JP2007204915A - Release wire of remote-controlled drain valve unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a release wire which prevents an outer tube from being flawed by caulking, and which is prevented from buckling during and after construction. <P>SOLUTION: A synthetic-resin outer end 10, which is provided at both the ends or one end of the outer tube 6, connects the outer tube 6 and another member of a remote-controlled drain valve unit to each other; a flange part 7 in a flange shape is constituted protrusively outward at an end on the side with the outer end 10; and the release wire 5 is insert-molded in the outer end 10. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a release wire for a remotely operated drain plug device.

As a conventionally well-known remote-operated drain plug device, for example, there is a remote-operated drain plug device shown in FIG. A conventional example of the remote control type drain plug device shown in FIG. 8 will be described below with reference to the drawings.
The release wire of the remote control type drain plug device of the conventional example illustrated in FIG. 8 is configured by a drain plug, a release wire, an operation unit, a holding mechanism unit, an elbow member, and the like described below.
The drain plug has a cylindrical shape and is provided with a drain outlet for allowing drainage to flow therein, and is provided on the bottom surface of a tank body such as a wash bowl or a bathtub.
The elbow member is a member connected to the drain plug through an opening provided on the bottom surface of the tank body, and has an outlet for discharging the drainage from the drain to the sewage side, and a release wire to be described later. It comprises a connection for connecting.
The valve body is a member that closes the drain port of the drain plug, and opens / closes the drain port by moving up and down by a release wire described later.
The mounting portion is a member disposed and fixed in the drain outlet of the drain plug, and an outer tube end portion of a release wire, which will be described later, is connected to the lower end, and the end portion of the inner wire is penetrated into the inside thereof. Be placed.
The operation part is a member that is placed in any part, such as a washstand or a counter for a bathtub, etc., and pushes in the operation buttons provided to operate the holding mechanism (not shown), opening the drain outlet It is a member that performs an operation such as closing / closing the drain port by fixing / releasing to the closed state.
As shown in FIG. 9, the release wire includes an outer tube, an inner wire, an outer end, and a rotating ring.
In detail, as shown in FIG. 10, the outer tube has a cylindrical shape and is provided with flexibility in the lateral direction, and is provided with rigidity in the axial direction. In addition, the outer tube is made of a fluororesin (specifically, tetrafluoroethylene), and an end portion of the outer tube is integrally formed with a flange portion that protrudes outward.
The inner wire is slidably accommodated in the outer tube, and is constituted by an inner wire configured in a metal spring shape having flexibility in the side surface direction and rigidity in the axial direction. As described above, one end of the inner wire is connected to the lower end of the attachment portion by a method such as screwing or engagement, and the other end is connected to the operation portion. Although there is a difference in shape at both ends of the inner wire, a rod portion made of a rod-shaped metal material is provided by caulking and fixing in order to connect with other members.
The outer end is made of metal, and the flange portion of the outer tube is fitted inside and stored inside.
The rotating ring is a metal cylindrical ring, and constitutes a sharply pointed tip at one end. And it is comprised so that it may arrange | position between the outer periphery of the flange part of the said outer tube, and outer end. Moreover, a front-end | tip part is made to contact | abut a front-end | tip part to the flange part of an outer tube.
Then, the outer end and the rotating ring are caulked and fixed so that the outer tube does not come out of the outer end.
By caulking and fixing the outer end and the rotating ring, the portion fixed to the outer end is only the rotating ring, so that the outer tube can be rotatably connected to the outer end. When a strong tensile force is applied to the outer tube, the tip of the rotating ring does not bite into the flange portion of the outer tube and the outer tube is not pulled out from the outer end.
The outer tube is usually made of a soft resin such as a fluororesin, and is provided with a metal connection fitting for connecting to the mounting portion at the end of the outer tube. This end connection is fixed by caulking as shown in FIG.
The tube tube is a flexible hollow pipe-like member, one end is connected to the connection part of the elbow member, the other end is connected to the operation part, and the release wire is inserted through the inside, so that the release wire is inserted. Functions as a wire guide.

The above-described remote-operated drain plug device is applied to drainage equipment equipped with a tank body such as a wash basin and a bathtub as follows.
The drain plug and the elbow member are connected through an opening provided on the bottom surface of the tank body, and fixed to the bottom surface of the tank body. Next, the operation part is attached in the vicinity of the tank body such as a counter of the tank body, and the operation part and the connection part of the elbow member are connected via a tube tube.
Next, after connecting one end of the release wire to the holding mechanism portion, the other end side is inserted through the tube tube from the operation portion to reach the elbow member. At this time, the length is adjusted in advance, and when one end of the release wire reaches the elbow member, the holding mechanism portion is accommodated and fixed in the operation portion.
Next, the connection fitting of the release wire is pulled up from the drain outlet of the drain plug, and the end portion of the outer tube is connected and fixed to the lower end of the attachment portion using the wire cover, and the inner wire is inserted into the attachment portion.
Further, the mounting portion is fixed in the drain plug, and the valve body is connected and fixed to the end portion of the inner wire, so that the construction of the remotely operated drain plug device is completed.

The release wire of the remote-operated drain plug device thus constructed operates as follows.
First, an operation is performed on the operation unit so that the drain plug closes the drain port. At this time, since the holding mechanism provided in the operation unit does not fix the operation of the inner wire in the release wire, the valve body is lowered by its own weight, and the drain port is closed.
Next, when the operation is performed on the operation button to operate the holding mechanism, and the inner wire is fixed in a state of protruding toward the valve body, the inner wire protrudes, and the rod portion at the tip rises. The valve body connected to is lifted, and the drain port is opened.
When the operation button is operated again from this state to operate the holding mechanism in the operation unit and release the inner wire, the inner weight of the valve body is retracted, the inner wire is retracted, the valve body is lowered and drained. The mouth is closed.
Thereafter, by repeating this operation, the opening and closing of the drain port can be remotely and freely operated by the operation unit.

JP 2002-88553 A Japanese Patent Laid-Open No. 08-177100

The release wire of the remote control type drain plug device as in the conventional example has the following problems.
Since the outer end is made of metal, caulking is indispensable. However, since this caulking is caulked so that the metal bites inward, when the caulking is directly performed on the outer tube, a sharp metal is formed on the outer tube. The outer tube is scratched or broken in the worst case. In order to prevent this, the metal rotating ring as described above is formed, and the outer tube can be rotated and the outer tube is not damaged. However, when such a metal outer end or rotating ring is used, since the material is metal, there is a problem that the unit price of the member becomes effective.
In addition, the metal outer end and the rotating ring have caused rust and the like.

Remotely-operated drain plug devices to which release wires can be attached are often attached to washstands and bathtubs, but when such construction sites are installed, strong pulling, bending, twisting, etc. on the release wire Often, this stress is applied. During the construction, the release wire is buckled due to the stress applied, and the opening / closing of the valve body often does not operate normally.

Therefore, the release wire of the remote-operated drain plug device of the present invention was invented to solve the following problems.
1. It prevents the outer end, which is a connecting member in the release wire of the remote-operated drain plug device, from generating rust and degrading the performance.
2. Since the material is a metal, the cost of components has been increased, and the cost of components is reduced by using synthetic resin.
3. Does not cause scratches on the outer tube resulting from caulking.
4). Even if the release wire is twisted after or during construction, the release wire does not buckle.
5). Prevents buckling due to bending of the release wire located under the valve body after or during construction.

The release wire of the remote-operated drain plug device according to claim 1 of the present invention includes a tank body 2 having a drain port 1 at the bottom and a valve body 3 at the drain port 1, and a valve body 3 of the drain port 1. Remote control of the opening / closing of the outer tube 6, the outer tube 6 which is cylindrical and flexible in the lateral direction and rigid in the axial direction, and is slidably accommodated in the outer tube 6 The release wire 5 is arranged to communicate with the operation unit 4 and the drain port 1 and is configured from an inner wire 8 having flexibility in the side surface direction and rigidity in the axial direction. In the release wire 5 of the remote-operated drain plug device, the outer tube 6 and the other member of the remote-operated drain plug device, which are provided at both ends or one end of the outer tube 6, are connected. Resin outer end 10 and less And the flange portion 7 configured to protrude outward in the shape of a hook at the end portion of the outer tube 6 on the side provided with the outer end 10, and the outer end 10 with respect to the release wire 5. A release wire for a remote-operated drain plug device, which is insert-molded.

The release wire of the remote-controlled drain plug device according to claim 2 of the present invention constitutes a storage portion 11 formed inside the outer end 10 as a result of insert molding, and the storage portion 11 includes an outer tube. The above paragraph 0009 is characterized in that the engaging portion 12 for accommodating the 6 flange portions 7 and for engaging the outer tube 6 so as not to come out of the outer end 10 is directed toward the inner surface. It is a release wire of the remote-control type drain plug device of description.

The release wire of the remote-operated drain plug device according to claim 3 of the present invention is configured such that the outer end 10 is configured at least on the drain port 1 side of the remote-operated drain plug device and connected to the outer end 10. The remote-operated drain plug according to paragraph 0009 or paragraph 0010, characterized in that the wire cover 14 is configured to guide the inner wire 8 while the inner wire 8 is inserted through the tube. It is a release wire of the device.

The release wire of the remote-operated drain plug device according to claim 4 of the present invention is configured such that the flange portion 7 of the outer tube 6 is formed separately from the outer tube 6 and is press-fitted into the outer tube 6. The release wire for a remote-operated drain plug device according to any one of paragraphs 0009 to 0011, wherein

The release wire for a remotely operated drain plug device according to claim 5 of the present invention is characterized in that the flange portion 7 of the outer tube 6 is formed integrally with the outer tube 6. It is a release wire of the remote-control type drain plug device as described in any one of these.

The remote-control drain plug device according to claim 6 of the present invention is the remote wire according to any one of paragraphs 0009 to 0013, wherein the outer tube 6 is made of a fluororesin. It is a release wire of an operation type drain plug device.

The release wire of the remote-operated drain plug device according to claim 7 of the present invention is characterized in that only the outer end 10 and the flange portion 7 of the outer tube 6 are bonded at the time of insert molding. The release wire of the remote-operated drain plug device according to any one of 0012 or paragraph 0014.

The release wire of the remote-operated drain plug device according to claim 8 of the present invention is configured such that the engaging portion 12 of the outer end 10 is configured by biting resin into the outer tube 6 at the time of insert molding of the outer end 10. The release wire for a remote-operated drain plug device according to any one of paragraphs 0009 to 0015, characterized in that it is a release wire.

The release wire of the remote-operated drain plug device according to claim 9 of the present invention comprises a rigid rod portion 9 accommodated in the wire cover 14 at the end of the inner wire 8 on the drain outlet 1 side. The release wire for a remote-operated drain plug device according to any one of paragraphs 0009 to 0016, characterized in that:

The release wire of the remote-operated drain plug device according to claim 10 of the present invention is characterized in that any one or all of the wire cover 14, flange portion 7 and rod portion 9 are made of synthetic resin. It is a release wire of the remote-operated drain plug device according to any one of paragraphs 0009 to 0017.

The release wire of the remote-operated drain plug device according to claim 11 of the present invention is a bend protection portion 16 that restricts the bend of the release wire 5 that is formed integrally or separately with the outer tube 6 of the release wire 5. The release wire for a remote-operated drain plug device according to any one of paragraphs 0009 to 0018, characterized in that:

The release wire of the remote control type drain plug device of the present invention has the following effects.
Since the outer end 10 is made of synthetic resin and the outer end 10 is insert-molded with respect to the release wire 5, the outer end 10 can be made of synthetic resin. The outer tube 6 and the outer end 10 can be connected without being scratched as in a metal caulking process. And since the outer end 10 is made of a synthetic resin, rust does not occur as compared with a conventional metal, so that deterioration due to rust can be prevented.
The present invention according to claim 2 constitutes a storage portion 11 formed inside as a result of insert molding the outer end 10, and stores the flange portion 7 of the outer tube 6 in the storage portion 11, and Since the locking portion 12 for locking the outer tube 6 so as not to come out of the outer end 10 is formed toward the inner surface, the outer tube 6 is more firmly connected from the outer end 10, and the outer end 10 Thus, the outer tube 6 will not come out.
According to the third aspect of the present invention, when the inner wire 8 advances relative to the outer tube 6 by forming the guide of the inner wire 8 while the inner wire 8 is inserted into the inside of the cylinder. Since it is not exposed to the outside, it acts as a guide for the inner wire 8 and can prevent the release wire 5 from buckling.
Since the flange portion 7 of the outer tube 6 is configured separately from the outer tube 6 and is press-fitted into the outer tube 6 in the present invention, the outer end 10 and the outer tube 6 are Even if materials that cannot be bonded by insert molding are used, the flange portion 7 can be bonded to the outer end 10 by using insert molding.
According to the fifth aspect of the present invention, since the flange portion 7 of the outer tube 6 is integrally formed with the outer tube 6, the number of work steps is reduced because the step of press-fitting the flange portion 7 is reduced. In addition, cost reduction by the work point source is achieved.
According to the sixth aspect of the present invention, since the outer tube 6 is made of fluororesin, the outer tube 6 can be made of resin.
In the present invention described in claim 7, since only the outer end 10 and the flange portion 7 of the outer tube 6 are bonded at the time of insert molding, the outer tube 6 is not bonded to the outer end 10, so the outer tube 6 Since it rotates with respect to the end 10, even if a twisting stress occurs during or after the construction of the release wire 5, the outer wire 6 does not cause an excessive stress on the release wire 5.
In the eighth aspect of the present invention, since the engaging portion 12 of the outer end 10 is configured by biting resin into the outer tube 6 at the time of insert molding of the outer end 10, the outer end 10 from the outer end 10 is more firmly formed. The tube 6 can be prevented from coming off.
According to the ninth aspect of the present invention, since the rigid rod portion 9 accommodated in the wire cover 14 is configured at the drain port 1 side end portion of the inner wire 8, the valve body 3 and the rod portion 9 are directly connected. Therefore, it can operate smoothly and cope with the recent trend toward lower floors.
In the present invention according to claim 10, since any one or all of the wire cover 14, the flange portion 7, and the rod portion 9 are made of synthetic resin, rust generated from the metal is prevented, and the metal caulking process It is possible to reduce costs and reduce costs by changing materials.
The present invention according to claim 11 comprises a bend protection portion 16 that restricts the bend of the release wire 5 that is formed integrally with or separately from the outer tube 6 of the release wire 5. Even in the part where the bending angle of the release wire 5 is the most acute angle, the bending angle is regulated to such an extent that the release wire 5 does not buckle, so that the bending of the release wire 5 can be suppressed. Buckling can be prevented.

Embodiments of the present invention will be described below with reference to the drawings.
The release wire 5 of the remote-operated drain plug device shown in FIGS. 1 to 5 includes a drain plug 18, a release wire 5, an operation unit 4, a holding mechanism unit, an elbow member 19, and the like described below. .
The drain plug 18 has a cylindrical shape and is provided with a drain port 1 for flowing waste water therein, and is provided on the bottom surface of the tank body 2 such as a wash bowl or a bathtub.
The elbow member 19 is a member connected to the drain plug 18 through an opening provided in the bottom surface of the tank body 2 and the like, and a discharge port for discharging the waste water from the drain port 1 to the sewage side, which will be described later. And a connecting portion for connecting the release wire 5 to be connected.
The valve body 3 is a member that closes the drain port 1 of the drain plug 18, and opens / closes the drain port 1 by moving up and down by a release wire 5 described later.
The attachment portion 17 is a member that is disposed and fixed in the drain outlet 1 of the drain plug 18, and is connected to an end of an outer tube 6 of a release wire 5, which will be described later, at the lower end and penetrates into the inside thereof. The end of the inner wire 8 is arranged.
The operation unit 4 is a member arranged in an arbitrary part such as a washstand or a counter such as a bathtub. The operation unit 4 is operated to operate a holding mechanism unit (not shown) by pushing in an operation button or the like. It is a member that performs an operation such as closing and closing the drain port 1 by fixing / releasing to a state where is opened.
As shown in FIGS. 2 to 3, the release wire 5 includes an outer tube 6, an inner wire 8, an outer end 10, a wire cover 14, and a rod portion 9.
The outer tube 6 is cylindrical and has flexibility in the side surface direction and rigidity in the axial direction. The outer tube 6 is made of a fluororesin (specifically, tetrafluoroethylene), and a flange portion 7 made of a synthetic resin, which is configured to protrude outwardly, is press-fitted into the end of the outer tube 6. Configured. When the flange portion 7 is press-fitted in this manner, the outer tube 6 is expanded in diameter by the press-fitting.
The inner wire 8 is slidably accommodated in the outer tube 6 and is configured in a metal spring shape having flexibility in the side surface direction and rigidity in the axial direction. As described above, one end of the inner wire 8 is connected to the lower end of the mounting portion 17 by a method such as screwing or engagement, and the other end is connected to the operation portion 4. Although there are differences in shape at both ends of the inner wire 8, rod parts 9 made of a rod-shaped synthetic resin are fixedly provided for connection with other members.
The outer end 10 is formed by insert molding with a synthetic resin material on the outer periphery of the flange portion 7 of the outer tube 6. As a result of insert molding of the outer end 10 into the outer tube 6, a space accommodated so as to surround the flange portion 7 and the outer tube 6 is formed. In the present specification, the stored space is referred to as a storage portion 11 for convenience.
Further, since the outer tube 6 has the flange portion 7 attached thereto by press-fitting, the end portion of the outer tube 6 has a configuration in which the diameter is increased by the press-fitting of the flange portion 7. At this time, the insert-molded outer end 10 is formed such that the storage portion 11 surrounds the end portion of the outer tube 6 and the outer edge of the flange portion 7. The outer end 10 is formed also on the outer periphery of the enlarged diameter portion formed by press-fitting the flange portion 7 of the outer tube 6 and the outer diameter of the outer portion of the outer tube 6. A step portion of the outer end 10 formed in the step of the portion is configured as a locking portion 12, and the locking portion 12 prevents the outer tube 6 from being pulled out from the outer end 10.
By performing such insert molding, the flange portion 7 and the outer end 10 of the outer tube 6 are bonded and fixed. Since the outer tube 6 is not made of a fluororesin made of tetrafluoroethylene, it is not bonded and fixed to the outer end 10, and the outer tube 6 is connected and fixed to the outer end 10 so as to rotate. Since the outer tube 6 is locked to the locking portion 12 of the outer end 10, the outer tube 6 is not pulled out from the outer end 10 in the axial direction.
The wire cover 14 has a cylindrical shape, and is arranged so that the inner wire 8 is slidably inserted therein, and functions as a guide for the inner wire 8. A female screw 15 for screwing with the male screw 13 of the outer end 10 is formed on the inner periphery of the end portion. And the rod part 9 mentioned later is also accommodated inside so that a movement is possible.
The rod portion 9 is made of synthetic resin, is connected and fixed to the end portion of the inner wire 8, and is detachably attached to the valve body 3. Further, it is normally housed in the wire cover 14 and moves forward and backward as the inner wire 8 advances and retracts.
The tube 20 is a flexible hollow pipe-shaped member, one end of which is connected to the connecting portion of the elbow member 19 and the other end thereof is connected to the operating portion 4, and the release wire 5 is inserted through the inside thereof. Thus, it functions as a guide for the release wire 5.

The release wire of the above-described remote-operated drain plug device is applied to drainage equipment provided with the tank body 2 such as the bathtub shown in FIG.
First, in a factory or the like, the flange portion 7 is press-fitted into the outer tube 6 in advance, and the rod portion 9 is connected to the end portion of the inner wire 8. Next, the outer end 10 can be insert-molded into the flange portion 7 of the outer tube 6 so that the outer end 10 and the outer tube 6 can be rotatably connected. Then, the female screw 15 of the wire cover 14 and the male screw 13 of the outer end 10 are screwed and fixed so that the inner wire 8 is not exposed and buckled even if the inner wire 8 advances and retreats.
After the release wire 5 is configured in such a state, each member of the remote-controlled drain plug device including the release wire 5 is delivered to the construction site.
Next, at the construction site, the drain plug 18 and the elbow member 19 are connected through an opening provided on the bottom surface of the tank body 2 and fixed to the bottom surface of the tank body 2. Next, the operation unit 4 is attached in the vicinity of the tank body 2 such as a counter of the tank body 2, and the operation unit 4 and the connection portion of the elbow member 19 are connected via the tube tube 20.
Next, one end of the release wire 5 is connected to the holding mechanism unit, and the other end side is inserted into the tube tube 20 from the operation unit 4 to reach the elbow member 19. At this time, the length is adjusted in advance, and when the one end of the release wire 5 reaches the elbow member 19, the holding mechanism portion is accommodated and fixed in the operation portion 4.
Next, the end of the release wire 5 is pulled up from the drain port 1 of the drain plug 18. Further, as shown in FIG. 4 or 5, the end portion of the outer tube 6 is connected and fixed to the lower end of the attachment portion 17 using the wire cover 14, and the wire cover 14 of the inner wire 8 is attached to the attachment portion 17. Insert inside.
Further, the mounting portion 17 is fixed in the drain plug 18 and the valve body 3 is connected and fixed to the end portion of the inner wire 8 to complete the construction of the remote control type drain plug device.
At this time, even if stress such as torsion is applied to the release wire 5 during construction as described above, the outer tube 6 is rotatable with respect to the outer end 10, so that excessive stress is applied to the release wire 5. Therefore, the release wire 5 is not cramped.

The release wire 5 of the remote-operated drain plug device thus constructed operates as follows.
First, an operation is performed on the operation unit 4 so that the drain plug 18 closes the drain port 1. At this time, since the holding mechanism provided in the operation unit 4 does not fix the operation of the inner wire 8 in the release wire 5, the valve body 3 is lowered by its own weight, and the drain port 1 as shown in FIG. 4. Is closed.
Next, when the operation is applied to the operation button to operate the holding mechanism portion and the inner wire 8 is fixed in a state of protruding toward the valve body 3, the inner wire 8 is protruded, and the rod portion 9 at the tip is raised. Then, the valve body 3 connected to the tip is lifted, and the drain port 1 is opened as shown in FIG.
When the operation button is operated again from this state to operate the holding mechanism portion in the operation portion 4 and the inner wire 8 is released from the fixed state, the inner weight 8 moves backward due to the weight of the valve body 3 and the inner wire 8 moves backward. The body 3 descends and the drain port 1 is closed as shown in FIG.
Thereafter, by repeating this operation, the drain port 1 can be opened and closed remotely and freely by the operation unit 4.

The embodiments of the present invention are as described above. However, the present invention is not limited to the above-described embodiments, and can be freely changed without departing from the gist of the invention.
For example, as shown in FIG. 6, a bending protection portion 16 that restricts the bending of the release wire 5 may be formed in the release wire 5 corresponding to the position directly below the valve body 3. By doing in this way, even if the bending angle of the bent portion of the release wire 5 immediately below the valve body 3 is an acute angle, the bending protection portion 16 is configured, so that the bending angle of the release wire 5 is set to the inner wire. Since 8 is suppressed to an angle at which it does not buckle, the bending angle of the release wire 5 can be suppressed. Therefore, it is possible to prevent buckling of the release wire 5 during construction.
Moreover, in the said Example, although the flange part 7 of the outer tube 6 is press-fitted and comprised, you may comprise this integrally with the outer tube 6 as shown in FIG.
Moreover, in the said Example, although the latching | locking part 12 is latched by the diameter-expanded part by the press injection of the outer tube 6 and the flange part 7, the omission of the outer tube 6 is prevented, but as shown in FIG. In addition, the connection with the outer end 10 constitutes a biting portion 22 as the locking portion 12 that contacts the flange portion 7 during insert molding, and the biting portion 22 is flanged even if a tensile stress is applied to the outer tube 6. The outer tube 6 is not pulled out from the outer end 10 by being engaged with the portion 7, so that it does not occur. Further, the outer tube 6 is not scratched. In the case where the biting portion 22 cannot be insert-molded with the outer end 10, there is no problem if only the biting portion 22 is connected to the outer end 10 by bonding or the like.
Moreover, although the structure etc. which make the bending | flexion protection part 16 separate or integral are shown, if it replaces with this, for example and it is set as the structure which attaches a hard seal member to the outer periphery of the outer tube 6, the same effect will be shown. Obtainable.

It is a partially omitted construction sectional view of the present invention. It is sectional drawing of the release wire of this invention. . It is a partial expanded sectional view of the release wire of the present invention. It is a partial expanded sectional view when the valve body at the time of use of this invention is closed. It is a partial expanded sectional view at the time of opening of the valve body at the time of use of the present invention. It is a partial expanded sectional view which shows other Examples. It is a partial expanded sectional view of the release wire which shows another Example. It is a partially omission construction sectional view showing a conventional example. It is sectional drawing of the release wire which shows a prior art example. It is a partial expanded sectional view of the release wire which shows a prior art example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Drain port 2 Tank body 3 Valve body 4 Operation part 5 Release wire 6 Outer tube 7 Flange part 8 Inner wire 9 Rod part 10 Outer end 11 Storage part 12 Locking part 13 Male screw 14 Wire cover 15 Female screw 16 Bending protection part 17 Attachment Part 18 Drain plug 19 Elbow member 20 Tube tube 21 Biting part

Claims (11)

A tank body 2 having a drain port 1 at the bottom and a valve body 3 at the drain port 1;
An operation unit 4 for remotely operating the opening / closing of the valve body 3 of the drain port 1;
An outer tube 6 having a cylindrical shape and having flexibility in the lateral direction and rigidity in the axial direction;
An inner wire 8 slidably accommodated in the outer tube 6 and having flexibility in the side surface direction and rigidity in the axial direction;
A release wire 5 arranged to communicate the operation unit 4 and the drain port 1,
In the release wire 5 of the remote-operated drain plug device composed of:
An outer end 10 made of a synthetic resin that is provided at both ends of the outer tube 6 or at one end, and connects the outer tube 6 and other members of the remote-operated drain plug device;
A flange portion 7 configured to protrude outwardly in a bowl shape at least on an end portion of the outer tube 6 provided with the outer end 10;
And configure each
A release wire for a remote-operated drain plug device, wherein the outer end 10 is insert-molded with respect to the release wire 5. The outer end 10 is formed with a storage portion 11 formed as a result of insert molding, the flange portion 7 of the outer tube 6 is stored in the storage portion 11, and the outer tube 6 is pulled out from the outer end 10. The release wire of the remote-operated drain plug device according to claim 1, wherein the locking portion 12 for locking so as not to face is configured toward the inner surface direction. The outer end 10 is configured at least on the drain outlet 1 side of the remote-controlled drain plug device,
2. The wire cover 14 according to claim 1, wherein the wire cover 14 is configured to guide the inner wire 8 while being inserted into the tube and connected to the outer end 10. The release wire of the remote-operated drain plug device according to 2. The flange portion 7 of the outer tube 6 is configured separately from the outer tube 6 and is press-fitted into the outer tube 6 to form the flange portion 7 according to any one of claims 1 to 3. Release wire for remote-controlled drain plug device. The release wire for a remote-operated drain plug device according to any one of claims 1 to 3, wherein the flange portion 7 of the outer tube 6 is formed integrally with the outer tube 6. The release wire of the remote-operated drain plug device according to any one of claims 1 to 5, wherein the outer tube 6 is made of a fluororesin. 7. The remote-operated drain plug according to claim 1, wherein only the outer end 10 and the flange portion 7 of the outer tube 6 are bonded at the time of insert molding. Equipment release wire. The remote portion according to any one of claims 1 to 7, wherein the engaging portion 12 of the outer end 10 is configured to bite resin into the outer tube 6 at the time of insert molding of the outer end 10. Release wire for operation type drain plug device. 9. The hard rod portion 9 accommodated in the wire cover 14 is configured at the end of the inner wire 8 on the drain outlet 1 side, according to claim 1. Release wire for remote-controlled drain plug device. The remote-operated drainage according to any one of claims 1 to 9, wherein any one or all of the wire cover 14, the flange portion 7, and the rod portion 9 are made of synthetic resin. Release wire for stopper device. 11. The bending protection portion 16 for restricting the bending of the release wire 5 configured integrally or separately with the outer tube 6 of the release wire 5 is configured. Release wire for remote-controlled drain plug device as described in 1.

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