JP4476559B2 - Anti-vibration device assembly device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an anti-vibration device assembling apparatus in which an anti-vibration member is assembled to a bracket by bending an engaging piece and engaging an engaging portion, and in particular, measures for bending the engaging piece so as not to be damaged. About.
[0002]
[Prior art]
For example, as a conventional assembling apparatus in which an assembling operation is performed on a vibration isolating apparatus in which a vibration isolating member is assembled to a bracket, the one described in Patent Document 1 is widely known.
[0003]
Specifically, as shown in FIG. 8, both ends of the opening edge as a locking piece are bent inward in the radial direction with respect to a cylindrical bracket b in which the vibration isolating member a is fitted and inserted. When the anti-vibration member a is assembled to the bracket b by engaging with the opening edges at both ends of the member a, the disk-shaped roller c is rotated around the radial axis of the bracket b. The roller c is pressed against the end opening edge of the bracket b, and in this state, the roller c is rotated around the end opening edge.
[0004]
[Patent Document 1]
Japanese Patent No. 2510897 (first page, FIG. 4)
[0005]
[Problems to be solved by the invention]
However, in the conventional case, the surface of the locking piece is rubbed against the roller c, which causes a problem that the surface is easily damaged.
[0006]
In particular, when the surface of the locking piece is covered with rubber or the like, there is a problem that the coating is easily cut.
[0007]
The present invention has been made in view of such a point, and its main purpose is to assemble the vibration-proof member to the bracket by bending and locking the locking piece along the cross-sectional shape of the engaging portion. In the assembly apparatus described above, when the locking piece is bent by moving the roller along the cross-sectional shape of the engaging portion while making contact with the locking piece, the arrangement of the rotation axis of the roller is devised. Thus, it is possible to avoid scratching the locking piece.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, in the present invention, the roller is provided so as to be rotatable about an axis extending in a direction parallel to the surface of the locking piece and perpendicular to the moving direction of the roller.
[0009]
Specifically, in the first aspect of the present invention, a bracket attached to the fixed side, a vibration isolating member that is assembled to the bracket and supports the vibration exciter, and one of the bracket and the vibration isolating member are provided. The anti-vibration member is locked to the bracket by bending the engagement portion and the other one of the bracket and the vibration isolation member so as to be folded along the cross-sectional shape of the engagement portion. A locking piece projecting so as to be assembled, and the locking piece is not bent yet and the anti-vibration device is temporarily assembled with a vibration isolating member on the bracket. The premise is an assembling device for a vibration isolator in which a piece is bent and a vibration isolating member is assembled to the bracket.
[0010]
And a supporting means for supporting the temporarily assembled vibration isolator, a roller for contacting the locking piece of the vibration isolating apparatus supported by the supporting means and bending the locking piece, and the roller. And a moving means for moving in a direction along the cross-sectional shape of the engaging portion from the proximal end side to the distal end side of the locking piece while contacting the surface of the stopping piece opposite to the engaging portion. . In addition, the roller is provided so as to be rotatable around an axis extending in a direction parallel to the surface of the locking piece and perpendicular to the moving direction. First moving means for moving the roller in a first direction for bending the piece on the proximal end side, and second moving means for moving the roller in a second direction for the roller to further bend the locking piece on the distal end side It shall have.
[0011]
In the above-described configuration, the moving means is configured to move the roller to the locking piece against the vibration isolator supported by the supporting means in a state where the locking piece is not yet bent and the vibration-proofing member is temporarily assembled to the bracket. In the direction opposite to the engagement portion in the direction of the cross-sectional shape of the engagement portion from the proximal end side to the distal end side of the engagement piece. Bend to a state along the cross-sectional shape of the engaging portion.
[0012]
At this time, the roller is rotatably held, and its rotation axis is parallel to the surface of the locking piece and orthogonal to the moving direction. Therefore, at the contact point of the roller with respect to the locking piece, the roller The situation of rubbing the surface of the locking piece is avoided.
[0013]
Therefore, when the locking piece is bent by contacting the locking piece, a situation in which the locking piece is damaged due to the contact is avoided.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0015]
2 and 3 show the overall configuration of an engine mount assembling apparatus according to an embodiment of the present invention. This assembling apparatus is attached to a bracket attached to the vehicle body side of an automobile to obtain an engine mount. It is used to assemble a vibration isolating member for supporting
[0016]
First, the engine mount will be described. As shown in FIG. 4, the bracket has a substantially rectangular frame shape. From both ends of the side located on the lower side of the figure, the bracket 1 is attached to the vehicle body side with mounting pieces 2. 2 is projected. Each mounting piece 2 is provided with a bolt hole 3 through which a mounting bolt is inserted. Further, as shown in FIG. 5, an engaging portion 4 for assembling the vibration isolating member 5 to the bracket 1 is formed at a substantially central portion in the length direction of the side portion.
[0017]
On the other hand, the vibration isolator 5 has a vibration isolator 6 made of an elastic material such as rubber. The vibration isolator 6 has a shape in which two large and small bowl-shaped portions are connected with their respective openings in opposite directions. A support portion 7 for supporting the engine is directed radially outward (to the left in FIG. 5) at a part of the opening edge of the larger hook-shaped portion (upper side in FIGS. 4 and 5). It is provided to protrude. A pair of support holes 8, 8 are provided at the tip portion of the support portion 7 so as to penetrate the support portion 7. In addition, a locking member 9 for assembling the vibration isolator 6 to the bracket 1 is integrally provided in the small-shaped portion (the lower portion of FIGS. 4 and 5). The locking member 9 includes a metal plate and a rubber layer that covers the surface of the metal plate. Further, as indicated by phantom lines in FIG. 5, the locking member 9 extends radially outward (right side in the figure) from a part in the circumferential direction (right part in the figure) at the opening edge of the bowl-shaped part. The first plate piece 10a extending toward the first plate piece 10a and the first plate piece 10a extending slightly from the radially opposing portion (the left portion in the figure) outward in the radial direction (the left side in the figure). And a second plate piece 10b that bends and extends in a direction away from the axis (downward in the figure). These first and second plate pieces 10a, 10b are , Clerk In this embodiment, the first and second plate pieces 10a and 10b of the vibration isolating member 5 are bent so as to follow the cross-sectional shape of the engaging portion 4 of the bracket 1, thereby preventing vibration. The member 5 is assembled to the bracket 1.
[0018]
Next, the assembly apparatus will be described. In this assembling apparatus, as shown also in FIGS. 6 and 7, a holding jig 20 for holding an engine mount W (hereinafter referred to as a workpiece) in a state where the vibration isolating member 5 is temporarily assembled to the bracket 1. Is used. In the present embodiment, the work W is held by the holding jig 20 in a posture that is upside down from the state shown in FIGS. 4 and 5, as indicated by a virtual line in FIG. 6. It has become. In the following description, “right side” and “left side” in FIGS. 3 and 7 are referred to as “front side” and “rear side”, respectively.
[0019]
The holding jig 20 has a rectangular substrate 21, and a rear plate 22 is formed on the edge on the long side, and a pair is formed on the two edges on the short side. Side plates 23 and 23 are provided upright. On the inner wall surface of each side plate 23, an insertion bar 24 that is inserted into the bolt hole 3 of the workpiece W is provided so as to protrude upward. Further, on the outer wall surface side of each side plate 23, when the bolt hole 3 is inserted into the insertion bar 24, the workpiece W is engaged with the attachment piece 2 and the upward movement of the attachment piece 2 is restricted. A stopper 25 is provided so as to be swingable. A spring member (not shown) is provided between the stopper 25 and the side plate 23 to constantly urge the stopper 25 toward the position indicated by the phantom line in FIG. Near the center of the upper surface of the substrate 21, a support base 26 for supporting the lower side portion (in FIG. 4 and FIG. 5, the upper side portion) of the bracket 1 in the work W is provided, and is opposite to the rear plate 22 of the support base 26. On this side, an auxiliary base 27 for supporting the support portion 7 of the vibration isolating member 5 in the workpiece W is provided. A pair of positioning pins 28, 28 that project through the support holes 8, 8 of the workpiece W and position the workpiece W are provided on the auxiliary base 27. On both sides of the auxiliary base 27, a pair of bolt holes (not shown) penetrating the substrate 21 in the thickness direction is provided. In addition, a pair of through holes 29 and 29 that penetrate the substrate 21 in the plate thickness direction are provided on both sides of the support base 26.
[0020]
This attachment device is provided with a work table 30 to which the holding jig 20 is detachably attached. On the work table 30, the rear side (left side in FIG. 7) where the holding jig 20 is attached is engaged with the end surface and the upper surface of the rear edge portion of the substrate 21 of the holding jig 20. A pair of rear locking portions 31 that position the holding jig 20 in the front-rear direction and restrict the upward movement of the rear edge portion are provided. Furthermore, at the left and right front portions of the jig mounting position, the holding jig 20 is positioned in the left-right direction by engaging with the end surfaces and the upper surfaces of both side edges of the substrate 21 of the holding jig 20, and A pair of side locking portions (not shown) for restricting the upward movement of both side edges are provided. Further, a bolt hole corresponding to the bolt hole of the substrate 21 of the holding jig 20 is provided on the front edge side of the work table 30, and by screwing the bolt inserted into the bolt hole into the bolt hole, The holding jig 20 can be fixed to the work table 30.
[0021]
On the left and right sides of the jig mounting position on the work table 30, a pair of lifting rods 32, 32 are arranged so as to extend in the vertical direction. An engagement roller 33 that is rotatable about an axis extending in the front-rear direction is provided at the upper end portion of each elevating rod 32, and each elevating rod 32 is guided and supported on the work table 30 so as to be movable up and down. A support member 34 is provided, and when each lifting rod 32 is raised, the engaging roller 33 comes into contact with the stopper 25 of the holding jig 20 and presses the stopper 25 to the position indicated by the solid line in FIG. It is made to do. Further, between the support member 34 and the lifting rod 32, although not shown, a spring member that constantly biases the lifting rod 32 downward is interposed. A through hole 35 that penetrates the work table 30 in the vertical direction is provided at a lower portion of each lifting rod 32 in the work table 30. On the other hand, a pair of locking cylinders 36, 36 are installed on the lower surface of the work table 30 with each rod 36 a facing upward, and the upper end surface of the rod 36 a abuts on the lower end surface of the lifting rod 32. ing. Then, in a state where the holding jig 20 is disposed at a predetermined position on the work table 30, each of the lifting rods 32 is moved upward by the extending operation of the locking cylinders 36, 36. In the jig 20, each stopper 25 locks the mounting piece 2 of the workpiece W, while the locking cylinders 36, 36 are contracted to move each lifting rod 32 downward, whereby the workpiece W is mounted. The stopper 25 is unlocked from the piece 2 so that the workpiece W can be removed from the holding jig 20.
[0022]
Further, between the pair of locking cylinders 36 on the lower surface of the work table 30, a pair of double rod type pressing cylinders 37, 37 are installed with their respective axes extending in the vertical direction. These pressing cylinders 37, 37 bring the locking member 9 of the vibration isolating member 5 into close contact with the engaging portion 4 of the bracket 1 during the bending work, while the work W is detached from the holding jig 20 at the end of the work. Thus, the vibration isolating member 5 is pressed upward, and the lower rods 37 a and 37 a of the pressing cylinders 37 are connected to each other via a connecting member 38. On the other hand, although not shown in the drawings, an auxiliary tool having a bifurcated tip is attached to the upper end of each upper rod 37b. The point is pressed. When pressing the vibration isolating member 5, the pressing cylinders 37 move the rods 37 a and 37 b upward so that the upper ends of the upper rods 37 b are through holes 29 in the substrate 21 of the holding jig 20. It protrudes upward from.
[0023]
A support member 39 is provided at the center of the lower surface of the work table 30, and a swinging member 40 having a curved shape is disposed substantially vertically on the front side of the work table 30. A lower end portion of the swing member 40 is pivotally supported by the support member 39 via a pivot pin 41 disposed in the horizontal direction, and the second plate piece 10b of the workpiece W is bent at the upper end portion. A support member 42 is attached to engage the lower and front surfaces of the part. In the vicinity of the lower end portion of the swing member 40, a connecting portion 43 is provided so as to extend downward. On the other hand, on the rear side of the work table 30, a pair of left and right support columns 44, 44 are erected. A support plate 45 is laterally provided on the lower rear surface between the columns 44. A support cylinder 46 is installed on the front surface of the support plate 45 with the rod 46a facing forward. The front end of the rod 46a of the bearing cylinder 46 is connected to the lower end of the connecting portion 43 of the swinging member 40 via a pivot pin 47 arranged so as to extend in the horizontal direction. When the support cylinder 46 is extended, the swing member 40 swings in one direction, and the support member 42 supports the workpiece W on the holding jig 20. Here, the holding jig 20, the pressing cylinder 37, and the swinging member 40 constitute a supporting means in the present invention.
[0024]
A pair of left and right guide rails 50 are provided on the front surfaces of both the columns 44 and 44 so as to extend in the vertical direction. On each guide rail 50, two slide blocks 51, 51 that are guided and supported by the guide rail 50 so as to be movable up and down are arranged. In addition, an elevating body 52 is disposed between the support columns 44. The elevating body 52 includes a front plate 53 positioned on the front side of both supports 44, 44, a rear plate 54 positioned on the rear side of both supports 44, 44, and a pair of side plates 55, 55 positioned on the left and right sides. And a horizontal plate 56 disposed horizontally in these inner spaces. Both side edges of the front plate 53 extend to both sides and are located in front of both supports 44, 44, and the slide blocks 51, 51 are attached to the rear surfaces of both side edges. For these reasons, the elevating body 52 is guided and supported so as to be movable up and down.
[0025]
A support plate 57 is attached to the upper end surfaces of the support columns 44. On the front end portion of the support plate 57, a screw shaft 58 having an external thread formed on the outer peripheral surface is disposed so as to penetrate the support plate 57 and extend in the vertical direction. The lower end portion of the screw shaft 58 is connected to the front plate 53 of the elevating body 52. Further, between the support plate 57 and the screw shaft 58, a female screw block 59 in which a female screw that is screwed onto the screw shaft 58 is formed is disposed. The female screw block 59 is rotatably held around the axis of the screw shaft 58 by a bearing 60 interposed between the support plate 57 and the driven-side toothed pulley 61 is connected to the female screw block 59. Has been. On the other hand, a rear support plate 62 is attached to the rear side of the support plate 57. On the lower surface of the rear support plate 62, a lifting / lowering servomotor 63 as a first moving means faces the output shaft 63a upward. It is installed. The output shaft 63a penetrates the rear support plate 62 and protrudes its upper end to the upper surface side of the rear support plate 62, and a drive-side toothed pulley 64 is connected to the upper end. A timing belt 65 is stretched between the driving toothed pulley 64 and the driven toothed pulley 61. And by the action | operation of the raising / lowering servomotor 63, the internal thread block 59 rotates so that the screw shaft 58 may be moved up and down, and, thereby, the raising / lowering body 52 moves up and down.
[0026]
A pair of front and rear guide blocks 70 and 70 are provided on the lower surface of the horizontal plate 56 of the elevating body 52. On the other hand, the front plate 53 and the rear plate 54 of the elevating body 52 are provided with openings 53a and 54a, respectively, and have a square cross section so as to penetrate the two openings 53a and 54a in the front-rear direction. A rod-like moving body 71 is arranged. On the upper surface of the moving body 71, a slide rail 72 that is guided and supported by the guide blocks 70, 70 so as to be movable in the front-rear direction is attached integrally with the moving body. Accordingly, the moving body 71 moves up and down integrally with the lifting body 52 and can move back and forth with respect to the lifting body 52. An L-shaped connecting member 73 is attached to the lower surface of the center of the moving body 71 in the longitudinal direction. A screw shaft 74 disposed so as to extend in the front-rear direction through the rear plate 54 is connected to the connecting member 73 at its front end. A male screw is provided on the outer periphery of the screw shaft 74, and a female screw block 75 that is screwed to the screw shaft 74 is disposed between the screw shaft 74 and the rear plate 54. The female screw block 75 is rotatably held around the axis of the screw shaft 74 by a bearing 76 interposed between the rear plate 54 and the driven toothed pulley 77 is provided on the female screw block 75. It is connected. On the other hand, a front-rear moving servo motor 78 as a second moving means is installed on the front side of the lower end of the rear plate 54 with the output shaft 78a facing backward. The output shaft 78a penetrates the rear plate 54 and projects a rear end portion thereof to the rear side of the rear plate 54. A driving-side toothed pulley 79 is connected to the rear end portion. A timing belt 80 is stretched between the driving side toothed pulley 79 and the driven side toothed pulley 77. The moving body 71 moves back and forth with respect to the lifting body 52 by rotating the female screw block 75 by the operation of the servo motor 78 for moving back and forth.
[0027]
At the front end of the moving body 71, a processing tool 90 for integrally bending the plate pieces 10a and 10b in contact with the first and second plate pieces 10a and 10b of the workpiece W is integrally attached. .
[0028]
Specifically, the processing tool 90 has a substantially rectangular shape. Both It consists of a pair of side plates 91, 91, and a front roller 92a and a rear roller 92b respectively arranged in the front and rear between the side plates 91, 91. The front edge side lower end portion of each side plate 91 is formed so as to protrude forward, and the front roller 92a is held between the protruding ends so as to be rotatable about an axis extending in the left-right direction. . Further, the front roller 92a protrudes outward from the side plate 91 on the lower surface side, front surface side, and upper surface side of the protruding end. The front roller 92a is for bending the first plate piece 10a. On the other hand, the rear roller 92b is rotatably held around the axis extending in the left-right direction between the rear edge side lower end portions of the side plates 91, 91. The rear roller 92 b protrudes outward from the side plate 91 on the lower surface side and the rear surface side of the side plate 91. The rear roller 92b is for bending the second plate piece 10b. Moreover, the center part in the front-rear direction in the lower side between the side plates 91, 91 is cut out in a reverse concave shape.
[0029]
The operation of the engine mount assembling apparatus configured as described above will be described. At the start of the bending work, it is assumed that the lifting / lowering body 52 is positioned at the rising end, the moving body 71 is positioned at the rear end position, and the bearing cylinder 46 is in a contracted state.
1] When the temporarily assembled workpiece W is held on the holding jig 20, as shown in FIG. 1 (a), the processing tool 90 is located at the rising end and the rear end.
2] By the operation of the servo motor 63 for moving up and down, the processing tool 90 causes the uppermost end portion of the front roller 92a to be lower than the lower surface of the first plate piece 10a of the workpiece W as shown in FIG. Move down to the correct position
3] By the operation of the servo motor 78 for back and forth movement, as shown in FIG. 1 (c), the foremost end of the front roller 92a is moved to the position rearward from the rear surface of the engagement portion 4 of the workpiece W by the plate thickness dimension. The processing tool 90 moves forward to the position to be positioned.
4] As shown in FIG. 1 (d), the lowermost end portion of the front roller 92a is moved upward by the plate thickness dimension from the upper surface of the engagement portion 4 of the workpiece W by the operation of the servo motor 63 for moving up and down. The processing tool 90 moves up to the position to be positioned.
5] By the operation of the servo motor 78 for back-and-forth movement, as shown in FIG. 1E, the processing tool 90 moves forward until the front roller 92a bends the first plate piece 10a.
[0030]
Up to this point, the bending process for the first plate piece 10a is completed, and then the bending process for the second plate piece 10b is started.
6] The processing tool 90 moves upward as shown in FIG. 1 (f) by the operation of the lifting / lowering servomotor 63.
7] By the operation of the servo motor 78 for back and forth movement, as shown in FIG. 1 (g), the front portion of the rear portion of the rear roller 92b is located at the position forward of the front surface of the engaging portion 4 by the plate thickness dimension. The processing tool 90 moves forward.
8] As shown in FIG. 1 (h), the servo motor 63 for moving up and down moves to a position where the lowermost end portion of the rear roller 92b is located at a position above the upper surface of the engaging portion 4 by the plate thickness dimension. The tool 90 moves downward.
9] By the operation of the servo motor 78 for back-and-forth movement, as shown in FIG. 1 (i), the processing tool 90 moves backward to a position where the rear roller 92b completely bends the second plate piece 10b.
10] As shown in FIG. 1 (j), the working tool 90 moves up and down by the operation of the servo motor 63 for moving up and down.
11] By the operation of the servo motor 78 for back and forth movement, as shown in FIG. 1 (k), the processing tool 90 has the front and rear lower ends of the side plates 91 respectively of the first and second plate pieces 10a and 10b. It moves backward to a position located above the end.
12] The position where the lower surfaces of the front and rear lower ends of each side plate 91 are positioned at a position above the upper surface of the engaging portion 4 by the plate thickness by the operation of the servo motor 63 for moving up and down as shown in FIG. The processing tool 90 moves downward.
[0031]
By the operations 1) to 12], the bending of the workpiece W with respect to the first and second plate pieces 10a and 10b is completed. After that, the working tool 90 moves to the position of the ascending end and the rear end by each operation of the servo motors 63 and 78 for up-and-down movement and back-and-forth movement, and prepares for the next bending work on the workpiece W. Then, the workpiece W after the bending process is removed from the holding jig 20 and sent to the next step, and the assembling work of the workpieces W, W,... Is sequentially performed as described above. .
[0032]
Therefore, according to the present embodiment, the engaging portion 4 is provided, the bracket 1 attached to the body of the automobile, and the protruding portion is provided so as to extend in a direction along the cross-sectional shape of the engaging portion 4. The bracket 1 includes first and second plate pieces 10a and 10b that lock the engaging portion 4 by being bent along the shape, and the plate pieces 10a and 10b lock the engaging portion 4. And an anti-vibration member 5 provided so as to support the engine, and the anti-vibration member 5 is temporarily assembled to the bracket 1 so that the plate pieces 10a and 10b are not yet bent. The anti-vibration member 5 is assembled to the bracket 1 by bending the plate pieces 10a and 10b so that the first and second plate pieces 10a and 10b engage the engaging portion 4 with respect to the workpiece W. As an engine mount assembly apparatus, the front and rear rollers 92a and 92b are brought into contact with the first and second plate pieces 10a and 10b, respectively, and the plate pieces 10a and 10b are engaged from the proximal side to the distal side. When the plate pieces 10a and 10b are bent by moving in the direction along the cross-sectional shape of the joint portion 4, the front and rear rollers 92a and 92b are parallel to the surface of the plate pieces 10a and 10b and in the moving direction. Since the first and second plate pieces 10a and 10b can be bent without being rubbed, the first and second plates can be bent without being rubbed. It is possible to avoid the coating rubber layer of the plate pieces 10a and 10b from being damaged.
[0033]
In the above-described embodiment, the case where the plate pieces 10a and 10b as the locking pieces have the coating rubber layer on the surface has been described. However, in the present invention, the locking pieces have such a coating layer. It can also be applied when not.
[0034]
In the above embodiment, the case where the locking piece is provided on the vibration isolating member side and the engaging portion is provided on the bracket side is described. However, in the present invention, the locking piece is provided on the bracket side. And even when the engaging part is provided in the vibration proof member side, it is applicable.
[0035]
Furthermore, although the case where the engine mount is assembled has been described in the above embodiment, it is needless to say that the present invention can be applied to various other vibration isolator assembly apparatuses.
[0036]
【The invention's effect】
As described above, according to the first aspect of the present invention, the anti-vibration member locking piece is bent so as to be folded back along the cross-sectional shape of the engaging portion of the bracket, and the anti-vibration member is assembled to the bracket. As an assembling device of the vibration isolator, a roller brought into contact with the locking piece of the temporarily assembled vibration isolating device supported by the supporting means is moved from the base end side of the locking piece toward the distal end side. When the locking piece is bent by moving in the direction along the cross-sectional shape, the roller is held so as to be rotatable around an axis extending in a direction parallel to the surface of the locking piece and perpendicular to the moving direction. Therefore, the locking piece can be bent without being rubbed with a roller, and therefore it is possible to avoid scratching the locking piece due to such rubbing.
[Brief description of the drawings]
FIG. 1 is a process diagram showing step by step an assembling operation in an engine mount assembling apparatus according to an embodiment of the present invention.
FIG. 2 is a front view showing an overall configuration of an engine mount.
3 is a cross-sectional view taken along line III-III in FIG.
FIG. 4 is a front view showing the overall configuration of the engine mount assembling apparatus.
5 is a cross-sectional view taken along line VV in FIG.
FIG. 6 is an enlarged front view showing a main part of the engine mount assembling apparatus.
7 is a cross-sectional view taken along line VII-VII in FIG.
FIG. 8 is a longitudinal sectional view showing a main part of a conventional assembling apparatus for a vibration isolator.
[Explanation of symbols]
1 Bracket
4 engaging part
5 Anti-vibration members
10a First plate piece
10b Second plate piece
20 Holding jig (support means)
37 Cylinder for pressing (support means)
40 Oscillating member (supporting means)
63 Servo motor for moving up and down (first moving means)
78 Servo motor for back-and-forth movement (second moving means)
91 Side plate
92a Front roller (roller)
92b Rear roller (roller)

Claims (1)

A bracket attached to the fixed side, a vibration isolating member that is assembled to the bracket and supports the vibration exciter, an engagement portion provided on one of the bracket and the vibration isolating member, and the bracket and the vibration isolating member And a plate piece projecting so that the anti-vibration member is assembled to the bracket by being bent along the cross-sectional shape of the engaging portion. And the anti-vibration device in which the plate piece is not yet bent and the anti-vibration member is temporarily assembled to the bracket, the plate piece is bent and the anti-vibration member is assembled to the bracket. An anti-vibration device assembly device,
A support means for supporting the vibration damping device in the temporarily assembled state;
A roller for bending the plate piece in line contact with the plate piece of the supported anti-vibration apparatus by said support means,
Moving means for moving the roller in a direction along the cross-sectional shape of the engaging said engaging portion from the base end side toward the tip side opposite the plate strip while contacting the surface of the engaging portion of the plate piece With
The roller is provided to be rotatable around an axis extending in a direction parallel to the surface of the plate piece and perpendicular to the moving direction,
The moving means includes a first moving means for moving the roller in a first direction in which the roller bends the plate piece on the proximal end side, and a second direction in which the roller further bends the plate piece on the distal end side. And a second moving means for moving the roller. A vibration isolator assembling apparatus.

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