JP7154848B2 - Elastic ring mounting jig - Google Patents

Description

The present invention relates to an elastic ring attachment jig for attaching an annular elastic ring to an annular groove of an object.

Conventionally, there has been known a mounting jig for mounting an elastic ring body such as a packing to an annular groove of an object having a circular cross section. 1, it is constructed by connecting both end portions of two plate members which are superimposed with each other by means of fasteners.

When a ring-shaped packing is attached to the lower end of a cylindrically formed guide using this mounting jig, the ring-shaped packing is first inserted through the upper end of the guide, and then the mounting jig is mounted from above. The tool is pressed against the upper end so as to be between one plate member and the other plate member. As a result, the lower end of each plate member comes into contact with the upper surface of the ring-shaped packing, and the one plate member and the other plate member move downward while separating from each other with the guide interposed therebetween, so that the ring-shaped packing is pushed to the lower end side and moves.

Then, under the pressing action of the mounting jig, the ring-shaped packing reaches the packing mounting groove provided at the lower end of the guide, and is mounted in the packing mounting groove by contracting radially inward due to its elasticity.

JP 2005-256875 A

However, in the mounting jig described above, since the ring-shaped packing is pressed by two plate members separated with the guide sandwiched therebetween, the ring-shaped packing cannot be pressed over the entire circumference by the plate members. Therefore, only the contacting part of the plate member is pressed. Therefore, when the ring-shaped packing moves along the guide, it is twisted, and along with this, the movement speed when moving the ring-shaped packing is reduced. There is a problem that the sealing property is deteriorated when it is attached to the body.

In addition, if there is a concave portion or a convex portion above the packing mounting groove into which the ring-shaped packing is inserted, the ring-shaped packing cannot be smoothly moved to the packing mounting groove, resulting in a decrease in workability. It will happen.

The present invention has been made in consideration of the above-mentioned problems, and is capable of preventing twisting when attaching an elastic ring, ensuring secure and efficient attachment at a desired position, and ensuring sealing performance. It is an object of the present invention to provide an elastic ring mounting jig that can be used.

In order to achieve the above object, an aspect of the present invention is an elastic ring mounting jig for moving an elastic ring along an object having an annular groove on the surface to which the elastic ring is mounted, comprising:
The elastic ring mounting jig includes a body having a ring mounting portion to which the elastic ring is mounted;
When the elastic ring is attached to the ring attachment portion, the elastic ring abuts on the entire circumference in the movement direction of the elastic ring and is pushed out along the axial direction of the object toward a position that is radially outward of the annular groove , a pusher for moving the elastic ring in a direction of movement along the axial direction ;
a holder coupled to the pusher and axially biased by an operator;
has
In a direction perpendicular to the moving direction, the pusher presses the radially inner side of the axial end face along the moving direction of the elastic ring close to the surface of the object to a position radially outside the annular groove. Having a stepped portion protruding toward the object side,
The body is arranged along the surface of the object and supports the pusher so as to be slidable along the moving direction of the elastic ring,
When the elastic ring is attached to the ring attachment portion, the stepped portion is engaged with the engaging end portion of the body in the moving direction of the elastic ring, and the body is locked to the object to move the pusher and the body. When the stepped portion and the engaging end portion are disengaged from each other when the stepped portion is relatively moved in the direction,
Until the body is engaged with the object and the pusher and the body move relative to each other in the movement direction, and the end of the ring mounting portion along the movement direction and the end of the pusher on which the elastic ring is mounted become flush with each other. The pusher and the elastic ring abut over the entire circumference .

According to the present invention, in the elastic ring mounting jig for mounting the elastic ring to the annular groove of the object, the ring mounting portion to which the elastic ring is attached is in contact with the entire circumference in the movement direction of the elastic ring, and the annular a pusher for pushing the elastic ring toward the groove, the pusher pushing the axial end face radially along the direction of movement of the elastic ring close to the surface of the object in a direction orthogonal to the direction of movement of the elastic ring. The inner side is pressed to a position that is radially outward of the annular groove . Further, the pusher has a stepped portion protruding toward the object side, and the stepped portion is formed to be engageable with the engaging end portion of the body .

Therefore, the elastic ring mounting jig to which the elastic ring is attached is moved along the surface of the object, and the elastic ring attached to the ring mounting portion is pushed out by the pusher to a position outside the annular groove in the radial direction. The inner periphery of the elastic ring and the elastic ring mounting jig can be attached to the groove by pressing the radially inner side of the axial end face along the moving direction of the elastic ring close to the surface of the object with a pusher. Friction and torsional moment generated between them can be canceled out, so that they can be moved to the annular groove and mounted without generating torsion.

As a result, the elastic ring can be securely and efficiently attached to the annular groove of the object by the pusher. Sealability can be secured and work can be performed efficiently. In addition, even when the elastic ring is moved along the surface of the object over a long distance, the elastic ring can be attached to the annular groove without being twisted.

According to the present invention, the following effects are obtained.

That is, the elastic ring mounting jig to which the elastic ring is mounted is moved along the surface of the object, and the elastic ring mounted on the ring mounting portion is pushed out by the pusher to be mounted in the annular groove. By pressing a part of the object on the surface side with a pusher, the object can be moved to the annular groove and mounted without twisting. As a result, the elastic ring can be securely and efficiently attached to the annular groove of the object by the pusher. It is possible to work efficiently while ensuring the sealing performance.

1 is an external perspective view of an elastic ring mounting jig according to an embodiment of the present invention; FIG. FIG. 2 is an overall cross-sectional view of the elastic ring mounting jig shown in FIG. 1; 3 is an enlarged cross-sectional view of the elastic ring mounting jig of FIG. 2; FIG. FIG. 4 is an exploded perspective view of a stator holder to which a seal ring is attached and an elastic ring mounting jig; 5A to 5D are explanatory diagrams of the operation when the seal ring is attached to the stator holder using the elastic ring attachment jig.

Preferred embodiments of an elastic ring mounting jig according to the present invention will be described in detail below with reference to the accompanying drawings. In FIG. 1, reference numeral 10 indicates an elastic ring mounting jig 10 (hereinafter referred to as mounting jig 10) according to an embodiment of the present invention.

As shown in FIGS. 1 to 3, the mounting jig 10 comprises an annular pusher 12 and an annular holder 14 connected to the base end of the pusher 12 (in the direction of arrow A). , and a body 16 provided on the inner peripheral side of the pusher 12 and holding the pusher 12 in a slidable manner. That is, the pusher 12, the holder 14, and the body 16 that constitute the mounting jig 10 are all formed in an annular shape.

In the following description, the holder 14 side of the mounting jig 10 will be described as the base end side (arrow A direction), and the pressing portion 22 side of the pusher 12, which will be described later, will be described as the tip end side (arrow B direction).

The pusher 12 includes, for example, a body portion 18 extending along the axial direction (directions of arrows A and B) and a seal ring 20 which is an elastic ring formed at the tip of the body portion 18 and extending axially (directions of arrows B). The body portion 18 is formed with a substantially constant diameter, and a plurality of screw holes 24 are formed in the proximal end of the body portion 18 so as to be spaced apart from each other along the circumferential direction.

The pressing portion 22 extends radially inward with respect to the body portion 18 and protrudes radially inward from the inner peripheral surface of the body portion 18 . The pressing portion 22 has an inclined portion 26 gradually inclined in a direction (arrow B direction) away from the body portion 18 and a flat portion 28 formed at the tip of the inclined portion 26 .

The inclined portion 26 is formed so as to incline toward the tip side (in the direction of arrow B) toward the center of the pusher 12, the radially inner side protrudes most to the tip side, and a flat portion 28 is provided at that portion. there is That is, the inclined portion 26 is formed to be inclined at a predetermined angle with respect to the axial direction of the pusher 12 (directions of arrows A and B).

The flat portion 28 is formed in an annular shape substantially orthogonal to the axial direction of the pusher 12 and is formed on the innermost peripheral side of the pressing portion 22 .

Further, on the base end side (in the direction of arrow A) of the pressing portion 22, there is a stepped portion 30 protruding radially inward so as to be perpendicular to the inner peripheral surface of the main body portion 18. The stepped portion 30 is It extends from the inner peripheral surface of the main body portion 18 to the inner peripheral side of the flat portion 28 . In other words, the stepped portion 30 is formed substantially parallel to the flat portion 28 .

The holder 14 is made of, for example, an annular flat plate, is arranged substantially perpendicular to the axial direction of the pusher 12 (directions of arrows A and B), and abuts against the proximal end of the body portion 18 of the pusher 12. , the outer peripheral side thereof protrudes radially outward with respect to the main body portion 18 . Further, the holder 14 is provided with a protrusion 32 that protrudes radially inward from the pusher 12 by a predetermined length and protrudes toward the tip side (in the direction of the arrow B). It is provided so as to abut on the inner peripheral surface of 18 . This holder 14 is used to be gripped or pressed by an operator (not shown) when mounting the seal ring 20 with the mounting jig 10 .

The protrusion 32 is formed with first recesses 34 that are open to the tip side and recessed in the axial direction (the direction of the arrow A). A base end of a spring (elastic member) 44 is interposed.

A plurality of bolt holes 36 pass through the holder 14 so as to be spaced apart from each other along the circumferential direction, and the proximal end of the body portion 18 of the pusher 12 abuts against the distal end surface of the holder 14 . In this state, a fastening bolt 38 is inserted through the bolt hole 36 and screwed into the screw hole 24 of the pusher 12 . Thereby, the holder 14 and the pusher 12 are integrally connected.

The body 16 is formed in a cylindrical shape with a diameter smaller than that of the pusher 12. The base end of the body 16 faces the projection 32 of the holder 14. The peripheral surface is formed with substantially the same diameter.

Further, at the proximal end of the body 16, an annular positioning portion 40 projecting radially inward with respect to the inner peripheral surface, and a plurality of second recesses 42 facing the first recesses 34 of the holder 14 are provided. The positioning part 40 has, for example, a surface perpendicular to the axis of the body 16 . The inner diameter of the positioning portion 40 is formed to be substantially the same as the inner diameter of the holder 14 .

The second recesses 42 are formed by opening at the proximal end of the body 16 and recessing toward the distal end side (in the direction of arrow B). A spring 44 is interposed between each recess 42 . The spring 44 is composed of, for example, a coil spring, and biases the body 16 in a direction (arrow B direction) to separate the body 16 from the holder 14 .

On the other hand, the front end of the body 16 has an engaging end 46 that can be engaged with the stepped portion 30 of the pusher 12 , and the front end of the engaging end 46 is perpendicular to the axial direction of the body 16 . The inner peripheral side of the engaging end portion 46 is provided with a mounting portion (ring mounting portion) 48 projecting further toward the tip side (in the direction of arrow B) with respect to the engaging end portion 46 .

The body 16 extends from the position (see FIGS. 2 and 3) where the engagement end 46 on the inner peripheral side of the pusher 12 abuts against the stepped portion 30 (see FIGS. 2 and 3). It is provided movably in the axial direction (directions of arrows A and B) by a predetermined distance to a position (see FIGS. 5C and 5D) that abuts against the holder 14, and moves away from the holder 14 under the elastic action of the spring 44. It is biased so that the engaging end 46 is held against the step 30 .

The mounting portion 48 has a constant thickness in the radial direction and extends along the axial direction (direction of arrow B). are arranged so that they are on the inner peripheral side. 2 and 3, when the engaging end 46 of the body 16 is engaged with the stepped portion 30, the mounting portion 48 extends from the tip (flat portion 28) of the pressing portion 22 by a predetermined amount. It is formed to protrude by its length.

When the seal ring 20 is attached to the workpiece using the attachment jig 10 , the seal ring 20 is attached and held on the outer peripheral side of the distal end of the attachment portion 48 projecting from the pusher 12 .

The mounting jig 10 according to the embodiment of the present invention is basically configured as described above. A case of attaching to 60 will be described.

First, the stator holder 60, which is an object, will be briefly described with reference to FIGS. 4 to 5D.

The stator holder 60 is formed in a cylindrical shape capable of accommodating a stator core (not shown) inside, and has a predetermined length along the axial direction (directions of arrows A and B). A flange 62 is provided for attaching the holder 60 to another member.

The outer peripheral surface (surface) of the stator holder 60 includes a large diameter portion 64 formed on the distal end side (arrow B direction) having a flange 62 and the large diameter portion 64 formed on the base end side (arrow A direction). The large diameter portion 64 has an annular seal groove (annular groove) 68 in which the seal ring 20 is mounted at a position near the flange 62. In addition, another annular groove 70 is also formed on the base end side so as to be adjacent to this seal groove 68 . Further, the small-diameter portion 66 is also formed with a plurality of annular recesses 72 that are recessed radially inward.

That is, the outer peripheral surface of the stator holder 60 is formed to have an uneven cross section in which a plurality of annular grooves 70 and annular recesses 72 are formed in addition to the seal groove 68 for mounting the seal ring 20 .

Next, the case where the seal ring 20 is mounted in the seal groove 68 of the stator holder 60 using the mounting jig 10 will be described with reference to FIGS. 4 and 5A to 5D. As shown in FIG. 4, the mounting jig 10 is used so that the holder 14 faces downward and the mounting portion 48 of the body 16 faces upward.

First, as shown in FIGS. 4 and 5A, the seal ring 20 is attached to the outer peripheral surface of the tip of the attachment portion 48 of the attachment jig 10 . Since the outer diameter of the mounting portion 48 is set to be slightly larger than the diameter (inner diameter) of the seal ring 20, an operator (not shown) elastically deforms the seal ring 20 so as to expand the diameter thereof. It is mounted on the outer peripheral side of the mounting portion 48 . As a result, the inner peripheral surface of the seal ring 20 is in contact with the outer peripheral surface of the mounting portion 48 over the entire circumference, and the flat portion 28 of the pusher 12 is in contact with the tip end surface of the seal ring 20 over the entire circumference. It is kept in the same state.

Specifically, the flat portion 28 is in contact with only a radially inner portion of the tip surface of the seal ring 20 on the stator holder 60 side. In other words, the tip surface of the seal ring 20 is arranged so as to be out of contact with the pusher 12 on the radially outer side in the radial direction.

Next, as shown in FIG. 4, the stator holder 60 to which the seal ring 20 is mounted is directed upward, and the mounting jig 10 is inserted from the distal end side to the outer peripheral side of the stator holder 60 (FIG. 5A). reference). At this time, since the inner peripheral diameter of the mounting jig 10 is formed to be larger than that of the small diameter portion 66 of the stator holder 60 , the mounting jig 10 extends along the outer peripheral surface of the stator holder 60 toward the tip side (large diameter portion 64 side). It is possible to move.

Then, as shown in FIG. 5B, the positioning portion 40 of the body 16 is locked by coming into contact with the boundary portion between the large-diameter portion 64 and the small-diameter portion 66 of the stator holder 60, and further movement toward the distal end side is prevented. It will be in a regulated positioning state. At this time, the tip of the mounting portion 48 in the body 16 is arranged so as to be substantially flush with the base end surface of the seal groove 68 .

That is, the length from the positioning portion 40 to the tip of the mounting portion 48 of the body 16 is approximately the distance from the boundary portion between the large-diameter portion 64 and the small-diameter portion 66 of the stator holder 60 to the base end surface of the seal groove 68 . formed to be identical.

With the mounting jig 10 positioned in the axial direction (direction of arrow B) on the outer peripheral side of the stator holder 60, an operator (not shown) moves the holder 14 toward the tip side (direction of arrow B) as shown in FIG. 5C. By pressing toward, the pusher 12 together with the holder 14 moves against the elastic force of the spring 44 toward the distal end (in the direction of arrow B) by a predetermined distance.

At this time, the positioning portion 40 is engaged with the large-diameter portion 64 of the stator holder 60 to restrict movement of the body 16 to the distal end side, so that the body 16 does not move. As the pusher 12 moves toward the distal end along the body 16, the pressing portion 22 presses the seal ring 20 in the axial direction and moves toward the distal end (in the direction of arrow B) along the mounting portion 48. . Further, the seal ring 20 is pushed upward by gravity while being in close contact with the flat portion 28 of the pusher 12 which is located downward.

Then, as shown in FIG. 5C, the seal ring 20 moves to the tip of the mounting portion 48 under the pressing action of the pressing portion 22, and the protrusion 32 abuts against the body 16 to act as a stopper, thereby preventing the mounting. The tip of the portion 48 and the flat portion 28 are substantially flush with each other, and the seal ring 20 shrinks radially inward due to its own elasticity, and as shown in FIG. It is housed and mounted in the seal groove 68 of the stator holder 60 arranged on the inner side. This completes the operation of mounting the seal ring 20 in the seal groove 68 of the stator holder 60 using the mounting jig 10 .

As described above, in this embodiment, in the mounting jig 10 capable of mounting the seal ring 20 in the seal groove 68 of a cylindrical object such as the stator holder 60 , the seal ring is attached to the tip of the pusher 12 . The pusher 12 is axially movably provided with respect to a body 16 provided on the inner peripheral side of the pusher 12, and is formed at the tip of the body 16. The seal ring 20 is mounted on the outer peripheral side of the mounting portion 48 .

Therefore, after the mounting jig 10 with the seal ring 20 mounted thereon is inserted through the outer peripheral side of the stator holder 60 and the body 16 is locked at a position where the mounting portion 48 faces the seal groove 68 of the stator holder 60, By moving the pusher 12 toward the distal end side relative to the body 16 , the seal ring 20 can be axially pressed by the pusher 12 and moved along the mounting portion 48 .

In addition, a portion of the inner peripheral side of the seal ring 20 on the side of the stator holder 60 in the direction (radial direction of the seal ring 20) perpendicular to the movement direction (directions of arrows A and B) of the seal ring 20 is pushed by the pusher 12. is pressed in the axial direction (direction of arrow B) by the flat portion 28 of . Therefore, it is possible to move the seal ring 20 while suitably preventing twisting that occurs when the outer peripheral side of the seal ring 20 is pushed in the axial direction by pressing the inner peripheral side portion as described above.

As a result, the portion of the seal ring 20 on the side of the stator holder 60 (inner peripheral side) is axially pressed by the pusher 12, and the seal ring 20 is moved toward the distal end side, thereby suitably preventing the occurrence of torsion. It is possible to reliably and efficiently mount the seal ring 20 to the seal groove 68 of the stator holder 60, which is the target object, while preventing this.

Further, by installing the seal ring 20 in the seal groove 68 while surely preventing twisting of the seal ring 20, it is possible to ensure the sealing performance of the seal ring 20 installed in the seal groove 68, and to efficiently perform the installation work. can be done systematically. In particular, it is more effective when the seal ring 20 and the stator holder 60 have large diameters. Furthermore, even when the distance to move the seal ring 20 is long, the structure can be light and simple.

Furthermore, the mounting jig 10 is arranged along the outer peripheral surface (the large diameter portion 64 and the small diameter portion 66) of the stator holder 60, and the body 16 which supports the pusher 12 so as to be slidable along the movement direction of the seal ring 20. , the seal ring 20 can be easily and reliably moved to a position facing the seal groove 68 on the outer peripheral side of the stator holder 60 .

As a result, even if the outer peripheral surface of the stator holder 60 is uneven with the annular groove 70 or the annular recess 72 other than the seal groove 68, the seal ring 20 can be reliably moved to the desired seal groove 68 and mounted. becomes possible.

Further, the body 16 is configured such that the pusher 12 is provided on the outer peripheral side thereof, and the seal ring 20 is mounted on the outer peripheral side of the attachment portion 48 formed at the tip thereof. Accordingly, by positioning the tip of the mounting portion 48 with respect to the seal groove 68 of the stator holder 60 , the seal ring 20 attached to the mounting portion 48 can be preferably positioned with respect to the seal groove 68 , and the pusher 12 By providing the body 16 on the inner peripheral side of the stator holder 60, the pusher 12 slides against the large diameter portion 64 and the small diameter portion 66 of the stator holder 60 when the pusher 12 moves along the axial direction. Therefore, the wear of the outer peripheral surface of the stator holder 60 including the large diameter portion 64 is preferably prevented.

In addition, since the body 16 has the positioning portion 40 that protrudes radially inward from its base end side and is engaged with the large-diameter portion 64 of the stator holder 60 , the body 16 is positioned relative to the stator holder 60 . By securely locking the mounting portion 48 in the axial direction, it is possible to position the tip of the mounting portion 48 at a position facing the seal groove 68 with high accuracy.

Furthermore, by positioning the mounting portion 48 of the body 16 at a position facing the base end surface of the seal groove 68 in the movement direction of the seal ring 20 , the seal groove 68 is provided on the outer peripheral surface of the stator holder 60 and is attached to the seal groove 68 . It is possible to prevent the seal ring 20 from being erroneously mounted in the annular groove 70 or the annular recess 72 in the insertion direction, so that the seal ring 20 can be securely and accurately mounted in the desired seal groove 68. .

Furthermore, by connecting the pusher 12 and the body 16 to each other via a spring 44 that biases the pusher 12 and the body 16 in the direction opposite to the pushing direction of the seal ring 20 (in the direction of arrow A), the seal is After mounting the ring 20, the elastic force of the spring 44 can be used to move the pusher 12 relative to the body 16 and return it to a predetermined position (see FIG. 5A).

Therefore, when the seal ring 20 is continuously attached to a plurality of objects (stator holder 60) using the mounting jig 10, an operator manually returns the pusher 12 and the body 16 to their initial positions. No need, can improve its work efficiency.

Furthermore, in the above-described embodiment, the case where the seal ring 20 is mounted in the seal groove 68 of the stator holder 60 using the mounting jig 10 has been described. It is sufficient if an elastic ring such as the seal ring 20 is mounted in the annular groove 70 formed in the .

In addition, the elastic ring mounting jig 10 according to the present invention adopts a configuration in which the pusher 12 is returned to the initial position by the spring 44 on the assumption that it is handled manually by an operator. 20 is also effective, and it is also possible to replace the spring 44 with another power source.

It goes without saying that the elastic ring mounting jig 10 according to the present invention is not limited to the above-described embodiment, and various configurations can be adopted without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 10... Elastic ring mounting jig 12... Pusher 14... Holder 16... Body 20... Seal ring 22... Pressing part 40... Positioning part 44... Spring 48... Mounting part 60... Stator holder 68... Seal groove

Claims (5)

An elastic ring mounting jig for moving an elastic ring along an object having an annular groove on the surface to which the elastic ring is mounted,
The elastic ring mounting jig includes a body having a ring mounting portion to which the elastic ring is mounted;
When the elastic ring is attached to the ring attachment portion, the elastic ring abuts on the entire circumference in the moving direction of the elastic ring, and the elastic ring is moved in the axial direction of the object toward the radially outer side of the annular groove. a pusher that pushes the elastic ring along the axial direction to move the elastic ring in the direction of movement along the axial direction;
a holder connected to the pusher and biased in the axial direction by an operator;
has
In a direction orthogonal to the moving direction, the pusher is positioned so that the radially inner side of the axial end face along the moving direction of the elastic ring close to the surface of the object is the radially outer side of the annular groove. and has a stepped portion that protrudes toward the object side,
the body is arranged along the surface of the object and supports the pusher so as to be slidable along the movement direction of the elastic ring ;
When the elastic ring is attached to the ring attachment portion, the stepped portion is engaged with the engaging end portion of the body and the body is engaged with the object in the moving direction of the elastic ring . When the pusher and the body are stopped and move relative to each other in the movement direction, the engagement between the stepped portion and the engaging end portion is released, and
The body is engaged with the object, and the pusher and the body move relative to each other in the moving direction, and the end of the ring mounting portion along the moving direction and the end of the pusher on which the elastic ring is mounted An elastic ring mounting jig in which the pusher and the elastic ring are in contact with each other over the entire circumference until the parts are flush with each other . The elastic ring mounting jig according to claim 1,
An elastic ring mounting jig, wherein the body includes the pusher and the ring mounting portion on a surface along the moving direction of the elastic ring. The elastic ring mounting jig according to claim 1 or 2,
The body has a positioning portion that can be positioned in the moving direction of the elastic ring with respect to the object, and the tip of the ring mounting portion is moved to the annular groove by engaging the positioning portion with the object. An elastic ring mounting jig positioned substantially flush with the base end surface of the. In the elastic ring mounting jig according to any one of claims 1 to 3,
An elastic ring mounting jig, wherein the tip of the body is positioned in the vicinity of the annular groove in the moving direction of the elastic ring. In the elastic ring mounting jig according to any one of claims 1 to 4 ,
an elastic member interposed between the body and the holder;
with
An elastic ring mounting jig, wherein the pusher and the body are connected via the elastic member that biases the elastic ring in a direction opposite to the moving direction in which the elastic ring is pushed out.

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