JP2024047417A - Bending structure and washer - Google Patents

Abstract

[Problem] To provide a bending structure capable of easily and firmly attaching an end member to a bending portion. [Solution] The bending structure comprises a bending portion 7 that can be elastically bent in the axial direction, a base portion 3 attached to the axial end of the bending portion 7, and a connecting arm 21 that protrudes in the axial direction from the end of the bending portion 7 and is connected to the base portion 3. [Selected Figure] Figure 1

Description

The present invention relates to a bending structure for use in a joint function part of a robot, manipulator, etc., and a washer for use in this bending structure.

A conventional bending structure is known in which an end member is attached to the axial end of a bendable bending portion, as in Patent Document 1.

The bent section is formed by stacking multiple wave washers and maintaining this stacked state by laser welding the wave washers together.

The end members are then further laminated and attached to the bent section. By using laser welding to attach the end members to the bent section, a strong bond can be obtained in a simple process.

However, since it was not possible to irradiate the area between the bent portion and the end member with laser light from the stacking direction, it was necessary to irradiate the area with laser light from the side, which meant that sufficient bonding strength could not be obtained.

This problem occurred not only when the bending part was a stacked wave washer, but also in other bending parts such as coil springs and bellows.

International Publication No. WO2019/073860

The problem to be solved was that it was not possible to easily and firmly attach the end member to the axial end of the bent section.

The present invention provides a bending structure that includes a bending portion that can be elastically bent in an axial direction, an end member that is attached to an end of the bending portion in the axial direction, and a connecting arm that protrudes in the axial direction from the end of the bending portion and is connected to the end member.

The present invention also provides a washer for attaching an end member to an axial end of a bending part that can be elastically bent in the axial direction, the washer having a connecting arm that protrudes in the axial direction and is connected to the end member.

According to the present invention, the connecting arm extending from the bent portion is connected to the end member, making it possible to attach the end member to the bent portion easily and firmly.

FIG. 1 is a perspective view showing a bent structure according to a first embodiment of the present invention. FIG. 2 is a perspective view showing a bent portion of the bent structure of FIG. FIG. 3 is a perspective view showing the relationship between a base and a coupling washer used in the flexure structure of FIG. FIG. 4 is an exploded perspective view of the base and coupling washer of FIG. FIG. 5 is a perspective view showing the state before machining of the connecting arm of the connecting washer of FIG. 6A and 6B are perspective views showing the manufacture of a bent structure. FIG. 7 is a cross-sectional view showing a part of a bent structure according to a second embodiment of the present invention. FIG. 8 is a perspective view showing the relationship between a base portion and an end washer of a bent structure according to a third embodiment of the present invention. 9 is an exploded perspective view of the base and mating washer of FIG. 8. FIG. 10 is a cross-sectional view of a portion of the base and coupling washer of FIG. 8.

The goal of making it possible to easily and firmly attach the end member to the bent section is achieved by connecting a connecting arm extending from the bent section to the end member.

The bending structure 1 comprises a bending portion 7, an end member 3, and a connecting arm 21. The bending portion 7 is a member that can be elastically bent in the axial direction. The end member 3 is a member that is attached to the axial end of the bending portion 7. The connecting arm 21 protrudes in the axial direction from the end of the bending portion 7 and is connected to the end member 3.

The connecting arm 21 can be connected to the end member 3 by fixing, fitting, engaging, etc., and the connecting arm 21 and the end member 3 may have a configuration according to the connecting mode.

The end member 3 may have a fixing portion 13 on its outer circumferential surface to which the connecting arm 21 is fixed.

In this case, the connecting arm 21 may be plate-shaped, and the fixing portion 13 may be flat, along which the connecting arm 21 is aligned.

Furthermore, a plurality of connecting arms 21 may be provided, each of which has elasticity and holds the end member 3. In this case, a plurality of fixing portions 13 of the end member 3 are provided corresponding to the connecting arms 21, and each is fixed in a holding state of the end member 3 in elastic contact with the connecting arms 21.

The end member 3 may have an engagement hole 29 into which the connecting arm 21 is inserted and engaged.

One of the end member 3 and the connecting arm 21 may have a convex portion 23, and the other of the end member 3 and the connecting arm 21 may have a concave portion 25 with which the convex portion 23 engages.

The bending structure 1 may include a connecting member 19 that forms the end of the bending portion 7, and the connecting arm 21 may be provided on the connecting member 19.

The bending portion 7 includes a plurality of wave washers 17 that are stacked in the axial direction and maintained in a stacked state by welding, and the connecting member 19 may be a washer that is stacked on the ends of the plurality of wave washers 17 and maintained in a stacked state by welding.

The connecting member 19 of such a bending structure 1 may be a washer having a connecting arm 21.

[Configuration of bent structure]
Fig. 1 is a perspective view showing a bent structure according to a first embodiment of the present invention. Fig. 2 is a perspective view showing a bent portion of the bent structure of Fig. 1. Fig. 3 is a perspective view showing the relationship between a base and a connecting washer used in the bent structure of Fig. 1. Fig. 4 is an exploded perspective view showing the base and the connecting washer of Fig. 3. Fig. 5 is a perspective view showing a state before processing of a connecting arm of the connecting washer of Fig. 4.

The bending structure 1 is applied to the joint function parts of various medical and industrial devices such as manipulators, robots, and actuators. The joint function parts are equipment, mechanisms, devices, etc. that function as a bending and extending joint.

The bending structure 1 of this embodiment includes a base 3, a movable part 5, and a bending part 7.

The base 3 is a columnar body, such as a cylindrical body, made of metal or resin, and constitutes an end member that is attached to one end in the axial direction of the bending portion 7. The axial direction means the direction along the axis of the bending structure 1, and also includes a direction slightly inclined relative to the axis.

This base 3 is connected to the end of the shaft of a manipulator, etc. Note that the base 3 is not limited to a columnar body, and may have an appropriate shape depending on the device to which the bending structure 1 is applied.

The base 3 in this embodiment is composed of a large diameter section 3a with a relatively large diameter and a small diameter section 3b with a relatively small diameter. The large diameter section 3a has multiple, for example, four, insertion holes 9a in the circumferential direction for inserting wires for driving the bending structure 1. The inner circumference of the large diameter section 3a has insertion holes 9b for inserting wiring and cables for the end effector of the manipulator. The insertion holes 9b also pass through the small diameter section 3b.

The portion excluding the insertion hole 9b is the outer periphery of the base 3, which is the end member in this embodiment. The small diameter portion 3b has a recess 11 corresponding to the insertion hole 9a. The circumferential direction refers to the direction along the outer periphery of the bent structure 1.

This base 3 has a fixing portion 13 on its outer periphery to which a connecting arm 21, described later, is fixed. In this embodiment, the fixing portion 13 is provided on the outer periphery of the large diameter portion 3a. The number of fixing portions 13 is two, but it is also possible to have one or three or more.

These fixing parts 13 are flat, along which the connecting arms 21 are aligned. In this embodiment, the fixing parts 13 are rectangular flat surfaces that are parallel to each other and aligned along the axial direction of the bending structure 1.

The fixing portion 13 may be an inclined flat surface that is not aligned with the axial direction. The fixing portion 13 may also be a curved surface that is aligned with the circumferential direction, rather than a flat surface. When the fixing portion 13 is a curved surface that is aligned with the circumferential direction, the large diameter portion 3a may be a simple cylindrical shape. The fixing portions 13 do not need to be parallel to each other. Furthermore, they may be a wavy surface having multiple projections and recesses in the axial direction.

The movable part 5 is supported by the base part 3 so as to be displaceable in the axial direction by the bending part 7. An end effector or the like is attached to this movable part 5 according to the device to which the bending structure 1 is applied.

The movable part 5 is made of a columnar body, such as a cylindrical body, made of metal or resin, and constitutes an end member that is attached to the other axial end of the bending part 7. The other axial end of the bending part 7 refers to the end on the opposite side of the axial direction from the one end to which the base part 3 is attached. Like the base part 3, the movable part 5 is formed in an appropriate shape depending on the device to which the bending structure 1 is applied, and is not limited to a columnar body made of metal or resin.

The movable part 5 has multiple, for example, four, insertion holes 15a in the circumferential direction through which the drive wires of the bending structure 1 are inserted and connected. The inner circumference of the movable part 5 has insertion holes 15b through which wiring and cables for the end effector of the manipulator are inserted.

The movable part 5 may be configured to have a fixing part 13, similar to the base part 3. In this case, it is also possible to omit the fixing part 13 of the base part 3.

The bending portion 7 includes multiple wave washers 17 and a connecting washer 19 as a connecting member, and is formed into a cylindrical shape as a whole. The bending portion 7 may also be a coil spring with a double coil structure, a simple coil spring, or another cylindrical body such as a bellows. The bending portion 7 may also be provided with an inner member inside that suppresses axial compression of the coil spring with a double coil structure, etc.

Multiple wave washers 17 are stacked in the axial direction and maintained in a stacked state. The elastic deformation of the wave washers 17 allows them to bend and extend elastically.

Each wave washer 17 is a plate material formed into a closed or open ring shape from a metal or the like. In this embodiment, the wave washer 17 is a circular plate material made of stainless steel, and the radial width and plate thickness between the inner and outer periphery are constant. The outer diameter of the wave washer 17 in a plan view is approximately the same as the large diameter portion 3a of the base 3 and the movable portion 5. The width and plate thickness of the wave washer 17 can also be varied in the circumferential direction.

The abutting portions of this wave washer 17 are joined to adjacent wave washers 17 by welding, for example, laser welding.

In this embodiment, the wave washer 17 has multiple peaks 17a in the circumferential direction, and has valleys 17b between adjacent peaks 17a. Between adjacent wave washers 17 in the axial direction, the peaks 17a of one wave washer 17 abut against the valleys 17b of the other wave washer. These abutting peaks 17a and valleys 17b are joined by laser welding.

The peaks 17a and valleys 17b do not have to abut against each other, and may, for example, be slightly offset from each other in the circumferential direction and abut against the inclined portion 17c. The shape and material of the wave washer 17 can be changed as appropriate depending on the required characteristics.

A through hole 17d is provided on the inner circumference of the wave washer 17, through which wiring and cables for the end effector of the manipulator are inserted. A plurality of recesses 17e (for example, four recesses) that are concave radially outward in a plan view are provided in the circumferential direction of the through hole 17d, through which the wires for driving the bending structure 1 are inserted.

The connecting washer 19 is stacked in the axial direction on the ends of the multiple wave washers 17 and is maintained in a stacked state by welding, for example, laser welding. As a result, the connecting washer 19 functions as a connecting member that constitutes the end of the bent portion 7.

In this embodiment, the connecting washer 19 is stacked only on one end of the multiple wave washers 17 to form only one end of the bending portion 7. However, the connecting washer 19 may also be stacked on both ends of the multiple wave washers 17 to form both ends of the bending portion 7.

This connecting washer 19 is for attaching the base 3, which is an end member, to the axial end of the bent portion 7. In this embodiment, the connecting washer 19 is a plate material formed into a closed or open ring shape from metal or the like. Note that the connecting member can be of any shape, including a wave washer, in addition to the connecting washer 19, which is a flat washer.

The connecting washer 19 in this embodiment is a flat washer made of stainless steel and is an annular plate material, with a constant radial width and plate thickness between the inner and outer periphery. The outer diameter of the connecting washer 19 is approximately the same as the outer diameter of the wave washer 17 in a plan view. Note that the outer diameter of the connecting washer 19 refers to the portion where the connecting arm 21 described below is not provided.

This connecting washer 19 has multiple, for example four, insertion holes 19a in the circumferential direction for inserting the wires for driving the bending structure 1. The inner circumference of the connecting washer 19 has insertion holes 19b for inserting wiring and cables for the end effector of the manipulator. The outer circumference of the connecting washer 19 has a connecting arm 21.

The connecting arm 21 protrudes axially from the end of the bent portion 7 and is connected to the base portion 3.

The connecting arm 21 does not need to be protruded in the axial direction along the axial direction, but rather the tip of the connecting arm 21 needs to be in a position offset in the axial direction from the base end.

The connecting arm 21 in this embodiment is a flat plate that is positioned along the planar fixing portion 13 of the base 3. For this reason, multiple connecting arms 21 are provided on the outer periphery of the connecting washer 19 in correspondence with the fixing portion 13 of the base 3.

These connecting arms 21 extend in parallel along the axial direction. However, the connecting arms 21 may be inclined flat plates along with the fixing parts 13, rather than along the axial direction. The connecting arms 21 do not need to be parallel to each other depending on the fixing parts 13. The connecting arms 21 do not need to be flat, and may be corrugated plates with multiple projections and recesses in the axial direction. The connecting arms 21 may be in various shapes other than plate-like, such as rod-like, cylindrical, or bowl-like.

The connecting arm 21 only needs to be provided in correspondence with the fixing portion 13, and may be located on the connecting washer 19 at a position other than the outer periphery. For example, the connecting washer 19 may be formed with a larger diameter than the base 3, and the connecting arm 21 may be provided in the outer periphery region that protrudes radially from the base 3. The outer periphery region itself may also be used as the connecting arm.

In this embodiment, the planar shape of the connecting arm 21 is rectangular, but it may be another geometric shape. The planar shape refers to the shape when viewed from the thickness direction of the connecting arm 21.

The axial length of the connecting arm 21 is the same as the length of the fixing part 13, and the width of the connecting arm 21 is shorter than the width of the fixing part 13. Note that the length of the connecting arm 21 may be shorter or longer than the length of the fixing part 13, and the width of the connecting arm 21 may be the same as or longer than the width of the fixing part 13.

Each of the connecting arms 21 has elasticity. As a result, the connecting arms 21 elastically contact the fixing portion 13 of the base 3, and are fixed to the fixing portion 13 while holding the base 3. As a result, the connecting arms 21 in this embodiment are connected to the outer periphery of the base 3. However, as long as the connecting arms 21 can be connected to the base 3, the connection point to the base 3 does not necessarily have to be the outer periphery.

Note that elastic contact means elastic contact, but the connecting arms 21 do not need to be in elastic contact with the base 3. Also, although the number of connecting arms 21 is two, it is possible to have one or three or more connecting arms 21 together with the fixing part 13.

The connection arm 21 and the fixing portion 13 are fixed by welding. In this embodiment, the connection between the base 3 and the connection arm 21 is achieved by the connection between the connection arm 21 and the fixing portion 13 and the elastic contact of the connection arm 21 with the fixing portion 13. Therefore, the bending portion 7 and the base 3 can be fixed firmly. In addition, the fixing between the connection arm 21 and the fixing portion 13 can be achieved by reducing the fixing force by the elastic contact of the connection arm 21 with the fixing portion 13, so that the fixing force is weaker than that achieved by welding. For example, the fixing may be achieved by gluing, soldering, etc.

The connecting arm 21 is attached to the fixing portion 13 at the center of the connecting arm 21. However, when the connecting arm 21 is attached by welding as in this embodiment, it is sufficient that a part or all of the weld mark is located within the rectangular shape of the connecting arm 21 as long as the connection strength is ensured. In other words, the connecting arm 21 allows the fixing point to be selected as appropriate.

The connecting arm 21 can be easily formed by punching out the connecting arm 19 together with the connecting washer 19 using a press or the like, as shown in FIG. 5, and then bending it to make it stand up.

[Manufacturing of bent structure]
6A and 6B are perspective views showing the manufacture of the bent structure 1. FIG.

In the manufacture of the bending structure 1 of this embodiment, a plurality of wave washers 17 are stacked on the movable part 5 to form the bending part 7, and then the base part 3 is attached to the end of the formed bending part 7. However, it is also possible to stack the wave washers 17 on the base part 3 to form the bending part 7, and then attach the movable part 5 to the end of the bending part 7.

In the present embodiment, the bending portion 7 is formed by first stacking multiple wave washers 17 in the axial direction on the movable portion 5 as shown in FIG. 6(A), and then maintaining the stacked state by laser welding.

Laser welding is performed by irradiating a laser beam from above each wave washer 17 that is stacked. This bonds the movable part 5 and the wave washer 17, and also bonds adjacent wave washers 17 together. The laser beam may be any suitable type, such as a carbon dioxide laser, a YAG (Yttrium Aluminum Garnet) laser, or a fiber laser.

Next, as shown in FIG. 6(B), a connecting washer 19 is stacked in the axial direction on top of the stacked wave washers 17, and the stacked state is maintained by laser welding from the axial direction. This forms the bent portion 7. In this state, the connecting arm 21 protrudes in the axial direction from the end of the bent portion 7.

The base 3 is inserted between the protruding connecting arms 21. That is, the axial end of the fixing part 13 of the base 3 is aligned with the axial end of the connecting arm 21, and in this state, the base 3 is inserted axially between the connecting arms 21. At this time, the fixing part 13 slides relative to the connecting arm 21, guiding the insertion of the base 3.

When the base 3 hits the connecting washer 19 in the axial direction due to this insertion, the connecting arm 21 is fixed to the fixing portion 13 by laser welding.

At this time, the connecting arm 21 can ensure an irradiation area of the laser beam for laser welding, and the laser welding between the connecting arm 21 and the fixing portion 13 can be performed reliably. In addition, since the fixing portion 13 is flat to which the connecting arm 21 is aligned, the laser welding between the connecting arm 21 and the fixing portion 13 can be performed more reliably. Moreover, since the base 3 has the fixing portion 13 to which the connecting arm 21 is fixed on its outer circumferential surface, the laser welding with the connecting arm 21 can be performed easily and reliably.

The base 3 is then connected to the end of the bent portion 7, completing the bent structure 1 of FIG. 1. In this manner, in this embodiment, the connecting arm 21 extending from the bent portion 7 is connected to the outer periphery of the base 3, which is the end member, making it possible to easily and firmly attach the base 3 to the bent portion 7 by laser welding.

As a result, the formation of the bent portion 7 on the movable portion 5 and the attachment of the base portion 3 can all be performed by laser welding, making it easy to manufacture the bent structure 1.

In addition, the bending structure 1 may be required to have a smaller diameter, but even if the diameter is reduced, sufficient fixation can be achieved between the connecting arm 21 and the fixing portion 13. Therefore, the bending structure 1 of this embodiment can accommodate a smaller diameter.

Figure 7 is a cross-sectional view showing a portion of a bent structure according to Example 2 of the present invention. Note that in Example 2, the same reference numerals are used to designate configurations corresponding to those in Example 1, and duplicated descriptions will be omitted.

The bending structure 1 of this embodiment is such that the connecting arm 21 and the base 3 are connected by engaging the convex portion 23 and the concave portion 25. The rest is the same as in Example 1.

The convex portion 23 is formed by partially curving the flat connecting arm 21. The curved convex portion 23 may be formed in advance on the connecting arm 21 by pressing or the like, or may be formed when connecting the connecting arm 21 to the base 3 by crimping or the like. The shape of the convex portion 23 is not particularly limited, and may be, for example, a partially increased plate thickness of the connecting arm 21.

The recess 25 is formed in the engagement portion 27 of the base 3. The engagement portion 27 has the same planar configuration as the fixing portion 13 of Example 1, except for the recess 25. The recess 25 is provided corresponding to the protrusion 23, and the protrusion 23 is inserted into and engaged with the recess 25.

In addition to providing the same effect as in Example 1, Example 2 makes it easier to connect the bent portion 7 and the base portion 3.

Figure 8 is a perspective view showing the relationship between the base and end washer of a bent structure according to Example 3 of the present invention. Figure 9 is an exploded perspective view of the base and end washer of Figure 8. Figure 10 is a cross-sectional view showing a portion of the base and end washer of Figure 8. Note that in Example 3, the same reference numerals are used for configurations corresponding to those in Example 1, and duplicated explanations will be omitted.

In this embodiment, the bending structure 1 has an engagement hole 29 in the base 3 into which the connecting arm 21 is inserted and engaged.

The engagement hole 29 is provided axially through the large diameter portion 3a of the base 3. The cross-sectional shape of the engagement hole 29 is larger than the cross-sectional shape of the connecting arm 21.

The connecting arm 21 has a claw portion 31 at its tip. The claw portion 31 is formed to protrude in the radial direction of the connecting arm 21. The connecting arm 21 is formed to be longer in the axial direction than the engagement hole 29, and the claw portion 31 at the tip protruding outward from the engagement hole 29 engages with the opening edge portion 29a of the engagement hole 29.

The connecting arm 21 may omit the claw portion 31. In this case, the connecting arm 21 may be configured to fit into the engagement hole 29. The connecting arm 21 may also be provided between the inner and outer circumferences of the connecting washer 19 instead of on the outer periphery of the connecting washer 19. In this case, the engagement hole 29 is provided at a position biased toward the inner circumference in correspondence with the connecting arm 21.

In addition to providing the same effect as in Example 1, Example 3 also makes it easier to connect the bent portion 7 and the base portion 3.

1 Bent structure 3 Base (end member)
5 Movable part (end member)
7 Bending portion 13 Fixing portion 17 Wave washer 19 End washer (connecting member)
21 Connecting arm 23 Convex portion 25 Concave portion 29 Engagement hole

Claims (9)

A bending portion that can be elastically bent in an axial direction;
an end member attached to an end of the bent portion in the axial direction;
a connecting arm provided at the end of the bent portion in the axial direction and connected to the end member;
A bending structure comprising: 2. The bent structure of claim 1,
The end member has a fixing portion on an outer circumferential surface to which the connecting arm is fixed.
Bending structure. 3. The bent structure of claim 2,
The connecting arm is plate-shaped,
The fixing portion has a flat surface along which the connecting arm is aligned.
Bending structure. The bent structure of claim 3,
The connecting arms are provided in plurality, each of which has elasticity and holds the end member,
The fixing portion of the end member is provided in a plurality of portions corresponding to the connecting arms, and is fixed in a state in which the end member is held in elastic contact with the connecting arms.
Bending structure. 2. The bent structure of claim 1,
The end member has an engagement hole into which the connecting arm is inserted and engaged.
Bending structure. 2. The bent structure of claim 1,
One of the end member and the connecting arm has a protrusion,
The other of the end member and the connecting arm has a recess for engaging the protrusion.
Bending structure. The bent structure according to any one of claims 1 to 6,
a connecting member that configures the end of the bent portion,
The connecting arm is provided on the connecting member.
Bending structure. The bent structure of claim 7,
The bent portion includes a plurality of wave washers stacked in the axial direction and maintained in a stacked state by welding,
The connecting member is a washer that is stacked on the ends of the plurality of wave washers and that is maintained in a stacked state by welding.
Bending structure. A washer for attaching an end member to an axial end of a bending portion that is elastically bendable in an axial direction,
a connecting arm protruding in the axial direction and connected to an outer periphery of the end member;
Washer.

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