JP6753559B2 - Drain plug device - Google Patents

Description

The present invention relates to a drain plug device that operates a valve member arranged in a tank body.

As a conventional drain plug device, a valve member that opens and closes a drain port formed at the bottom of a tank body, an operation mechanism that raises and lowers the valve member by an operation unit, a release wire that transmits the operation of the operation mechanism to the valve member, and a valve member. It is known that the wire is composed of a lock mechanism for holding the elevating state of the wire.
A packing is fitted around the valve member, and when the packing comes into close contact with the peripheral edge of the drain port, the drain port is closed and hot water can be stored in the tank.
The operation mechanism is provided with an operation unit for the user to perform a push operation, and the operation unit is arranged on various wall surfaces such as the top surface of the tank body and the side surface of the tank body, and the user operates the operation unit. Therefore, it is possible to open and close the drain port without directly touching the valve member.
The release wire consists of an outer tube, which is a resin cylinder, and an inner wire, which is a stranded metal wire. The inner wire slides in the outer tube by the pushing operation applied to the operation part, and pushes up the valve member. This has a structure that opens and closes the drain port.
The lock mechanism is provided with a rotary gear and a fixed gear inside, and is a mechanism that holds the valve member in an raised or lowered state by meshing the rotary gear and the fixed gear.

Here, Patent Document 1 has an operating portion that can slide in the rotational direction with respect to the side surface of the tank body, and the rotational operation applied to the operating portion is transmitted to the valve member by the release wire to drain the water. A drain plug device that opens and closes the mouth is described.

Further, Patent Document 2 has an operating portion that can slide in the vertical direction with respect to the side surface of the tank body, and the vertical pushing operation applied to the operating portion is transmitted to the valve member by the release wire. A drain plug device that opens and closes the drain port is described.

The drain plug device described in each of the above patent documents performs an operation including a parallel direction component with respect to the attached wall surface, such as the operation unit sliding in the rotation direction or the vertical direction. Therefore, the operation unit described in each patent document needs to be arranged in a desired predetermined direction at the time of attachment, but the operation mechanism is limited to the flange member and is attached only in a specific direction. Therefore, it is very difficult to arrange the operation unit in a predetermined direction at the time of mounting because (for example, there is no choice but to select one from 36 specific directions in units of 10 degrees). In particular, in the case of a structure in which the flange member is attached by screwing, the orientation of the flange member when the construction is completed differs depending on the thickness of the wall surface to be attached, which is difficult.

Japanese Unexamined Patent Publication No. 2012-241488 Japanese Unexamined Patent Publication No. 2014-167251

In the drain plug device described in Patent Document 1, in order to solve the above problem, the arrangement angle of the operation portion can be adjusted by providing a plurality of recesses in the flange member (overflow port member 5). However, the arrangement angle of the operating portion can be adjusted only for each interval in which the recess is provided, and it is still difficult to adjust in a predetermined direction.

The present invention has been invented in view of the above problems, and an object of the present invention is to provide a drain plug device capable of surely setting an arrangement angle of an operating portion of the drain plug device in a predetermined direction.

The present invention according to claim 1 has a drainage port provided on the tank body and a drainage port.
In a drain plug device consisting of an operation mechanism that raises and lowers a valve member based on an operation applied to an operation unit to open and close a drain port.
The above operation mechanism
A release wire that transmits the operation applied to the operation unit to the valve member,
Flange members mounted on the wall away from the drain
A wire receiver that is rotatably arranged inside the flange member and holds the end of the release wire .
The drain plug device is provided with a positioning member for fixing the operation unit or the wire receiver so as not to be rotatable .

The drainage plug device according to claim 1, wherein the operating portion performs an operation including a parallel direction component with respect to a wall surface to which a flange member is attached.

In the present invention according to claim 3, the positioning member is
The drain plug device according to claim 2 , further comprising a guide unit that guides the operation of the operation unit.

In the present invention according to claim 4, the positioning member is
The flange member and the wall is a discharge valve device according to any one of claims 1 to 3, characterized in that it is clamped so as not to rotate.

According to the fifth aspect of the present invention, the wire receiver is
It has a ring portion having an outer diameter substantially the same as the inner peripheral surface of the flange member, and has a ring portion.
The release wire
The drain plug device according to any one of claims 1 to 4 , wherein the drain plug device is held at a position inclined with respect to the central axis of the ring portion of the wire receiver.

In the present invention according to claim 6, the wire receiver is
It has a ring portion having an outer diameter substantially the same as the inner peripheral surface of the flange member, and has a ring portion.
The release wire
The drain plug device according to any one of claims 1 to 4, wherein the drain plug device is held at a position different from the center of the ring portion of the wire receiver .

According to the first and second aspects of the present invention, the direction in which the flange member is fixed even when the orientation of the flange member changes depending on the construction situation, such as when the flange member is attached by screwing. Regardless of this, the direction of the wire receiver can be adjusted steplessly and freely. Therefore, it is possible to always arrange the operation unit in a desired predetermined direction. The structure is particularly useful when the operating unit has an operation that includes a parallel component to the wall surface, because the operating unit has a predetermined direction to be arranged. The term "containing a component in the direction parallel to the wall surface" refers to, for example, a case where the wall surface is substantially vertical and the operation unit operates substantially vertically (vertically) or in a rotation direction. It is a thing.
According to the third aspect of the present invention, if the operation unit or the wire receiver is rotatable, the operation unit faces a direction other than a predetermined direction, and the design and operability are deteriorated. Challenges arise. According to the present invention, the above problem can be solved by fixing the operation unit so as to face a predetermined direction by the positioning member and guiding the operation unit so as to operate properly. Both the operation unit and the wire receiver may be fixed non-rotatably, or only one of them may be non-rotatably fixed depending on the mode of the operation unit or the like.
According to the fourth aspect of the present invention, the positioning member is rotatable until it is sandwiched between the flange member and the wall surface, and can be freely adjusted so as to have a predetermined direction. Then, the positioning member is fixed by attaching the flange member with the positioning member arranged in a predetermined direction. Therefore, the positioning member (and the operating portion) can always be attached in a predetermined direction regardless of the orientation of the flange member.
According to the fifth aspect of the present invention, when the release wire is inclined with respect to the central axis of the ring portion of the wire receiver, it needs to be rotatably attached to the flange member. , The present invention is useful in such cases.
According to the sixth aspect of the present invention, when the release wire is held at a position different from the center of the ring portion of the wire receiver, it needs to be rotatably attached to the flange member. Yes, the present invention is useful in such cases.

It is sectional drawing which shows the construction state of this invention. It is an enlarged sectional view which shows the operation mechanism. It is an exploded perspective view which shows each member which constitutes an operation mechanism. It is a perspective view which shows the wire receiver. It is a perspective view which shows the wire receiver in the direction view different from FIG. It is a perspective view which shows the positioning member. It is a front view which shows the operation of the operation mechanism. It is sectional drawing which shows the construction process of an operation mechanism. It is sectional drawing which shows the construction process of an operation mechanism. It is a front view which shows the operation of the operation mechanism in 2nd Embodiment. It is a front view which shows the operation of the operation mechanism in 3rd Embodiment.

The drain plug device of the present invention will be described below with reference to the drawings. It should be noted that the description described below facilitates the understanding of the embodiments, which does not limit and understand the present invention. Further, in the following embodiments, unless otherwise specified, the positional relationship between the members up, down, left and right and between the members will be described with reference to the construction state shown in FIG.

In this embodiment, as shown in FIGS. 1 to 9, the drainage port 12 formed at the bottom of the tank body B is opened and closed remotely by the operation mechanism 4 attached to the wall surface away from the drainage port 12. It is a plug device, and is composed of a tank body B, a drain plug 1, a valve member 3, and an operation mechanism 4.

The tank body B is a box-shaped bathtub with an open upper part, circular openings are formed at the bottom and side surfaces, a drain plug 1 is attached to the bottom opening, and the side surface opening is provided with a drain plug 1. The operation mechanism 4 is attached. In the present embodiment, the side surface portion of the tank body B functions as a wall surface to which the operation mechanism 4 is attached.

The drain plug 1 has a tubular shape having a flange portion at the upper end, and has a flow path in which a drain port 12 for discharging hot water or the like in the tank body B as drainage is formed, and is provided on the outer periphery of the tubular portion. The male screw part is engraved. Further, the drain plug 1 has a wire fixing portion 13 attached to a convex portion formed inside, and a valve shaft 53 is fixed to the wire fixing portion 13. The drain plug 1 is inserted through an opening formed on the bottom surface of the tank body B and is screwed with a drainage device 2 arranged on the back surface of the tank body B.
The drainer 2 is arranged on the back surface of the bottom of the tank body B, and is screwed to the lower end of the drain plug 1 by a female screw screwed upward, and on the downstream side thereof, the drainage flowing into the inside is further downstream side. A discharge port is formed at the lower end to discharge water to the pipe (not shown). Further, the drainage device 2 has a tubular branch pipe portion 21 extended on the side surface, and the branch pipe portion 21 is connected to the operation portion 10 via a flexible overflow pipe 71.

The valve member 3 is a lid member in which a packing is fitted on the outer peripheral surface, and as shown in FIG. 1, when the valve member 3 is lowered, the packing comes into contact with the peripheral edge of the drain port 12 to make it watertight. It is blocked. In this state, the tank body B can store hot water inside. Further, the valve member 3 is fitted with the tip of the valve shaft 53 on the back surface, and when the valve shaft 53 is raised by the operation of the operation unit 10, it is pushed up by the valve shaft 53 and is raised, and the drain port 12 It is possible to open. That is, the valve member 3 can move up and down by being pushed up by the valve shaft 53, and can close the drain port 12 when descending and open the drain port 12 when ascending.

As shown in FIGS. 2 and 3, the operation mechanism 4 is attached to an opening formed on the side surface of the tank body B, and is a release wire 5, a flange member 6, a connecting portion 7, a wire receiver 8, a lock mechanism 87, and an operating portion. It is composed of 10.

The release wire 5 is a member composed of an outer tube 51 and an inner wire 52 that transmits the operation of the operation unit 10 to the drain port 12, and has a valve shaft 53 at the end of the drain port 12 and the operation unit 10 side. An attached portion 54 is provided at the end portion. The valve shaft 53 is fixed to the wire fixing portion 13, and the attached portion 54 is fixed to the inside of the flange member 6 by the wire receiver 8. As shown in FIG. 2, the release wire 5 is inclined with respect to the central axis of the wire receiver 8 and is held at a position different from the center of the wire receiver 8.
The outer tube 51 is a hollow synthetic resin tube body that is flexible in the side surface direction, and an inner wire 52 is slidably arranged inside. Further, one end of the outer tube 51 is connected to the valve shaft 53, and the other end is connected to the wire receiver 8.
The inner wire 52 is a stranded metal wire having flexibility in the side surface direction, one end of which is connected to the valve shaft 53 and the other end of which is connected to the upper end of the lock shaft 88. The inner wire 52 is housed in the groove 85 and the groove 96 formed in the guide portion upper 95 and the guide portion lower 84 on the operation portion 10 side, and the end portions thereof are bent so as to face the operation portion 10. ing. Further, the inner wire 52 can move forward and backward inside the outer tube 51 when an operation is applied to the operation unit 10.
The valve shaft 53 is a tubular body formed at the end of the release wire 5 on the drain port 12 side, and is composed of an outer cylinder and an inner cylinder. The outer cylinder is a hollow tubular body to which the outer tube 51 is connected, and the inner cylinder is slidably housed inside, and the outer peripheral surface is fixed to the wire fixing portion 13. The inner cylinder is a hollow tubular body to which the inner wire 52 is connected and whose upper end is closed. A shock absorber spring is housed inside, and a valve member 3 is fitted to the upper end.
When the valve shaft 53 is operated by the operation unit 10 and the inner wire 52 slides toward the drain port 12, the inner cylinder rises and pushes up the valve member 3.
The attached portion 54 has a protrusion 55 formed on the outer peripheral surface thereof, and is fixed by fitting the protrusion 55 into the notch formed in the wire receiver 8.

As shown in FIGS. 2 and 3, the flange member 6 is a tubular body having a flange portion 61 at the end, a male screw is formed on the outer circumference, and a step portion 62 is formed on the inner circumference in the circumferential direction. It is formed at a plurality of places. Further, the flange member 6 has a hollow inside, and when hot water or the like is stored in the tank body B higher than a predetermined water level, an overflow port 63 for discharging the hot water is formed.

The connecting portion 7 is a substantially L-shaped drainage pipe whose flow path is bent by about 90 degrees and is arranged on the back side of the side surface of the tank body B, and the flange member is formed by a female screw portion formed at the upstream end portion. It is screwed with 6. Further, a flexible overflow pipe 71 is attached to the downstream end portion, and the hot water flowing into the inside is discharged to the branch pipe portion 21 via the overflow pipe 71.

As shown in FIGS. 2 to 5, the wire receiver 8 is a member that fixes the end portion of the release wire 5 to the operation portion 10 side, and is a ring portion having substantially the same outer diameter as the inner peripheral surface of the flange member 6. And is engaged with the step portion 62 of the flange member 6 by the claw portion 81 extending from the end portion of the ring portion. The claw portion 81 is arranged on the back surface (right side in FIG. 2) of the step portion 62 in the engaged state with the step portion 62, and the wire receiver 8 cannot be pulled out from the flange member 6 by the claw portion 81. However, it is rotatably fixed. Further, the wire receiver 8 includes a mounting portion 82, a lower portion 84 of the guiding portion, and a casing 86.
The mounting portion 82 has a substantially tubular shape, and its central axis is inclined with respect to the central axis of the wire receiver 8 and is formed at a position different from the center of the wire receiver 8. The attachment portion 54 of the release wire 5 is inserted through the attachment portion 82, and the protrusion 55 of the attachment portion 54 is fitted into the notch 83 to fix the attachment portion 54 to the operation portion 10 side. .. Therefore, the end portion of the release wire 5 on the operation portion 10 side is inclined with respect to the central axis of the wire receiver 8 and is fixed at a position different from the center of the wire receiver 8.
The lower portion 84 of the guide portion extends in an arc shape from the upper end of the mounting portion 82, and a groove portion 85 is formed along the longitudinal direction on the upper surface and the center of the arc-shaped portion. The lower portion 84 of the guide portion is bent at an angle corresponding to the lower surface of the upper portion 95 of the guide portion formed on the positioning member 9 described later, and the lower portion 84 of the guide portion is engaged with the upper portion 95 of the guide portion by the engaging portion 841. doing. Further, at the end (left side in FIG. 2) of the wire receiver 8, a casing 86 to which the lock mechanism 87 is attached is formed.
The casing 86 is a tubular body that is located below the lower portion 84 of the guide portion, is arranged inside the tank body B, and is formed so that the axial direction is the vertical direction, and a fixed gear is formed on the inner peripheral surface. At the same time, each member constituting the lock mechanism 87 is housed inside.

The lock mechanism 87 is a holding mechanism called a thrust lock mechanism, and is composed of the casing 86, a rotary gear arranged inside the casing 86, a lock shaft 88, and a spring.
As shown in FIG. 2, the lock shaft 88 is arranged at the center of the casing 86, penetrates the upper surface of the casing 86, and is bifurcated from the middle to the upper end. The guide portion lower portion 84 is arranged between the branch portions of the lock shaft 88, and therefore, the end portion of the inner wire 52 is arranged between the branch portions along the lock shaft 88. A cap-shaped wire retainer 89 is attached to the upper end of the lock shaft 88 to fix the end portion of the inner wire 52, and the inner wire 52 is configured to interlock with the lock shaft 88. Further, the lock shaft 88 is arranged so as to be vertically movable inside the casing 86, and the rotary gear is rotatably attached to the lock shaft 88 so as not to be vertically movable. When the lock shaft 88 is lowered, the lock mechanism 87 can maintain the lowered state of the lock shaft 88 by meshing the rotary gear and the fixed gear, and when the lock shaft 88 is lowered again, the rotary gear and the fixed gear. The meshing of the lock shaft 88 is released, and the lock shaft 88 can be raised by the elasticity of the spring.
The lock mechanism 87 is arranged below the operation unit 10, and the upper end of the lock shaft 88 is in contact with the back surface of the operation unit 10 via the wire retainer 89. Further, since the lock shaft 88 is arranged so as to be in the vertical direction, the axial direction of the lock shaft 88, the operation direction of the operation unit 10, and the end of the inner wire 52 fixed to the lock shaft 88. The axial directions are substantially parallel (approximately the same).

As shown in FIGS. 6 and 7, the positioning member 9 has a rectangular shape when viewed from the front, and has an opening 91 formed in the center thereof having a diameter larger than the outer diameter of the flange portion 61 of the flange member 6. At both ends thereof, rectangular guide portions 92 whose top and bottom are in the longitudinal direction are projected toward the front. Further, as shown in FIG. 2, the opening 91 has a sandwiched portion 94 formed at the upper end and the lower end of the back surface (right side in FIG. 2), and the surface of the opening 91 (left side in FIG. 2). ), The upper part 95 of the guide portion is formed.
The sandwiched portion 94 is an arc-shaped claw portion formed to have a diameter slightly smaller than the outer diameter of the flange portion 61 of the flange member 6, and is non-rotatably sandwiched by the flange portion 61 and the side surface of the tank body B.
As shown in FIG. 2, the guide portion upper portion 95 extends in an arc shape corresponding to the guide portion lower portion 84, and as shown in FIG. 6, a groove portion 96 is formed along the longitudinal direction in the center of the arc shape portion. It is formed. Further, the upper portion 95 of the guiding portion is engaged with the lower portion 84 of the guiding portion by the engaged portion 951.
As shown in FIG. 7, the guide portion 92 is projected toward the inside of the tank body B with a distance substantially the same as the width of the operation portion 10. Further, on the inner side surface of the guide portion 92, a guide protrusion 93 is formed toward the opposite guide portion 92.

Here, the positioning member 9 prevents the wire receiver 8 from rotating when the guide portion upper portion 95 engages with the guide portion lower portion 84, and the guide portions 92 are arranged on both sides of the operation portion 10. This prevents the operation unit 10 from rotating.

As shown in FIGS. 2, 3 and 7, the operation unit 10 is a box body in which the bottom surface and the back surface (right side in FIG. 2) are open, and the lock shaft 88 and the inner wire are provided via the wire retainer 89. It is in contact with 52. Further, as shown in FIG. 7, the operation unit 10 has guide portions 92 of positioning members 9 arranged on both sides in a front view, and guide protrusions arranged in guide grooves 101 formed on both side surfaces of the operation unit 10. According to 93, it can operate only in the vertical direction. As described above, since the side surface of the tank body B to which the flange member 6 is attached is substantially vertical, the operation unit 10 operates substantially parallel to the side surface (wall surface) of the tank body B.

The drain plug device composed of each of the above members is constructed as follows. Even if not particularly described, the connections between the members that require watertightness are those that are watertightly connected via a watertight member such as an adhesive or packing, if necessary.

First, the drainage device 2 and the connecting portion 7 are connected by an overflow pipe 71, and the drainage plug 1 and the drainage device 2 are attached to the opening formed at the bottom of the tank body B.
Next, with the sandwiched portion 94 of the positioning member 9 arranged on the back surface of the flange portion 61 of the flange member 6, the flange member 6 is inserted into the opening formed on the side surface of the tank body B, and is screwed with the connecting portion 7. Match. At this time, the positioning member 9 is rotatable with respect to the flange member 6, and its direction can be freely changed. Therefore, the operator can grasp the positioning member 9 and proceed with the screwing of the flange member 6 and the connecting portion 7 in a predetermined direction, that is, in a position where the guide portion 92 faces in the vertical direction accurately. When the screwing is completed, as shown in FIG. 8, the flange member 6 and the connecting portion 7 are fixed to the side surface of the tank body B, and the sandwiched portion 94 is the back surface of the flange portion 61 of the flange member 6 and the tank. It is sandwiched between the side surfaces of the body B, and the positioning member 9 is fixed so as not to rotate.
Next, the attached portion 54 of the release wire 5 is inserted into the attachment portion 82 of the wire receiver 8, the protrusion 55 is fitted into the notch 83, and then the valve shaft 53 side of the release wire 5 is relative to the flange member 6. To insert. At this time, the release wire 5 is guided by the overflow pipe 71, and the valve shaft 53 is easily inserted into the drainage device 2 from the branch pipe portion 21. Then, the operator pulls out the valve shaft 53 from the inside of the drain plug 1, fixes the valve shaft 53 to the wire fixing portion 13, and then engages the claw portion of the wire fixing portion 13 with the convex portion of the drain plug 1 to fix the valve shaft 53. To do. The inner cylinder of the valve shaft 53 protrudes from the wire fixing portion 13 of the fixed release wire 5, and the construction process on the drain port 12 side is completed by fitting the valve member 3 into the inner cylinder.
Next, as shown in FIG. 9, the wire receiver 8 is inserted into the flange member 6. Along with the insertion, the claw portion 81 of the wire receiver 8 comes into contact with the step portion 62 of the flange member 6 and gets over the step portion 62 while being deformed so as to bend inward. Then, when the claw portion 81 reaches the back surface of the step portion 62, the claw portion 81 returns to its original shape by its own restoring force, and the attachment of the wire receiver 8 is completed. At this time, the wire receiver 8 is rotatable with respect to the flange member 6, but when the insertion is completed, the wire receiver 8 cannot rotate due to the engagement between the guide portion upper portion 95 and the guide portion lower portion 84. Is fixed to.
Finally, the operation unit 10 is arranged between the guide units 92 of the positioning member 9, and all the construction steps of the drain plug device are completed. At this time, the guide portions 92 are arranged on both sides of the operation portion 10 in the front view, and the guide protrusions 93 are arranged in the guide groove 101. Therefore, in the construction completed state, the operation unit 10 can operate only in the vertical direction, and cannot operate in any other direction.

The construction of the drain plug device of the present invention is as described above, but the above construction procedure is an example, and is appropriately changed according to the relationship between the pipes on the downstream side and the like.
In the present invention, since the operation mechanism 4 has a mounting structure by screwing the flange member 6 and the connecting portion 7, the connecting portion 7 is arranged on the back side of the tank body B and inside the tank body B. The flange member 6 can be tightened and attached. Therefore, even if there is no space for work on the back side of the tank body B, the construction can be performed without any problem.

When performing maintenance on the drain plug device of the present invention, it is possible to remove the drain plug device by using the reverse procedure of the above construction procedure.

The drain plug device of the present invention operates as follows.

First, as shown in FIG. 1, in a state where the valve member 3 is lowered, the packing fitted around the valve member 3 is in watertight contact with the upper surface of the drain plug 1 and is inside the tank body B. It is possible to store hot water.
When the upper surface of the operation unit 10 is directly pushed downward by the user from the lowered state of the valve member 3, the inner wire 52 and the lock shaft 88 are pushed down. At this time, the inner wire 52 slides in the outer tube 51 toward the valve member 3, and the inner cylinder protrudes from the outer cylinder to raise the valve member 3. Further, as the operation unit 10 is pushed down, the lock shaft 88 is also lowered, and the lock mechanism 87 is operated to maintain the raised state of the valve member 3.

When the upper surface of the operation unit 10 is pushed downward again by the user from the raised state of the valve member 3, the inner wire 52 and the lock shaft 88 are pushed down. At this time, the lock shaft 88 is lowered again to release the holding of the raised state of the valve member 3, the valve member 3 is lowered by the action of its own weight and the spring, and the operating portion 10 is also returned to the original position shown in FIG. And return.

As described above, the drain plug device of the present invention can switch between the ascending state and the descending state of the valve member 3 each time a pushing operation is applied to the operation unit 10. When the valve member 3 is in the ascending state, the hot water or the like stored in the tank body B is discharged from the drain port 12, and when the valve member 3 is in the descending state, the hot water or the like can be stored in the tank body B. Become. On the other hand, when a predetermined amount or more of hot water or the like is stored in the tank body B, the hot water or the like flows into the overflow port 63 from the lower surface of the operation unit 10, and flows from the branch pipe portion 21 to the drainage device 2 through the overflow pipe 71. Inflow.

In the present invention, since the wire receiver 8 is rotatable with respect to the flange member 6, the wire receiver 8 can be adjusted in a predetermined direction regardless of the mounting position of the flange member 6. On the other hand, if the wire receiver 8 and the operating portion 10 are rotatable around the flange member 6, the operating portion 10 may be oriented in a direction other than a predetermined direction, which may reduce the design and operability. However, in the present invention, since the positioning member 9 positions the wire receiver 8 and the operating portion 10, the design and operability are not impaired.

In the above embodiment, for reasons such as designability, the direction in which the operation unit 10 provided on the substantially vertical wall surface operates accurately in the vertical direction is the "desired predetermined direction". The direction of operation of the operation unit 10 is determined by the direction in which the wire receiver 8 is attached. That is, in order for the operation unit 10 to be arranged in a predetermined direction, the wire receiver 8 needs to be attached in the direction in which the operation unit 10 is arranged in the predetermined direction.
Therefore, in the present embodiment, when the wire receiver 8 is attached to the flange member 6, the wire receiver 8 is configured to be rotatable with respect to the flange member 6. Therefore, in the above embodiment, when the operation unit 10 is attached to the wire receiver 8, the wire receiver 8 is already fixed so as not to be rotatable, but the direction in which the wire receiver 8 is fixed can be adjusted steplessly. is there. Therefore, the positioning member 9 makes it possible to attach the wire receiver 8 to the flange member 6 in a predetermined direction in advance, and as a result, the operation unit 10 can be attached in a predetermined direction.

If necessary, the wire receiver 8 is first attached to the flange member 6, the wire receiver 8 is rotated to adjust the direction, and then the position and direction are adjusted by the positioning member 9 according to the direction. It may be configured to be fixed.

Although the first embodiment of the present invention is as described above, the present invention is not limited to the configuration of the first embodiment, and various shape changes can be made without departing from the gist of the invention.
For example, as in the second embodiment shown in FIG. 10, the operation unit 10 may have a structure that operates in a substantially horizontal direction, and as in the third embodiment shown in FIG. 11, the operation unit 10 moves in the rotation direction. It may be a working structure. Further, the operation unit 10 may have a structure in which a pushing operation is applied obliquely downward.
Further, the wall surface on which the flange member 6 and the operation unit 10 are attached may be attached to various wall surfaces such as the top surface of the tank body B and the wall surface of the bathroom in addition to the side surface of the tank body B. That is, when the operation unit 10 operates in a direction including a substantially parallel direction component with respect to the wall surface to which the flange member 6 is attached, the operation unit 10 needs to be arranged in a predetermined direction, and such a drain plug device The present invention is useful.

Further, in the first embodiment, the positioning member 9 fixed the operation unit 10 and the wire receiver 8 so as not to be rotatable, but fixed either the wire receiver 8 or the operation unit 10 according to the mode of the operation mechanism. The structure may be such that That is, in the case where the operation unit 10 operates in the rotation direction as in the third embodiment, only the wire receiver 8 may be fixed so as not to rotate.

1 Drain plug 12 Drain port 13 Wire fixing part 2 Drainer 21 Branch pipe part 3 Valve member 4 Operation mechanism 5 Release wire 51 Outer tube 52 Inner wire 53 Valve shaft 54 Attached part 55 Protrusion 6 Flange member 61 Flange part 62 Step part 63 Overflow port 7 Connecting part 71 Overflow pipe 8 Wire receiving 81 Claw part 82 Mounting part 83 Notch 84 Induction part lower part 841 Engaging part 85 Groove part 86 Casing 87 Locking mechanism 88 Lock shaft 89 Wire holding 9 Positioning member 91 Opening 92 Guide Part 93 Guide protrusion 94 Hold part 95 Guide part upper part 951 Engagement part 96 Groove part 10 Operation part 101 Guide groove B Tank body

Claims (6)

The drainage port provided on the tank body and
In a drain plug device consisting of an operation mechanism that raises and lowers a valve member based on an operation applied to an operation unit to open and close a drain port.
The above operation mechanism
A release wire that transmits the operation applied to the operation unit to the valve member,
Flange members mounted on the wall away from the drain
A wire receiver that is rotatably arranged inside the flange member and holds the end of the release wire .
A drain plug device including a positioning member that non-rotatably fixes an operation unit or a wire receiver . The drain plug device according to claim 1, wherein the operation unit performs an operation including a parallel direction component with respect to a wall surface to which a flange member is attached. The positioning member
The drain plug device according to claim 2 , further comprising a guide unit that guides the operation of the operation unit. The positioning member is
Drain plug device according to any one of claims 1 to 3, characterized in that it is clamped in a rotationally fixed manner by the flange member and the wall. The wire receiver
It has a ring portion having an outer diameter substantially the same as the inner peripheral surface of the flange member, and has a ring portion.
The release wire
The drain plug device according to any one of claims 1 to 4 , wherein the drain plug device is held at a position inclined with respect to the central axis of the ring portion of the wire receiver. The wire receiver
It has a ring portion having an outer diameter substantially the same as the inner peripheral surface of the flange member,
The release wire
The drain plug device according to any one of claims 1 to 4, wherein the drain plug device is held at a position different from the center of the ring portion of the wire receiver.

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