press mechanism (not shown) and the press-fit component 4 and the press-fit component 5 are in contact with each other. (C), the upper jig 2 is further lowered, and the receiving portion 6 connected to the base portion 7 in a floating state by the coil spring 8 is formed by the tapered portion 4a of the press-fitting component 4 and the tapered portion 5a of the press-fit component 5; The figure shows a state in which the center axis A of the press-fit component 4 and the center axis B of the press-fit component 5 coincide with each other in a plane perpendicular to the press-fit direction. (D) shows that when the upper jig 2 is lowered, the lower surface 6d of the receiving portion 6 and the upper surface 7c of the base portion 7 are brought into contact with each other. The state where it is press-fitted into is shown. (E) has shown the state which canceled the vacuum suction of the mounting opening 2b, and raised the upper jig 2. FIG.

  As described above, the press-fitting device according to the first embodiment is configured such that the receiving part 6 is connected to the base part 7 in a floating state by the coil spring 8, so that the center axis A of the press-fitting part 4 can be Since self-centering can be performed by matching the center axis B of the press-fitted part 5, the manufacturing cost of the press-fitting device can be reduced, and the cause of damage due to interference between parts can be reduced. In addition, it is sufficient that the dimensional accuracy of the press-fitting device itself is ensured within a range where it is self-centered by the tapers 4a and 5a provided on the press-fitting component 4 and the press-fitted component 5, and the accuracy as high as that of the conventional press-fitting device is required. do not do. For this reason, there exists an effect which can further reduce manufacturing cost. Further, it is not necessary to provide a pusher pin or the like on the tray 6b, and productivity does not deteriorate.

Embodiment 2. FIG.
FIG. 3 is a view showing another embodiment of the press-fitting device. (A) is the top view of the receiving part 9, (b) is the figure which showed the cross section in the AA of (a). In the first embodiment, the receiving portion 6 is connected to the base portion 7 in a floating state with one coil spring 8. However, when a coil spring satisfying an appropriate inner diameter, spring constant, and natural length is not commercially available. As shown in FIG. 3, the receiving portion 9 and the base portion 10 are provided with projecting portions 9a and 10a facing each other, and the end portions are fitted to the projecting portions 9a and 10a, and the coil spring 8 is moved to 90. You may make it connect the receiving part 9 and the base part 10 by providing four every time. Further, the number of the coil springs 8 is not limited to four, and three coil springs 8 may be provided every 120 degrees. It is necessary to select a coil spring 8 having a spring coefficient that prevents the lower surface of the receiving portion 9 from contacting the upper surface of the base portion 10 with the center axes A and B of the press-fit component 4 and the press-fit component 5 aligned. However, if configured as described above, there is an effect that the self-centering mechanism can be configured using a commercially available coil spring without using a coil spring that satisfies the above conditions.

Embodiment 3 FIG.
FIG. 4 is a partial cross-sectional view showing an example of a configuration of a part that is a feature of the press-fitting device according to the third embodiment. In the first embodiment, the lower jig is provided with the self-centering mechanism, but in the third embodiment, the upper jig 11 is provided with the self-centering mechanism, and the tip of the sliding shaft of the press mechanism (not shown) is provided. A base portion 12 having a projection 12a coupled to a joint (not shown) attached to the tube, a vacuum tube 13a connected to an external vacuum pump, and a mounting port 13b communicating with the vacuum tube 13a. A press-fit component holding portion 13 connected to the base portion 12 in a floating state by a spring 8 is provided. Further, the press-fitting part holding part 13 is surrounded, the lower part is bent inwardly horizontally, the bottom part of the press-fitting part holding part 13 is supported by the horizontal bent part 14a, and the press-fitting part holding part 13 does not operate more than necessary. The guide part 14 which regulates is provided. In addition, about the structure similar to what was demonstrated in the prior art and Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

Next, the operation will be described.
FIG. 5 shows the operation of the press-fitting device according to the third embodiment. (A) is the figure which showed the state which mounted | wore press fitting parts 4, such as a valve seat, to the upper jig 11, and installed the press-fit parts 5, such as a housing, in the saucer 3a of the lower jig 3. FIG. In this state, the center axis A of the press-fit component 4 and the center axis B of the press-fit component 5 do not coincide with each other. (B) shows a state in which the upper jig 11 is lowered by a press mechanism (not shown) and the press-fit component 4 and the press-fit component 5 are in contact with each other. (C), the upper jig 11 is further lowered, and the press-fitting part holding part connected to the base part 12 in a floating state by the coil spring 8 by the taper part 4a of the press-fitting part 4 and the taper part 5a of the press-fitting part 5. 13 shows a state in which the center axis A of the press-fit component 4 and the center axis B of the press-fit component 5 coincide with each other in a plane perpendicular to the press-fit direction. (D), when the upper jig 11 is lowered, it comes into contact with the lower surface 12b of the base portion 12 and the upper surface 13c of the press-fit component holding portion 13, and the upper jig 11 is further lowered so that the press-fit component 4 moves to the press-fit component 5. The press-fitted state is shown. (E) has shown the state which canceled the vacuum suction of the mounting opening 13b, and raised the upper jig | tool 11 to the predetermined position.

  As described above, in the press-fitting device according to the first embodiment, the press-fitting component holding portion 13 is connected to the base portion 12 in a floating state by the coil spring 8, so that the lower jig 3 is integrated with the device base of the press-fitting device. Even when the lower jig 3 cannot be remodeled or the like, for example, the self-centering mechanism can be incorporated into the press-fitting device. Other effects are the same as those of the first embodiment. Note that the first embodiment and the second embodiment can be performed simultaneously. In this case, self-centering can be performed more stably by setting the spring constant of one coil spring 8 higher than the spring constant of the other coil spring 8 or the like. Note that a plurality of coil springs 8 may be used as in the second embodiment.

  Further, in each of the first to third embodiments described above, the mounting of the press-fitting component has been described by vacuum suction, but it can also be performed by suction holding by an electromagnetic suction force or other holding means.

FIG. 3 is a partial cross-sectional view illustrating an example of a configuration of a part that is a feature of the press-fitting device according to the first embodiment. FIG. 5 is a diagram showing the operation of the press-fitting device according to the first embodiment. It is the fragmentary sectional view which showed an example of the structure of the part used as the characteristic of the press injection apparatus by Embodiment 2. FIG. It is the fragmentary sectional view which showed an example of the structure of the part used as the characteristic of the press injection apparatus by Embodiment 3. FIG. 10 is a diagram illustrating an operation of a press-fitting device according to a third embodiment. It is the fragmentary sectional view which showed the conventional press-fitting apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Press-fit apparatus, 1a apparatus mount, 1b press mechanism, 1c joint, 1d drive shaft, 2,11 upper jig, 2a, 9a, 10a, 12a protrusion, 2b, 13b mounting port, 2c, 13a vacuum tube, 3 lower jig, 4 Press-fitting parts, 4a, 5a Taper part, 5 Press-fitted parts, 6, 9 Receiving part, 6a, 7a R part, 6b Receptacle, 6c, 7c, 13c Upper surface, 6d, 12b Lower surface, 6e, 7d Outer diameter, 6f, 7b 鍔, 7, 10, 12 Base part, 8 Coil spring, 13 Press-fit part holding part, 14 Guide part, 14a Horizontal bent part.

Claims (2)

An upper jig provided on a drive shaft of a press mechanism that has a fitting opening for fitting a press-fitting part and is driven in a press-fitting direction, and a lower jig that has a receiving tray on which a press-fitted part is placed and is installed on an apparatus base. A press-fitting device for press-fitting the press-fitting part into the press-fitted part,
The lower jig includes a base portion installed on a device base and a receiving portion that includes the tray and is connected to the base portion in a floating state by an elastic body. An upper jig provided on a drive shaft of a press mechanism that has a fitting opening for fitting a press-fitting part and is driven in a press-fitting direction, and a lower jig that has a receiving tray on which a press-fitted part is placed and is installed on an apparatus base. A press-fitting device for press-fitting the press-fitting part into the press-fitted part,
The upper jig includes a base portion provided on a drive shaft of the press mechanism, and a press-fit component holding portion having the mounting port and connected to the base portion in a floating state by an elastic body. Press-fitting device.

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