JP6368896B2 - Remote-controlled drain plug device - Google Patents

Description

  The present invention relates to a remote-operated drain plug device that remotely opens and closes a drain port provided in a tank body such as a bathtub or a wash bowl.

Conventionally, a remote-operated drain plug device has been known as a device for remotely opening and closing a drain outlet provided on the bottom surface of a tank body such as a bathtub or a wash bowl.
A conventional remote-operated drain plug device has a drain plug that is attached to an opening of a tank body to form a drain port, a valve body that is disposed at the drain port, and an operation unit that is disposed at a position away from the drain port. And a release wire that connects the drain port and the operation unit, and a valve shaft that pushes up the valve body. The remote-operated drain plug device transmits the operation of the operation unit to the valve shaft by a release wire, and when the valve shaft pushes up the valve body, the valve body moves up and down to remotely open and close the drain port. It has a structure.

  The remote-operated drain plug device configured as described above is constructed as follows.

  First, the drain plug and the drain pipe are screwed together through the opening of the tank body. An operation unit is attached at a position away from the drainage port. Then, the release wire is inserted from the operation unit, and one end of the release wire is pulled out from the drainage port of the tank body using a tool or jig such as pliers and held at one end of the release wire. Attach to the drain plug. Thereafter, fixing the other end of the release wire to the operation unit completes the construction of the remote-operated drain plug device.

  In the conventional construction as described above, it has been very difficult to insert the release wire from the operation unit side or to pull out the release wire from the drain port. In addition, in the process of pulling out the release wire from the drain plug, when the release wire is pulled out forcibly, the release wire may be bent at a steep angle and may be broken.

Therefore, a structure for improving workability and preventing breakage of the release wire has been proposed, such as a structure in which a release wire and a wire receiver are previously attached to the drain pipe and a drain plug is screwed to the drain pipe.
In the remote-operated drain plug device described in Patent Document 1, a ring body is disposed in a drain pipe (pipe) so as to be able to advance and retreat in the axial direction. The ring body is biased toward the drain plug by the elastic member. In Patent Document 1, when the wire receiver is fixed to the ring body, the ring body biased by the elastic member comes into contact with the lower end of the drain plug, thereby positioning the wire receiver fixed to the ring body. It has become.

JP 2013-253416 A

  The remote-operated drain plug device described in Patent Document 1 is attached by pressing the wire receiver against the ring body when the wire receiver removed for maintenance is fixed to the ring body again. However, since the elastic member is disposed below the ring body, the elastic member contracts with the pressing, and it is difficult to fix the ring body.

  In view of the above problems, an object of the present invention is to provide a remote-operated drain plug device that improves workability and prevents damage to the device during construction.

The present invention according to claim 1 for solving the above-mentioned problem, a drain plug that forms a drain port at the bottom of the tank body,
A drain pipe connected to the drain plug;
A valve body that opens and closes the drain;
An operation unit for operating the valve body;
A release wire that transmits the operation of the operation unit to the valve body;
A wire receiver for fixing the release wire;
About remote-operated drain plug device consisting of
The drain pipe is attached so that the wire receiver can advance and retreat in the axial direction, and has an elastic member that biases the wire receiver upward.
The drain plug has a stopper with which the wire receiver urged by the elastic member comes into contact,
When the wire receiver urged by the elastic member comes into contact with the stopper, the wire receiver is arranged at an appropriate position .
The wire receiver is detachable from the drain pipe,
The stopper is detachable from the drain plug,
The remote-operated drain plug device is characterized in that the wire receiver can be detached from the drain plug by removing the stopper .

In the present invention according to claim 2 , the stopper is disposed inside the drain plug,
The remote-operated drain plug device according to claim 1, wherein the wire receiver is disposed inside the drain plug in a state where the wire receiver is in contact with the stopper.

According to a third aspect of the present invention, the remote-operated drain plug device includes a temporary holding portion that temporarily holds the wire receiver,
The remote-operated drain plug device according to claim 1 or 2 , wherein the wire receiver is brought into contact with the stopper by releasing the holding by the temporary holding portion after the drain pipe is attached to the drain plug. It is.

The present invention according to claim 4 includes a drain plug that forms a drain outlet at the bottom of the tank body,
A valve body that opens and closes the drain;
An operation unit body that forms an opening portion near the tank body or the tank body, a switch unit that performs an opening / closing operation of the drain port, and an operation unit that includes a joint member connected to the operation unit body from the back surface of the opening,
A release wire that transmits the operation of the operation unit to the valve body;
A wire receiver for fixing the release wire;
About remote-operated drain plug device consisting of
The joint member is attached so that the wire receiver can advance and retreat in the axial direction, and has an elastic member that urges the wire receiver toward the switch portion side,
The operation unit main body has a stopper with which the wire receiver urged by the elastic member comes into contact,
When the wire receiver urged by the elastic member comes into contact with the stopper, the wire receiver is arranged at an appropriate position .
The wire receiver is detachable from the joint member,
The stopper is detachable from the operation unit body,
The remote-operated drain plug device is characterized in that the wire receiver can be detached from the joint member by removing the stopper .

In the present invention according to claim 5 , the stopper is disposed inside the operation unit main body,
The remote-operated drain plug device according to claim 4 , wherein the wire receiver is disposed inside the operation portion main body in a state in which the wire receiver is in contact with the stopper.

As for this invention of Claim 6 , the remote-control type drain plug device is equipped with the temporary holding part which hold | maintains a wire receiver temporarily,
The remote-operated drain plug according to claim 4 or 5 , wherein the wire receiver is brought into contact with the stopper by releasing the holding by the temporary holding portion after the joint member is attached to the operation portion main body. Device.

According to the first aspect of the present invention, since the release wire can be arranged in the drain pipe before construction, the work of inserting the release wire into the drain pipe at the construction site becomes unnecessary. Further, since the wire receiver is positioned by coming into contact with the stopper, the wire receiver is always arranged at a suitable position regardless of the thickness of the tank body to be constructed.
In addition , since the wire receiver can be detached by removing the stopper, the maintainability is improved.
According to the second aspect of the present invention, since the wire receiver is disposed inside the drain plug, it is easy to adjust the allowance of the release wire.
According to the third aspect of the present invention, since the stress of the elastic member is not applied when the drain plug is attached, the attachment can be easily performed. In addition, it is possible to prevent excessive stress from being applied to the elastic member when the drain plug is attached.
According to this invention of Claim 4 , since it becomes possible to arrange | position a release wire in a joint member before construction, the operation | work which inserts a release wire in a joint member in a construction site becomes unnecessary. Further, since the wire receiver is positioned by coming into contact with the stopper, the wire receiver is always arranged at a suitable position regardless of the thickness of the place to be constructed.
In addition , since the wire receiver can be detached by removing the stopper, the maintainability is improved.
According to the present invention as set forth in claim 5 , since the wire receiver is disposed inside the operation portion main body, it is easy to adjust the release allowance of the release wire.
According to the sixth aspect of the present invention, since the stress of the elastic member is not applied when the operation portion main body is attached, the attachment can be easily performed. In addition, it is possible to prevent an unnecessary stress from being applied to the elastic member when the operation unit body is attached.

It is principal part sectional drawing which shows the whole structure of the remote control type drain plug device of this invention. It is sectional drawing which shows the structure by the side of a drain outlet. It is a disassembled perspective view which shows the structure by the side of a drain outlet. It is a perspective view which shows a stopper. It is (a) side view (b) bottom view which shows a drain pipe. (A) AA 'sectional drawing of FIG. 5 (b) B-B' sectional drawing. It is a perspective view which shows a wire receiver. It is sectional drawing which shows the construction process of this invention. It is sectional drawing which shows the process in which a drain plug screws together from the state of FIG. FIG. 10 is a cross-sectional view showing a state where screwing is completed from the state of FIG. 9. It is sectional drawing which shows 2nd embodiment of this invention. It is sectional drawing which shows 3rd embodiment of this invention. It is sectional drawing which shows the construction process of this invention. It is sectional drawing which shows the state which screwing of the drain plug was completed from the state of FIG. It is sectional drawing which shows the state which cancelled | released holding | maintenance of the temporary holding part from the state of FIG. It is principal part sectional drawing which shows the whole structure of 4th embodiment of this invention. It is sectional drawing which shows the structure by the side of an operation part. It is (a) side view (b) bottom view which shows an operation part main body. It is (a) AA 'sectional drawing of FIG. 18, (b) B-B' sectional drawing. It is sectional drawing which shows the construction process of this invention. It is sectional drawing which shows the process in which a drain plug is screwed from the state of FIG. FIG. 22 is a cross-sectional view showing a state where screwing is completed from the state of FIG. 21. It is sectional drawing which shows 5th embodiment of this invention.

  Hereinafter, the remote-operated drain plug device 1 of the present invention will be described with reference to the drawings. The following description is for facilitating understanding of the embodiment, and the present invention is not limited and understood by this. In the following embodiments, the upper, lower, left and right directions will be described with reference to the state shown in FIG.

  As shown in FIG. 1, the remote-operated drain plug device 1 of the present invention is a device for opening and closing an opening formed at the bottom of a tank B that is a bathtub, and is disposed at a position away from the opening. The operation applied to the operation unit 2 is transmitted to the valve body 8 through the release wire 3 and the valve body 8 is moved up and down to open and close the drain port 41 at the bottom of the tank body B. The remote-operated drain plug device 1 includes an operation unit 2, a release wire 3, a drain plug 4, a drain pipe 5, a wire receiver 7, and a valve body 8.

  The operation unit 2 is attached by clamping the side wall of the tank body B by screwing, and is connected to one end of the tube body and the release wire 3. The tube body is connected to the branch pipe portion 51 of the drain pipe 5 at the other end to form an overflow channel that continues to the drain pipe 5. Further, the release wire 3 is inserted into the tube body.

The release wire 3 includes an inner wire which is a stranded wire in which a metal is wound in a coil shape, and a hollow outer tube made of a synthetic resin. The inner wire has flexibility with respect to stress from the side surface and has rigidity with respect to stress from the axial direction, and is accommodated in the outer tube so as to be able to advance and retract. Further, the release wire 3 has a shaft portion 31 at one end, and the shaft portion 31 can be protruded by moving the inner wire forward and backward in the outer tube. Note that a lock mechanism is built in the shaft portion 31, and the protruding state of the shaft portion 31 can be locked.
Further, one end of the release wire is connected to the switch unit 11 of the operation unit 2 so that the release wire is disposed in the operation unit 2, and the other end (the shaft unit 31 side) is fixed to a wire receiver 7 described later. It is arranged in the drain plug 4.

As shown in FIGS. 2 and 3, the drain plug 4 is a cylindrical member having a flange portion at the upper end, and is inserted from above (surface) into the opening of the bottom of the tank body B, and inside the tank body B. A drain port 41 for discharging drainage is formed. Further, the drain plug 4 has a male screw formed on the outer periphery from the lower side to the lower end of the flange portion, and the drain pipe 5 is screwed in from the lower side (back side) of the opening. And the drain plug 4 and the drain pipe 5 are screwed together via packing, and are watertightly connected by clamping the circumference | surroundings of opening of the tank body B bottom part.
In addition, the drain plug 4 forms the inner groove part 42 over the perimeter in the middle of the inner circumference. A stopper 43 is disposed in the inner groove portion 42.
As shown in FIGS. 3 and 4, the stopper 43 is a ring member having a substantially C shape in plan view, and a knob 44 is formed by bending both ends inward. The stopper 43 is formed so that its outer diameter is larger than the inner diameter of the drain plug 4 and its inner diameter is smaller than the inner diameter of the drain plug 4 in a state where no stress is applied (to the stopper 43). Yes. The stopper 43 is in contact with the wire receiver 7 on its lower surface.

As shown in FIG. 2, the drain pipe 5 forms a conduit for draining the drainage discharged from the drain port 41 to a pipe (not shown) further downward (downstream side), and the drainage pipe 4 and the screw at the upper part. A female screw is provided, and a branch pipe portion 51 is provided on the side (right side in FIG. 2). Further, as shown in FIGS. 5 and 6, the drain pipe 5 has a groove 52 formed in the axial direction from the lower end to the middle on the inner periphery. As shown in the bottom view of FIG. 5 (b), the groove portion 52 is formed at four locations on the inner periphery of the drainage pipe 5, and the side surface of the groove portion 52 is inclined such that one is stepped and the other is inclined. Surface 53 is formed. The upper end of the groove 52 is an engaging portion 54 that engages with the claw portion 73 of the wire receiver 7. A step portion 55 is formed above the groove portion 52, and the elastic member 6 is placed thereon.
The branch pipe portion 51 is fitted with a flexible tube body, and forms a flow path where waste water overflowed from the operation portion 2 side joins. Further, the release wire 3 is inserted into the tube body, and the tube body also functions as a guide tube for the release wire 3. Here, the branch pipe portion 51 is provided with a plurality of substantially triangular ribs in cross-section in the outer periphery, and has a shape that prevents the tube body from coming off. The tube body may be made of flexible rubber or the like, or may be flexible due to the bellows shape.

  The elastic member 6 is a spring made of stainless steel and is disposed outside the wire receiver 7 and is placed on the step portion 55 to urge the wire receiver 7 upward.

  As shown in FIGS. 2 and 7, the wire receiver 7 has a substantially cylindrical shape and includes a fixing portion 71, a flange portion 72, and a claw portion 73. The fixing portion 71 is a cylindrical portion arranged at the center of the wire receiver 7 and fixes the shaft portion 31 of the release wire 3. The flange portion 72 is a flange portion that is formed at the upper end of the wire receiver 7 and extends outward. The flange portion 72 is urged upward by the elastic member 6 from the lower surface thereof, and the upper surface is directed to the stopper 43. It is in contact. That is, the position of the wire receiver 7 is determined by being pressed against the stopper 43 by the elastic member 6. The claw portions 73 are formed outwardly at the lower end of the wire receiver 7 and are formed at four positions at positions corresponding to the groove portions 52 of the drain pipe 5. In the construction completion state shown in FIG. The portion 54 is not engaged.

  A packing is fitted around the valve body 8, and the drain port 41 can be closed by contacting the packing and the drain plug 4 in the lowered state shown in FIG. 2. The valve body 8 is in contact with the end of the release wire 3 at the lower end.

  The remote-operated drain plug device 1 of the first embodiment operates as follows.

First, when the valve body 8 is lowered and the drain port 41 is closed, when the pushing operation is applied to the switch section 11 of the operation section 2, the inner wire of the release wire 3 is moved to the valve body 8 side. Slide in the outer tube toward
As the inner wire slides, the shaft portion 31 protrudes upward and pushes up the valve body 8 so that the packing fitted to the valve body 8 is separated from the drain plug 4 and the drain port 41 is opened.

  At this time, the locking mechanism provided in the shaft portion 31 is operated, and the protruding state of the shaft portion 31 is locked.

  Next, when the switch portion 11 is further pushed from the state where the drain port 41 is opened, the protruding state of the shaft portion 31 is released, and the valve body 8 is lowered. And the drain opening 41 is obstruct | occluded when the packing fitted to the valve body 8 contact | abuts to the drain plug 4 again.

  Thus, the remote-operated drain plug device 1 of the present invention can remotely open and close the drain port 41 by repeating the pushing operation of the switch unit 11.

  It should be noted that excessive stress is applied to the valve body 8, such as when the valve body 8 is stepped on when the drain port 41 is open, that is, when the valve body 8 is raised, with respect to the remote-operated drain plug device 1. Is applied, the shock absorber spring built in the shaft portion 31 contracts to absorb the stress. At this time, the elastic member 6 provided below the wire receiver 7 also contracts, and the stress can be absorbed by the contraction of the elastic member 6.

  The remote-operated drain plug device 1 of the first embodiment is attached as follows.

First, in a factory or the like, a stopper 43 is disposed in advance in the inner groove portion 42 of the drain plug 4. Further, the release wire 3, the elastic member 6, and the wire receiver 7 are disposed inside the drain pipe 5.
At this time, the elastic member 6 is disposed outside the wire receiver 7 and is placed on the step portion 55 to urge the wire receiver 7 upward. The wire receiver 7 supports and fixes the shaft portion 31 of the release wire 3 at the fixing portion 71, the claw portion 73 is disposed in the groove portion 52 of the drain pipe 5, and the claw portion 73 engages with the engaging portion 54. ing. That is, the wire receiver 7 is urged upward by the elastic member 6, but is held without dropping from the drain pipe 5 because the claw 73 is engaged with the engaging portion 54.
Next, the said drainage pipe 5 is arrange | positioned in the construction site on the lower surface (back surface) of opening of the tank B bottom part. At this time, packing is fitted into the upper surface of the drain pipe 5 and the opening of the bottom of the tank body B.
Then, the drain plug 4 is screwed into the drainage pipe 5 through the tank body B and the packing from above (surface) the opening of the bottom of the tank body B. (FIG. 8) Here, as shown in FIG. 9, when the screwing of the drain plug 4 and the drain pipe 5 is advanced, the lower surface of the stopper 43 of the drain pipe 5 and the upper surface of the wire receiver 7 come into contact. When the screwing is further advanced from this state, the elastic member 6 below the wire receiver 7 contracts, and the stopper 43 starts to push down the wire receiver 7. Since the elastic member 6 contracts while urging the wire receiver 7 upward, the wire receiver 7 is always in contact with the stopper 43.
When the screwing is sufficiently advanced and the drain plug 4 and the drain pipe 5 are fixed in a watertight manner with respect to the opening at the bottom of the tank body B, the position of the wire receiver 7 is determined as shown in FIG. At this time, the wire receiver 7 is arranged at a suitable position in the drain plug 4 by being urged by the elastic member 6 and contacting the stopper 43.
Finally, by attaching the valve body 8 to the shaft portion 31, the state shown in FIG.

  The remote-operated drain plug device 1 of the first embodiment performs maintenance according to the following procedure.

The knob 44 of the stopper 43 is gripped so that the ends of the stopper 43 are close to each other. At this time, the outer diameter of the stopper 43 is reduced, and the stopper 43 can be taken out from the inner groove portion 42 of the drain plug 4. When the stopper 43 is removed, the elastic member 6 contracted due to the wire receiver 7 coming into contact with the stopper 43 is expanded, and the claw 73 is engaged with the engaging portion 54 of the drain pipe 5. The wire receiver 7 rises.
Next, using a jig or the like, the wire receiver 7 is rotated counterclockwise. At this time, the nail | claw part 73 slides on the inclined surface 53 of the groove part 52, and when the nail | claw part 73 bends inward, it will remove | deviate from the groove part 52. FIG. That is, when the claw portion 73 is disengaged from the groove portion 52, the engagement between the claw portion 73 and the engagement portion 54 is released, the wire receiver 7 is pulled up from the drain port 41, and the release wire 3 is detached from the wire receiver 7 to release the release wire 3. Maintenance can be performed by removing the wire 3 from the apparatus.

  When attaching the wire receiver 7 again after maintenance, after fixing the end of the release wire 3 to the wire receiver 7, the wire receiver 7 is pushed in from the drain port 41, and the claw 73 is disposed in the groove 52, and then the stopper Just attach 43.

The remote control type drain plug device 1 according to the first embodiment of the present invention is as described above. However, in the remote control type drain plug 4 of the present invention, after the drain plug 4 is screwed into the drain pipe 5, the shaft portion is formed. Since the construction of the remote-operated drain plug device 1 can be completed simply by attaching the valve body 8 to 31, the drain plug 4 is screwed into the drain pipe 5 like the conventional remote-operated drain plug device 1. After that, the procedure of inserting the release wire 3 is not required, and the workability is excellent.
In the present invention, the wire receiver 7 is urged by the elastic member 6 and abuts against the stopper 43 while the drain plug 4 is screwed. Therefore, the wire receiver 7 is always in the same position inside the drain plug 4. Be placed. Therefore, even if the thickness of the tank body B varies, the position of the wire receiver 7 can always be kept constant.

In the present invention, when a strong impact is applied from above the valve body 8, such as when the rising valve body 8 is depressed, the shock absorber spring in the shaft portion 31 contracts to absorb the impact. However, the impact can also be absorbed by the elastic member 6 contracting. Therefore, the impact transmitted to the release wire 3 can be buffered, and the remote-operated drain plug device 1 can be prevented from being damaged. That is, in the first embodiment, the shock absorber spring is built in the shaft portion 31, but in the present invention, the elastic member 6 plays the role of a shock absorber, so the shock absorber spring is built in the shaft portion 31. Not necessary.
Further, since the wire receiver 7 is not engaged with any member, the wire receiver is not detached from the drain plug by an impact unlike the conventional remote-operated drain plug device. (Since the conventional wire receiver is engaged with the drain plug, etc., when an impact that cannot be absorbed by the shock absorber spring is applied, the wire receiver slides down from the engagement point.)

Although the first embodiment of the present invention is as described above, the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the gist of the invention.
For example, in the first embodiment, the drain port 41 is formed by the drain plug 4 which is a separate member from the tank body B, and the stopper 43 is provided inside the drain plug 4 which is the separate member, thereby enabling remote operation. Although the type drain plug device 1 is configured, the present invention is not limited to the configuration. That is, as in the second embodiment shown in FIG. 11, the drain plug 4 may be formed integrally with the bottom of the tank body B, and the tank body B may directly form the drain port 41. In the second embodiment, an inner groove portion 42 is provided at the bottom of the tank body B, and a stopper 43 is disposed in the inner groove portion 42.

Further, as in the third embodiment shown in FIGS. 12 to 15, a temporary holding portion 9 that temporarily engages with the claw portion 73 may be provided below the engaging portion 54 of the drain pipe 5. In the third embodiment, the claw portion 73 of the wire receiver 7 is engaged with the temporary holding portion 9 when the remote-operated drain plug device 1 is carried into the construction site. (Fig. 13)
In the construction of the third embodiment, first, as shown in FIG. 14, the drain plug 4 is screwed into the drain pipe 5 from the drain port 41 while the wire receiver 7 is fixed to the temporary holding portion 9. Then, after the drain plug 4 and the drain pipe 5 are fixed in a watertight manner with respect to the opening of the tank body B, when the engagement between the claw portion 73 and the temporary holding portion 9 is released, the wire receiver 7 is moved upward by the elastic member 6. As shown in FIG. 15, the upper surface of the wire receiver 7 comes into contact with the lower surface of the stopper 43 and the arrangement of the wire receiver 7 is completed. Finally, the valve body 8 is attached to the shaft portion 31 to complete the construction.
In the third embodiment, since the stress of the elastic member 6 is not applied when the drain plug 4 is screwed, the screwing can be advanced more easily than in the first embodiment. Further, no unnecessary twist is added to the elastic member 6 when the drain plug 4 is screwed.

  Next, a fourth embodiment will be described with reference to FIGS. 16 to 22.

  As shown in FIG. 16, the remote-operated drain plug device 1 of the present invention is a device for opening and closing an opening formed at the bottom of a tank body B that is a bathtub, and is disposed at a position away from the opening. The operation applied to the operation unit 2 is transmitted to the valve body 8 through the release wire 3 and the valve body 8 is moved up and down to open and close the drain port 41 at the bottom of the tank body B. The remote-operated drain plug device 1 includes an operation unit 2, a wire receiver 7, a release wire 3, a drain plug 4, a drain pipe 5, and a valve body 8.

The operation unit 2 is attached by clamping the edge of the tank body B by screwing, and is connected to one end of the tube body and the release wire 3. The tube body is connected to the branch pipe portion 51 of the joint member 12 at the other end to form a drainage flow path that continues to the joint member 12. Further, the release wire 3 is inserted into the tube body.
The operation unit 2 includes an operation unit main body 10 that forms an opening at the edge of the tank body B, a switch unit 11 that is disposed inside the operation unit main body 10 to open and close the drain port 41, and a back surface of the opening. It is formed of a joint member 12 connected to the operation unit main body 10.

As shown in FIG. 17, the operation portion main body 10 is a cylindrical member having a flange portion formed at the end, and is attached to the edge of the tank body B to form an opening. Further, the operation unit main body 10 has a male screw formed on the outer periphery from the lower side to the lower end of the flange portion, and the joint member 12 is screwed from the lower side (back surface) of the tank body B. And the operation part main body 10 and the coupling member 12 are screwed together via packing, and are watertightly connected by clamping the edge part of the tank body B. As shown in FIG. Note that a thin plate made of a stainless material is fitted on the upper surface of the operation unit main body 10 by caulking, thereby enhancing the design of the exposed surface.
Further, the operation portion main body 10 forms an inner groove portion 101 over the entire circumference in the middle of the inner circumference. A stopper 43 is disposed in the inner groove portion 101.
The stopper 43 is a member having the same shape as the stopper 43 of the fourth embodiment (FIG. 4), and is a ring member having a substantially C-shape in plan view, with both ends bent to the inside to form a knob 44. Yes. The stopper 43 is formed such that the outer diameter thereof is larger than the inner diameter of the operation section main body 10 and the inner diameter thereof is smaller than the inner diameter of the operation section main body 10 in a state where no stress is applied (to the stopper 43). Has been. The stopper 43 is in contact with the wire receiver 7 on its lower surface.

The joint member 12 forms a conduit for draining water that has entered the inside of the operation unit main body 10 to flow further downward (downstream), and includes a female screw that engages with the operation unit main body 10 in the upper part and is flexible in the lower part. Sex tube body is fitted. Here, the joint member 12 is provided with a plurality of substantially triangular ribs in cross section in the outer periphery of the lower end, and has a shape that prevents the tube body from coming off. The tube body may be made of flexible rubber or the like, or may be flexible due to the bellows shape. As shown in FIGS. 18 and 19, the joint member 12 has a groove 121 formed in the axial direction from the lower end to the middle on the inner periphery. As shown in the bottom view of FIG. 18B, the groove portion 121 is formed at four locations on the inner periphery of the joint member 12, and the side surface of the groove portion 121 is inclined such that one is stepped and the other is inclined. A surface 122 is formed. The upper end of the groove 121 is an engaging portion 123 that engages with the claw portion 73 of the wire receiver 7.
A step portion 124 is formed above the groove portion 121 and the elastic member 6 is placed thereon.

  The elastic member 6 is a spring made of stainless steel, and is disposed outside the wire receiver 7 and is placed on the step portion 124 to urge the wire receiver 7 upward.

  The wire receiver 7 has a substantially cylindrical shape, and includes a fixing portion 71, a flange portion 72, and a claw portion 73. The fixing portion 71 is a cylindrical portion arranged at the center of the wire receiver 7 and fixes the end portion of the release wire 3. The flange portion 72 is a flange portion that is formed at the upper end of the wire receiver 7 and extends outward. The flange portion 72 is urged upward by the elastic member 6 from the lower surface thereof, and the upper surface is directed to the stopper 43. It is in contact. That is, the position of the wire receiver 7 is determined by being pressed against the stopper 43 by the elastic member 6. The claw portions 73 are formed outward at the lower end of the wire receiver 7 and are formed at four positions at positions corresponding to the groove portions 121 of the joint member 12. However, in the construction completion state shown in FIG. The part 123 is not engaged.

  The switch unit 11 is disposed inside the operation unit main body 10 and is exposed from the tank body B so that the surface thereof is substantially flush with the upper surface of the operation unit main body 10, and is connected to the release wire 3 on the rear surface to perform a push operation. Is possible. In addition, the switch part 11 can advance / retreat the inner wire of the release wire 3 by the pushing operation.

The release wire 3 includes an inner wire which is a stranded wire in which a metal is wound in a coil shape, and a hollow outer tube made of a synthetic resin. The inner wire has flexibility with respect to stress from the side surface and has rigidity with respect to stress from the axial direction, and is accommodated in the outer tube so as to be able to advance and retract. Further, the release wire 3 can push up the valve body 8 by moving the inner wire forward and backward in the outer tube. Further, a lock mechanism is built in the end portion of the release wire 3, and the state in which the valve body 8 is pushed up can be locked.
Further, one end of the release wire is connected to the switch unit 11 so as to be disposed in the operation unit 2, and the other end (the side having the lock mechanism) is disposed in the operation unit main body 10. .

As shown in FIG. 16, the drain plug 4 is inserted into the opening of the bottom of the tank body B from above (surface) and forms a drain port 41 for discharging the waste water inside the tank body B inside. Further, the drain plug 4 is screwed with the drain pipe 5 at the lower side.
The drainage pipe 5 forms a pipeline that allows the drainage discharged from the drainage port 41 to flow further downward (downstream) to a pipe (not shown), and the branch pipe portion 51 is formed on the side (right side in FIG. 16). I have. A flexible tube body is fitted to the branch pipe portion 51, and a flow path is formed in which drainage water flowing from the operation portion 2 side joins. Further, the release wire 3 is inserted into the tube body, and the tube body also functions as a guide tube for the release wire 3. Here, the branch pipe portion 51 is provided with a plurality of substantially triangular ribs in cross-sectional view on the outer periphery, and has a shape that prevents the tube body from coming off. The tube body may be made of flexible rubber or the like, or may be flexible due to the bellows shape.

  The remote control drain plug device 1 of the fourth embodiment operates as follows.

First, when the valve body 8 is lowered and the drain port 41 is closed, when the pushing operation is applied to the switch section 11 of the operation section 2, the inner wire of the release wire 3 is moved to the valve body 8 side. Slide in the outer tube toward
As the inner wire slides, the release wire pushes up the valve body 8 so that the packing fitted to the valve body 8 is separated from the operation portion main body 10 and the drain port 41 is opened.

  At this time, the lock mechanism provided in the release wire is activated, and the state where the valve body 8 is pushed up is locked.

  Next, when the switch portion 11 is further pushed from the state where the drain port 41 is opened, the state in which the valve body 8 is pushed up is released, and the valve body 8 is lowered. Then, when the packing fitted to the valve body 8 comes into contact with the operation portion main body 10 again, the drain port 41 is closed.

  Thus, the remote-operated drain plug device 1 of the present invention can remotely open and close the drain port 41 by repeating the pushing operation of the switch unit 11.

  It should be noted that excessive stress is applied to the valve body 8, such as when the valve body 8 is stepped on when the drain port 41 is open, that is, when the valve body 8 is raised, with respect to the remote-operated drain plug device 1. Is applied, a shock absorber spring (not shown) built in the release wire contracts to absorb the stress.

  The remote control type drain plug device 1 of the fourth embodiment is attached as follows.

First, in a factory or the like, the stopper 43 is disposed in advance in the inner groove portion 101 of the operation unit body 10. Further, the release wire 3, the elastic member 6, and the wire receiver 7 are disposed inside the joint member 12.
At this time, the elastic member 6 is disposed outside the wire receiver 7 and is placed on the stepped portion 124 to urge the wire receiver 7 upward. The wire receiver 7 supports and fixes the shaft portion 31 of the release wire 3 at the fixing portion 71, the claw portion 73 is disposed in the groove portion 121 of the joint member 12, and the claw portion 73 engages with the engaging portion 123. ing. That is, the wire receiver 7 is biased upward by the elastic member 6, but is held without falling off from the joint member 12 because the claw 73 is engaged with the engaging portion 123.
Next, in the construction site, the joint member 12 is arranged on the lower surface (back surface) of the tank body B edge. At this time, packing is fitted to the upper surface of the joint member 12 and the opening of the bottom of the tank body B.
And the operation part main body 10 is screwed together with the joint member 12 from the upper part (surface) of the edge part of the tank body B via the tank body B and packing. (FIG. 20) Here, as shown in FIG. 21, when the operation portion main body 10 and the joint member 12 are screwed together, the lower surface of the stopper 43 of the joint member 12 and the upper surface of the wire receiver 7 come into contact with each other. Further, when the screwing is further advanced, the elastic member 6 below the wire receiver 7 contracts, and the stopper 43 starts to push down the wire receiver 7. Since the elastic member 6 contracts while urging the wire receiver 7 upward, the wire receiver 7 is always in contact with the stopper 43.
When the screwing is sufficiently advanced and the operation unit main body 10 and the joint member 12 are fixed in a watertight manner to the edge of the tank body B, the position of the wire receiver 7 is determined as shown in FIG. At this time, the wire receiver 7 is urged by the elastic member 6 and abuts against the stopper 43 so as to be disposed at a suitable position in the operation portion main body 10.
Finally, by attaching the switch part 11 to the release wire 3, the state shown in FIG. 17 is obtained and the construction is completed.

  The remote-operated drain plug device 1 of the fourth embodiment performs maintenance according to the following procedure.

The knob 44 of the stopper 43 is gripped so that the ends of the stopper 43 are close to each other. At this time, the outer diameter of the stopper 43 is reduced, and the stopper 43 can be taken out from the inner groove portion 101 of the operation portion main body 10. When the stopper 43 is removed, the elastic member 6 that has contracted due to the wire receiver 7 being in contact with the stopper 43 is expanded, and the claw 73 is engaged with the engaging portion 123 of the joint member 12. The wire receiver 7 rises.
Next, using a jig or the like, the wire receiver 7 is rotated counterclockwise. At this time, the nail | claw part 73 slides on the inclined surface 122 of the groove part 121, and when the nail | claw part 73 bends inward, it will remove | deviate from the groove part 121. FIG. That is, when the claw portion 73 is detached from the groove portion 121, the engagement between the claw portion 73 and the engagement portion 123 is released, the wire receiver 7 is pulled up from the edge of the tank body B, and the release wire 3 is removed from the wire receiver 7. Thus, it becomes possible to perform maintenance by removing the release wire 3 from the apparatus.

  When the wire receiver 7 is attached again after the maintenance, the end of the release wire 3 is fixed to the wire receiver 7, and then the wire receiver 7 is pushed into the operation portion main body 10 from the edge of the tank body B. It is only necessary to attach the stopper 43 to the inner groove portion 101 after the claw portion 73 is arranged in the groove portion 121.

Although the remote control type drain plug device 1 according to the fourth embodiment of the present invention is as described above, in the remote control type operation unit body 10 of the present invention, after the operation unit body 10 is screwed to the joint member 12, The installation of the remote-operated drain plug device 1 can be completed simply by attaching the switch portion 11 to the release wire 3. Therefore, unlike the conventional remote-operated drain plug device 1, it does not require a procedure of inserting the release wire 3 after screwing the operating portion main body 10 into the joint member 12, and is excellent in workability. .
In the present invention, since the wire receiver 7 is urged by the elastic member 6 and abuts against the stopper 43 during the screwing of the operation section main body 10, the wire receiver 7 is always the same inside the operation section main body 10. Placed in position. Therefore, the position of the wire receiver 7 can always be kept constant even if the thickness of the attachment location varies.

The fourth embodiment of the present invention is as described above, but the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the gist of the invention.
For example, in the said 4th embodiment, although the operation part 2 was attached to the edge part of the tank body B, it is attached to the side wall part of the tank body B like 5th embodiment shown in FIG. Also good. In this case, the opening formed by the operation unit main body 10 becomes an overflow channel that guides the overflowed drainage to the drain pipe 5 when drainage of a certain amount or more flows into the tank body B. Furthermore, the operation unit 2 is not limited to be mounted on the tank body B, and may be mounted in the vicinity of the tank body B, such as in a washing place.

Moreover, in the remote control type drain plug device 1 of the present invention, as in the second embodiment, the operation section main body 10 may be formed integrally with the tank body B, and the opening may be formed by the tank body B itself. .
In addition, as in the third embodiment, the temporary holding unit 9 may be provided inside the operation unit main body 10.

  Further, in the fourth and subsequent embodiments, the description of the structure on the drain plug 4 side is partially omitted. However, when the remote control drain plug device 1 is configured, the structure on the drain plug 4 side is It may be combined with the structure on the drain plug 4 side described in the first to third embodiments.

  Moreover, you may attach the remote control type drain plug device 1 of this invention with respect to tank bodies other than a bathtub, such as a wash bowl.

  In the present invention, the elastic member is a spring made of a stainless material. However, the elastic member may be made of a rubber material or other materials, and is not limited to a spring.

DESCRIPTION OF SYMBOLS 1 Remote control type drain plug apparatus 2 Operation part 3 Release wire 31 Shaft part 4 Drain plug 41 Drain outlet 42 Inner groove part 43 Stopper 44 Knob 5 Drain pipe 51 Branch pipe part 52 Groove part 53 Inclined surface 54 Engagement part 55 Step part 6 Elasticity Member 7 Wire receiver 71 Fixing part 72 Flange part 73 Claw part 8 Valve body 9 Temporary holding part 10 Operation part main body 101 Inner groove part 11 Switch part 12 Joint member 121 Groove part 122 Inclined surface 123 Engaging part 124 Step part B Tank body

Claims (6)

A drain plug that forms a drain outlet at the bottom of the tank body;
A drain pipe connected to the drain plug;
A valve body that opens and closes the drain;
An operation unit for operating the valve body;
A release wire that transmits the operation of the operation unit to the valve body;
A wire receiver for fixing the release wire;
About remote-operated drain plug device consisting of
The drain pipe is attached so that the wire receiver can advance and retreat in the axial direction, and has an elastic member that biases the wire receiver upward.
The drain plug has a stopper with which the wire receiver urged by the elastic member comes into contact,
When the wire receiver urged by the elastic member comes into contact with the stopper, the wire receiver is arranged at an appropriate position .
The wire receiver is detachable from the drain pipe,
The stopper is detachable from the drain plug,
A remote-operated drain plug device characterized in that the wire receiver can be detached from the drain plug by removing the stopper. A stopper is placed inside the drain plug,
The remote-operated drain plug device according to claim 1, wherein the wire receiver is disposed inside the drain plug in a state where the wire receiver is in contact with the stopper. The remote-operated drain plug device has a temporary holding portion for temporarily holding the wire receiver,
The remote-operated drain plug device according to claim 1 or 2 , wherein the wire receiver is brought into contact with the stopper by releasing the holding by the temporary holding portion after the drain pipe is attached to the drain plug. . A drain plug that forms a drain outlet at the bottom of the tank body;
A valve body that opens and closes the drain;
An operation unit body that forms an opening portion near the tank body or the tank body, a switch unit that performs an opening / closing operation of the drain port, and an operation unit that includes a joint member connected to the operation unit body from the back surface of the opening,
A release wire that transmits the operation of the operation unit to the valve body;
A wire receiver for fixing the release wire;
About remote-operated drain plug device consisting of
The joint member is attached so that the wire receiver can advance and retreat in the axial direction, and has an elastic member that urges the wire receiver toward the switch portion side,
The operation unit main body has a stopper with which the wire receiver urged by the elastic member comes into contact,
When the wire receiver urged by the elastic member comes into contact with the stopper, the wire receiver is arranged at an appropriate position .
The wire receiver is detachable from the joint member,
The stopper is detachable from the operation unit body,
A remote-operated drain plug device characterized in that the wire receiver can be detached from the joint member by removing the stopper. A stopper is placed inside the operation unit body,
The remote-operated drain plug device according to claim 4 , wherein the wire receiver is disposed inside the operation portion main body in a state where the wire receiver is in contact with the stopper. The remote-operated drain plug device has a temporary holding portion for temporarily holding the wire receiver,
The remote-operated drain plug according to claim 4 or 5 , wherein the wire receiver is brought into contact with the stopper by releasing the holding by the temporary holding portion after the joint member is attached to the operation portion main body. apparatus.

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