JP2023047788A - Piping member - Google Patents

Abstract

To provide a piping member that can be tightened with an appropriate torque, prevents waste from being discharged when construction is completed, and reduces the load on the environment due to waste disposal.SOLUTION: A piping member is attached to a water circulation member and has a main body part 2 that is in contact with the water circulation member. The main body part 2 includes a cylindrical portion 21 with a flange portion 22 facing outward, an operation part 4 which is an annular member attached inside the cylindrical portion 21, and a torque limit mechanism that operates when the operation part 4 is tightened with a torque greater than or equal to a predetermined amount, and indicates the tightening with torque greater than or equal to the predetermined amount. The operation part 4 remains inside the main body part 2 after the torque limit mechanism is activated and remains attached. This reduces the burden on the environment since no waste is discharged that would need to be disposed of at a construction site.SELECTED DRAWING: Figure 2

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a piping member that is attached to a plumbing member based on a rotating operation.

Conventionally, as plumbing members, tank bodies such as bathtubs and washbasins, and water receiving members such as waterproof pans for bathrooms and waterproof pans for washing machines, etc. are known. A piping member is attached for discharge to the sewage side. Further, the piping member is generally attached to the plumbing member by tightening with a tightening member or the like.
Here, a packing is arranged between the plumbing member and the piping member, and the packing is compressed by tightening to stop water between the members. Therefore, if the tightening torque is too low, the packing will not be sufficiently compressed, resulting in water stoppage failure.

Therefore, the piping member described in Patent Document 1 is equipped with a torque limit mechanism that prevents tightening with a predetermined torque or more, so that tightening with an appropriate torque is always possible, and construction quality is not dependent on the skill of the operator. can be stabilized.

JP 2018-115471 A

Here, since the piping member described in Patent Document 1 has a structure in which a part of the piping member is separated when construction is completed, the separated member is discharged as garbage, but garbage disposal at the construction site is troublesome, and there is a demand to reduce the amount of dust as much as possible. In recent years, there is also the issue of reducing the burden on the environment due to the disposal of garbage in consideration of the environment.

In view of the above problems, the present invention provides a piping member that can be tightened with an appropriate torque, prevents waste from being discharged when construction is completed, and can reduce the burden on the environment caused by waste disposal. It aims at providing a piping member.

A first invention is a piping member attached to a plumbing member based on a rotating operation,
A body portion that abuts on the plumbing member,
The main body is
an operating part to which a tightening torque is applied;
a torque limit mechanism that operates when the operation portion is tightened with a torque equal to or higher than a predetermined torque, and notifies that the tightening is performed with a torque equal to or higher than the predetermined torque;
The piping member is characterized in that the operation part is attached to the main body and remains attached to the main body even after the torque limit mechanism is operated.

The plumbing member is a member that generates drainage when used, and examples thereof include tank bodies such as bathtubs, washbowls, and sinks, and water-receiving members such as waterproof pans for bathrooms and waterproof pans for washing machines. .

In a second invention, the torque limit mechanism is
a contact portion formed in the body portion and in contact with the operation portion;
a contacted portion formed in the operation portion and contacted by the contact portion;
2. When tightening is performed with a torque equal to or greater than a predetermined torque, the contacted portion climbs over the contact portion and idly rotates the operating portion to prevent tightening with a torque equal to or greater than the predetermined torque. It is a piping member of description.

In a third invention, the piping member is
The tightening member can be tightened with the plumbing member,
3. The piping member according to claim 1, wherein the operating portion has an engaging portion that engages with the tightening member.

In a fourth invention, the operation unit is
4. The piping member according to any one of claims 1 to 3, wherein tightening becomes impossible after the torque limit mechanism is actuated.

A fifth invention is the torque limit mechanism,
5. The piping member according to any one of claims 1 to 4, wherein the notification is performed based on information recognized by touch, sound, or sight.

By providing a torque limit mechanism, the present invention makes it possible to stabilize construction quality regardless of the skill of the operator. In addition, since the operating portion remains attached to the main body even after the torque limit mechanism is activated, it is possible to prevent the generation of waste that needs to be discarded at the construction site.

It is a sectional view showing the piping member of the present invention concerning a first embodiment. It is a perspective view which shows a main-body part. It is the perspective view which looked at FIG. 2 from the downward direction. It is an exploded perspective view which shows a main-body part. It is the perspective view which looked at FIG. 4 from the downward direction. 3 is a cross-sectional view taken along the line AA' of FIG. 2; FIG. It is a perspective view which shows the state where the tightening by the tightening member is being performed. (a) A cross-sectional view showing a contact state between a contact portion and a contact portion (b) A cross-sectional view showing a state where the contact portion has passed over the contact portion. It is a perspective view which shows the main-body part which concerns on 2nd embodiment. (a) A cross-sectional view showing a contact state between a contact portion and a contact portion (b) A cross-sectional view showing a state where the contact portion has passed over the contact portion. It is a top view which shows a construction completion state. It is an exploded sectional view showing a main part concerning a third embodiment. It is a perspective view which shows an operation part. (a) A cross-sectional view showing a state in which torque is being transmitted. (b) A cross-sectional view showing a state in which the projection has gotten over the step.

Embodiments of the present invention will be described below with reference to the drawings. The description given below is for facilitating the understanding of the embodiments, and is not intended to limit the understanding of the invention.

[First embodiment]
In the first embodiment shown in FIGS. 1 to 8, the piping member 1 is attached to the watertight pan 10 by rotating by screwing.
As shown in FIG. 1, the waterproof pan 10 is a water member having a water receptacle for receiving water leakage from the washing machine. there is Further, the waterproof pan 10 has a circular opening formed in the water receiving portion and the piping member 1 is attached.

The piping member 1 is attached to the waterproof pan 10, and is a member for discharging drainage generated in the waterproof pan 10 to the sewer side. A drainage device 5 is provided to which a continuous drainage pipe is connected. A bowl-shaped bowl member 7 and a cylindrical deodorant cylinder 8 are arranged inside the piping member 1, and the bowl member 7 and the deodorant cylinder 8 form a water seal to prevent odors and harmful insects from coming from the sewer side. to prevent backflow of

As shown in FIGS. 2 to 5, the body portion 2 has a tubular portion 21 formed with a flange portion 22 facing outward, and an operation portion 4 which is an annular member attached to the inside of the tubular portion 21. have The body portion 2 also has a torque limit mechanism that operates when the operation portion 4 is tightened with a torque greater than or equal to a predetermined torque, and notifies that the tightening torque is greater than or equal to the predetermined torque.
The cylindrical portion 21 has a cylindrical shape with a male screw threaded on the outer surface thereof, and has a smaller outer diameter than the opening formed in the waterproof pan 10 . The tubular portion 21 has a flange portion 22 formed on the outside thereof, and a reduced diameter portion 23, a convex portion 24, a contact portion 25, and a claw portion 26 formed on the inside thereof.
The flange portion 22 has a brim shape extending outward from the upper end of the tubular portion 21 and has a larger diameter than the opening formed in the waterproof pan 10 . Further, when the construction is completed, the lower surface of the flange portion 22 contacts the waterproof pan 10 via the packing 6 .
The reduced-diameter portion 23 protrudes inward from the inner surface of the tubular portion 21, and the bowl member 7 and the deodorizing tube 8 are placed thereon. Also, the inner diameter of the reduced diameter portion 23 is smaller than the outer diameter of the operating portion 4 .
The projections 24 are projections for fixing the deodorizing tube 8 placed on the diameter-reduced portion 23, and are formed on the inner surface near the upper end of the tubular portion 21 at four locations every 90 degrees.
The abutting portion 25 is a protrusion that is approximately triangular in plan view and is formed toward the inner side of the cylindrical portion 21 below the diameter-reduced portion 23. The abutting portion 25 is contacted by the operation portion 4, which will be described later. It has an inclined surface 251 inclined with respect to the contact direction of the portion 43 and a vertical surface 252 formed perpendicular to the contact direction.
Four claw portions 26 are formed at every 90 degrees at the lower end of the cylindrical portion 21, and hold the operating portion 4 rotatably and non-detachably with respect to the cylindrical portion 21 when the assembly is completed.

As shown in FIGS. 2 to 5, the operation portion 4 is a member to which a tightening operation is applied by a tightening member 9 during construction. An enlarged diameter portion 42, a notch 421, and a contacted portion 43 are formed.
The engaging portion 41 is in the form of a groove recessed in the axial direction on the inner surface of the operating portion 4, and engages with the tightening member 9 during construction. In this embodiment, four engaging portions 41 are formed at 90-degree intervals and correspond to the plate-like or cross-shaped tightening member 9. The position, shape, and size are not limited in any way as long as they correspond to each other. Also, various shapes may be employed so as to accommodate a plurality of fastening members 9 .
The expanded diameter portion 42 is formed at the lower end of the operating portion 4 and has notches 421 formed at four locations. The notch 421 is formed by notching the outer surface of the enlarged diameter portion 42 in the axial direction, and its width in the circumferential direction is slightly wider than that of the claw portion 26 described above.
The abutted portions 43 are approximately triangular protrusions formed outward on the outer surface of the operation portion 4 in plan view, and as shown in FIG.

The drainer 5 is arranged below the waterproof pan 10 and is a cylindrical member with an open bottom. Also, the drainer 5 is formed with a discharge port on the side thereof, and is connected to a drain pipe that continues to the sewage side.

The attachment of the piping member 1 to the plumbing member and the operation of the torque limit mechanism will be described below.

First, the operation section 4 is attached to the main body section 2 . That is, the operation part 4 is pressed against the cylindrical part 21 from below in a state where the claw part 26 and the notch 421 are aligned with each other. At this time, the claw portion 26 bends outward to get over the notch 421 and the operation portion 4 is arranged inside the cylindrical portion 21 . When the claw portion 26 reaches the lower end of the operation portion 4 , the claw portion 26 returns to its original shape due to its own elasticity, and holds the operation portion 4 rotatably and non-removably with respect to the main body portion 2 . Further, the upper surface of the operating portion 4 is in contact with the lower surface of the diameter-reduced portion 23, so that it does not come off from above the main body portion 2. As shown in FIG. That is, when the operating portion 4 is attached to the main body portion 2, it is held between the reduced diameter portion 23 and the claw portion 26. As shown in FIG.
Next, the male thread of the body portion 2 and the female thread of the drain device 5 are screwed together, and the piping member 1 is attached to the plumbing member via the packing 6 . In the present embodiment, as shown in FIG. 7, a cross-shaped tightening member 9 in a plan view is inserted into the main body 2, and the tightening member 9 is rotated while being engaged with the engaging portion 41. to install. At this time, when the tightening member 9 rotates the operating portion 4 via the engaging portion 41, as shown in FIG. The stress from 9 is transmitted to the cylindrical portion 21, and the body portion 2 rotates. Further, as the body portion 2 rotates, the body portion 2 and the drain device 5 are screwed together.
Here, when the torque applied by the tightening member 9 exceeds a predetermined value, the torque limit mechanism operates to notify that the tightening has been performed with a torque greater than or equal to the predetermined value. That is, when tightening, the stress from the tightening member 9 is transmitted by contacting the abutting portion 25 with the abutted portion 43 by the inclined surface 251. As shown in FIG. 8B, the contact portion 43 overcomes the contact portion 25 so that the operating portion 4 idles with respect to the cylindrical portion 21 . As a result, the piping member 1 is prevented from being tightened with a torque exceeding a predetermined level, and can be tightened with an appropriate torque. Further, when the torque limit mechanism is activated, the piping member 1 notifies the operator through the sense of touch and sound that the tightening has been performed with a torque greater than or equal to a predetermined value through the sense of touch and sound caused by idle rotation.

The piping member 1 is attached as described above, but the operation part 4 remains inside the main body part 2 even after the torque limit mechanism is activated during the tightening work, and remains attached. Therefore, no waste that needs to be disposed of is discharged at the construction site, and the load on the environment is reduced. Further, since the position of the operation part 4 with respect to the cylindrical part 21 does not change, when the threaded engagement between the body part 2 and the drain device 5 becomes loose, it can be tightened again. Even at this time, if tightening is performed with a predetermined torque or more, the abutted portion 43 overcomes the abutting portion 25 and the torque limit mechanism is activated again, preventing tightening with a predetermined torque or more. be done.

When removing the piping member 1 from the plumbing member, the tightening member 9 is rotated in a direction opposite to that during attachment. At this time, since the abutting portion 25 contacts the abutted portion 43 by the vertical surface 252, the abutted portion 43 does not climb over the abutting portion 25 even if a torque stronger than that during tightening is applied, and the torque is applied. It can be transmitted to the body portion 2 .
When the piping member 1 is removed, the tightening member 9 is not engaged with the operation portion 4, but is engaged with the convex portion 24 formed on the cylindrical portion 21 to rotate the body portion 2. You can let me.

[Second embodiment]
Next, the piping member 1 according to the second embodiment will be described. In addition, the second embodiment described below will be described centering on the differences from the first embodiment.
In the first embodiment, the torque limit mechanism is configured to notify that tightening has been performed with a predetermined torque by a tactile sensation or sound generated when the operating portion 4 idles with respect to the cylindrical portion 21. .
On the other hand, in the second embodiment, as shown in FIGS. 9 to 11, it is configured to visually notify the operator that tightening with a predetermined torque has been performed.

A locking portion 27 is formed adjacent to the contact portion 25 on the inner surface of the tubular portion 21 of the body portion 2 . The locking portion 27 has only a surface perpendicular to the contact direction of the contacted portion 43 , and the contacted portion 43 cannot get over the locking portion 27 .
The display portion 3a is a mark formed on the upper surface of the reduced diameter portion 23, and the display portion 3b is a mark formed on the upper surface of the operation portion 4. When the contacted portion 43 is in contact with the locking portion 27, the display portion 3a is marked. and the position of the display portion 3b are configured to coincide with each other. In each figure, the display portions 3a and 3b are hatched for easy understanding of the invention.

As shown in FIG. 9, the positions of the display portions 3a and 3b of the piping member 1 are different before the start of construction.
Here, when the tightening member 9 is tightened with a torque equal to or greater than a predetermined torque, the stress of the tightening member 9 is reduced by the abutting portion 25 coming into contact with the contacted portion 43 as shown in FIG. 10(a). is transmitted to the shape portion 21 . Then, when the torque applied by the tightening member 9 exceeds a predetermined value, the torque limit mechanism operates to notify that the tightening has been performed with a torque greater than or equal to the predetermined value. That is, when the contacted portion 43 climbs over the contact portion 25, the operation portion 4 idles with respect to the cylindrical portion 21, and as shown in FIG. 27 , and the operating portion 4 cannot rotate relative to the cylindrical portion 21 . At this time, as shown in FIG. 11, the positions of the display portions 3a and 3b are matched, so that the operator can visually recognize that the tightening with the proper torque has been completed.
As described above, in the second embodiment, the piping member 1 is configured to notify the operator based on visually recognized information that tightening has been performed with a torque equal to or greater than a predetermined value.
Further, as in the first embodiment, the operating portion 4 remains inside the main body portion 2 even after the torque limit mechanism operates during tightening work, and remains attached. Therefore, no waste that needs to be disposed of is discharged at the construction site, and the load on the environment is reduced.

In the second embodiment, by visually confirming that the display portions 3a and 3b are aligned with each other in addition to the tactile sensation and sound, a third party can grasp the completion of the construction after the construction is completed.

[Third embodiment]
Next, the piping member 1 according to the third embodiment will be explained. In addition, the third embodiment described below will be described centering on the differences from each of the above-described embodiments.
In the first embodiment and the second embodiment, the piping member 1 can be tightened even after the torque limit mechanism is activated.
On the other hand, in the third embodiment, as shown in FIGS. 12 to 14, the operation portion 4 cannot be tightened after the torque limit mechanism is actuated. In addition, in FIG. 12, the groove portion 44 of the operation portion 4 is indicated by a broken line in order to facilitate understanding of the embodiment. Similarly, in FIG. 14, the groove portion 44 of the operating portion 4 and the projection 28 that cannot be visually recognized by the operating portion 4 are indicated by broken lines.

As shown in FIG. 12 , the tubular portion 21 has an inward projection 28 formed on the inner surface thereof. placed in
As shown in FIG. 13, the groove portion 44 is a recessed groove obliquely provided on the outer periphery of the operating portion 4, and stepped portions 441 and 442 are formed at the upper and lower ends thereof, respectively.

In the third embodiment, when the operating portion 4 is pressed against the tubular portion 21 from below, the projection 28 is arranged in the groove portion 44 over the stepped portion 441 as shown in FIG. 14(a). Here, when a tightening torque is applied to the operating portion 4 using the tightening member 9, the projection 28 slides in the groove portion 44, thereby moving the operating portion 4 upward from the main body portion 2, The protrusion 28 abuts on a stepped portion 442 formed at the lower end of the groove portion 44, and torque is transmitted.
Here, when the tightening torque exceeds a predetermined value, the torque limit mechanism is activated. That is, as shown in FIG. 14B, the projection 28 climbs over the stepped portion 442 and is positioned below the lower end of the operating portion 4. As shown in FIG. After that, the operating portion 4 continues to idle even when tightening torque is applied, and it becomes impossible to transmit any torque to the main body portion 2 .

In the first and second embodiments, the piping member 1 can be tightened even after the torque limit mechanism is activated, so there is a risk that the tightening work will be performed again after the construction is completed. was On the other hand, in the third embodiment, since tightening becomes impossible after the torque limit mechanism is activated, tightening work is not performed again. Further, in the third embodiment, torque is not transmitted even if the operation portion 4 is rotated in the loosening direction, so it is possible to prevent loosening of the threaded engagement of the piping member 1 after completion of construction.
Further, as in the first embodiment, the operating portion 4 remains inside the main body portion 2 even after the torque limit mechanism operates during tightening work, and remains attached. Therefore, no waste that needs to be disposed of is discharged at the construction site, and the load on the environment is reduced.

Although the embodiments of the present invention are described above, the present invention is not limited to the shape of each embodiment. For example, although the plumbing member in each embodiment is a waterproof pan for a washing machine on which a washing machine is placed, it may be a waterproof pan for a bathroom or other waterproof pans. Also, the plumbing member may be a bath body such as a bathtub, a washbowl, or a sink.
Further, in the first embodiment, the torque limit mechanism is a structure that performs notification based on information recognized by touch or sound, and in the second embodiment, a structure that performs notification based on information recognized by sight. However, the present invention is not limited to this. That is, for example, the structure may be such that the notification is made based on the information recognized only by the sense of touch, or that the notification is made based on the information recognized by both the sense of touch and the sense of sight.
In addition, in the second embodiment, the display part is a stamp formed on the member, but the shape and color of the display part and the method of marking are limited, for example, a colored arrow is printed. not a thing

1 Piping member 2 Main body 21 Cylindrical part 22 Flange part 23 Diameter reduction part 24 Convex part 25 Contact part 251 Inclined surface 252 Vertical surface 26 Claw part 27 Locking part 28 Projection 3a, 3b Display part 4 Operation part 41 Engagement Part 42 Expanded diameter part 421 Notch 43 Contact part 44 Groove parts 441, 442 Stepped part 5 Drainage device 6 Packing 7 Owan member 8 Deodorizing cylinder 9 Tightening member 10 Waterproof pan

Claims (5)

A piping member attached to a plumbing member based on a rotating operation,
A body portion that abuts on the plumbing member,
The main body is
an operating part to which a tightening torque is applied;
a torque limit mechanism that operates when the operation portion is tightened with a torque equal to or higher than a predetermined torque, and notifies that the tightening is performed with a torque equal to or higher than the predetermined torque;
The piping member, wherein the operation part is attached to the main body and remains attached to the main body even after the torque limit mechanism is actuated. The torque limit mechanism is
a contact portion formed in the body portion and in contact with the operation portion;
a contacted portion formed in the operation portion and contacted by the contact portion;
2. When tightening is performed with a torque equal to or greater than a predetermined torque, the contacted portion climbs over the contact portion and idly rotates the operating portion to prevent tightening with a torque equal to or greater than the predetermined torque. Plumbing member as described. The piping member
The tightening member can be tightened with the plumbing member,
3. The piping member according to claim 1, wherein the operating portion has an engaging portion that engages with the tightening member. The operation unit is
4. The piping member according to any one of claims 1 to 3, wherein tightening becomes impossible after the torque limit mechanism is actuated. The torque limit mechanism is
5. The piping member according to any one of claims 1 to 4, wherein the notification is performed based on information recognized by touch, hearing, or sight.

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