WO2016194670A1 - Drain plug device - Google Patents

Drain plug device Download PDF

Info

Publication number
WO2016194670A1
WO2016194670A1 PCT/JP2016/065128 JP2016065128W WO2016194670A1 WO 2016194670 A1 WO2016194670 A1 WO 2016194670A1 JP 2016065128 W JP2016065128 W JP 2016065128W WO 2016194670 A1 WO2016194670 A1 WO 2016194670A1
Authority
WO
WIPO (PCT)
Prior art keywords
shaft
rotation
side contact
rotating
operated
Prior art date
Application number
PCT/JP2016/065128
Other languages
French (fr)
Japanese (ja)
Inventor
光一 渡邉
勇太 佐藤
太田 慎一
敏徳 矢田
浩平 北川
Original Assignee
Toto株式会社
株式会社日本アルファ
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toto株式会社, 株式会社日本アルファ filed Critical Toto株式会社
Priority to CN201680030186.2A priority Critical patent/CN107614806B/en
Publication of WO2016194670A1 publication Critical patent/WO2016194670A1/en

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47KSANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
    • A47K1/00Wash-stands; Appurtenances therefor
    • A47K1/14Stoppers for wash-basins, baths, sinks, or the like
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/12Plumbing installations for waste water; Basins or fountains connected thereto; Sinks
    • E03C1/22Outlet devices mounted in basins, baths, or sinks
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/12Plumbing installations for waste water; Basins or fountains connected thereto; Sinks
    • E03C1/22Outlet devices mounted in basins, baths, or sinks
    • E03C1/23Outlet devices mounted in basins, baths, or sinks with mechanical closure mechanisms

Definitions

  • the present invention has been made in view of the above circumstances, and an object thereof is to realize a movement direction conversion unit with a simple structure, and consequently, to suppress the stable operation of the apparatus and the increase in manufacturing cost, and the apparatus.
  • An object of the present invention is to provide a drain plug device that can be miniaturized.
  • Means 1 An operated part for operation provided in a movable state with respect to a predetermined attachment object; A plug lid that is configured to be movable up and down, and that can open and close the drain outlet of the tank body with its own vertical movement, A drain plug device provided between the operated portion and the plug lid, and comprising a transmitter for transmitting the displacement of the operated portion to the plug lid side, The transmitter is Along with the movement of the operated part, a shaft part movable along its own axial direction, A rotating portion that is disposed on the outer periphery or inner periphery of the shaft portion, and that is rotatable relative to the shaft portion along the circumferential direction of the shaft portion; A movement direction conversion section that converts the movement of the shaft section into a rotation movement and rotates the rotation section; A rotation restricting portion for restricting the shaft portion from being relatively unrotatable with respect to at least one of the attachment object and the tank body is provided, The movement direction conversion unit is A shaft-side contact portion provided in the shaft portion; A rotation-side contact portion
  • the movement direction conversion unit can be realized by a very simple structure using the inclined surface. As a result, stable operation of the apparatus can be achieved, increase in manufacturing cost can be suppressed, and downsizing of the apparatus can be effectively achieved.
  • the rotation restricting portion can make the shaft portion relatively unrotatable with respect to at least one of the attachment object and the tank body, and as a result, when the shaft portion is moved, the turning portion is more reliably turned. Can do. Thereby, the above-mentioned effect can be more reliably exhibited.
  • the operated portion, the shaft portion, the rotating portion, and the movement direction converting portion are provided, and at least one of the operated portion and the shaft portion is formed with respect to a through hole formed in the attachment object. Having an operating device inserted through;
  • the shaft portion is fixed in series to the operated portion along the moving direction of the operated portion,
  • the transmission body has a reciprocating transmission member, When the rotating portion rotates relative to the shaft portion, power is applied from the rotating portion to one end portion of the transmission member, and the tangential direction of the rotating portion rotates along the tangential direction.
  • the drain plug apparatus according to means 1, wherein one end of the transmission member is configured to move.
  • the shaft part is fixed to the operated part is not only the case where the operated part is fixed to the shaft part after the two parts are formed separately, but the two parts are integrally formed. This includes cases where Further, the shaft portion does not necessarily have to be directly fixed to the operated portion, and is indirectly fixed to the operated portion (with some member interposed between the operated portion) and the shaft portion. Also good. Furthermore, the shaft portion does not have to be completely immobile with respect to the operated portion. For example, a slight gap may be formed between the two, or a shaft or the like may be slightly moved relative to the operated portion by providing a cushioning material such as a spring between the two.
  • an operation device for remotely operating a plug lid includes an operation member having an operated portion and a shaft portion fixed in series with the operated portion, and a transmission member (for example, a wire) that can move as the operated portion moves. Etc.).
  • a transmission member for example, a wire
  • an operation device is known in which the moving direction of the operating member (operated portion and shaft portion) and the reciprocating direction of the end portion of the transmission member located on the operated portion side are the same direction. (See, for example, JP-A-2005-133331).
  • the length of the operating device along the moving direction of the operated portion (shaft portion) becomes relatively large. Therefore, from the viewpoint of safety and aesthetics, the operating device (for example, the operated portion) should not protrude from the surface of the attachment target (for example, a tank body such as a bathtub or a structure provided around the tank body). If comprised, an operating device will protrude greatly from the back of a mounting target object to the back
  • the operation device if the operation device is configured to protrude from the surface of the attachment object, the operation device can be attached even to a relatively small portion of the attachment object (depth) (internal space).
  • depth an attachment object
  • safety and aesthetics may be reduced. That is, in the conventional operating device, the degree of freedom of attachment, safety and aesthetics are in a trade-off relationship, and it is difficult to obtain good performance in both.
  • the movement direction conversion unit or the like is provided with respect to the operating device, and when the operated unit is moved to rotate the rotation unit, the rotation direction of the rotation unit
  • the one end of the transmission member moves along the tangential direction. Therefore, the movement direction of the one end portion of the transmission member can be a direction (circumferential direction of the shaft portion) orthogonal to the reciprocation direction of the shaft portion, and the shaft portion and one end portion of the transmission member are connected in series. It is possible to prevent them from being lined up. Thereby, the length of the operating device along the moving direction of the shaft portion can be made very small. As a result, it is possible to dramatically increase the degree of freedom of attachment while ensuring good safety and aesthetics.
  • the attachment object is a bathtub having a bottom surface portion and a side wall portion standing on the bottom surface portion,
  • the side wall of the bathtub usually tends to have a small distance from the wall or apron located on the back side. Therefore, it is usually not easy to attach the operating device to the side wall.
  • the length of the operating device along the moving direction of the operated part can be made very small. Accordingly, it is possible to more easily attach the operating device to the side wall portion having a small distance from the wall surface or the like. In other words, the means 2 is particularly effective when the through hole is provided in the side wall of the bathtub.
  • the back guard of a vanity is usually small with the wall located on the back side. Therefore, it is not easy to attach the operating device to the back guard.
  • the length of the operating device along the moving direction of the operated part can be made very small. Therefore, it is possible to more easily attach the operating device to the back guard having a small distance from the wall surface or the like.
  • the means 2 is particularly effective when the through hole is provided in the back guard of the vanity.
  • the attachment object is a bathtub including a bottom surface portion, a side wall portion standing on the bottom surface portion, and a plate-like apron disposed with a gap between the side wall portion, The drain plug device according to means 2, wherein the through hole is formed in the apron.
  • the bathtub apron usually has a small gap with the side wall located on the back side. Therefore, it is not easy to attach an operating device corresponding to the through-hole after forming a through-hole in the thickness direction of the apron.
  • the length of the operating device along the moving direction of the operated part can be made very small. Therefore, it is possible to more easily attach the operating device to the apron having a small distance from the side wall portion.
  • the means 2 is particularly effective when the through hole is provided in the apron of the bathtub.
  • the attachment object is a bathroom unit including a washing place and a bathtub installed adjacent to the washing place, and a plurality of plate-like wall panels installed around the washing place and the bathtub, The drain plug device according to means 2, wherein the through hole is formed in the wall panel.
  • the wall panel of the bathroom unit usually tends to have a small distance from the wall located on the back side. Therefore, it is usually not easy to attach the operating device to the wall panel.
  • the length of the operating device along the moving direction of the operated part can be made very small. Therefore, it is possible to more easily attach the operating device to the wall panel having a small distance from the wall surface.
  • the means 2 is particularly effective when the through hole is provided in the wall panel of the bathroom unit.
  • Means 7 Any one of means 2 to 6, wherein when the operated portion is moved, a moving amount of one end portion of the transmission member is larger than a moving amount of the operated portion.
  • the drain plug device according to crab.
  • the amount of reciprocation (stroke amount) of the operated portion can be made smaller while more surely moving the stopper lid up and down. Therefore, the length of the operating device along the moving direction of the operated portion can be made smaller, and the degree of freedom of attachment can be further increased. Further, the reciprocating amount of the operated portion required for opening and closing the drain port can be reduced, and the operability can be improved.
  • the amount of movement of the operated part can be reduced, when the user tries to open and close the drain port, the amount of movement of the operated unit becomes insufficient and the opening and closing of the drain port fails (for example, drainage It is possible to more reliably prevent such a situation that the mouth is closed but not actually closed. Thereby, the usability for the user can be improved.
  • the means 7 adjusts the distance (radius) from the rotating shaft of the rotating unit to the portion of the rotating unit that applies power to one end of the transmission member, or the shaft side contact unit and the rotating unit.
  • the inclination angle of the inclined surface portion provided in at least one of the side contact portions is adjusted with respect to the moving direction of the shaft portion (that is, the rotation amount (rotation angle) of the rotating portion per unit movement amount of the shaft portion is adjusted). It can be realized by adjusting.
  • Means 8 An operation-side rotation support that is directly or indirectly attached to the object to be attached, and whose end surface in the rotation axis direction of the rotation unit is in contact with and that the end surface slides when the rotation unit rotates.
  • the shaft portion has a cylindrical shape including a hole opening on the opposite side to the operated portion
  • the operation side rotation support portion includes a rod-like portion inserted through the hole portion,
  • the hole portion and the rod-shaped portion are configured so that the shaft portion cannot be relatively rotated with respect to the rod-shaped portion in a state where the rod-shaped portion is inserted into the hole portion.
  • the drain plug device according to any one of means 2 to 7, wherein the rotation restricting portion is constituted by a portion of the shaft portion where the hole portion is formed.
  • the rotating part slides on the operation side rotating support part when rotating. Therefore, the rotation unit can be rotated more stably, and the operational stability of the apparatus can be further enhanced.
  • the operation side rotation support portion has a part of the rotation restricting portion (bar-shaped portion). Therefore, the apparatus can be further reduced in size, and the degree of freedom of attachment can be further improved and the manufacturing cost can be reduced.
  • the operation side rotation support part may be provided with a ball bearing, a roller bearing, etc. in the site
  • Means 9 A cylindrical drainage pipe in which an internal space forms a drainage flow path passing through the drainage port; A supported member that is directly or indirectly attached to the stopper lid and disposed in the drain pipe; Attached to the drain pipe, and provided with a plug lid side mechanism portion comprising the shaft portion, the rotating portion, and the movement direction converting portion,
  • the transmission body includes a release wire having a cylindrical tube member and a transmission member configured to be reciprocally movable on the inner periphery of the tube member, and by moving the operated portion The transmission member is configured to move forward; The shaft portion is connected to an end portion of the transmission member opposite to the operated portion, and moves together with the transmission member when the transmission member reciprocates.
  • the rotating portion is provided with a support portion that protrudes into the drain pipe and supports the supported member by placing the supported member at least in a state where the drain port is opened.
  • the support portion can move up and down while rotating as the rotation portion rotates, and moves upward or downward when the rotation portion rotates as the shaft portion moves. Is composed of The drain plug device according to claim 1, wherein the supported member and the plug lid move up and down as the support portion moves up and down.
  • the support member is lifted by the support portion by the support portion moving upward while rotating the rotation portion.
  • the stopper lid moves upward and the drain port is opened.
  • the supported member moves downward as the support portion moves downward while rotating the rotation portion.
  • the stopper lid moves down and the drain port is closed.
  • the movement of the shaft portion can be converted into the turning motion of the rotating portion, and the support portion can be moved up and down by a relatively simple configuration. Therefore, the operational stability of the stopper lid side mechanism can be enhanced.
  • the support portion may be a protrusion provided non-coaxially with the rotation shaft on the axial end surface of the rotation portion, or may be a rod-like member protruding outward from the outer periphery of the rotation portion. Good.
  • Means 10 The means 9 is configured such that when the operated portion is moved, a movement amount of the support portion along a vertical direction is larger than a movement amount of the shaft portion. Drain plug device.
  • the amount of movement of the support portion along the vertical direction can also be referred to as the amount of movement (lift amount) of the stopper lid along the vertical direction.
  • the amount of reciprocation (stroke amount) of the shaft portion can be made smaller while achieving more reliable vertical movement of the stopper lid. Therefore, the length of the stopper lid side mechanism along the reciprocating direction of the shaft can be made smaller. Thereby, the freedom degree of attachment of the stopper lid side mechanism part to a drain pipe can be raised. Further, the reciprocating amount of the operated portion required for opening and closing the drain port can be reduced, and the operability can be improved.
  • the amount of reciprocation of the operated part can be reduced, when the user tries to open and close the drain, the amount of movement of the operated part becomes insufficient and the opening and closing of the drain is unsuccessful. This can be prevented more reliably. Thereby, the usability for the user can be improved.
  • the means 10 adjusts the distance (turning radius) from the turning shaft of the turning portion to the support portion (particularly, the portion that supports the supported member), or the shaft-side contact portion and the turning portion.
  • the inclination angle of the inclined surface portion provided in at least one of the side contact portions is adjusted with respect to the moving direction of the shaft portion (that is, the rotation amount (rotation angle) of the rotating portion per unit movement amount of the shaft portion is adjusted). It can be realized by adjusting.
  • the drainage pipe includes a cylindrical main pipe that constitutes the drainage flow path, and a cylindrical mounting pipe that protrudes from the outer periphery of the main pipe and communicates with the main pipe.
  • the mounting tube has a recess extending along its own axial direction on its inner periphery,
  • the shaft portion includes a protrusion disposed in the recess,
  • the drain plug device according to claim 9 or 10, wherein the rotation restricting portion is constituted by a portion that forms the concave portion of the protrusion and the attachment pipe.
  • the rotation restricting portion can be realized by using the drain pipe (attachment pipe). Therefore, the device can be further reduced in size and simplified, and the manufacturing cost can be further suppressed.
  • the drain pipe is provided with a drain pipe-side rotation support portion that contacts an end surface of the rotation portion in the rotation axis direction and slides the end surface when the rotation portion rotates.
  • the drain plug device according to any one of means 9 to 11.
  • the rotating part slides on the drainage pipe side rotating support part when rotating. Therefore, the rotation unit can be rotated more stably, and the operational stability of the apparatus can be further enhanced.
  • the apparatus since the drain pipe side rotation support portion is constituted by a part of the drain pipe, the apparatus can be further downsized and simplified, and the manufacturing cost can be further suppressed. be able to.
  • At least a portion of the rotation-side contact portion that contacts the shaft-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
  • the part of the rotating side contact portion that contacts the shaft side contact portion has a spiral shape in which the inclination with respect to the movement direction of the shaft portion is constant over the entire area.
  • the portion that contacts the rotation side contact portion can always be the same portion. Therefore, when the operated part is moved, the rotating part can be stably rotated, and the operational stability can be improved.
  • the user when the operated part is moved, the user can change the load generated in the operated part (the load is, for example, a return force applying part for moving the transmission member backward). , Changes in the frictional force generated between the shaft side contact portion and the rotation side contact portion, and changes in the state of opening, etc.).
  • the load is, for example, a return force applying part for moving the transmission member backward.
  • Means 14 At least a portion of the rotation-side contact portion that contacts the shaft-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
  • the operated part when the operated part is moved and the rotating part is rotated, it takes into consideration that a relatively large force is required until the rotating part rotates and begins to open. Then, of the rotation side contact part, when the operated part is moved and the rotation part is rotated, the inclination of the part that first contacts the shaft side contact part is changed to the other part of the rotation side contact part. You may make it gentler than an inclination. In this case, it is possible to relatively reduce the pressing force to the operated portion that is required when the turning portion is turned to start opening the plug.
  • a return force applying portion for example, a spring member for moving the transmission member backward is provided, and the backward movement direction from the spring member to the operated portion as the operated portion is moved forward.
  • a return force applying portion for example, a spring member
  • the backward movement direction from the spring member to the operated portion as the operated portion is moved forward.
  • a stage where the pressing force that needs to be applied to the operated portion to rotate the rotating portion can be relatively small (for example, rotation start of the rotating portion)
  • the slope of the portion that comes into contact with the shaft-side contact portion at a later stage until there is no play or gap between the members may be made relatively steep. In this case, even if the movement amount (operation amount) of the operated portion is relatively small, the transmission member and the support portion can be moved relatively large.
  • At least a portion of the shaft-side contact portion that comes into contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
  • the portion of the shaft-side contact portion that contacts the rotation-side contact portion has a spiral shape in which the inclination of the shaft portion with respect to the movement direction is constant over the entire area.
  • Means 16 At least a portion of the shaft-side contact portion that comes into contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
  • the part which contacts the said rotation side contact part among the said shaft side contact parts makes the shape where the inclination with respect to the reciprocation direction of the said shaft part is not constant,
  • the means 16 basically the same effects as those of the means 14 are achieved. That is, it is possible to obtain good operability by adjusting the inclination of the shaft side contact portion in consideration of the force applied to the shaft portion when the operated portion is moved.
  • the configuration of the rotation side contact portion exemplified in the means 14 is applied to a portion of the shaft side contact portion that contacts the rotation side contact portion. And so on.
  • the shaft portion can reciprocate along its own axial direction, At least the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion,
  • the rotating portion includes an inclined surface-like rotating side facing portion that faces the rotating side contact portion along the movement direction of the shaft portion and is inclined in the same direction as the rotating side contact portion.
  • the shaft-side contact portion presses one of the rotation-side contact portion and the rotation-side facing portion, so that the rotation portion is relative to the shaft portion on one side.
  • the shaft-side contact portion presses the other of the rotation-side contact portion and the rotation-side facing portion, so that the rotation portion is relative to the shaft portion on the other side.
  • the drain plug device according to any one of means 1 to 16, wherein the drain plug device is configured to rotate.
  • the rotating part can be rotated in both directions by pushing and pulling (reciprocating) the shaft part. Accordingly, there is no need to provide a member (for example, a return force applying portion made of a spring member) for rotating the rotating portion to the other side, and further suppression of increase in manufacturing cost and simplification (miniaturization) of the apparatus are further achieved. Can be planned.
  • a member for example, a return force applying portion made of a spring member
  • the presence of the rotating side facing portion can prevent the shaft portion from moving unintentionally. Thereby, the movement which the to-be-operated part does not intend can be prevented more reliably, and the usability for a user can be raised more.
  • the shaft portion can reciprocate along its own axial direction, At least a portion of the shaft-side contact portion that is in contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
  • the shaft portion is positioned behind the portion of the shaft-side contact portion that forms the inclined surface along the direction of movement of the shaft portion, and is inclined in the same direction as the portion of the shaft-side contact portion that forms the inclined surface shape.
  • the rotating part includes a second rotating side contact part that can come into contact with the shaft side back inclined part, With the forward movement of the shaft portion, one of pressing of the shaft-side contact portion against the rotation-side contact portion and pressing of the shaft-side back inclined portion against the second rotation-side contact portion is performed.
  • the rotating part rotates relative to the shaft part on one side, With the backward movement of the shaft portion, the other of the pressing of the shaft-side contact portion against the rotation-side contact portion and the pressing of the shaft-side back inclined portion against the second rotation-side contact portion is performed.
  • the drain plug device according to any one of means 1 to 16, wherein the rotating portion is configured to rotate relative to the shaft portion on the other side.
  • the same effect as that of the means 17 is achieved. That is, the manufacturing cost can be increased, the apparatus can be simplified (downsized), and the usability can be further improved.
  • Means 19 A rotating ring that is attached to the shaft portion in a rotatable state with the central axis of the shaft portion as a rotation axis, and that is movable with the shaft portion, and has an engaged portion that is formed to protrude outward.
  • a cylindrical locking cylinder portion which is disposed on an outer periphery of a portion of the shaft portion to which the rotating ring is attached and which is not movable relative to at least one of the attachment object and the tank body;
  • the locking cylinder part has a cylinder side groove part that is provided in a plurality along the circumferential direction and extends along the movement direction of the shaft part, and By moving the shaft portion to a predetermined position or more along the axial direction with respect to the locking cylinder portion, the engaged portion is engaged with the engaging teeth provided on the locking cylinder portion. In addition, the engaged portion is disengaged from the engaging teeth, the engaged portion falls into the cylindrical groove portion, and the shaft portion returns to a predetermined return position alternately.
  • Comprising a locking mechanism configured to The shaft portion includes a protruding portion protruding outward, At least a part of the protruding portion is always arranged in the tube side groove when the shaft portion moves,
  • the drain plug device according to any one of means 1 to 18, wherein the protrusion is disposed in the tube side groove so that the function as the rotation restricting portion is exhibited. .
  • the cylinder side groove portion is used to move the rotating ring (engaged portion) in a relatively non-rotatable state.
  • deployment schematic diagram which shows structures, such as a rotation side contact part and a rotation side opposing part. It is sectional drawing which shows the structure of the operating device in 3rd Embodiment. It is a disassembled perspective view which shows structures, such as a locking mechanism. It is an expansion
  • deployment schematic diagram which shows the structure of the rotation side contact part in another embodiment.
  • deployment schematic diagram which shows the structure of the rotation side contact part in another embodiment. It is an expansion
  • the drain plug apparatus 1 As shown in FIG.1 and FIG.2, the drain plug apparatus 1 is provided with the drain port apparatus 2 and the operation apparatus 3, and is attached to the bathtub 100 as a tank body and an attachment target object.
  • the bathtub 100 includes a bottom wall portion 101 and a side wall portion 102 erected on the outer periphery of the bottom wall portion 101. Further, a drainage outlet 103 for drainage is formed through the bottom wall portion 101, and an overflow port 104 as a through hole for preventing water from overflowing from the bathtub 100 is formed at the upper part of the side wall portion 102. Is formed through. Furthermore, in this embodiment, the space between the side wall portion 102 and the structure ST such as a wall or an apron located on the back side thereof is relatively narrow. In other words, the internal space of the portion of the bathtub 100 where the operating device 3 is attached is relatively small.
  • the drain port device 2 is provided in the drain port 103 and includes a drain port member 21, a drain pipe 22, a support shaft mechanism 23, and a plug lid 24.
  • the drain port member 21 has a cylindrical shape and is inserted into the drain port 103. Further, the drain port member 21 holds the support shaft mechanism 23 inside itself.
  • the drain pipe 22 includes a main pipe 22A and a branch pipe 22B.
  • the main pipe 22 ⁇ / b> A has a cylindrical shape extending along the vertical direction, and is disposed coaxially with the drain port member 21 below the drain port member 21.
  • the water in the bathtub 100 is discharged through the inside of the drain port member 21 and the inside of the main pipe 22A.
  • the branch pipe 22B extends along the direction orthogonal to the direction in which the main pipe 22A extends from the outer periphery of the main pipe 22A. Further, the branch pipe 22B has an internal space communicating with the internal space of the main pipe 22A, and is connected to a pipe 32 (to be described later) of the operating device 3 via a connection pipe (not shown).
  • the support shaft mechanism 23 has a rod-shaped support shaft 23A to which the other end portion of a transmission member 33A described later can be contacted and to which the plug lid 24 is attached at the upper end portion. Further, the support shaft mechanism 23 is provided with a lock mechanism (for example, a thrust lock mechanism) (not shown).
  • the lock mechanism locks the support shaft 23A at a predetermined upper position each time the transmission member 33A moves forward (moves from the operation device 3 to the drain port device 2 side), and supports the lock when the lock is released.
  • the shaft 23 ⁇ / b> A is alternately arranged at a position below the upper position.
  • the support shaft mechanism 23 includes a return force applying part (for example, a spring member) (not shown).
  • a return force applying part for example, a spring member
  • the return force applying portion causes the return member 33A to move in the backward direction (from the drain port device 2 to the operation device) except when the drain port 103 is closed.
  • a biasing force toward the 3rd side is applied.
  • the stopper lid 24 includes a disk-like stopper lid body 24A and an annular packing portion 24B provided on the back surface of the stopper lid body 24A.
  • the packing portion 24B comes into contact with the inner peripheral surface of the drain port member 21, whereby the drain port 103 is closed.
  • the packing portion 24B is separated from the inner peripheral surface of the drain port member 21, so that the drain port 103 is opened.
  • the operation device 3 includes an attachment member 31, a pipe 32, a release wire 33, and an operation side mechanism unit 34.
  • the mounting member 31 has a cylindrical shape and is inserted through the overflow port 104.
  • the attachment member 31 includes a flange portion 31A that protrudes radially outward at one end portion thereof, and a male screw portion 31B that is formed on the outer peripheral surface on the other end side of the flange portion 31A. Furthermore, the attachment member 31 includes a plurality of attachment projections 31C (see FIG. 3) provided at equal intervals along the circumferential direction on the inner periphery of the other end.
  • the pipe 32 has a cylindrical shape that bends at a substantially right angle, and has an internal thread portion 32A capable of screwing the external thread portion 31B on the inner periphery of one end thereof (the overflow port 104 side).
  • the pipe 32 is arranged coaxially with the overflow port 104 on the back side of the side wall 102, and the male screw portion 31 ⁇ / b> B of the mounting member 31 is screwed to the female screw portion 32 ⁇ / b> A through the overflow port 104.
  • the pipe 32 is connected to the attachment member 31 and is attached to the side wall portion 102.
  • annular seal member 3S formed of an elastically deformable material is disposed between the back surface of the side wall portion 102 and one end surface of the pipe 32, and is attached by the seal member 3S. The leakage of water from between the member 31 and the pipe 32 and the bathtub 100 is prevented.
  • a slit portion 32B extending in a direction parallel to the axial direction of the inner cylindrical portion 341B described later is formed in a portion of the pipe 32 that is disposed at the upper portion on the other end side of the operation side mechanism portion 34.
  • a connecting pipe (not shown) connected to the drain pipe 22 is connected to the other end (lower end) of the pipe 32.
  • the release wire 33 is provided between the support shaft mechanism 23 and the operation side mechanism section 34, and includes a long transmission member 33A made of a wire or the like and a long cylindrical tube member 33B made of a resin or the like. ing. 33 A of transmission members are arrange
  • the operation side mechanism unit 34 includes a holding member 341, a rotation unit 342, an operation side rotation support unit 343, and an operation member 344.
  • the holding member 341 is made of resin, and is a member for holding the rotating portion 342, the operation member 344, and the like inside the pipe 32. As shown in FIGS. 3 to 5, the holding member 341 includes an outer annular portion 341A, an inner cylindrical portion 341B, and an arm portion 341C.
  • the outer annular portion 341A has an annular shape whose outer diameter is substantially the same as the inner diameter of the mounting member 31.
  • the outer annular portion 341A includes a claw portion 341D (see FIGS. 4 and 5) protruding from the other end face in a direction parallel to the axial direction.
  • a plurality of claw portions 341D are provided at equal intervals along the circumferential direction of the outer annular portion 341A (three in the present embodiment), and the front end portion of each claw portion 341D is an engagement projecting to the outer peripheral side.
  • a portion 341E is formed. Since the holding member 341 is made of resin as described above, the tip of the claw portion 341D can be elastically deformed along the radial direction of the outer annular portion 341A. In this embodiment, the holding member 341 is attached to the attachment member 31 by sandwiching the attachment protrusion 31C of the attachment member 31 by the other end surfaces of the engagement portion 341E and the outer annular portion 341A.
  • the inner cylindrical portion 341B is located inside the outer annular portion 341A, and has a cylindrical shape in which both one end and the other end are opened.
  • the rotating portion 342 is inserted into the inner periphery of the inner cylinder portion 341B so as to be relatively rotatable.
  • the inner cylinder portion 341B has an inner diameter of one end side opening smaller than the inner diameter of the other end side opening, and as a result, the rotating part 342 opens the other end side opening with respect to the inner cylinder portion 341B. While being able to be inserted from the inner cylindrical portion 341B, the inner cylindrical portion 341B does not come out of the opening.
  • a plate-like anti-rotation protrusion 341F protruding outward in the radial direction is formed on the outer periphery of the inner cylindrical portion 341B, and the anti-rotation protrusion 341F is disposed in the slit portion 32B of the pipe 32.
  • the holding member 341 is disposed at an appropriate position in the circumferential direction, and rotation of the holding member 341 is prevented.
  • the arm portion 341C connects the inner peripheral surface of the outer annular portion 341A and the outer peripheral surface of the inner cylindrical portion 341B, and holds the inner cylindrical portion 341B inside the outer annular portion 341A.
  • a plurality (three in this embodiment) of arm portions 341C are provided at equal intervals along the circumferential direction of the outer annular portion 341A.
  • a gap is formed between adjacent arm portions 341 ⁇ / b> C, and the water that has flowed into the internal space of the attachment member 31 flows into the pipe 32 through the gap.
  • the rotating portion 342 has a cylindrical shape and is disposed on the outer periphery of a shaft portion 344 ⁇ / b> B described later of the operation member 344 (see FIG. 1). Moreover, the rotation part 342 is rotatable relative to the shaft part 344B along the circumferential direction thereof. Further, a curved recess 342A (see FIG. 5) is formed on the outer peripheral side of the other end surface of the rotating portion 342, and one end portion of the transmission member 33A is fitted into the recess 342A. A transmission member 33 ⁇ / b> A is fixed to the outer peripheral side of the moving part 342.
  • the rotating unit 342 presses one end portion of the transmission member 33A along the rotating direction, and as a result, in the tangential direction of the rotating unit 342 in the rotating direction. Along with this, one end of the transmission member 33A moves forward (moves from the operation device 3 to the drain port device 2 side).
  • the shaft portion 344B, the rotating portion 342, the release wire 33, and the support shaft 23A are provided between the operated portion 344A and the plug lid 24, and the displacement of the operated portion 344A is determined by the plug lid 24.
  • a transmission body TM1 for transmitting to the side is configured.
  • a rotation side contact portion 342B (see FIG. 3 or the like) having an inclined surface shape inclined with respect to the circumferential direction of the rotation portion 342 is formed on the inner periphery of the rotation portion 342.
  • the rotation-side contact portion 342B is a portion that can come into contact with a shaft-side contact portion 344D of a shaft portion 344B described later along the rotation axis direction of the rotation portion 342.
  • a portion of the rotation side contact portion 342B that is in contact with the shaft side contact portion 344D is configured to have a spiral shape in which the inclination with respect to the rotation axis direction is constant over the entire area.
  • two rotation-side contact portions 342B are provided on the inner periphery of the rotation portion 342.
  • the operation side rotation support part 343 is fixed to the inner cylinder part 341B with screws so as to close the other end side opening of the inner cylinder part 341B and the opening of the recess 342A. That is, the operation side rotation support part 343 is indirectly attached to the bathtub 100 via the holding member 341 and the attachment member 31.
  • the operation-side rotation support portion 343 protrudes from the center of the plate-like portion 343A and a plate-like plate-like portion 343A that closes the opening on the other end side of the inner cylinder portion 341B. And a rod-shaped portion 343B.
  • the plate-shaped portion 343A has at least a portion that faces the other end surface of the rotating portion 342 in a smooth and smooth shape.
  • the rotating portion 342 rotates, the other end surface of the rotating portion 342 with respect to the facing portion.
  • the rod-shaped portion 343B has a cylindrical shape and includes a plurality (four in the present embodiment) of ribs (projections) extending along the axial direction on the outer peripheral surface. Further, the base portion of the rod-like portion 343B has a columnar shape, and the rotating portion 342 is supported by the base portion.
  • the operation member 344 is inserted into the overflow port 104, and is provided so as to be able to reciprocate along the direction in which the overflow port 104 extends.
  • the operation member 344 is fixed in series along the moving direction in a state of being coaxial with the operated portion 344A having a circular shape when viewed from the water storage space side of the bathtub 100 and the operated portion 344A. And a shaft portion 344B.
  • the operated portion 344A is a portion operated by the user when opening and closing the drainage port 103, and is exposed on the surface side of the bathtub 100 (side wall portion 102). Further, in the present embodiment, when the drainage port 103 is closed, the surface of the operated portion 344A is configured to be flush with the surface of the flange portion 31A, and the operated portion 344A is always the surface of the mounting member 31. It is supposed not to protrude from. Thereby, the appearance quality and safety are improved.
  • the shaft portion 344B extends in the reciprocating direction of the operation member 344 and has a rod shape having a hole portion 344C (see FIG. 5) that opens to the opposite side of the operated portion 344A.
  • the hole portion 344C is formed with a plurality of recess portions having a shape corresponding to the rib of the rod-shaped portion 343B.
  • the rod-shaped portion 343B is inserted into the hole 344C so that the rib of the rod-shaped portion 343B is disposed in the recessed portion of the hole 344C. Accordingly, the shaft portion 344B is not rotatable relative to the rod-shaped portion 343B and thus the bathtub 100.
  • a rotation restricting portion that restricts the relative rotation of the shaft portion 344B with respect to the bathtub 100 is configured by the portion where the hole portion 344C is formed in the rod-shaped portion 343B and the shaft portion 344B.
  • two fan-shaped shaft-side contact portions 344D protruding outward are formed on the outer periphery of the shaft portion 344B.
  • Each of the shaft side contact portions 344D has such a size that it cannot pass through the opening on one end side of the inner cylinder portion 341B, and is always disposed inside the rotation portion 342. Further, when the operation member 344 is moved forward, a surface of the shaft side contact portion 344D that is located on the front side in the forward movement direction of the shaft portion 344B can be brought into surface contact with the rotation side contact portion 342B. .
  • the shaft side contact portion 344D and the rotation side contact portion 342B constitute a movement direction conversion portion.
  • the operation side mechanism part 34 is comprised from the surface side (water storage space side) of the bathtub 100 so that attachment or detachment with respect to the attachment member 31 is possible.
  • the operation side mechanism part 34 to which the release wire 33 is connected is inserted into the attachment member 31 from the surface side of the bathtub 100 in a predetermined direction.
  • the tapered portion formed on the outer periphery of the distal end of the engaging portion 341E is attached to the mounting projection.
  • the claw portion 341D is gradually elastically deformed radially inward by pushing the operation side mechanism portion 34 toward the back side of the mounting member 31 while being in contact with 31C.
  • the engaging portion 341E moves beyond the attachment protrusion 31C to the deeper side of the attachment member 31, and the elastic deformation of the claw portion 341D is released.
  • the attachment protrusion 31C is sandwiched between the other end surface of the outer annular portion 341A and the engagement portion 341E, and the operation side mechanism portion 34 is attached to the attachment member 31. That is, in this embodiment, the operation side mechanism 34 can be attached to the attachment member 31 with one touch.
  • the operation side mechanism portion 34 when removing the operation side mechanism portion 34 from the attachment member 31, if the operation side mechanism portion 34 is pulled in the direction opposite to that at the time of attachment, the engagement portion 341E is detached from the attachment projection 31C, and the attachment member 31 is removed.
  • the operation side mechanism part 34 can be removed from. In this way, the operation side mechanism 34 can be attached to and detached from the attachment member 31 so that the inner peripheral surface of the attachment member 31 and the pipe 32 can be cleaned, and the parts at the time of failure of the operation side mechanism 34 can be obtained. Replacement work and the like are facilitated, and the cleaning property and the maintenance property are improved.
  • the shaft-side contact portion 344D presses the rotation-side contact portion 342B by pushing the operated portion 344A and moving the operation member 344 forward, and thus rotating.
  • the moving part 342 rotates relative to the shaft part 344B.
  • one end portion of the transmission member 33A is pressed by the rotating portion 342, and the one end portion of the transmitting member 33A moves forward along the tangential direction of the rotating portion 342 in the rotating direction.
  • This also causes the transmission member 33A to move forward in the tube member 33B, and the support shaft 23A is pushed up by the other end of the transmission member 33A.
  • the support mechanism 23A When the support shaft 23A is pushed up to a predetermined position or more, the support mechanism 23A is locked at a predetermined upper position with the plug lid 24 being separated from the drain port member 21 by the locking mechanism, and the drain port 103 is opened. Is done.
  • the transmission member 33A is moved forward by pressing the operated portion 344A and moving the operation member 344 forward as in the case of opening the drainage port 103. .
  • the lock of the support shaft 23A by the lock mechanism is released, and the support shaft 23A and the plug lid 24 are moved downward by the action of gravity or the return force applying portion.
  • the drainage port 103 is closed.
  • the transmission member 33A moves backward in the tube member 33B by the action of the return force applying portion, and the rotating portion 342 opens the drain port 103 when pressed by one end portion of the transmission member 33A. It rotates in the opposite direction.
  • the distance (radius) from the rotation shaft of the rotation unit 342 to the portion of the rotation unit 342 that presses one end of the transmission member 33A is adjusted, or the reciprocating direction of the operation member 344 is adjusted.
  • the inclination angle of the rotation-side contact portion 342B with respect to the movement portion 344A when the operated portion 344A is pressed, the movement amount of the one end portion of the transmission member 33A becomes larger than the movement amount of the operation member 344. It is configured.
  • the shaft motion of the shaft portion 344B can be converted into the rotation motion of the rotation portion 342 with a very simple structure using an inclined surface. Therefore, it is possible to achieve a stable operation of the drain plug device 1, suppress an increase in manufacturing cost, and effectively reduce the size of the drain plug device 1.
  • the reciprocating direction of one end of the transmission member 33A can be a direction orthogonal to the reciprocating direction of the operating member 344 (the circumferential direction of the operating member 344). It is possible to prevent the one end portion of the transmission member 33A from being arranged in series. Thereby, the length of the operating device 3 along the reciprocating direction of the operating member 344 can be made very small. As a result, it is possible to dramatically increase the degree of freedom of attachment while ensuring good safety and aesthetics.
  • the rotation restricting portion constituted by the shaft portion 344B and the rod-shaped portion 343B can make the shaft portion 344B relatively unrotatable with respect to the bathtub 100, and as a result, the rotating portion 342 when the operation member 344 is moved forward. Can be rotated more reliably. Thereby, the above-mentioned effect can be more reliably exhibited.
  • the release wire 33 it is not necessary to bend the release wire 33 so that the reciprocating direction of the transmission member 33A is a direction orthogonal to the reciprocating direction of the operating member 344 (the circumferential direction of the operating member 344). Accordingly, the bending force of the release wire 33 increases the frictional force generated between the transmission member 33A and the tube member 33B, thereby reducing the operability or causing damage to the transmission member 33A. It can be surely prevented.
  • the moving amount of one end of the transmission member 33A is configured to be larger than the moving amount of the operated part 344A. Therefore, the amount of reciprocation (stroke amount) of the operation member 344 can be made smaller while achieving more reliable vertical movement of the plug lid 24. As a result, the length of the operating device 3 along the reciprocating direction of the operating member 344 can be made smaller, and the degree of freedom of attachment can be further increased.
  • the amount of movement of the operated portion 344A necessary for opening and closing the drain port 103 can be reduced, the amount of movement of the operated portion 344A is not large when the user attempts to open and close the drain port 103. It is possible to more reliably prevent a situation in which the opening and closing of the drainage port 103 fails. Thereby, the usability for the user can be improved.
  • the rotation-side contact portion 342B has a spiral shape with a constant inclination, when the operation member 344 is moved forward, the portion that contacts the rotation-side contact portion 342B in the shaft-side contact portion 344D is always the same portion. It can be. Therefore, when the operated part 344A is moved, the rotating part 342 can be stably rotated, and the operational stability can be improved.
  • the user can change the load generated in the operated portion 344A (the load is, for example, a change in force generated in the return force applying portion or an axial contact portion 344D. And changes in the frictional force generated between the rotating side contact portions 342B, the open / close state of the drain port 103, etc.) can be perceived more reliably.
  • the user opens and closes the drain port 103, the user can more reliably grasp the status of the operation member 344 and the plug lid 24 via the operated portion 344A, and thus an operation error occurs. Etc. can be prevented more reliably.
  • the rotation part 342 slides on the operation side rotation support part 343 at the time of the rotation, the rotation part 342 can be more stably rotated, and the operation stability of the apparatus is further improved. Can be increased.
  • the operation side rotation support part 343 has a part (rod-shaped part 343B) of a rotation control part. Therefore, the apparatus can be further reduced in size, and the degree of freedom of attachment can be further improved and the manufacturing cost can be reduced.
  • a second embodiment will be described.
  • the axial part 344B, the rotation part 342, the rotation control part, and the movement direction conversion part are provided with respect to the operating device 3, in this 2nd Embodiment, as shown in FIG.
  • a rotating part 51, a shaft part 52, a rotation restricting part, and a movement direction converting part are provided for the stopper lid side mechanism part 5 of the drain port device 4.
  • the drain port device 4 includes a drain pipe 41, a water passage member 42 as a supported member, a support shaft 43, a hair catcher 44, a plug lid 45, and a plug lid side mechanism section 5.
  • the drain pipe 41 is attached to the back surface of the bottom wall portion 101 so as to communicate with a drain port 103 formed through the bottom wall portion 101. More specifically, a female screw portion 41E is formed on the inner periphery of the upper end portion of the drain pipe 41. After the upper end portion of the drain pipe 41 is disposed on the back surface of the bottom wall portion 101, a drain port is formed with respect to the female screw portion 41E.
  • a cylindrical drain port member 47 having a male screw portion 47A on the outer periphery through 103 is screwed, and the bottom wall portion 101 is sandwiched between the upper end portion of the drain port member 47 and the upper end portion of the drain pipe 41.
  • the drain pipe 41 is attached to the back surface of the bottom wall portion 101. The drainage that has passed through the drainage port 103 flows into the drainage pipe 41 and is discharged.
  • the drain pipe 41 is formed in a tubular shape extending in the vertical direction and has a drain main pipe 41A that protrudes in the horizontal direction from the outer periphery of the main pipe 41A, and its own internal space communicates with the internal space of the main pipe 41A. And a cylindrical mounting tube 41B. A concave portion 41C extending along the axial direction is formed on the inner periphery of the attachment tube 41B. Two concave portions 41C are provided so as to sandwich the central axis of the attachment tube 41B.
  • the drainage pipe 41 is provided with a plate-like drainage pipe side rotation support part 41D so as to close the opening on the main pipe 41A side of the mounting pipe 41B except for a movement region of the support projection 51B described later.
  • the water passage member 42 is indirectly attached to the stopper lid 45 via the support shaft 43, and is disposed so as to be vertically movable in the drain pipe 41 (main pipe 41A).
  • the water flow member 42 includes an annular outer peripheral wall portion 42A and a lower collecting portion 42B extending inward from the inner periphery of the outer peripheral wall portion 42A.
  • the outer peripheral wall portion 42A is disposed in the drain pipe 41 (main pipe 41A) so as to be along the inner peripheral surface of the drain pipe 41 (main pipe 41A). Further, the lower end surface of the outer peripheral wall portion 42A is placed on a support protrusion 51B, which will be described later, so that the water passage member 42 is supported in the drain pipe 41 (main pipe 41A).
  • the lower collection portion 42B has an inner peripheral portion fixed to the support shaft 43 and has a plurality of ribs extending along the radial direction of the outer peripheral wall portion 42A.
  • the waste water flowing through the main pipe 41A flows down through the gap formed between the ribs, while the dust contained in the waste water is collected.
  • the support shaft 43 has a rod shape, and its upper end is attached to the center of the back surface of the stopper lid 45, and its lower end is fixed to the water passage member 42. Therefore, when the water passage member 42 moves up and down in accordance with the vertical movement of the support protrusion 51B described later, the support shaft 43 and the plug lid 45 move up and down together with the water passage member 42.
  • the hair catcher 44 spreads from the outer periphery of the support shaft 43 toward the outer periphery, and has a function of collecting dust and the like contained in the drainage flowing through the main pipe 41A.
  • the plug lid 45 is a disc-shaped plug lid main body 45A made of a resin or the like, and an annular shape made of an elastically deformable material (for example, rubber or resin) attached to the back outer peripheral side of the plug lid main body 45A. Packing part 45B.
  • the stopper cover 45 is moved downward together with the water passage member 42 and the support shaft 43, and the entire outer peripheral portion of the packing portion 45B is in contact with the bottom wall portion 101.
  • the drainage port 103 is closed.
  • the lower end surface of the outer peripheral wall portion 42A is in contact with the support protrusion 51B when the drain port 103 is opened, but the lower end surface of the outer peripheral wall portion 42A is supported when the drain port 103 is closed.
  • the protrusion 51B is separated from the protrusion 51B.
  • the unit 46 including the water passage member 42, the support shaft 43, the hair catcher 44, and the plug lid 45 is removed from the drain pipe 41 by pulling up the plug lid 45 and the support shaft 43 from the front side of the bathtub 100. It can be removed at once. In the state where the unit 46 is removed from the drain pipe 41, only the support protrusion 51B slightly protrudes in the drain pipe 41 (main pipe 41A). For this reason, it is possible to improve maintenance and cleaning properties.
  • the stopper lid side mechanism portion 5 is attached to the attachment tube 41B and includes a rotating portion 51, a shaft portion 52, and an opening lid portion 53 as shown in FIG.
  • Rotating part 51 is inserted in a rotatable state with respect to the inner periphery of mounting tube 41B, and has a cylindrical shape in which one end part in the rotating axis direction is closed by disc part 51A.
  • a support protrusion 51B as a support portion protruding into the drain pipe 41 (main pipe 41A) is provided on the outer peripheral side of the surface located on the inner space side of the drain pipe 41 (main pipe 41A) in the disc part 51A. ing.
  • the support protrusion 51B has a bar shape extending in the horizontal direction, and is relatively short so that its tip does not reach the center of the main pipe 41A (the central axis of the main pipe 41A). Further, as the rotating portion 51 rotates, the support protrusion 51B moves up and down while rotating, and as described above, the drainage port 103 opens and closes as the support protrusion 51B moves up and down. In addition, when the rotation part 51 rotates, the surface of the disk part 51A slides while contacting the drain pipe side rotation support part 41D.
  • two inclined groove portions 51 ⁇ / b> C that are inclined with respect to the axial direction are formed through the cylindrical portion of the rotating portion 51.
  • the rotation side contact part 51D is formed by the site
  • the rotation-side facing portion 51E is formed by the portion located on the opposite side to the main pipe 41A (the front side in the backward movement direction of the shaft portion 52). Yes.
  • the rotation-side facing portion 51E is inclined in the same direction as the rotation-side contact portion 51D, and both are opposed to each other along the axial direction of the rotation portion 51. Further, a shaft-side contact portion 52A (described later) of the shaft portion 52 is disposed between the rotation-side contact portion 51D and the rotation-side facing portion 51E, and when the shaft portion 52 moves forward, the shaft-side contact portion 52A. Is in line contact with the rotation-side contact portion 51D, and when the shaft portion 52 is moved backward, the shaft-side contact portion 52A is in line contact with the rotation-side facing portion 51E.
  • the portion in contact with the shaft-side contact portion 52A is the rotation axis direction of the rotation portion 51 (axis The moving direction of the portion 52 is constant.
  • the shaft portion 52 is disposed so as to be capable of reciprocating along the axial direction on the inner periphery of the rotating portion 51.
  • the shaft 52 is connected to the other end of the transmission member 33A (the end located on the side opposite to the operated portion), and the shaft 52 reciprocates as the transmission member 33A reciprocates.
  • the operated part may reciprocate as in the first embodiment, or rotate (turn) unlike the first embodiment. But it may be.
  • the transmission member 33A is configured to reciprocate as the operated portion moves.
  • the shaft portion 52 includes two columnar shaft-side contact portions 52A that protrude outward from the outer periphery thereof.
  • the shaft-side contact portion 52A has a proximal end portion disposed between the rotation-side contact portion 51D and the rotation-side facing portion 51E, and a distal end portion disposed in the recess 41C of the attachment tube 41B. ing.
  • the tip side portion of the shaft side contact portion 52A corresponds to a protrusion disposed in the recess 41C, and the tip side portion of the shaft side contact portion 52A and the recess 41C of the attachment tube 41B are provided.
  • the rotation restricting portion is configured by the portion to be formed.
  • the shaft-side contact portion 52A, the rotation-side contact portion 51D, and the rotation-side facing portion 51E constitute a movement direction conversion portion, and the release wire 33, the shaft portion 52, and the rotation
  • the transmission part TM2 (refer FIG. 6) which transmits the displacement of a to-be-operated part to the plug lid 45 side is comprised by the part 51, the water flow member 42, and the support shaft 43. As shown in FIG.
  • the opening lid portion 53 has a plate shape, and prevents the turning portion 51 and the shaft portion 52 from coming off from the mounting tube 41B by closing the opening of the mounting tube 41B opposite to the main tube 41A. It is.
  • a hole that penetrates in the thickness direction is formed at the center of the opening lid 53, and the other end of the transmission member 33A is connected to the shaft 52 through the hole.
  • the other end portion of the tube member 33 ⁇ / b> B is fixed to the opening lid portion 53 by a predetermined nut member 54.
  • the transmission member 33A is moved backward by moving the operated portion.
  • the shaft-side contact portion 52A presses the rotation-side facing portion 51E, and as a result, the rotation portion 51 rotates relative to the shaft portion 52 on the opposite side to that at the time of opening.
  • the support protrusion 51B moves downward while rotating, and the water passing member 42 and the plug lid 45 move downward due to gravity.
  • the plug lid 45 comes into contact with the bottom wall portion 101, and the drainage port 103 is closed.
  • the distance (turning radius) from the turning shaft of the turning portion 51 to the support protrusion 51B along the radial direction of the turning portion 51 is adjusted, or the reciprocating direction of the shaft portion 52 is changed.
  • the amount of movement of the support protrusion 51B along the vertical direction becomes larger than the amount of movement of the shaft portion 52 when the operated portion is moved by adjusting the inclination angle of the rotation-side contact portion 51D.
  • the movement of the shaft portion 52 can be converted into the rotation motion of the rotation portion 51, and the support protrusion 51B can be rotated. Therefore, the operational stability of the stopper lid side mechanism portion 5 can be enhanced.
  • the plug lid 45 is more reliable.
  • the amount of reciprocation (stroke amount) of the shaft portion 52 can be made smaller while achieving vertical movement. Therefore, the length of the stopper lid side mechanism portion 5 along the reciprocating direction of the shaft portion 52 can be made smaller. Thereby, the attachment freedom degree of the stopper lid side mechanism part 5 with respect to the drain pipe 41 can be raised. Further, since the reciprocating amount of the operated portion necessary for opening and closing the drainage port 103 can be reduced, the operability can be improved and the usability for the user can be improved.
  • the rotation part 51 slides the drainage pipe side rotation support part 41D at the time of the rotation, the rotation part 51 can be rotated more stably, and the operation stability of the apparatus is further increased. Can be increased. Further, since the drain pipe side rotation support portion 41D is configured by a part of the drain pipe 41, the apparatus can be further downsized and simplified, and the manufacturing cost can be further reduced.
  • the rotating portion 51 can be rotated in both directions by pushing and pulling (reciprocating) the shaft portion 52. Accordingly, there is no need to provide a member (for example, a return force applying portion made of a spring member) for rotating the rotating portion 51 to the other side, thereby suppressing an increase in manufacturing cost and simplifying (miniaturizing) the apparatus. More can be achieved.
  • a member for example, a return force applying portion made of a spring member
  • a lock mechanism is provided for the support shaft mechanism 23 of the drain port device 2, but in the third embodiment, as shown in FIG. 9, the operation side mechanism section 34 of the operation device 3. In contrast, a lock mechanism 345 is provided.
  • the shaft portion 344B includes a cylindrical outer cylindrical portion 344E and a rod-shaped inner side provided coaxially with the outer cylindrical portion 344E.
  • a part of the lock mechanism 345 is constituted by a rotating ring 346 provided on the outer periphery of the inner shaft part 344F.
  • the operation side rotation support part 383 is provided with the 1st structure part 383C and the 2nd structure part 383D assembled
  • a locking cylinder 383E that constitutes a part of the locking mechanism 345 is configured.
  • the outer cylinder part 344E is a part provided with the shaft side contact part 344D on the outer periphery thereof.
  • the inner shaft portion 344F has a constricted portion on the outer periphery of the other end thereof, and an annular rotating ring 346 is attached to the outer periphery of the constricted portion. Further, a projection 344G extending along the axial direction of the shaft portion 344B is formed on one end side of the inner shaft portion 344F with respect to the attached portion of the rotating ring 346. A plurality of projection portions 344G (three in the present embodiment) are provided at equal intervals along the circumferential direction of the inner shaft portion 344F.
  • the rotation ring 346 is attached to the inner shaft portion 344F so as to be rotatable about the central axis of the shaft portion 344B, and can move together with the shaft portion 344B when the shaft portion 344B reciprocates. Further, an engaged portion 346 ⁇ / b> A that protrudes outward is provided on the outer periphery of the rotating ring 346. Three engaged portions 346 ⁇ / b> A are provided at equal intervals along the circumferential direction of the rotating ring 346. Further, the engaged portion 346A is configured to have a trapezoidal shape when the outer peripheral surface thereof is visually recognized along the radial direction of the rotating ring 346.
  • the first component portion 383C has a bowl-like cylindrical shape at the other end (the end opposite to the operated portion 344A), and one end thereof is between the outer cylindrical portion 344E and the inner shaft portion 344F. Has been placed. Further, the first component portion 383C is screwed and fixed to the other end portion of the inner cylindrical portion 341B, and as a result, cannot be moved relative to the bathtub 100.
  • a plurality (six in this embodiment) of engagement teeth 384 are provided at equal intervals along the circumferential direction of the inner periphery of the first component portion 383C.
  • Each engagement tooth 384 extends along the axial direction of the first component 383C, and the other end surface of the engagement tooth 384 (the surface facing the first component 383C side) is as shown in FIG.
  • a first inclined surface portion 384A, an orthogonal surface portion 384B, and a second inclined surface portion 384C are provided in this order from one circumferential end to the other end.
  • the first inclined surface portion 384A is inclined from one end in the circumferential direction of the other end surface of the engaging tooth 384 toward one end side of the first component portion 383C toward the orthogonal surface portion 384B.
  • the orthogonal surface portion 384B is provided between the both inclined surface portions 384A and 384C, and extends in a direction parallel to the axial direction of the first component portion 383C.
  • the second inclined surface portion 384C is inclined in the same inclination direction as the first inclined surface portion 384A from the other end of the orthogonal surface portion 384B toward the other circumferential end of the other end surface of the engaging tooth 384.
  • each engagement tooth 384 the cylinder side groove part 384D extended in the axial direction (movement direction of the axial part 344B) of the 1st structure part 383C is formed.
  • a plurality (six in this embodiment) of the cylinder-side groove portions 384D are provided at equal intervals along the circumferential direction of the first component portion 383C.
  • a protrusion 344G is disposed in the tube side groove 384D together with the engaged portion 346A.
  • the second component 383D is attached to the first component 383C so as to close the end opening of the first component 383C opposite to the operated portion 344A (see FIG. 10).
  • guide teeth 385 are provided at one end of a portion of the second component 383D that is inserted through the first component 383C.
  • a plurality (six in this embodiment) of guide teeth 385 are provided at equal intervals along the circumferential direction, and are configured to protrude toward one end side.
  • the first orthogonal surface portion 385A, the first inclined portion 385B, the second orthogonal surface portion 385C, The second inclined portion 385D is provided in this order.
  • the first orthogonal surface portion 385A and the second orthogonal surface portion 385C extend in a direction parallel to the axial direction of the first component portion 383C, and the first inclined portion 385B extends from one end of the first orthogonal surface portion 385A. Yes.
  • the first inclined portion 385B and the second inclined portion 385D are disposed so as to sandwich the second orthogonal surface portion 385C, and are inclined in the direction opposite to the inclination direction of the inclined surface portions 384A, 384C.
  • a gap 385E is formed between the adjacent guide teeth 385.
  • the first inclined surface portion 384A faces the first inclined portion 385B and the second inclined portion 385D
  • the second inclined surface portion 384C is the second inclined portion.
  • the relative positional relationship between the engaging teeth 384 and the guide teeth 385 is set so as to face the portion 385D and the gap portion 385E.
  • the cylindrical portion having the engagement teeth 384 and the cylindrical groove 384D on the inner periphery of the first component 383C and the first component 383C of the second component 383D are inserted.
  • the locking cylinder portion 383E is configured by the portion having the guide teeth 385.
  • the shaft portion 344B (shaft side contact portion 344D) is turned by the urging force from the return force applying portion.
  • the shaft portion 344B is held at a relatively one end side by being pressed by the 342 (the rotation side contact portion 342B). Therefore, the transmission member 33A is held at a predetermined first position, and the drainage port 103 is closed by the plug lid 24.
  • the engaged portion 346A is engaged with the engaging teeth 384, and the shaft portion 344B is held relatively on the other end side (see FIG. 9). Further, the transmission member 33A is held at the second position on the drain port device 2 side from the first position. As a result, the plug lid 24 is pushed up, and as a result, the drainage port 103 is held open.
  • the protruding portion 344G is always arranged with respect to the tube-side groove portion 384D regardless of whether the shaft portion 344B is moving or stopped.
  • the shaft portion 344 ⁇ / b> B cannot rotate relative to the bathtub 100.
  • the rotation restricting portion is configured by the portion of the first component portion 383C that forms the tube-side groove portion 384D and the projection portion 344G.
  • the cylinder-side groove portion 384D is used in common for both restricting the relative rotation of the rotating ring 346 and restricting the relative rotation of the shaft portion 344B. Therefore, it is possible to more reliably prevent the apparatus from becoming complicated while providing the lock mechanism 345. As a result, simplification (miniaturization) of the device and suppression of increase in manufacturing cost can be achieved more reliably.
  • a roller portion that is rotatable with respect to the shaft side contact portions 344D and 52A is provided, and the roller portion rotates while pressing the rotation side contact portions 342B and 51D as the operated portion moves. May be.
  • the rotation side contact parts 342B and 51D can be moved very smoothly with respect to the axis side contact parts 344D and 52A (roller part). Resistance generated between the contact portions 344D and 52A and the rotation side contact portions 342B and 51D can be effectively reduced. Therefore, the force required to move the operating member 344 can be further reduced, and better operability can be realized.
  • the rotation-side contact portions 342B and 51D have a spiral shape in which the inclination with respect to the reciprocating movement direction of the operation member 344 (the direction in which the rotation axis of the rotation portion 342 extends) is constant.
  • the inclination of the rotation-side contact portion with respect to the reciprocating direction of the operation member 344 is not necessarily constant. Therefore, for example, as shown in FIG. 13, when the rotation-side contact portion 352 ⁇ / b> B of the rotation portion 352 moves the operated portion to open the drainage port 103, it first contacts the shaft-side contact portion.
  • Rotation side contact start end portion 352C that is a portion to be operated and rotation side contact termination portion 352D that is a portion that finally contacts the shaft side contact portion when the operated portion is moved to open drain port 103.
  • a rotation side contact intermediate portion 352E positioned between the rotation side contact start end portion 352C and the rotation side contact end portion 352D, and the inclination of the rotation side contact start end portion 352C is the rotation side contact. You may comprise so that it may become gentler than the inclination of the intermediate part 352E.
  • the inclination of the rotation-side contact start end portion 352C is gentler than the inclination of the rotation-side contact intermediate portion 352E” means that the rotation portion when the rotation-side contact portion 352B is developed on a plane.
  • the acute angle among the angles formed by the rotation shaft 352 and the rotation side contact start end portion 352C is smaller than the acute angle among the angles formed by the rotation shaft and the rotation side contact intermediate portion 352E.
  • the rotation-side contact intermediate portion 352E has a curved shape or has a plurality of inclined surfaces with different angles
  • the rotation-side contact intermediate portion 352E is developed on a plane
  • the rotation axis and the rotation side contact intermediate part 352E (when the rotation side contact intermediate part 352E is curved, a tangent line that contacts the rotation side contact intermediate part 352E)
  • the acute angle among the angles formed by the rotation angle is larger than the acute angle among the angles formed by the rotation shaft and the rotation side contact start end portion 352C.
  • the force applied in the backward movement direction to the operated portion 344A from the return force applying portion to the operated portion 344A through the transmission member 33A in the rotating side contact portion 362B of the rotating portion 362 is predetermined.
  • the slope of the portion 362C that comes into contact with the shaft-side contact portion 344D when it becomes larger than the value may be made gentler than the slope of the other portion 362D in the rotation-side contact portion.
  • the pressing force necessary to be applied to the operated portion 344A to rotate the rotating portion 362 is relatively small. Therefore, the operability can be further improved.
  • a stage where the pressing force necessary to be applied to the operated portion 344A to rotate the rotation portion 342 may be relatively small (for example, the rotation portion 342).
  • the part which contacts shaft side contact part 344D in the stage until the play and clearance gap between each member disappear after rotation start it is good also considering the inclination as comparatively steep.
  • the transmission member 33A can be moved relatively large.
  • the rotation side contact portions 342B and 51D are configured to have an inclined surface shape.
  • the shaft side contact portion 374D of the shaft portion 374B has an inclined surface shape.
  • the rotation side contact part 372B of the rotation part 372 may have a non-inclined surface shape (for example, a protrusion shape). Moreover, you may comprise so that both a rotation side contact part and an axial side contact part may make an inclined surface shape.
  • the shaft-side contact portion has an inclined surface shape
  • the shaft-side contact portion has a spiral shape in which the inclination with respect to the direction in which the rotation shaft of the rotation portion 372 extends (the circumferential direction of the rotation portion 372) is constant. It is good. In this case, as in the above-described embodiment, operational effects such as improved operational stability and prevention of operational errors are exhibited.
  • the inclination of the shaft-side contact portion is not constant, and for example, the configuration of the rotation-side contact portion shown in (b) above may be applied to the shaft-side contact portion. In this case, the same effect as the effect described in the above (b) is exhibited.
  • a roller portion that can rotate with respect to the rotation-side contact portion is provided, and the roller portion rotates while being pressed by the shaft-side contact portion as the shaft portion moves.
  • the rotation side contact part (roller part) can be moved very smoothly with respect to the axis side contact part. It is possible to effectively reduce the resistance generated between the two parts. As a result, it is possible to further reduce the force required to move the operated portion, and to realize better operability.
  • the shaft portion 374B has a shaft-side contact portion 374D inclined with respect to the movement direction, and is positioned behind the shaft-side contact portion 374D along the movement direction. It is good also as what has the inclined surface-shaped axial side back inclination part 374E inclined in the same direction as contact part 374D.
  • the rotation part 372 is good also as providing the 2nd rotation side contact part 372C which can be contacted with the axial side back inclination part 374E with the rotation side contact part 372B which can be contacted with the axis side contact part 374D.
  • the shaft side contact portion 374D presses the rotation side contact portion 372B, so that the rotation portion 372 rotates relative to the shaft portion 374B to one side, and the shaft portion 374B.
  • the shaft-side back inclined portion 374E presses the second rotation-side contact portion 372C, so that the rotation portion 372 rotates relative to the other side with respect to the shaft portion 374B.
  • the rotating portion 372 can be rotated in both directions by pushing and pulling (reciprocating) the shaft portion 374B. Accordingly, there is no need to provide a member (for example, a return force applying unit) for rotating the rotating unit 372 to the other side, and it is possible to further suppress an increase in manufacturing cost and simplify (miniaturize) the apparatus. .
  • the presence of the shaft-side back inclined portion 374E and the second rotation-side contact portion 372C can prevent the shaft portion 374B from moving unintentionally. Thereby, the movement which the to-be-operated part does not intend can be prevented more reliably, and the usability for a user can be raised more.
  • the shaft side contact portion 344D and the rotation side contact portion 342B are configured to be in surface contact, but may be configured to be in line contact or point contact.
  • the contact resistance between the shaft side contact portion and the rotation side contact portion can be made smaller. Therefore, it is possible to further reduce the force required to move the operated portion and further improve the operability.
  • one of the rotation side contact portion and the shaft side contact portion is formed in a spiral shape, and the rotation side contact portion and the shaft side A portion of the contact portion facing the one side may be formed in a spherical shape convex on the one side or a pointed shape protruding on the one side.
  • the rotation-side contact portion 342 ⁇ / b> B having an inclined surface is configured by providing a step on the inner periphery of the rotation portion 342, but a groove is formed on the inner periphery of the rotation portion 342. It is good also as comprising a rotation side contact part by providing. The same applies to the case where the shaft-side contact portion is inclined.
  • the rotation portion 342 is provided on the outer periphery of the shaft portion 344B.
  • the rotation portion may be provided on the inner periphery of the shaft portion.
  • the shaft side contact portion provided on the inner periphery of the shaft portion and the rotation side contact portion provided on the outer periphery of the rotation portion into an inclined surface, when the shaft portion moves, You may comprise so that a rotation part may rotate with respect to a shaft part.
  • the transmission member 33A is comprised by the wire etc. which can reciprocate the inner periphery of the tube member 33B
  • the structure of a transmission member is not limited to this,
  • a transmission member May be provided with a wire or the like and a rod-shaped rack portion provided in series with a plurality of teeth on the side surface portion while being connected in series to one end portion of the wire or the like.
  • a rotation part may be configured to move forward or backward along a tangential direction of the rotation direction.
  • the rotation-side contact portion is provided on the forward side in the forward movement direction of the shaft-side contact portion of the rotation portion.
  • a rotation side contact portion may be provided on the side, and the rotation portion may be rotated by the shaft side contact portion pressing the rotation side contact portion when the shaft portion is moved backward. That is, it is good also considering the rotation side opposing part 51E in the said 2nd Embodiment as a rotation side contact part.
  • the rotation-side contact portion 51D in the second embodiment is regarded as the rotation-side facing portion, and the shaft-side contact portion becomes the rotation-side facing portion as the shaft portion 52 moves forward.
  • the rotating part 51 rotates relative to the one side with respect to the shaft part 52, and the shaft side contact part presses the rotating side contact part as the shaft part 52 moves backward.
  • the moving part 51 rotates to the other side with respect to the shaft part 52.
  • the second rotation side contact portion 372C in (d) may be regarded as the rotation side contact portion.
  • the rotation-side contact portion 372B is regarded as the second rotation-side contact portion
  • the shaft-side contact portion 374D is regarded as the shaft-side back inclined portion
  • the shaft-side back inclined portion 374E is the shaft-side contact. It will be understood as a part.
  • the shaft-side back inclined portion presses the second rotation-side contact portion, so that the rotation portion 372 rotates relatively to one side with respect to the shaft portion 374B.
  • the shaft side contact portion presses the rotation side contact portion, so that the rotation portion 372 rotates relative to the shaft portion 374B to the other side.
  • the operated portion 344A is configured not to protrude from the surface of the mounting member 31.
  • the operated portion 344A is configured to protrude from the surface of the mounting member 31. Also good.
  • the operating device 3 is attached to the bathtub 100 (tank body), the attachment object of an operating device is not limited to this, For example, it is provided in the vicinity of a tank body. It may be a structure.
  • the operation device 3 is provided corresponding to the overflow port 104 formed as a through hole formed in the side wall portion 102, but the bathtub 100 is provided on the side wall portion 102.
  • a plate-like apron arranged with a gap may be provided, and an operating device may be provided corresponding to the through-hole formed through the apron.
  • the apron of the bathtub usually has a small gap with the side wall portion 102 located on the back side, and it is never easy to attach the operating device to the apron, but the operating device 3 of the above embodiment is not operated. Since the length along the moving direction of the portion 344A is very small, it can be more easily attached to the apron.
  • a through-hole is formed in the wall panel. It is good also as providing an operating device corresponding to this through-hole.
  • the clearance between the wall panel and the wall surface on the back side tends to be small, it is not easy to attach the operating device to the wall panel, but the length along the moving direction of the operated portion 344A can be reduced. If it is the form of operating device 3, it can be easily attached also to a wall panel.
  • the bathtub 100 is illustrated as the tank body, but the tank body to which the technical idea of the present invention can be applied is not limited to the bathtub. Therefore, for example, the technical idea of the present invention may be applied to a bathroom vanity or a sink, and an operation device may be attached to these.
  • the vanity is provided with a plate-like back guard that extends in the vertical direction and is spaced from a predetermined wall surface, and corresponds to the through-hole formed in the back guard.
  • An operating device may be provided. Since the back guard of the vanity is usually small in distance from the wall surface located on the back side, it is not easy to attach the operating device to the back guard. However, since the operating device 3 of the above embodiment has a very small length along the moving direction of the operated portion 344A, it can be attached to the back guard more easily.
  • the return force application unit is provided in the support shaft mechanism 23, but the return force application unit may be provided in the operation side mechanism unit 34.
  • the lock mechanism and the return force applying unit may be provided in the support shaft mechanism 23, and the other of the lock mechanism and the return force applying unit may be provided in the operation side mechanism unit 34.
  • the rotation-side contact portion 51D and the rotation-side facing portion 51E are provided, but only the rotation-side contact portion 51D may be provided.
  • the shaft side contact portion presses the rotation side contact portion, whereby the rotation portion 51 rotates and the support protrusion 51B moves upward. It may be configured to move or move downward.
  • the rotation-side contact portion is provided on the front side in the backward movement direction of the shaft portion 52, and when the shaft portion 52 moves backward along with the backward movement of the transmission member 33A, the shaft-side contact portion becomes the rotation-side contact portion.
  • the rotation part 51 may rotate and the support protrusion 51B may move up or down.
  • the transmission member 33A is configured by a wire or the like that can reciprocate along the inner periphery of the tube member 33B.
  • the configuration of the transmission member is not limited to this, and for example, rotation You may comprise a transmission member by the universal joint etc. which can transmit force.
  • one end of the universal joint is connected in series to the rotating unit 342, or the rotating unit 342 forms one end of the universal joint, and the rotating unit 342 rotates.
  • the turning force may be transmitted to the universal joint.
  • the support protrusion 51B provided on the outer peripheral side of the end surface of the rotating part 51 is cited as the support part, but the structure of the support part is not limited to this.
  • a rod-shaped member that protrudes outward in the radial direction from the outer periphery of the rotating portion and supports the supported member by the tip portion may be used as the support portion.
  • the tip of the rod-shaped member moves up and down with the rotation of the rotating unit, so that the supported member and the plug lid supported by the member can be moved up and down. Can be opened and closed.
  • a support shaft whose upper end portion is attached to the rear center portion of the plug lid may be used as the supported member.

Landscapes

  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Environmental & Geological Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Water Supply & Treatment (AREA)
  • Mechanical Engineering (AREA)
  • Sink And Installation For Waste Water (AREA)

Abstract

This drain plug device (1) is provided with: an operation subject part (344A); a plug lid (24); and a transfer body (TM1) which is provided between the operation subject part (344A) and the plug lid (24) and which transfers displacement of the operation subject part (344A) toward the plug lid (24). The transfer body (TM1) is provided with a shaft part (344B) capable of moving in the shaft direction thereof, and a turning part (342) capable of turning relative to the shaft part (344B). A shaft side contact part (344D) provided to the shaft part (344B) and/or a turning side contact part (342B) provided to the turning part (342) has an inclined surface shape which is inclined with respect to the moving direction of the shaft part (344B), and movement of the operation subject part (344A) causes the shaft side contact part (344D) to press the turning side contact part (342B) so that the shaft motion of the shaft part (344B) is converted to a turning motion to turn the turning part (342). Thus, a motion direction converting part that converts a shaft motion to a turning motion can be realized with a simple structure.

Description

排水栓装置Drain plug device
 本発明は、槽体の排水口に設けられる栓蓋を有してなる排水栓装置に関する。 The present invention relates to a drain plug device having a plug lid provided at a drain port of a tank body.
 従来、排水栓装置としては、排水口に設けられた栓蓋と、所定の取付対象物(例えば、槽体やその近傍に設けられた構造物)に対し移動可能に構成された操作用の被操作部(例えば、操作ボタンや操作ツマミ等)と、被操作部及び栓蓋間に設けられ、被操作部の変位を栓蓋へと伝達する伝達体とを備え、被操作部を変位(移動)させることで排水口を開閉させるものが知られている(例えば、特許文献1等参照)。 Conventionally, as a drain plug device, an operation cover configured to be movable with respect to a plug lid provided at a drain port and a predetermined attachment object (for example, a tank body or a structure provided in the vicinity thereof). An operation unit (for example, an operation button, an operation knob, etc.) and a transmission body provided between the operated unit and the plug lid and transmitting the displacement of the operated unit to the plug lid are provided to displace (move the operated unit). ) To open and close the drain outlet is known (see, for example, Patent Document 1).
特開2005-133331号公報JP 2005-133331 A
 ところで、排水栓装置によっては、伝達体において、被操作部の移動に伴い生じた軸方向に沿った運動を、前記軸方向と平行な直線を回動軸とする回動運動へと変換する運動方向変換部を設けることが必要な場合がある。このような運動方向変換部は、装置の安定的な動作や製造コストの増大抑制、装置の小型化などといった面から、より簡素な構造であることが望まれる。 By the way, depending on the drain plug device, in the transmission body, the movement along the axial direction caused by the movement of the operated portion is converted into a rotational movement with a straight line parallel to the axial direction as a rotational axis. It may be necessary to provide a direction changer. Such a movement direction conversion part is desired to have a simpler structure from the viewpoints of stable operation of the apparatus, suppression of increase in manufacturing cost, miniaturization of the apparatus, and the like.
 本発明は、上記事情に鑑みてなされたものであり、その目的は、簡素な構造により運動方向変換部を実現することができ、ひいては装置の安定的な動作や製造コストの増大抑制、装置の小型化を図ることができる排水栓装置を提供することにある。 The present invention has been made in view of the above circumstances, and an object thereof is to realize a movement direction conversion unit with a simple structure, and consequently, to suppress the stable operation of the apparatus and the increase in manufacturing cost, and the apparatus. An object of the present invention is to provide a drain plug device that can be miniaturized.
 以下、上記目的を解決するのに適した各手段につき、項分けして説明する。なお、必要に応じて対応する手段に特有の作用効果を付記する。 Hereafter, each means suitable for solving the above-mentioned purpose will be described in terms of items. In addition, the effect specific to the means to respond | corresponds as needed is added.
 手段1.所定の取付対象物に対し移動可能な状態で設けられた操作用の被操作部と、
 上下動可能に構成され、自身の上下動に伴い槽体の排水口を開閉可能な栓蓋と、
 前記被操作部及び前記栓蓋の間に設けられ、前記被操作部の変位を前記栓蓋側へと伝達する伝達体とを備えた排水栓装置であって、
 前記伝達体は、
 前記被操作部の移動に伴い、自身の軸方向に沿って移動可能な軸部と、
 前記軸部の外周又は内周に配置されるとともに、前記軸部の周方向に沿って前記軸部に対し相対回動可能な回動部と、
 前記軸部の運動を回動運動に変換し、前記回動部を回動させる運動方向変換部とを有し、
 前記取付対象物及び前記槽体の少なくとも一方に対し前記軸部を相対回転不能に規制する回転規制部が設けられ、
 前記運動方向変換部は、
 前記軸部に設けられた軸側接触部と、
 前記回動部に設けられ、前記軸側接触部に対し接触可能な回動側接触部とを具備するとともに、
 前記軸側接触部のうち前記回動側接触部に接触する部位、及び、前記回動側接触部のうち前記軸側接触部に接触する部位の少なくとも一方は、前記軸部の移動方向に対し傾斜する傾斜面状をなし、
 前記被操作部の移動に伴い、前記軸側接触部が前記回動側接触部を押圧することで、前記回動部が前記軸部に対し相対回動するように構成されていることを特徴とする排水栓装置。
Means 1. An operated part for operation provided in a movable state with respect to a predetermined attachment object;
A plug lid that is configured to be movable up and down, and that can open and close the drain outlet of the tank body with its own vertical movement,
A drain plug device provided between the operated portion and the plug lid, and comprising a transmitter for transmitting the displacement of the operated portion to the plug lid side,
The transmitter is
Along with the movement of the operated part, a shaft part movable along its own axial direction,
A rotating portion that is disposed on the outer periphery or inner periphery of the shaft portion, and that is rotatable relative to the shaft portion along the circumferential direction of the shaft portion;
A movement direction conversion section that converts the movement of the shaft section into a rotation movement and rotates the rotation section;
A rotation restricting portion for restricting the shaft portion from being relatively unrotatable with respect to at least one of the attachment object and the tank body is provided,
The movement direction conversion unit is
A shaft-side contact portion provided in the shaft portion;
A rotation-side contact portion provided in the rotation portion and capable of contacting the shaft-side contact portion;
At least one of a portion of the shaft-side contact portion that contacts the rotation-side contact portion and a portion of the rotation-side contact portion that contacts the shaft-side contact portion is in a moving direction of the shaft portion. An inclined surface is formed,
The shaft-side contact portion presses the rotation-side contact portion as the operated portion moves, so that the rotation portion rotates relative to the shaft portion. Drain plug device.
 上記手段1によれば、軸側接触部及び回動側接触部の接触部分における少なくとも一方が傾斜面状とされており、軸側接触部が回動側接触部を押圧することで、軸部の軸運動を回動部の回動運動へと変換することができる。従って、傾斜面を利用した非常に簡素な構造により、運動方向変換部を実現することができる。これにより、装置の安定的な動作を図ることができるとともに、製造コストの増大抑制、及び、装置の小型化を効果的に図ることができる。 According to the means 1, at least one of the contact portions of the shaft side contact portion and the rotation side contact portion is inclined, and the shaft side contact portion presses the rotation side contact portion, whereby the shaft portion Can be converted into a rotational motion of the rotational portion. Therefore, the movement direction conversion unit can be realized by a very simple structure using the inclined surface. As a result, stable operation of the apparatus can be achieved, increase in manufacturing cost can be suppressed, and downsizing of the apparatus can be effectively achieved.
 また、回転規制部によって、取付対象物及び槽体の少なくとも一方に対し軸部を相対回転不能とすることができ、ひいては軸部を移動させたときに回動部をより確実に回動させることができる。これにより、上述の作用効果をより確実に発揮させることができる。 Further, the rotation restricting portion can make the shaft portion relatively unrotatable with respect to at least one of the attachment object and the tank body, and as a result, when the shaft portion is moved, the turning portion is more reliably turned. Can do. Thereby, the above-mentioned effect can be more reliably exhibited.
 手段2.前記被操作部、前記軸部、前記回動部、及び、前記運動方向変換部を具備するとともに、前記取付対象物に形成された貫通孔に対し前記被操作部及び前記軸部の少なくとも一方が挿通されてなる操作装置を有し、
 前記軸部は、前記被操作部の移動方向に沿って前記被操作部に対し直列的に固定されており、
 前記伝達体は、往復移動可能な伝達部材を有し、
 前記軸部に対して前記回動部が相対回動したときに、前記回動部から前記伝達部材の一端部へと動力が加わり、前記回動部の回動方向の接線方向に沿って前記伝達部材の一端部が移動するように構成されていることを特徴とする手段1に記載の排水栓装置。
Mean 2. The operated portion, the shaft portion, the rotating portion, and the movement direction converting portion are provided, and at least one of the operated portion and the shaft portion is formed with respect to a through hole formed in the attachment object. Having an operating device inserted through;
The shaft portion is fixed in series to the operated portion along the moving direction of the operated portion,
The transmission body has a reciprocating transmission member,
When the rotating portion rotates relative to the shaft portion, power is applied from the rotating portion to one end portion of the transmission member, and the tangential direction of the rotating portion rotates along the tangential direction. The drain plug apparatus according to means 1, wherein one end of the transmission member is configured to move.
 尚、「軸部が被操作部に対し固定」とあるのは、両者が別体で形成された後、被操作部を軸部へと固定する場合のみならず、両者が一体で形成されている場合も含む。また、軸部は、被操作部に対して必ずしも直接固定されている必要はなく、被操作部に対し間接的に(被操作部との間に何らかの部材が介在した状態で)固定されていてもよい。さらに、軸部は、被操作部に対し完全に不動な状態である必要はない。例えば、両者の間に若干の隙間が形成されていたり、両者の間にバネ等の緩衝材を設けたりすることで、軸部が被操作部に対し若干相対移動可能であってもよい。 Note that “the shaft part is fixed to the operated part” is not only the case where the operated part is fixed to the shaft part after the two parts are formed separately, but the two parts are integrally formed. This includes cases where Further, the shaft portion does not necessarily have to be directly fixed to the operated portion, and is indirectly fixed to the operated portion (with some member interposed between the operated portion) and the shaft portion. Also good. Furthermore, the shaft portion does not have to be completely immobile with respect to the operated portion. For example, a slight gap may be formed between the two, or a shaft or the like may be slightly moved relative to the operated portion by providing a cushioning material such as a spring between the two.
 従来、栓蓋を遠隔操作するための操作装置は、被操作部及びこれと直列的に固定された軸部を有する操作部材と、被操作部の移動に伴い移動可能な伝達部材(例えば、ワイヤー等)とを備えている。また、操作装置としては、操作部材(被操作部及び軸部)の移動方向と、伝達部材のうち被操作部側に位置する端部の往復移動方向とが同一方向とされたものが知られている(例えば、特開2005-133331号等参照)。 2. Description of the Related Art Conventionally, an operation device for remotely operating a plug lid includes an operation member having an operated portion and a shaft portion fixed in series with the operated portion, and a transmission member (for example, a wire) that can move as the operated portion moves. Etc.). In addition, an operation device is known in which the moving direction of the operating member (operated portion and shaft portion) and the reciprocating direction of the end portion of the transmission member located on the operated portion side are the same direction. (See, for example, JP-A-2005-133331).
 しかしながら、このような操作装置においては、被操作部(軸部)の移動方向に沿った操作装置の長さが比較的大きなものとなってしまう。そのため、安全性や美感の面から、操作装置(例えば、被操作部)が取付対象物(例えば、浴槽等の槽体や槽体の周辺に設けられた構造物)の表面から突出しないように構成すれば、操作装置が取付対象物の背面から奥側に大きく突出することとなってしまう。従って、操作装置を配設可能な位置は、取付対象物のうち奥行(内部スペース)が十分に存在する位置に限られてしまう(すなわち、操作装置の取付自由度が低下してしまう)おそれがある。 However, in such an operating device, the length of the operating device along the moving direction of the operated portion (shaft portion) becomes relatively large. Therefore, from the viewpoint of safety and aesthetics, the operating device (for example, the operated portion) should not protrude from the surface of the attachment target (for example, a tank body such as a bathtub or a structure provided around the tank body). If comprised, an operating device will protrude greatly from the back of a mounting target object to the back | inner side. Therefore, the position where the operating device can be disposed is limited to a position where there is a sufficient depth (internal space) among the objects to be attached (that is, the degree of freedom in mounting the operating device may be reduced). is there.
 一方で、操作装置が取付対象物の表面から突出するように構成すれば、取付対象物のうち奥行(内部スペース)の比較的小さな部位に対しても操作装置を取付けることができる。しかし、この場合には、安全性や美感の低下を招いてしまうおそれがある。つまり、従来の操作装置では、取付自由度と、安全性及び美感とは、いわばトレードオフの関係にあり、双方において良好な性能を得ることは困難である。 On the other hand, if the operation device is configured to protrude from the surface of the attachment object, the operation device can be attached even to a relatively small portion of the attachment object (depth) (internal space). However, in this case, there is a concern that safety and aesthetics may be reduced. That is, in the conventional operating device, the degree of freedom of attachment, safety and aesthetics are in a trade-off relationship, and it is difficult to obtain good performance in both.
 この点、上記手段2によれば、操作装置に対し運動方向変換部等が設けられており、被操作部を移動させて回動部を回動させたときに、回動部の回動方向の接線方向に沿って伝達部材の一端部が移動する。従って、伝達部材の一端部の移動方向を、軸部の往復移動方向と直交する方向(軸部の周方向)とすることができ、また、軸部と伝達部材の一端部とが直列的に並ばないようにすることができる。これにより、軸部の移動方向に沿った操作装置の長さを非常に小さなものとすることができる。その結果、良好な安全性や美感を確保しつつ、取付自由度を飛躍的に高めることができる。 In this regard, according to the above means 2, the movement direction conversion unit or the like is provided with respect to the operating device, and when the operated unit is moved to rotate the rotation unit, the rotation direction of the rotation unit The one end of the transmission member moves along the tangential direction. Therefore, the movement direction of the one end portion of the transmission member can be a direction (circumferential direction of the shaft portion) orthogonal to the reciprocation direction of the shaft portion, and the shaft portion and one end portion of the transmission member are connected in series. It is possible to prevent them from being lined up. Thereby, the length of the operating device along the moving direction of the shaft portion can be made very small. As a result, it is possible to dramatically increase the degree of freedom of attachment while ensuring good safety and aesthetics.
 さらに、伝達部材の往復移動方向を操作部材の往復移動方向と直交する方向(操作部材の中心軸の周方向)とするために、上記特開2005-133331号公報の図1等に示されるように、レリースワイヤを曲げる必要はない。従って、レリースワイヤの曲げに伴い、伝達部材及びチューブ部材間で生じる摩擦力が大きくなって操作性が低下してしまったり、伝達部材等に破損が生じてしまったりすることをより確実に防止できる。 Further, in order to make the reciprocating direction of the transmission member perpendicular to the reciprocating direction of the operating member (circumferential direction of the central axis of the operating member), as shown in FIG. In addition, it is not necessary to bend the release wire. Accordingly, it is possible to more reliably prevent the frictional force generated between the transmission member and the tube member from increasing due to the bending of the release wire, resulting in a decrease in operability or damage to the transmission member. .
 手段3.前記取付対象物は、底面部と、当該底面部に立設された側壁部とを有する浴槽であり、
 前記貫通孔は、前記側壁部に形成されていることを特徴とする手段2に記載の排水栓装置。
Means 3. The attachment object is a bathtub having a bottom surface portion and a side wall portion standing on the bottom surface portion,
The drain plug device according to means 2, wherein the through hole is formed in the side wall portion.
 浴槽の側壁部は、通常、この裏側に位置する壁面やエプロンとの間隔が小さなものとなりやすい。従って、通常、側壁部に対し操作装置を取付けることは決して容易ではない。 The side wall of the bathtub usually tends to have a small distance from the wall or apron located on the back side. Therefore, it is usually not easy to attach the operating device to the side wall.
 この点、上記手段2によれば、被操作部の移動方向に沿った操作装置の長さを非常に小さなものとすることができる。従って、壁面等との間隔が小さい側壁部に対しても操作装置を取付けることがより容易に可能となる。換言すれば、上記手段2は、貫通孔が浴槽の側壁部に設けられている場合に、特に有効である。 In this regard, according to the means 2, the length of the operating device along the moving direction of the operated part can be made very small. Accordingly, it is possible to more easily attach the operating device to the side wall portion having a small distance from the wall surface or the like. In other words, the means 2 is particularly effective when the through hole is provided in the side wall of the bathtub.
 手段4.前記取付対象物は、所定の壁面との間で隙間をあけて配置される板状のバックガードを備えてなる洗面化粧台であって、
 前記貫通孔は、前記バックガードに形成されていることを特徴とする手段2に記載の排水栓装置。
Means 4. The attachment object is a vanity comprising a plate-shaped back guard arranged with a gap between a predetermined wall surface,
The drain plug device according to means 2, wherein the through hole is formed in the back guard.
 洗面化粧台のバックガードは、通常、この裏側に位置する壁面との間隔が小さい。従って、バックガードに対し操作装置を取付けることは容易ではない。 The back guard of a vanity is usually small with the wall located on the back side. Therefore, it is not easy to attach the operating device to the back guard.
 この点、上記手段2によれば、被操作部の移動方向に沿った操作装置の長さを非常に小さなものとすることができる。従って、壁面等との間隔が小さいバックガードに対しても操作装置を取付けることがより容易に可能となる。換言すれば、上記手段2は、貫通孔が洗面化粧台のバックガードに設けられている場合に、特に有効である。 In this regard, according to the means 2, the length of the operating device along the moving direction of the operated part can be made very small. Therefore, it is possible to more easily attach the operating device to the back guard having a small distance from the wall surface or the like. In other words, the means 2 is particularly effective when the through hole is provided in the back guard of the vanity.
 手段5.前記取付対象物は、底面部と、当該底面部に立設された側壁部と、当該側壁部との間で隙間をあけて配置される板状のエプロンとを備えてなる浴槽であり、
 前記貫通孔は、前記エプロンに形成されていることを特徴とする手段2に記載の排水栓装置。
Means 5. The attachment object is a bathtub including a bottom surface portion, a side wall portion standing on the bottom surface portion, and a plate-like apron disposed with a gap between the side wall portion,
The drain plug device according to means 2, wherein the through hole is formed in the apron.
 浴槽のエプロンは、通常、この裏側に位置する側壁部との間隔が小さいものとされる。従って、エプロンに対し、その板厚方向に貫通孔を形成した上で、当該貫通孔に対応して操作装置を取付けることは決して容易ではない。 The bathtub apron usually has a small gap with the side wall located on the back side. Therefore, it is not easy to attach an operating device corresponding to the through-hole after forming a through-hole in the thickness direction of the apron.
 この点、上記手段2によれば、被操作部の移動方向に沿った操作装置の長さを非常に小さなものとすることができる。従って、側壁部との間隔が小さいエプロンに対しても操作装置を取付けることがより容易に可能となる。換言すれば、上記手段2は、貫通孔が浴槽のエプロンに設けられている場合に、特に有効である。 In this regard, according to the means 2, the length of the operating device along the moving direction of the operated part can be made very small. Therefore, it is possible to more easily attach the operating device to the apron having a small distance from the side wall portion. In other words, the means 2 is particularly effective when the through hole is provided in the apron of the bathtub.
 手段6.前記取付対象物は、洗い場及び当該洗い場に隣接して設置される浴槽と、前記洗い場及び前記浴槽の周囲に設置される複数の板状の壁パネルとを備えてなる浴室ユニットであり、
 前記貫通孔は、前記壁パネルに形成されていることを特徴とする手段2に記載の排水栓装置。
Means 6. The attachment object is a bathroom unit including a washing place and a bathtub installed adjacent to the washing place, and a plurality of plate-like wall panels installed around the washing place and the bathtub,
The drain plug device according to means 2, wherein the through hole is formed in the wall panel.
 浴室ユニットの壁パネルは、通常、この裏側に位置する壁面との間隔が小さなものとなりやすい。従って、通常、壁パネルに対し操作装置を取付けることは容易ではない。 The wall panel of the bathroom unit usually tends to have a small distance from the wall located on the back side. Therefore, it is usually not easy to attach the operating device to the wall panel.
 この点、上記手段2によれば、被操作部の移動方向に沿った操作装置の長さを非常に小さなものとすることができる。従って、壁面との間隔が小さい壁パネルに対しても操作装置を取付けることがより容易に可能となる。換言すれば、上記手段2は、貫通孔が浴室ユニットの壁パネルに設けられている場合に、特に有効である。 In this regard, according to the means 2, the length of the operating device along the moving direction of the operated part can be made very small. Therefore, it is possible to more easily attach the operating device to the wall panel having a small distance from the wall surface. In other words, the means 2 is particularly effective when the through hole is provided in the wall panel of the bathroom unit.
 手段7.前記被操作部を移動させたときに、前記伝達部材の一端部の移動量が、前記被操作部の移動量よりも大きくなるように構成されていることを特徴とする手段2乃至6のいずれかに記載の排水栓装置。 Means 7. Any one of means 2 to 6, wherein when the operated portion is moved, a moving amount of one end portion of the transmission member is larger than a moving amount of the operated portion. The drain plug device according to crab.
 上記手段7によれば、栓蓋のより確実な上下動を図りつつ、被操作部の往復移動量(ストローク量)をより小さなものとすることができる。従って、被操作部の移動方向に沿った操作装置の長さをより小さなものとすることができ、取付自由度を一層高めることができる。また、排水口を開閉するために必要な被操作部の往復移動量を小さくすることができ、操作性を向上させることができる。 According to the above means 7, the amount of reciprocation (stroke amount) of the operated portion can be made smaller while more surely moving the stopper lid up and down. Therefore, the length of the operating device along the moving direction of the operated portion can be made smaller, and the degree of freedom of attachment can be further increased. Further, the reciprocating amount of the operated portion required for opening and closing the drain port can be reduced, and the operability can be improved.
 さらに、被操作部の移動量を小さくできることにより、使用者が排水口を開閉しようとしたときに、被操作部の移動量が不十分となり、排水口の開閉に失敗してしまう(例えば、排水口を閉鎖したつもりが、実際には閉鎖されていない)といった事態をより確実に防止することができる。これにより、使用者にとっての使い勝手の向上を図ることができる。 Further, since the amount of movement of the operated part can be reduced, when the user tries to open and close the drain port, the amount of movement of the operated unit becomes insufficient and the opening and closing of the drain port fails (for example, drainage It is possible to more reliably prevent such a situation that the mouth is closed but not actually closed. Thereby, the usability for the user can be improved.
 尚、上記手段7は、例えば、回動部の回動軸から回動部のうち伝達部材の一端部に動力を加える部位までの距離(半径)を調節したり、軸側接触部及び回動側接触部の少なくとも一方に設けられた傾斜面状部分の、軸部の移動方向に対する傾斜角度を調節したり〔すなわち、軸部の単位移動量当たりにおける回動部の回動量(回転角度)を調節したり〕することで実現することができる。 For example, the means 7 adjusts the distance (radius) from the rotating shaft of the rotating unit to the portion of the rotating unit that applies power to one end of the transmission member, or the shaft side contact unit and the rotating unit. The inclination angle of the inclined surface portion provided in at least one of the side contact portions is adjusted with respect to the moving direction of the shaft portion (that is, the rotation amount (rotation angle) of the rotating portion per unit movement amount of the shaft portion is adjusted). It can be realized by adjusting.
 手段8.前記取付対象物に対し直接又は間接的に取付けられ、前記回動部のその回動軸方向の端面が接触するとともに、前記回動部の回動時に前記端面が摺動する操作側回動支持部を備え、
 前記軸部は、前記被操作部とは反対側に開口する穴部を具備する筒状をなし、
 前記操作側回動支持部は、前記穴部に挿通される棒状部を備え、
 前記穴部及び前記棒状部は、前記穴部に対し前記棒状部が挿通された状態において、前記棒状部に対し前記軸部が相対回転不能となるように構成されており、前記棒状部及び前記軸部のうち前記穴部を形成する部位によって前記回転規制部が構成されることを特徴とする手段2乃至7のいずれかに記載の排水栓装置。
Means 8. An operation-side rotation support that is directly or indirectly attached to the object to be attached, and whose end surface in the rotation axis direction of the rotation unit is in contact with and that the end surface slides when the rotation unit rotates. Part
The shaft portion has a cylindrical shape including a hole opening on the opposite side to the operated portion,
The operation side rotation support portion includes a rod-like portion inserted through the hole portion,
The hole portion and the rod-shaped portion are configured so that the shaft portion cannot be relatively rotated with respect to the rod-shaped portion in a state where the rod-shaped portion is inserted into the hole portion. The drain plug device according to any one of means 2 to 7, wherein the rotation restricting portion is constituted by a portion of the shaft portion where the hole portion is formed.
 上記手段8によれば、回動部は、その回動時に、操作側回動支持部を摺動する。従って、回動部をより安定的に回動させることができ、装置の動作安定性を一層高めることができる。 According to the above means 8, the rotating part slides on the operation side rotating support part when rotating. Therefore, the rotation unit can be rotated more stably, and the operational stability of the apparatus can be further enhanced.
 さらに、上記手段8によれば、操作側回動支持部は、回転規制部の一部(棒状部)を有するものとされる。そのため、装置の小型化を一層図ることができ、取付自由度の更なる向上や製造コストの低減を図ることができる。 Furthermore, according to the above means 8, the operation side rotation support portion has a part of the rotation restricting portion (bar-shaped portion). Therefore, the apparatus can be further reduced in size, and the degree of freedom of attachment can be further improved and the manufacturing cost can be reduced.
 尚、操作側回動支持部は、前記回動部の端面と接触する部位に、ボールベアリングやころ軸受等を備えていてもよい。この場合には、回動部をよりスムーズに回動させることができる。 In addition, the operation side rotation support part may be provided with a ball bearing, a roller bearing, etc. in the site | part which contacts the end surface of the said rotation part. In this case, the rotation part can be rotated more smoothly.
 手段9.内部空間が前記排水口を通る排水の流路を構成する筒状の排水管と、
 前記栓蓋に対し直接又は間接的に取付けられるとともに、前記排水管内に配置された被支持部材と、
 前記排水管に取付けられるとともに、前記軸部、前記回動部、及び、前記運動方向変換部を具備してなる栓蓋側機構部とを備え、
 前記伝達体は、筒状のチューブ部材と、当該チューブ部材の内周において往復移動可能に構成された伝達部材とを有してなるレリースワイヤを備えており、前記被操作部を移動させることで前記伝達部材が往動するように構成され、
 前記軸部は、前記伝達部材のうち前記被操作部とは反対側に位置する端部が接続されるとともに、前記伝達部材の往復移動時に前記伝達部材とともに移動し、
 前記回動部には、前記排水管内へと突出するとともに、少なくとも前記排水口を開放した状態において前記被支持部材が載置されることで前記被支持部材を支持する支持部が設けられ、
 前記支持部は、前記回動部の回動に伴い回動しつつ上下動可能であるとともに、前記軸部の移動に伴い前記回動部が回動したときに、上動又は下動するように構成されており、
 前記支持部の上下動に伴い前記被支持部材及び前記栓蓋が上下動するように構成されていることを特徴とする手段1に記載の排水栓装置。
Means 9. A cylindrical drainage pipe in which an internal space forms a drainage flow path passing through the drainage port;
A supported member that is directly or indirectly attached to the stopper lid and disposed in the drain pipe;
Attached to the drain pipe, and provided with a plug lid side mechanism portion comprising the shaft portion, the rotating portion, and the movement direction converting portion,
The transmission body includes a release wire having a cylindrical tube member and a transmission member configured to be reciprocally movable on the inner periphery of the tube member, and by moving the operated portion The transmission member is configured to move forward;
The shaft portion is connected to an end portion of the transmission member opposite to the operated portion, and moves together with the transmission member when the transmission member reciprocates.
The rotating portion is provided with a support portion that protrudes into the drain pipe and supports the supported member by placing the supported member at least in a state where the drain port is opened.
The support portion can move up and down while rotating as the rotation portion rotates, and moves upward or downward when the rotation portion rotates as the shaft portion moves. Is composed of
The drain plug device according to claim 1, wherein the supported member and the plug lid move up and down as the support portion moves up and down.
 上記手段9の排水栓装置では、回動部の回動に伴い、支持部が回動しつつ上動することで、支持部によって被支持部材が持ち上げられる。その結果、栓蓋が上動し排水口が開放される。一方、回動部の回動に伴い、支持部が回動しつつ下動することで、被支持部材が下動する。その結果、栓蓋が下動し排水口が閉鎖される。 In the drain plug device of the means 9, the support member is lifted by the support portion by the support portion moving upward while rotating the rotation portion. As a result, the stopper lid moves upward and the drain port is opened. On the other hand, the supported member moves downward as the support portion moves downward while rotating the rotation portion. As a result, the stopper lid moves down and the drain port is closed.
 このような排水栓装置において、上記手段9によれば、比較的簡素な構成により、軸部の運動を回動部の回動運動へと変換し、ひいては支持部を上下動させることができる。従って、栓蓋側機構部の動作安定性を高めることができる。 In such a drain plug device, according to the means 9, the movement of the shaft portion can be converted into the turning motion of the rotating portion, and the support portion can be moved up and down by a relatively simple configuration. Therefore, the operational stability of the stopper lid side mechanism can be enhanced.
 また、上記手段9によれば、栓蓋側機構部の簡素化や小型化を図ることができる。そのため、排水管に対する栓蓋側機構部の取付自由度を高めることができる。 Further, according to the above means 9, it is possible to simplify and downsize the stopper lid side mechanism. Therefore, it is possible to increase the degree of freedom in attaching the plug lid side mechanism portion to the drain pipe.
 尚、支持部は、回動部の軸方向端面において回動軸と非同軸に設けられた突起であってもよいし、回動部の外周から外側に向けて突出する棒状部材であってもよい。 The support portion may be a protrusion provided non-coaxially with the rotation shaft on the axial end surface of the rotation portion, or may be a rod-like member protruding outward from the outer periphery of the rotation portion. Good.
 手段10.前記被操作部を移動させたときに、前記支持部の鉛直方向に沿った移動量が、前記軸部の移動量よりも大きくなるように構成されていることを特徴とする手段9に記載の排水栓装置。 Means 10. The means 9 is configured such that when the operated portion is moved, a movement amount of the support portion along a vertical direction is larger than a movement amount of the shaft portion. Drain plug device.
 尚、「支持部の鉛直方向に沿った移動量」とあるのは、栓蓋の上下方向に沿った移動量(リフト量)ということもできる。 Note that “the amount of movement of the support portion along the vertical direction” can also be referred to as the amount of movement (lift amount) of the stopper lid along the vertical direction.
 上記手段10によれば、栓蓋のより確実な上下動を図りつつ、軸部の往復移動量(ストローク量)をより小さなものとすることができる。従って、軸部の往復移動方向に沿った栓蓋側機構部の長さをより小さなものとすることができる。これにより、排水管に対する栓蓋側機構部の取付自由度を高めることができる。また、排水口を開閉するために必要な被操作部の往復移動量を小さくすることができ、操作性を向上させることができる。 According to the above means 10, the amount of reciprocation (stroke amount) of the shaft portion can be made smaller while achieving more reliable vertical movement of the stopper lid. Therefore, the length of the stopper lid side mechanism along the reciprocating direction of the shaft can be made smaller. Thereby, the freedom degree of attachment of the stopper lid side mechanism part to a drain pipe can be raised. Further, the reciprocating amount of the operated portion required for opening and closing the drain port can be reduced, and the operability can be improved.
 さらに、被操作部の往復移動量を小さくできることにより、使用者が排水口を開閉しようとしたときに、被操作部の移動量が不十分となり、排水口の開閉に失敗してしまうといった事態をより確実に防止できる。これにより、使用者にとっての使い勝手の向上を図ることができる。 Furthermore, since the amount of reciprocation of the operated part can be reduced, when the user tries to open and close the drain, the amount of movement of the operated part becomes insufficient and the opening and closing of the drain is unsuccessful. This can be prevented more reliably. Thereby, the usability for the user can be improved.
 尚、上記手段10は、例えば、回動部の回動軸から支持部(特に、被支持部材を支持する部位)までの距離(回動半径)を調節したり、軸側接触部及び回動側接触部の少なくとも一方に設けられた傾斜面状部分の、軸部の移動方向に対する傾斜角度を調節したり〔すなわち、軸部の単位移動量当たりにおける回動部の回動量(回転角度)を調節したり〕することで実現することができる。 For example, the means 10 adjusts the distance (turning radius) from the turning shaft of the turning portion to the support portion (particularly, the portion that supports the supported member), or the shaft-side contact portion and the turning portion. The inclination angle of the inclined surface portion provided in at least one of the side contact portions is adjusted with respect to the moving direction of the shaft portion (that is, the rotation amount (rotation angle) of the rotating portion per unit movement amount of the shaft portion is adjusted). It can be realized by adjusting.
 手段11.前記排水管は、前記排水の流路を構成する筒状の主管と、当該主管の外周から突出し前記主管に連通された筒状の取付管とを備え、
 前記取付管は、自身の内周に自身の軸方向に沿って延びる凹部を有し、
 前記軸部は、前記凹部に配置される突部を備え、
 前記回転規制部は、前記突部、及び、前記取付管のうち前記凹部を形成する部位によって構成されることを特徴とする手段9又は10に記載の排水栓装置。
Means 11. The drainage pipe includes a cylindrical main pipe that constitutes the drainage flow path, and a cylindrical mounting pipe that protrudes from the outer periphery of the main pipe and communicates with the main pipe.
The mounting tube has a recess extending along its own axial direction on its inner periphery,
The shaft portion includes a protrusion disposed in the recess,
The drain plug device according to claim 9 or 10, wherein the rotation restricting portion is constituted by a portion that forms the concave portion of the protrusion and the attachment pipe.
 上記手段11によれば、排水管(取付管)を利用することで回転規制部を実現することができる。従って、装置の小型化や簡素化を一層図ることができるとともに、製造コストをさらに抑制することができる。 According to the above means 11, the rotation restricting portion can be realized by using the drain pipe (attachment pipe). Therefore, the device can be further reduced in size and simplified, and the manufacturing cost can be further suppressed.
 手段12.前記排水管は、前記回動部のその回動軸方向の端面が接触するとともに、前記回動部の回動時に前記端面が摺動する排水管側回動支持部を備えることを特徴とする手段9乃至11のいずれかに記載の排水栓装置。 Means 12. The drain pipe is provided with a drain pipe-side rotation support portion that contacts an end surface of the rotation portion in the rotation axis direction and slides the end surface when the rotation portion rotates. The drain plug device according to any one of means 9 to 11.
 上記手段12によれば、回動部は、その回動時に、排水管側回動支持部を摺動する。従って、回動部をより安定的に回動させることができ、装置の動作安定性を一層高めることができる。 According to the above means 12, the rotating part slides on the drainage pipe side rotating support part when rotating. Therefore, the rotation unit can be rotated more stably, and the operational stability of the apparatus can be further enhanced.
 加えて、上記手段12によれば、排水管の一部によって排水管側回動支持部が構成されるため、装置の小型化や簡素化をより図ることができ、製造コストの抑制を一層図ることができる。 In addition, according to the means 12, since the drain pipe side rotation support portion is constituted by a part of the drain pipe, the apparatus can be further downsized and simplified, and the manufacturing cost can be further suppressed. be able to.
 手段13.少なくとも前記回動側接触部のうち前記軸側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
 前記回動側接触部のうち前記軸側接触部に接触する部位は、その全域において、前記軸部の運動方向に対する傾斜が一定とされた螺旋状をなすことを特徴とする手段1乃至12のいずれかに記載の排水栓装置。
Means 13. At least a portion of the rotation-side contact portion that contacts the shaft-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
The part of the rotating side contact portion that contacts the shaft side contact portion has a spiral shape in which the inclination with respect to the movement direction of the shaft portion is constant over the entire area. The drain plug device according to any one of the above.
 上記手段13によれば、軸部を移動させたときに、軸側接触部において、回動側接触部に接触する部分を常に同一部分とすることができる。従って、被操作部を移動させたときに、回動部を安定的に回動させることができ、動作安定性の向上を図ることができる。 According to the means 13, when the shaft portion is moved, in the shaft side contact portion, the portion that contacts the rotation side contact portion can always be the same portion. Therefore, when the operated part is moved, the rotating part can be stably rotated, and the operational stability can be improved.
 また、上記手段13によれば、被操作部を移動させるときに、使用者は、被操作部に生じる負荷の変化(前記負荷は、例えば、伝達部材を復動させるための戻り力付与部等で生じる力の変化や、軸側接触部及び回動側接触部間で生じる摩擦力の変化、開栓の状態などにより変化する)等をより確実に知覚することができる。その結果、使用者は、排水口を開閉する際に、被操作部を介して栓蓋の状況などをより確実に把握することができ、ひいては操作ミスが生じてしまう等の事態をより確実に防止できる。 Further, according to the means 13, when the operated part is moved, the user can change the load generated in the operated part (the load is, for example, a return force applying part for moving the transmission member backward). , Changes in the frictional force generated between the shaft side contact portion and the rotation side contact portion, and changes in the state of opening, etc.). As a result, when the user opens and closes the drain port, the user can more surely grasp the situation of the plug lid through the operated part, and more reliably, such as an operation error. Can be prevented.
 手段14.少なくとも前記回動側接触部のうち前記軸側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
 前記回動側接触部のうち前記軸側接触部に接触する部位は、前記軸部の運動方向に対する傾斜が一定ではない形状をなすことを特徴とする手段1乃至12のいずれかに記載の排水栓装置。
Means 14. At least a portion of the rotation-side contact portion that contacts the shaft-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
The drainage according to any one of means 1 to 12, wherein a portion of the rotating side contact portion that contacts the shaft side contact portion has a shape in which the inclination of the shaft portion with respect to the movement direction is not constant. Stopper device.
 上記手段14によれば、被操作部を移動させる際に軸部等へと加わる力などを考慮し、回動側接触部の傾斜を調整することで、良好な操作性を得ることができる。 According to the above-mentioned means 14, good operability can be obtained by adjusting the inclination of the rotation side contact portion in consideration of the force applied to the shaft portion or the like when the operated portion is moved.
 例えば、被操作部を移動させて回動部を回動させるときに、回動部が回動し開栓し始めるまでには、開栓した後よりも比較的大きな力を要する点を考慮して、回動側接触部のうち、被操作部を移動させて回動部を回動させるときに軸側接触部と最初に接触する部分の傾斜を、回動側接触部におけるその他の部分の傾斜よりも緩やかにしてもよい。この場合には、回動部を回動させて開栓し始めるときに必要となる被操作部への押圧力を比較的小さくすることができる。 For example, when the operated part is moved and the rotating part is rotated, it takes into consideration that a relatively large force is required until the rotating part rotates and begins to open. Then, of the rotation side contact part, when the operated part is moved and the rotation part is rotated, the inclination of the part that first contacts the shaft side contact part is changed to the other part of the rotation side contact part. You may make it gentler than an inclination. In this case, it is possible to relatively reduce the pressing force to the operated portion that is required when the turning portion is turned to start opening the plug.
 また、例えば、伝達部材を復動させるための戻り力付与部(例えば、バネ部材)等が設けられ、被操作部を往動させるにつれて、前記バネ部材等から被操作部に対しその復動方向に加わる力が大きくなるように構成した場合には、回動側接触部のうち、前記戻り力付与部等から被操作部に対しその復動方向に加わる力が所定値よりも大きくなる段階で軸側接触部と接触する部分の傾斜を、回動側接触部におけるその他の部分の傾斜よりも緩やかにしてもよい。この場合には、例えば、被操作部を移動させるときの最後の段階(被操作部の押込みが完了する直前の段階)などにおいて、回動部を回動させるために被操作部へと加えることが必要な押圧力を比較的小さく抑えることができる。 In addition, for example, a return force applying portion (for example, a spring member) for moving the transmission member backward is provided, and the backward movement direction from the spring member to the operated portion as the operated portion is moved forward. In the stage where the force applied to the operated part from the return force applying part or the like in the rotating side contact part becomes larger than a predetermined value. You may make the inclination of the part which contacts a shaft side contact part gentler than the inclination of the other part in a rotation side contact part. In this case, for example, in the final stage of moving the operated part (the stage immediately before the pushed-in of the operated part is completed) or the like, it is added to the operated part to rotate the rotating part. The required pressing force can be kept relatively small.
 さらに、例えば、回動側接触部のうち、回動部を回動させるために被操作部へと加えることが必要な押圧力が比較的小さくて済む段階(例えば、回動部の回動開始後、各部材間の遊びや隙間がなくなるまでの段階)で軸側接触部と接触する部分については、その傾斜を比較的急なものとしてもよい。この場合には、被操作部の移動量(操作量)が比較的小さくても、伝達部材や支持部を比較的大きく移動させることができる。 Further, for example, of the rotating side contact portion, a stage where the pressing force that needs to be applied to the operated portion to rotate the rotating portion can be relatively small (for example, rotation start of the rotating portion) The slope of the portion that comes into contact with the shaft-side contact portion at a later stage until there is no play or gap between the members may be made relatively steep. In this case, even if the movement amount (operation amount) of the operated portion is relatively small, the transmission member and the support portion can be moved relatively large.
 手段15.少なくとも前記軸側接触部のうち前記回動側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
 前記軸側接触部のうち前記回動側接触部に接触する部位は、その全域において、前記軸部の運動方向に対する傾斜が一定とされた螺旋状をなすことを特徴とする手段1乃至12のいずれかに記載の排水栓装置。
Means 15. At least a portion of the shaft-side contact portion that comes into contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
The portion of the shaft-side contact portion that contacts the rotation-side contact portion has a spiral shape in which the inclination of the shaft portion with respect to the movement direction is constant over the entire area. The drain plug device according to any one of the above.
 上記手段15によれば、基本的には上記手段13と同様の作用効果が奏されることとなる。 According to the means 15, the same operational effects as those of the means 13 are basically obtained.
 手段16.少なくとも前記軸側接触部のうち前記回動側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
 前記軸側接触部のうち前記回動側接触部に接触する部位は、前記軸部の往復移動方向に対する傾斜が一定ではない形状をなすことを特徴とする手段1乃至12のいずれかに記載の排水栓装置。
Means 16. At least a portion of the shaft-side contact portion that comes into contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
The part which contacts the said rotation side contact part among the said shaft side contact parts makes the shape where the inclination with respect to the reciprocation direction of the said shaft part is not constant, The means in any one of the means 1 thru | or 12 characterized by the above-mentioned. Drain plug device.
 上記手段16によれば、基本的には上記手段14と同様の作用効果が奏されることとなる。すなわち、被操作部を移動させる際に軸部へと加わる力などを考慮し、軸側接触部の傾斜を調整することで、良好な操作性を得ることができる。 According to the means 16, basically the same effects as those of the means 14 are achieved. That is, it is possible to obtain good operability by adjusting the inclination of the shaft side contact portion in consideration of the force applied to the shaft portion when the operated portion is moved.
 尚、上記手段16に係る排水栓装置としては、例えば、上記手段14において例示した回動側接触部の構成を、軸側接触部のうち回動側接触部に接触する部位へと適用したものなどを挙げることができる。 In addition, as the drain plug device according to the means 16, for example, the configuration of the rotation side contact portion exemplified in the means 14 is applied to a portion of the shaft side contact portion that contacts the rotation side contact portion. And so on.
 手段17.前記軸部は、自身の軸方向に沿って往復移動可能であり、
 少なくとも前記回動側接触部は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
 前記回動部は、前記軸部の運動方向に沿って前記回動側接触部と対向し、前記回動側接触部と同じ向きに傾斜する傾斜面状の回動側対向部を備え、
 前記軸部の往動に伴い、前記軸側接触部が前記回動側接触部及び前記回動側対向部の一方を押圧することで、前記回動部が前記軸部に対し一方側に相対回動するとともに、
 前記軸部の復動に伴い、前記軸側接触部が前記回動側接触部及び前記回動側対向部の他方を押圧することで、前記回動部が前記軸部に対し他方側に相対回動するように構成されていることを特徴とする手段1乃至16のいずれかに記載の排水栓装置。
Means 17. The shaft portion can reciprocate along its own axial direction,
At least the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion,
The rotating portion includes an inclined surface-like rotating side facing portion that faces the rotating side contact portion along the movement direction of the shaft portion and is inclined in the same direction as the rotating side contact portion.
As the shaft portion moves forward, the shaft-side contact portion presses one of the rotation-side contact portion and the rotation-side facing portion, so that the rotation portion is relative to the shaft portion on one side. As it turns,
Along with the backward movement of the shaft portion, the shaft-side contact portion presses the other of the rotation-side contact portion and the rotation-side facing portion, so that the rotation portion is relative to the shaft portion on the other side. The drain plug device according to any one of means 1 to 16, wherein the drain plug device is configured to rotate.
 上記手段17によれば、軸部を押引き動作(往復)させることで、回動部を両方向に回動させることができる。従って、回動部を他方側に回動させるための部材(例えば、バネ部材からなる戻り力付与部等)を設ける必要がなくなり、製造コストの増大抑制や装置の簡素化(小型化)を一層図ることができる。 According to the means 17, the rotating part can be rotated in both directions by pushing and pulling (reciprocating) the shaft part. Accordingly, there is no need to provide a member (for example, a return force applying portion made of a spring member) for rotating the rotating portion to the other side, and further suppression of increase in manufacturing cost and simplification (miniaturization) of the apparatus are further achieved. Can be planned.
 また、回動側対向部が存在することによって、軸部が意図せず移動してしまうことを防止できる。これにより、被操作部の意図しない移動をより確実に防止することができ、使用者にとっての使い勝手をより高めることができる。 Also, the presence of the rotating side facing portion can prevent the shaft portion from moving unintentionally. Thereby, the movement which the to-be-operated part does not intend can be prevented more reliably, and the usability for a user can be raised more.
 手段18.前記軸部は、自身の軸方向に沿って往復移動可能であり、
 少なくとも前記軸側接触部のうち前記回動側接触部と接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
 前記軸部は、自身の運動方向に沿って前記軸側接触部の前記傾斜面状をなす部位の背後に位置し、前記軸側接触部のうち前記傾斜面状をなす部位と同じ向きに傾斜する傾斜面状の軸側背面傾斜部を備え、
 前記回動部は、前記軸側背面傾斜部と接触可能な第二回動側接触部を備え、
 前記軸部の往動に伴い、前記回動側接触部に対する前記軸側接触部の押圧、及び、前記第二回動側接触部に対する前記軸側背面傾斜部の押圧の一方が行われることで、前記回動部が前記軸部に対し一方側に相対回動するとともに、
 前記軸部の復動に伴い、前記回動側接触部に対する前記軸側接触部の押圧、及び、前記第二回動側接触部に対する前記軸側背面傾斜部の押圧の他方が行われることで、前記回動部が前記軸部に対し他方側に相対回動するように構成されていることを特徴とする手段1乃至16のいずれかに記載の排水栓装置。
Means 18. The shaft portion can reciprocate along its own axial direction,
At least a portion of the shaft-side contact portion that is in contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
The shaft portion is positioned behind the portion of the shaft-side contact portion that forms the inclined surface along the direction of movement of the shaft portion, and is inclined in the same direction as the portion of the shaft-side contact portion that forms the inclined surface shape. An inclined surface-like back side inclined part
The rotating part includes a second rotating side contact part that can come into contact with the shaft side back inclined part,
With the forward movement of the shaft portion, one of pressing of the shaft-side contact portion against the rotation-side contact portion and pressing of the shaft-side back inclined portion against the second rotation-side contact portion is performed. The rotating part rotates relative to the shaft part on one side,
With the backward movement of the shaft portion, the other of the pressing of the shaft-side contact portion against the rotation-side contact portion and the pressing of the shaft-side back inclined portion against the second rotation-side contact portion is performed. The drain plug device according to any one of means 1 to 16, wherein the rotating portion is configured to rotate relative to the shaft portion on the other side.
 上記手段18によれば、上記手段17と同様の作用効果が奏されることとなる。すなわち、製造コストの増大や装置の簡素化(小型化)をより図ることができるとともに、使い勝手の一層の向上を図ることができる。 According to the means 18, the same effect as that of the means 17 is achieved. That is, the manufacturing cost can be increased, the apparatus can be simplified (downsized), and the usability can be further improved.
 手段19.前記軸部の中心軸を回転軸として回転可能な状態で前記軸部に取付けられるとともに、前記軸部とともに移動可能であり、かつ、外側に突出形成された被係合部を有する回転リングと、
 前記軸部のうち前記回転リングの取付けられた部位の外周に配置されるとともに、前記取付対象物及び前記槽体の少なくとも一方に対し相対移動不能とされた筒状のロック用筒部とを備えるとともに、
 前記ロック用筒部は、その周方向に沿って複数設けられた、前記軸部の運動方向に沿って延びる筒側溝部を有し、かつ、
 前記ロック用筒部に対し前記軸部をその軸方向に沿った所定位置以上まで移動させることで、前記ロック用筒部に設けられた係合歯に対し前記被係合部が係合されること、及び、前記係合歯に対する前記被係合部の係合が解除され、前記筒側溝部に前記被係合部が落ち込むとともに、前記軸部が所定の戻り位置まで戻ることが交互になされるように構成されたロック機構を具備し、
 前記軸部は、外側に突出する突起部を備え、
 前記突起部の少なくとも一部は、前記軸部が移動するときに、常に前記筒側溝部に配置され、
 前記筒側溝部に前記突起部が配置されることで、前記回転規制部としての機能が発揮されるように構成されていることを特徴とする手段1乃至18のいずれかに記載の排水栓装置。
Means 19. A rotating ring that is attached to the shaft portion in a rotatable state with the central axis of the shaft portion as a rotation axis, and that is movable with the shaft portion, and has an engaged portion that is formed to protrude outward.
A cylindrical locking cylinder portion which is disposed on an outer periphery of a portion of the shaft portion to which the rotating ring is attached and which is not movable relative to at least one of the attachment object and the tank body; With
The locking cylinder part has a cylinder side groove part that is provided in a plurality along the circumferential direction and extends along the movement direction of the shaft part, and
By moving the shaft portion to a predetermined position or more along the axial direction with respect to the locking cylinder portion, the engaged portion is engaged with the engaging teeth provided on the locking cylinder portion. In addition, the engaged portion is disengaged from the engaging teeth, the engaged portion falls into the cylindrical groove portion, and the shaft portion returns to a predetermined return position alternately. Comprising a locking mechanism configured to
The shaft portion includes a protruding portion protruding outward,
At least a part of the protruding portion is always arranged in the tube side groove when the shaft portion moves,
The drain plug device according to any one of means 1 to 18, wherein the protrusion is disposed in the tube side groove so that the function as the rotation restricting portion is exhibited. .
 一般にロック機構(例えば、スラストロック機構)において、筒側溝部は、回転リング(被係合部)を相対回転不能な状態で移動させるために用いられるが、上記手段19によれば、筒側溝部は、軸部の相対回転を規制する回転規制部としての機能を実現するためにも用いられる。つまり、筒側溝部は、回転リングの相対回転を規制することと、軸部の相対回転を規制することとの双方において共通して用いられる。従って、ロック機構を設けながらも、装置が複雑化してしまうことをより確実に防止できる。その結果、装置の簡素化(小型化)や製造コストの増大抑制をより確実に図ることができる。 In general, in a lock mechanism (for example, a thrust lock mechanism), the cylinder side groove portion is used to move the rotating ring (engaged portion) in a relatively non-rotatable state. Is also used to realize a function as a rotation restricting portion that restricts relative rotation of the shaft portion. That is, the cylinder side groove is used in common for both restricting the relative rotation of the rotating ring and restricting the relative rotation of the shaft portion. Therefore, it is possible to more reliably prevent the apparatus from becoming complicated while providing the lock mechanism. As a result, simplification (miniaturization) of the device and suppression of increase in manufacturing cost can be achieved more reliably.
第1実施形態における操作装置の構成を示す断面図である。It is sectional drawing which shows the structure of the operating device in 1st Embodiment. 第1実施形態における排水口装置の構成を示す一部破断斜視図である。It is a partially broken perspective view which shows the structure of the drain outlet apparatus in 1st Embodiment. 軸部や保持部材等の構成を示す分解斜視図である。It is a disassembled perspective view which shows structures, such as a shaft part and a holding member. 軸部や保持部材等の構成を示す分解斜視図である。It is a disassembled perspective view which shows structures, such as a shaft part and a holding member. 軸部や保持部材等の構成を示す分解斜視図である。It is a disassembled perspective view which shows structures, such as a shaft part and a holding member. 第2実施形態における排水口装置の構成を示す断面図である。It is sectional drawing which shows the structure of the drain outlet apparatus in 2nd Embodiment. 栓蓋側機構部の構成を示す拡大断面図である。It is an expanded sectional view showing composition of a stopper lid side mechanism part. 回動側接触部や回動側対向部等の構成を示す展開模式図である。It is an expansion | deployment schematic diagram which shows structures, such as a rotation side contact part and a rotation side opposing part. 第3実施形態における操作装置の構成を示す断面図である。It is sectional drawing which shows the structure of the operating device in 3rd Embodiment. ロック機構等の構成を示す分解斜視図である。It is a disassembled perspective view which shows structures, such as a locking mechanism. 係合歯及び案内歯の構成、及び、両者の位置関係を説明するための展開模式図である。It is an expansion | deployment schematic diagram for demonstrating the structure of an engagement tooth and a guide tooth, and the positional relationship of both. (a)~(d)は、被係合部の移動態様などを説明するための展開模式図である。(A)-(d) is an expansion | deployment schematic diagram for demonstrating the movement aspect etc. of an to-be-engaged part. 別の実施形態における回動側接触部の構成を示す展開模式図である。It is an expansion | deployment schematic diagram which shows the structure of the rotation side contact part in another embodiment. 別の実施形態における回動側接触部の構成を示す展開模式図である。It is an expansion | deployment schematic diagram which shows the structure of the rotation side contact part in another embodiment. 別の実施形態における軸側接触部等の構成を示す一部破断拡大正面図である。It is a partially broken enlarged front view which shows the structure of the shaft side contact part etc. in another embodiment. 別の実施形態における軸側背面傾斜部及び第二回動側接触部等を示す一部破断拡大正面図である。It is a partially broken enlarged front view showing an axis side back slope part, a second rotation side contact part, etc. in another embodiment.
 以下に、実施形態について図面を参照しつつ説明する。
〔第1実施形態〕
 図1及び図2に示すように、排水栓装置1は、排水口装置2及び操作装置3を備えており、槽体及び取付対象物としての浴槽100に取付けられている。
Hereinafter, embodiments will be described with reference to the drawings.
[First Embodiment]
As shown in FIG.1 and FIG.2, the drain plug apparatus 1 is provided with the drain port apparatus 2 and the operation apparatus 3, and is attached to the bathtub 100 as a tank body and an attachment target object.
 尚、浴槽100は、底壁部101と当該底壁部101の外周に立設された側壁部102とを備えている。また、底壁部101には、排水用の排水口103が貫通形成されており、側壁部102の上部には、浴槽100からの水の溢れ出しを防止するための貫通孔としてのオーバーフロー口104が貫通形成されている。さらに、本実施形態では、側壁部102とその背面側に位置する壁やエプロン等の構造物STとの間が比較的狭いものとされている。すなわち、浴槽100のうち操作装置3が取付けられる部位の内部スペースは比較的小さなものとされている。 The bathtub 100 includes a bottom wall portion 101 and a side wall portion 102 erected on the outer periphery of the bottom wall portion 101. Further, a drainage outlet 103 for drainage is formed through the bottom wall portion 101, and an overflow port 104 as a through hole for preventing water from overflowing from the bathtub 100 is formed at the upper part of the side wall portion 102. Is formed through. Furthermore, in this embodiment, the space between the side wall portion 102 and the structure ST such as a wall or an apron located on the back side thereof is relatively narrow. In other words, the internal space of the portion of the bathtub 100 where the operating device 3 is attached is relatively small.
 まず、排水口装置2の構成について説明する。排水口装置2は、図2に示すように、排水口103に設けられており、排水口部材21と、排水管22と、支持軸機構23と、栓蓋24とを備えている。 First, the configuration of the drain port device 2 will be described. As shown in FIG. 2, the drain port device 2 is provided in the drain port 103 and includes a drain port member 21, a drain pipe 22, a support shaft mechanism 23, and a plug lid 24.
 排水口部材21は、筒状をなし、排水口103に挿設されている。また、排水口部材21は、自身の内部において前記支持軸機構23を保持している。 The drain port member 21 has a cylindrical shape and is inserted into the drain port 103. Further, the drain port member 21 holds the support shaft mechanism 23 inside itself.
 排水管22は、主管22Aと、枝分かれ管22Bとを備えている。主管22Aは、鉛直方向に沿って延びる筒状をなし、排水口部材21の下方において排水口部材21と同軸に配置されている。浴槽100内の水は、排水口部材21の内部及び主管22Aの内部を通って排出されるようになっている。 The drain pipe 22 includes a main pipe 22A and a branch pipe 22B. The main pipe 22 </ b> A has a cylindrical shape extending along the vertical direction, and is disposed coaxially with the drain port member 21 below the drain port member 21. The water in the bathtub 100 is discharged through the inside of the drain port member 21 and the inside of the main pipe 22A.
 枝分かれ管22Bは、主管22Aの外周から主管22Aの延びる方向と直交する方向に沿って延びている。さらに、枝分かれ管22Bは、その内部空間が主管22Aの内部空間に連通するとともに、操作装置3の後述する配管32に対し図示しない連結管を介して接続されている。 The branch pipe 22B extends along the direction orthogonal to the direction in which the main pipe 22A extends from the outer periphery of the main pipe 22A. Further, the branch pipe 22B has an internal space communicating with the internal space of the main pipe 22A, and is connected to a pipe 32 (to be described later) of the operating device 3 via a connection pipe (not shown).
 支持軸機構23は、後述する伝達部材33Aの他端部が接触可能であるとともに、上端部に栓蓋24の取付けられた棒状の支持軸23Aを有している。さらに、支持軸機構23には、図示しないロック機構(例えば、スラストロック機構)が設けられている。当該ロック機構は、前記伝達部材33Aが往動(操作装置3から排水口装置2側へと移動)する度に、支持軸23Aを所定の上方位置にてロックすることと、ロック解除に伴い支持軸23Aを前記上方位置よりも下方の位置に配置することとを交互に行うように構成されている。 The support shaft mechanism 23 has a rod-shaped support shaft 23A to which the other end portion of a transmission member 33A described later can be contacted and to which the plug lid 24 is attached at the upper end portion. Further, the support shaft mechanism 23 is provided with a lock mechanism (for example, a thrust lock mechanism) (not shown). The lock mechanism locks the support shaft 23A at a predetermined upper position each time the transmission member 33A moves forward (moves from the operation device 3 to the drain port device 2 side), and supports the lock when the lock is released. The shaft 23 </ b> A is alternately arranged at a position below the upper position.
 また、支持軸機構23は、図示しない戻り力付与部(例えば、バネ部材など)を備えている。前記ロック機構によるロックが解除されている状態では、排水口103が閉鎖されている場合を除き、前記戻り力付与部によって前記伝達部材33Aに対し、復動方向の(排水口装置2から操作装置3側に向けた)付勢力が加えられている。 Further, the support shaft mechanism 23 includes a return force applying part (for example, a spring member) (not shown). In a state in which the lock by the lock mechanism is released, the return force applying portion causes the return member 33A to move in the backward direction (from the drain port device 2 to the operation device) except when the drain port 103 is closed. A biasing force (toward the 3rd side) is applied.
 栓蓋24は、円板状の栓蓋本体24Aと、当該栓蓋本体24Aの背面に設けられた環状のパッキン部24Bとを備えている。支持軸23Aの下動に伴い栓蓋24が下動した際には、前記パッキン部24Bが排水口部材21の内周面に接触することで、排水口103が閉鎖される。一方で、支持軸23Aの上動に伴い栓蓋24が上動した際には、前記パッキン部24Bが排水口部材21の内周面から離間することで、排水口103が開放される。 The stopper lid 24 includes a disk-like stopper lid body 24A and an annular packing portion 24B provided on the back surface of the stopper lid body 24A. When the stopper lid 24 is moved downward along with the downward movement of the support shaft 23A, the packing portion 24B comes into contact with the inner peripheral surface of the drain port member 21, whereby the drain port 103 is closed. On the other hand, when the stopper lid 24 is moved upward along with the upward movement of the support shaft 23A, the packing portion 24B is separated from the inner peripheral surface of the drain port member 21, so that the drain port 103 is opened.
 次に、操作装置3の構成について説明する。操作装置3は、図1に示すように、取付部材31、配管32、レリースワイヤ33、及び、操作側機構部34を備えている。 Next, the configuration of the controller device 3 will be described. As shown in FIG. 1, the operation device 3 includes an attachment member 31, a pipe 32, a release wire 33, and an operation side mechanism unit 34.
 取付部材31は、筒状をなし、オーバーフロー口104に挿通されている。また、取付部材31は、その一端部において径方向外側に突出形成された鍔部31Aと、鍔部31Aよりも他端側の外周面に形成された雄ねじ部31Bとを備えている。さらに、取付部材31は、その他端部内周に、その周方向に沿って等間隔に設けられた複数の取付用突部31C(図3参照)を備えている。 The mounting member 31 has a cylindrical shape and is inserted through the overflow port 104. The attachment member 31 includes a flange portion 31A that protrudes radially outward at one end portion thereof, and a male screw portion 31B that is formed on the outer peripheral surface on the other end side of the flange portion 31A. Furthermore, the attachment member 31 includes a plurality of attachment projections 31C (see FIG. 3) provided at equal intervals along the circumferential direction on the inner periphery of the other end.
 配管32は、略直角に屈曲する筒状をなし、その一端側(オーバーフロー口104側)内周に、前記雄ねじ部31Bを螺合可能な雌ねじ部32Aを備えている。本実施形態では、側壁部102の裏側において配管32をオーバーフロー口104と同軸に配置しつつ、オーバーフロー口104を通して取付部材31の雄ねじ部31Bを前記雌ねじ部32Aに対して螺合し、鍔部31A及び配管32の一端面により側壁部102を挟み込むことで、配管32が取付部材31に接続されるとともに、側壁部102に取付けられている。尚、本実施形態では、側壁部102の裏面と配管32の一端面との間に、弾性変形可能な材料により形成された環状のシール部材3Sが配置されており、当該シール部材3Sによって、取付部材31及び配管32と浴槽100との間からの漏水防止が図られている。 The pipe 32 has a cylindrical shape that bends at a substantially right angle, and has an internal thread portion 32A capable of screwing the external thread portion 31B on the inner periphery of one end thereof (the overflow port 104 side). In the present embodiment, the pipe 32 is arranged coaxially with the overflow port 104 on the back side of the side wall 102, and the male screw portion 31 </ b> B of the mounting member 31 is screwed to the female screw portion 32 </ b> A through the overflow port 104. In addition, by sandwiching the side wall portion 102 by one end face of the pipe 32, the pipe 32 is connected to the attachment member 31 and is attached to the side wall portion 102. In the present embodiment, an annular seal member 3S formed of an elastically deformable material is disposed between the back surface of the side wall portion 102 and one end surface of the pipe 32, and is attached by the seal member 3S. The leakage of water from between the member 31 and the pipe 32 and the bathtub 100 is prevented.
 また、配管32のうち操作側機構部34の他端側上部に配置される部分には、後述する内側筒部341Bの軸方向と平行な方向に延びるスリット部32Bが形成されている。 Further, a slit portion 32B extending in a direction parallel to the axial direction of the inner cylindrical portion 341B described later is formed in a portion of the pipe 32 that is disposed at the upper portion on the other end side of the operation side mechanism portion 34.
 加えて、配管32の他端部(下端部)には、前記排水管22に接続される連結管(図示せず)が接続されている。これにより、取付部材31の内部を通って配管32の内部へと流入した排水は、前記連結管を通り、排水管22へと流れ落ちるようになっている。 In addition, a connecting pipe (not shown) connected to the drain pipe 22 is connected to the other end (lower end) of the pipe 32. Thereby, the waste water that has flowed into the pipe 32 through the inside of the attachment member 31 flows through the connecting pipe and into the drain pipe 22.
 レリースワイヤ33は、支持軸機構23及び操作側機構部34間に設けられており、ワイヤー等からなる長尺状の伝達部材33Aと、樹脂等からなる長尺筒状のチューブ部材33Bとを備えている。伝達部材33Aは、チューブ部材33Bの内周に配置されており、チューブ部材33Bに対し往復移動可能とされている。 The release wire 33 is provided between the support shaft mechanism 23 and the operation side mechanism section 34, and includes a long transmission member 33A made of a wire or the like and a long cylindrical tube member 33B made of a resin or the like. ing. 33 A of transmission members are arrange | positioned at the inner periphery of the tube member 33B, and can be reciprocated with respect to the tube member 33B.
 操作側機構部34は、保持部材341、回動部342、操作側回動支持部343、及び、操作部材344を備えている。 The operation side mechanism unit 34 includes a holding member 341, a rotation unit 342, an operation side rotation support unit 343, and an operation member 344.
 保持部材341は、樹脂により形成されており、回動部342や操作部材344等を配管32の内部において保持するための部材である。保持部材341は、図3~5に示すように、外側環状部341A、内側筒部341B、及び、アーム部341Cを備えている。 The holding member 341 is made of resin, and is a member for holding the rotating portion 342, the operation member 344, and the like inside the pipe 32. As shown in FIGS. 3 to 5, the holding member 341 includes an outer annular portion 341A, an inner cylindrical portion 341B, and an arm portion 341C.
 外側環状部341Aは、その外径が前記取付部材31の内径と略同一とされた環状をなしている。また、外側環状部341Aは、その軸方向と平行な方向に、その他端面から突出する爪部341D(図4、5参照)を備えている。爪部341Dは、外側環状部341Aの周方向に沿って等間隔に複数(本実施形態では、3つ)設けられており、各爪部341Dの先端部には、外周側に突出する係合部341Eが形成されている。また、上述の通り、保持部材341は樹脂製であるため、爪部341Dの先端部は、外側環状部341Aの径方向に沿って弾性変形可能となっている。そして、本実施形態では、係合部341E及び外側環状部341Aの他端面により、前記取付部材31の取付用突部31Cを挟み込むことで、取付部材31に対し保持部材341が取付けられている。 The outer annular portion 341A has an annular shape whose outer diameter is substantially the same as the inner diameter of the mounting member 31. The outer annular portion 341A includes a claw portion 341D (see FIGS. 4 and 5) protruding from the other end face in a direction parallel to the axial direction. A plurality of claw portions 341D are provided at equal intervals along the circumferential direction of the outer annular portion 341A (three in the present embodiment), and the front end portion of each claw portion 341D is an engagement projecting to the outer peripheral side. A portion 341E is formed. Since the holding member 341 is made of resin as described above, the tip of the claw portion 341D can be elastically deformed along the radial direction of the outer annular portion 341A. In this embodiment, the holding member 341 is attached to the attachment member 31 by sandwiching the attachment protrusion 31C of the attachment member 31 by the other end surfaces of the engagement portion 341E and the outer annular portion 341A.
 内側筒部341Bは、外側環状部341Aの内側に位置しており、その一端部及び他端部の双方が開口する円筒状をなしている。また、内側筒部341Bの内周には、前記回動部342が相対回転可能に挿通されている。加えて、内側筒部341Bは、その一端側開口の内径がその他端側開口の内径よりも小さなものとされており、その結果、回動部342は、内側筒部341Bに対しその他端側開口から挿通可能である一方、内側筒部341Bの一端側開口から抜けてしまうことがないようになっている。また、内側筒部341Bの外周には、その径方向外側に突出する板状の回転防止用突部341Fが形成されており、当該回転防止用突部341Fは、配管32のスリット部32Bに配置されている。その結果、保持部材341がその周方向において適正な位置で配置されるとともに、保持部材341の回転防止が図られている。 The inner cylindrical portion 341B is located inside the outer annular portion 341A, and has a cylindrical shape in which both one end and the other end are opened. The rotating portion 342 is inserted into the inner periphery of the inner cylinder portion 341B so as to be relatively rotatable. In addition, the inner cylinder portion 341B has an inner diameter of one end side opening smaller than the inner diameter of the other end side opening, and as a result, the rotating part 342 opens the other end side opening with respect to the inner cylinder portion 341B. While being able to be inserted from the inner cylindrical portion 341B, the inner cylindrical portion 341B does not come out of the opening. In addition, a plate-like anti-rotation protrusion 341F protruding outward in the radial direction is formed on the outer periphery of the inner cylindrical portion 341B, and the anti-rotation protrusion 341F is disposed in the slit portion 32B of the pipe 32. Has been. As a result, the holding member 341 is disposed at an appropriate position in the circumferential direction, and rotation of the holding member 341 is prevented.
 アーム部341Cは、外側環状部341Aの内周面と内側筒部341Bの外周面とを連結し、外側環状部341Aの内側にて内側筒部341Bを保持するためのものである。アーム部341Cは、外側環状部341Aの周方向に沿って等間隔に複数(本実施形態では、3つ)設けられている。そして、隣接するアーム部341C間には隙間が形成されており、取付部材31の内部空間へと流入した水は、前記隙間を通って配管32へと流れ込むようになっている。 The arm portion 341C connects the inner peripheral surface of the outer annular portion 341A and the outer peripheral surface of the inner cylindrical portion 341B, and holds the inner cylindrical portion 341B inside the outer annular portion 341A. A plurality (three in this embodiment) of arm portions 341C are provided at equal intervals along the circumferential direction of the outer annular portion 341A. A gap is formed between adjacent arm portions 341 </ b> C, and the water that has flowed into the internal space of the attachment member 31 flows into the pipe 32 through the gap.
 図1に戻り、回動部342は、円筒状をなしており、操作部材344の後述する軸部344Bの外周に配置されている(図1参照)。また、回動部342は、その周方向に沿って前記軸部344Bに対し相対回動可能となっている。さらに、回動部342の他端面の外周側には、湾曲窪み状の凹部342A(図5参照)が形成されており、当該凹部342Aに対し伝達部材33Aの一端部が嵌め込まれることで、回動部342の外周側に伝達部材33Aが固定されている。そして、回動部342が回動したときには、回動部342により、その回動方向に沿って伝達部材33Aの一端部が押圧され、その結果、回動部342の回動方向の接線方向に沿って伝達部材33Aの一端部が往動(操作装置3から排水口装置2側へと移動)するようになっている。尚、本実施形態では、軸部344B、回動部342、レリースワイヤ33、及び、支持軸23Aによって、被操作部344A及び栓蓋24間に設けられ、被操作部344Aの変位を栓蓋24側へと伝達する伝達体TM1が構成されている。 Returning to FIG. 1, the rotating portion 342 has a cylindrical shape and is disposed on the outer periphery of a shaft portion 344 </ b> B described later of the operation member 344 (see FIG. 1). Moreover, the rotation part 342 is rotatable relative to the shaft part 344B along the circumferential direction thereof. Further, a curved recess 342A (see FIG. 5) is formed on the outer peripheral side of the other end surface of the rotating portion 342, and one end portion of the transmission member 33A is fitted into the recess 342A. A transmission member 33 </ b> A is fixed to the outer peripheral side of the moving part 342. When the rotating unit 342 rotates, the rotating unit 342 presses one end portion of the transmission member 33A along the rotating direction, and as a result, in the tangential direction of the rotating unit 342 in the rotating direction. Along with this, one end of the transmission member 33A moves forward (moves from the operation device 3 to the drain port device 2 side). In the present embodiment, the shaft portion 344B, the rotating portion 342, the release wire 33, and the support shaft 23A are provided between the operated portion 344A and the plug lid 24, and the displacement of the operated portion 344A is determined by the plug lid 24. A transmission body TM1 for transmitting to the side is configured.
 さらに、回動部342の内周には、回動部342の周方向に対し傾斜する傾斜面状をなす回動側接触部342B(図3等参照)が形成されている。回動側接触部342Bは、回動部342の回動軸方向に沿って、後述する軸部344Bの軸側接触部344Dと接触可能な部位である。また、回動側接触部342Bのうち軸側接触部344Dと接触する部位は、その全域において、前記回動軸方向に対する傾斜が一定とされた螺旋状をなすように構成されている。尚、本実施形態において、回動側接触部342Bは、回動部342の内周に2つ設けられている。 Further, a rotation side contact portion 342B (see FIG. 3 or the like) having an inclined surface shape inclined with respect to the circumferential direction of the rotation portion 342 is formed on the inner periphery of the rotation portion 342. The rotation-side contact portion 342B is a portion that can come into contact with a shaft-side contact portion 344D of a shaft portion 344B described later along the rotation axis direction of the rotation portion 342. Further, a portion of the rotation side contact portion 342B that is in contact with the shaft side contact portion 344D is configured to have a spiral shape in which the inclination with respect to the rotation axis direction is constant over the entire area. In the present embodiment, two rotation-side contact portions 342B are provided on the inner periphery of the rotation portion 342.
 操作側回動支持部343は、内側筒部341Bの他端側開口及び凹部342Aの開口を塞ぐようにして、内側筒部341Bに対しねじ止め固定されている。すなわち、操作側回動支持部343は、保持部材341及び取付部材31を介して浴槽100に対し間接的に取付けられている。 The operation side rotation support part 343 is fixed to the inner cylinder part 341B with screws so as to close the other end side opening of the inner cylinder part 341B and the opening of the recess 342A. That is, the operation side rotation support part 343 is indirectly attached to the bathtub 100 via the holding member 341 and the attachment member 31.
 また、操作側回動支持部343は、図3~5に示すように、内側筒部341Bの他端側開口等を塞ぐ平板状の板状部343Aと、当該板状部343Aの中心から突出する棒状部343Bとを備えている。 Further, as shown in FIGS. 3 to 5, the operation-side rotation support portion 343 protrudes from the center of the plate-like portion 343A and a plate-like plate-like portion 343A that closes the opening on the other end side of the inner cylinder portion 341B. And a rod-shaped portion 343B.
 板状部343Aは、少なくとも回動部342の他端面と対向する部位が滑らかな平滑状とされており、回動部342の回動時には、前記対向する部位に対し回動部342の他端面が接触しつつ摺動するようになっている。 The plate-shaped portion 343A has at least a portion that faces the other end surface of the rotating portion 342 in a smooth and smooth shape. When the rotating portion 342 rotates, the other end surface of the rotating portion 342 with respect to the facing portion. Are configured to slide while in contact with each other.
 棒状部343Bは、筒状をなし、その軸方向に沿って延びるリブ(突条)を外周面に複数(本実施形態では、4つ)備えた構成となっている。また、棒状部343Bの根元部分は円柱状をなしており、当該根元部分によって回動部342が支持されるようになっている。 The rod-shaped portion 343B has a cylindrical shape and includes a plurality (four in the present embodiment) of ribs (projections) extending along the axial direction on the outer peripheral surface. Further, the base portion of the rod-like portion 343B has a columnar shape, and the rotating portion 342 is supported by the base portion.
 操作部材344は、図1に示すように、オーバーフロー口104に挿通されており、オーバーフロー口104の延びる方向に沿って往復移動可能に設けられている。操作部材344は、浴槽100の貯水空間側から見て円形状をなす被操作部344Aと、当該被操作部344Aに対しこれと同軸な状態で、この移動方向に沿って直列的に固定された軸部344Bとを備えている。 As shown in FIG. 1, the operation member 344 is inserted into the overflow port 104, and is provided so as to be able to reciprocate along the direction in which the overflow port 104 extends. The operation member 344 is fixed in series along the moving direction in a state of being coaxial with the operated portion 344A having a circular shape when viewed from the water storage space side of the bathtub 100 and the operated portion 344A. And a shaft portion 344B.
 被操作部344Aは、排水口103を開閉する際に、使用者が操作する部分であり、浴槽100(側壁部102)の表面側に表出している。また、本実施形態では、排水口103の閉鎖時に、被操作部344Aの表面が鍔部31Aの表面と面一となるように構成されており、被操作部344Aは、常に取付部材31の表面から突出しないものとされている。これにより、外観品質や安全性の向上が図られている。 The operated portion 344A is a portion operated by the user when opening and closing the drainage port 103, and is exposed on the surface side of the bathtub 100 (side wall portion 102). Further, in the present embodiment, when the drainage port 103 is closed, the surface of the operated portion 344A is configured to be flush with the surface of the flange portion 31A, and the operated portion 344A is always the surface of the mounting member 31. It is supposed not to protrude from. Thereby, the appearance quality and safety are improved.
 軸部344Bは、操作部材344の往復移動方向に沿って延びるとともに、被操作部344Aとは反対側に開口する穴部344C(図5参照)を具備する棒状をなしている。穴部344Cには、前記棒状部343Bのリブに対応する形状をなす凹み部が複数形成されている。そして、棒状部343Bのリブが穴部344Cの凹み部に配置されるようにして、穴部344Cに対し棒状部343Bが挿通されている。これにより、軸部344Bは、棒状部343Bひいては浴槽100に対し相対回動不能となっている。つまり、本実施形態では、棒状部343B及び軸部344Bのうち穴部344Cを形成する部位によって、浴槽100に対する軸部344Bの相対回転を規制する回転規制部が構成されている。 The shaft portion 344B extends in the reciprocating direction of the operation member 344 and has a rod shape having a hole portion 344C (see FIG. 5) that opens to the opposite side of the operated portion 344A. The hole portion 344C is formed with a plurality of recess portions having a shape corresponding to the rib of the rod-shaped portion 343B. The rod-shaped portion 343B is inserted into the hole 344C so that the rib of the rod-shaped portion 343B is disposed in the recessed portion of the hole 344C. Accordingly, the shaft portion 344B is not rotatable relative to the rod-shaped portion 343B and thus the bathtub 100. That is, in the present embodiment, a rotation restricting portion that restricts the relative rotation of the shaft portion 344B with respect to the bathtub 100 is configured by the portion where the hole portion 344C is formed in the rod-shaped portion 343B and the shaft portion 344B.
 さらに、図3~5に示すように、軸部344Bの外周には、外側に突出する扇型状の軸側接触部344Dが2つ形成されている。各軸側接触部344Dは、内側筒部341Bの一端側開口を通過不能な大きさとされており、常に回動部342の内側に配置されている。また、操作部材344を往動させたときに、軸側接触部344Dのうち軸部344Bの往動方向前方側に位置する面が、回動側接触部342Bへと面接触可能となっている。本実施形態では、軸側接触部344Dと、回動側接触部342Bとによって、運動方向変換部が構成されている。 Further, as shown in FIGS. 3 to 5, two fan-shaped shaft-side contact portions 344D protruding outward are formed on the outer periphery of the shaft portion 344B. Each of the shaft side contact portions 344D has such a size that it cannot pass through the opening on one end side of the inner cylinder portion 341B, and is always disposed inside the rotation portion 342. Further, when the operation member 344 is moved forward, a surface of the shaft side contact portion 344D that is located on the front side in the forward movement direction of the shaft portion 344B can be brought into surface contact with the rotation side contact portion 342B. . In the present embodiment, the shaft side contact portion 344D and the rotation side contact portion 342B constitute a movement direction conversion portion.
 尚、本実施形態において、操作側機構部34は、浴槽100の表面側(貯水空間側)から、取付部材31に対し取付・取外自在に構成されている。取付部材31に対し操作側機構部34を取付ける際には、まず、レリースワイヤ33の接続された操作側機構部34を、所定の向きで浴槽100の表面側から取付部材31内に挿通する。そして、スリット部32Bに対し回転防止用突部341Fが挿入可能となるように保持部材341を位置合わせした上で、係合部341Eの先端部外周に形成されたテーパ状部分を取付用突部31Cに接触させつつ、操作側機構部34を取付部材31の奥側へと押し込むことで、爪部341Dを径方向内側に向けて徐々に弾性変形させる。そして、爪部341Dが所定量以上弾性変形すると、係合部341Eが取付用突部31Cを超えて取付部材31のより奥側へと移動するとともに、爪部341Dの弾性変形が解除される。その結果、外側環状部341Aの他端面と係合部341Eとによって取付用突部31Cを挟み込む形となり、操作側機構部34が取付部材31に取付けられることとなる。すなわち、本実施形態では、取付部材31に対し操作側機構部34をワンタッチで取付けることができるようになっている。 In addition, in this embodiment, the operation side mechanism part 34 is comprised from the surface side (water storage space side) of the bathtub 100 so that attachment or detachment with respect to the attachment member 31 is possible. When attaching the operation side mechanism part 34 to the attachment member 31, first, the operation side mechanism part 34 to which the release wire 33 is connected is inserted into the attachment member 31 from the surface side of the bathtub 100 in a predetermined direction. Then, after positioning the holding member 341 so that the rotation preventing projection 341F can be inserted into the slit portion 32B, the tapered portion formed on the outer periphery of the distal end of the engaging portion 341E is attached to the mounting projection. The claw portion 341D is gradually elastically deformed radially inward by pushing the operation side mechanism portion 34 toward the back side of the mounting member 31 while being in contact with 31C. When the claw portion 341D is elastically deformed by a predetermined amount or more, the engaging portion 341E moves beyond the attachment protrusion 31C to the deeper side of the attachment member 31, and the elastic deformation of the claw portion 341D is released. As a result, the attachment protrusion 31C is sandwiched between the other end surface of the outer annular portion 341A and the engagement portion 341E, and the operation side mechanism portion 34 is attached to the attachment member 31. That is, in this embodiment, the operation side mechanism 34 can be attached to the attachment member 31 with one touch.
 一方、取付部材31から操作側機構部34を取外すに際しては、操作側機構部34を取付時とは反対の方向へと引っ張れば、取付用突部31Cから係合部341Eが外れ、取付部材31から操作側機構部34を取外すことができる。このように取付部材31に対し操作側機構部34が取付・取外自在とされることで、取付部材31や配管32の内周面の清掃や、操作側機構部34の故障時における部品の交換作業などが容易となり、清掃性やメンテナンス性の向上が図られるようになっている。 On the other hand, when removing the operation side mechanism portion 34 from the attachment member 31, if the operation side mechanism portion 34 is pulled in the direction opposite to that at the time of attachment, the engagement portion 341E is detached from the attachment projection 31C, and the attachment member 31 is removed. The operation side mechanism part 34 can be removed from. In this way, the operation side mechanism 34 can be attached to and detached from the attachment member 31 so that the inner peripheral surface of the attachment member 31 and the pipe 32 can be cleaned, and the parts at the time of failure of the operation side mechanism 34 can be obtained. Replacement work and the like are facilitated, and the cleaning property and the maintenance property are improved.
 次に、排水口103の開閉する際の各部の動作について説明する。まず、排水口103を閉状態から開状態とするときには、被操作部344Aを押圧し操作部材344を往動させることで、軸側接触部344Dが回動側接触部342Bを押圧し、ひいては回動部342が軸部344Bに対し相対回動する。その結果、回動部342によって伝達部材33Aの一端部が押圧され、回動部342の回動方向の接線方向に沿って伝達部材33Aの一端部が往動する。また、これにより、チューブ部材33Bの内部において伝達部材33Aが往動し、伝達部材33Aの他端部によって支持軸23Aが押し上げられる。そして、支持軸23Aが所定位置以上まで押し上げられると、前記ロック機構によって、栓蓋24が排水口部材21から離間した状態で支持軸23Aが所定の上方位置にてロックされ、排水口103が開放される。 Next, the operation of each part when the drainage port 103 is opened and closed will be described. First, when the drainage port 103 is changed from the closed state to the open state, the shaft-side contact portion 344D presses the rotation-side contact portion 342B by pushing the operated portion 344A and moving the operation member 344 forward, and thus rotating. The moving part 342 rotates relative to the shaft part 344B. As a result, one end portion of the transmission member 33A is pressed by the rotating portion 342, and the one end portion of the transmitting member 33A moves forward along the tangential direction of the rotating portion 342 in the rotating direction. This also causes the transmission member 33A to move forward in the tube member 33B, and the support shaft 23A is pushed up by the other end of the transmission member 33A. When the support shaft 23A is pushed up to a predetermined position or more, the support mechanism 23A is locked at a predetermined upper position with the plug lid 24 being separated from the drain port member 21 by the locking mechanism, and the drain port 103 is opened. Is done.
 一方、排水口103を開状態から閉状態とするときには、排水口103を開放するときと同様に、被操作部344Aを押圧し操作部材344を往動させることで、伝達部材33Aを往動させる。これにより、前記ロック機構による支持軸23Aのロックが解除され、重力や前記戻り力付与部の作用により、支持軸23A及び栓蓋24が下動する。その結果、排水口103が閉鎖される。また、戻り力付与部の作用により、チューブ部材33B内を伝達部材33Aが復動することとなり、伝達部材33Aの一端部に押圧されることで、回動部342が、排水口103を開放するときとは逆方向に回動する。これにより、回動側接触部342Bによって軸側接触部344Dが押圧され、軸部344B(操作部材344)が復動し、被操作部344Aは、その表面が鍔部31Aの表面と面一となる状態まで戻ることとなる。 On the other hand, when the drainage port 103 is changed from the open state to the closed state, the transmission member 33A is moved forward by pressing the operated portion 344A and moving the operation member 344 forward as in the case of opening the drainage port 103. . As a result, the lock of the support shaft 23A by the lock mechanism is released, and the support shaft 23A and the plug lid 24 are moved downward by the action of gravity or the return force applying portion. As a result, the drainage port 103 is closed. Further, the transmission member 33A moves backward in the tube member 33B by the action of the return force applying portion, and the rotating portion 342 opens the drain port 103 when pressed by one end portion of the transmission member 33A. It rotates in the opposite direction. As a result, the shaft side contact portion 344D is pressed by the rotation side contact portion 342B, the shaft portion 344B (operation member 344) moves backward, and the surface of the operated portion 344A is flush with the surface of the flange portion 31A. It will return to the state.
 尚、本実施形態では、回動部342の回動軸から回動部342のうち伝達部材33Aの一端部を押圧する部位までの距離(半径)を調節したり、操作部材344の往復移動方向に対する回動側接触部342Bの傾斜角度を調節したりすることで、被操作部344Aを押圧したときに、伝達部材33Aの一端部の移動量が、操作部材344の移動量よりも大きくなるように構成されている。 In the present embodiment, the distance (radius) from the rotation shaft of the rotation unit 342 to the portion of the rotation unit 342 that presses one end of the transmission member 33A is adjusted, or the reciprocating direction of the operation member 344 is adjusted. By adjusting the inclination angle of the rotation-side contact portion 342B with respect to the movement portion 344A, when the operated portion 344A is pressed, the movement amount of the one end portion of the transmission member 33A becomes larger than the movement amount of the operation member 344. It is configured.
 以上詳述したように、本実施形態によれば、傾斜面を利用した非常に簡素な構造により、軸部344Bの軸運動を回動部342の回動運動へと変換することができる。従って、排水栓装置1の安定的な動作を図ることができるとともに、製造コストの増大抑制、及び、排水栓装置1の小型化を効果的に図ることができる。 As described in detail above, according to the present embodiment, the shaft motion of the shaft portion 344B can be converted into the rotation motion of the rotation portion 342 with a very simple structure using an inclined surface. Therefore, it is possible to achieve a stable operation of the drain plug device 1, suppress an increase in manufacturing cost, and effectively reduce the size of the drain plug device 1.
 また、本実施形態では、伝達部材33Aの一端部の往復移動方向を、操作部材344の往復移動方向と直交する方向(操作部材344の周方向)とすることができ、また、操作部材344と伝達部材33Aの一端部とが直列的に並ばないようにすることができる。これにより、操作部材344の往復移動方向に沿った操作装置3の長さを非常に小さなものとすることができる。その結果、良好な安全性や美感を確保しつつ、取付自由度を飛躍的に高めることができる。 In the present embodiment, the reciprocating direction of one end of the transmission member 33A can be a direction orthogonal to the reciprocating direction of the operating member 344 (the circumferential direction of the operating member 344). It is possible to prevent the one end portion of the transmission member 33A from being arranged in series. Thereby, the length of the operating device 3 along the reciprocating direction of the operating member 344 can be made very small. As a result, it is possible to dramatically increase the degree of freedom of attachment while ensuring good safety and aesthetics.
 また、軸部344B及び棒状部343Bにより構成される回転規制部によって、浴槽100に対し軸部344Bを相対回転不能とすることができ、ひいては操作部材344を往動させたときに回動部342をより確実に回動させることができる。これにより、上述の作用効果をより確実に発揮させることができる。 Further, the rotation restricting portion constituted by the shaft portion 344B and the rod-shaped portion 343B can make the shaft portion 344B relatively unrotatable with respect to the bathtub 100, and as a result, the rotating portion 342 when the operation member 344 is moved forward. Can be rotated more reliably. Thereby, the above-mentioned effect can be more reliably exhibited.
 さらに、伝達部材33Aの往復移動方向を操作部材344の往復移動方向と直交する方向(操作部材344の周方向)とするために、レリースワイヤ33を曲げる必要はない。従って、レリースワイヤ33の曲げに伴い、伝達部材33A及びチューブ部材33B間で生じる摩擦力が大きくなって操作性が低下してしまったり、伝達部材33A等に破損が生じてしまったりすることをより確実に防止できる。 Furthermore, it is not necessary to bend the release wire 33 so that the reciprocating direction of the transmission member 33A is a direction orthogonal to the reciprocating direction of the operating member 344 (the circumferential direction of the operating member 344). Accordingly, the bending force of the release wire 33 increases the frictional force generated between the transmission member 33A and the tube member 33B, thereby reducing the operability or causing damage to the transmission member 33A. It can be surely prevented.
 また、本実施形態では、被操作部344Aの表面を押圧したときに、伝達部材33Aの一端部の移動量が、被操作部344Aの移動量よりも大きくなるように構成されている。従って、栓蓋24のより確実な上下動を図りつつ、操作部材344の往復移動量(ストローク量)をより小さなものとすることができる。その結果、操作部材344の往復移動方向に沿った操作装置3の長さをより小さなものとすることができ、取付自由度を一層高めることができる。 Further, in the present embodiment, when the surface of the operated part 344A is pressed, the moving amount of one end of the transmission member 33A is configured to be larger than the moving amount of the operated part 344A. Therefore, the amount of reciprocation (stroke amount) of the operation member 344 can be made smaller while achieving more reliable vertical movement of the plug lid 24. As a result, the length of the operating device 3 along the reciprocating direction of the operating member 344 can be made smaller, and the degree of freedom of attachment can be further increased.
 さらに、排水口103を開閉するために必要な被操作部344Aの移動量を小さくすることができるため、使用者が排水口103を開閉しようとしたときに、被操作部344Aの移動量が不十分となり、排水口103の開閉に失敗してしまうといった事態をより確実に防止できる。これにより、使用者にとっての使い勝手を向上させることができる。 Furthermore, since the amount of movement of the operated portion 344A necessary for opening and closing the drain port 103 can be reduced, the amount of movement of the operated portion 344A is not large when the user attempts to open and close the drain port 103. It is possible to more reliably prevent a situation in which the opening and closing of the drainage port 103 fails. Thereby, the usability for the user can be improved.
 さらに、回動側接触部342Bは一定傾斜の螺旋状であるため、操作部材344を往動させたときに、軸側接触部344Dにおいて、回動側接触部342Bに接触する部分を常に同一部分とすることができる。従って、被操作部344Aを移動させたときに、回動部342を安定的に回動させることができ、動作安定性の向上を図ることができる。 Furthermore, since the rotation-side contact portion 342B has a spiral shape with a constant inclination, when the operation member 344 is moved forward, the portion that contacts the rotation-side contact portion 342B in the shaft-side contact portion 344D is always the same portion. It can be. Therefore, when the operated part 344A is moved, the rotating part 342 can be stably rotated, and the operational stability can be improved.
 また、被操作部344Aを往動させるときに、使用者は、被操作部344Aに生じる負荷の変化(前記負荷は、例えば、前記戻り力付与部で生じる力の変化や、軸側接触部344D及び回動側接触部342B間で生じる摩擦力の変化、排水口103の開閉状態などにより変化する)等をより確実に知覚することができる。その結果、使用者は、排水口103を開閉する際に、被操作部344Aを介して操作部材344や栓蓋24の状況などをより確実に把握することができ、ひいては操作ミスが生じてしまう等の事態をより確実に防止できる。 Further, when the operated portion 344A is moved forward, the user can change the load generated in the operated portion 344A (the load is, for example, a change in force generated in the return force applying portion or an axial contact portion 344D. And changes in the frictional force generated between the rotating side contact portions 342B, the open / close state of the drain port 103, etc.) can be perceived more reliably. As a result, when the user opens and closes the drain port 103, the user can more reliably grasp the status of the operation member 344 and the plug lid 24 via the operated portion 344A, and thus an operation error occurs. Etc. can be prevented more reliably.
 加えて、回動部342は、その回動時に、操作側回動支持部343を摺動するため、回動部342をより安定的に回動させることができ、装置の動作安定性を一層高めることができる。 In addition, since the rotation part 342 slides on the operation side rotation support part 343 at the time of the rotation, the rotation part 342 can be more stably rotated, and the operation stability of the apparatus is further improved. Can be increased.
 また、操作側回動支持部343は、回転規制部の一部(棒状部343B)を有するものとされる。そのため、装置の小型化を一層図ることができ、取付自由度の更なる向上や製造コストの低減を図ることができる。
〔第2実施形態〕
 次いで、第2実施形態について説明する。上記第1実施形態では、操作装置3に対し軸部344B、回動部342、回転規制部、及び、運動方向変換部が設けられているが、本第2実施形態では、図6に示すように、排水口装置4の具備する栓蓋側機構部5に対し、回動部51、軸部52、回転規制部、及び、運動方向変換部が設けられている。
Moreover, the operation side rotation support part 343 has a part (rod-shaped part 343B) of a rotation control part. Therefore, the apparatus can be further reduced in size, and the degree of freedom of attachment can be further improved and the manufacturing cost can be reduced.
[Second Embodiment]
Next, a second embodiment will be described. In the said 1st Embodiment, although the axial part 344B, the rotation part 342, the rotation control part, and the movement direction conversion part are provided with respect to the operating device 3, in this 2nd Embodiment, as shown in FIG. In addition, a rotating part 51, a shaft part 52, a rotation restricting part, and a movement direction converting part are provided for the stopper lid side mechanism part 5 of the drain port device 4.
 以下、排水口装置4の構成について説明する。排水口装置4は、排水管41、被支持部材としての通水部材42、支持軸43、ヘアキャッチャー44、栓蓋45、及び、栓蓋側機構部5を備えている。 Hereinafter, the configuration of the drain port device 4 will be described. The drain port device 4 includes a drain pipe 41, a water passage member 42 as a supported member, a support shaft 43, a hair catcher 44, a plug lid 45, and a plug lid side mechanism section 5.
 排水管41は、底壁部101に貫通形成された排水口103と連通するようにして底壁部101の背面に取付けられている。より詳しくは、排水管41の上端部内周には雌ねじ部41Eが形成されており、排水管41の上端部を底壁部101の背面に配置した上で、前記雌ねじ部41Eに対し、排水口103を通して外周に雄ねじ部47Aを有する筒状の排水口部材47を螺合し、排水口部材47の上端部鍔状部分と排水管41の上端部との間で底壁部101を挟み込むことで、排水管41は底壁部101の背面に取付けられている。そして、排水口103を通った排水は、排水管41の内部へと流れ込み排出されるようになっている。 The drain pipe 41 is attached to the back surface of the bottom wall portion 101 so as to communicate with a drain port 103 formed through the bottom wall portion 101. More specifically, a female screw portion 41E is formed on the inner periphery of the upper end portion of the drain pipe 41. After the upper end portion of the drain pipe 41 is disposed on the back surface of the bottom wall portion 101, a drain port is formed with respect to the female screw portion 41E. A cylindrical drain port member 47 having a male screw portion 47A on the outer periphery through 103 is screwed, and the bottom wall portion 101 is sandwiched between the upper end portion of the drain port member 47 and the upper end portion of the drain pipe 41. The drain pipe 41 is attached to the back surface of the bottom wall portion 101. The drainage that has passed through the drainage port 103 flows into the drainage pipe 41 and is discharged.
 また、排水管41は、鉛直方向に沿って延びる筒状をなす排水用の主管41Aと、当該主管41Aの外周から水平方向に突出形成され、自身の内部空間が主管41Aの内部空間に連通する筒状の取付管41Bとを備えている。取付管41Bの内周には、その軸方向に沿って延びる凹部41Cが形成されている。当該凹部41Cは、取付管41Bの中心軸を挟むようにして2つ設けられている。 Further, the drain pipe 41 is formed in a tubular shape extending in the vertical direction and has a drain main pipe 41A that protrudes in the horizontal direction from the outer periphery of the main pipe 41A, and its own internal space communicates with the internal space of the main pipe 41A. And a cylindrical mounting tube 41B. A concave portion 41C extending along the axial direction is formed on the inner periphery of the attachment tube 41B. Two concave portions 41C are provided so as to sandwich the central axis of the attachment tube 41B.
 さらに、排水管41は、後述する支持突起51Bの移動領域を除き、前記取付管41Bの主管41A側の開口を塞ぐようにして板状の排水管側回動支持部41Dを備えている。 Furthermore, the drainage pipe 41 is provided with a plate-like drainage pipe side rotation support part 41D so as to close the opening on the main pipe 41A side of the mounting pipe 41B except for a movement region of the support projection 51B described later.
 通水部材42は、支持軸43を介して栓蓋45に対し間接的に取付けられており、排水管41(主管41A)内において上下動可能に配置されている。通水部材42は、環状の外周壁部42Aと、当該外周壁部42Aの内周から内側に向けて延びる下部捕集部42Bとを備えている。 The water passage member 42 is indirectly attached to the stopper lid 45 via the support shaft 43, and is disposed so as to be vertically movable in the drain pipe 41 (main pipe 41A). The water flow member 42 includes an annular outer peripheral wall portion 42A and a lower collecting portion 42B extending inward from the inner periphery of the outer peripheral wall portion 42A.
 外周壁部42Aは、排水管41(主管41A)の内周面に沿うようにして排水管41(主管41A)内に配置されている。また、外周壁部42Aの下端面が後述する支持突起51Bに載置状態とされることで、通水部材42は、排水管41(主管41A)内で支持されるようになっている。 The outer peripheral wall portion 42A is disposed in the drain pipe 41 (main pipe 41A) so as to be along the inner peripheral surface of the drain pipe 41 (main pipe 41A). Further, the lower end surface of the outer peripheral wall portion 42A is placed on a support protrusion 51B, which will be described later, so that the water passage member 42 is supported in the drain pipe 41 (main pipe 41A).
 下部捕集部42Bは、その内周部分が支持軸43に固定されており、外周壁部42Aの径方向に沿って延びる複数のリブを有している。下部捕集部42Bにおいて、主管41Aを流れる排水は前記リブ間に形成された隙間を通って流れ落ち、その一方で、排水に含まれるゴミ等は捕集されることとなる。 The lower collection portion 42B has an inner peripheral portion fixed to the support shaft 43 and has a plurality of ribs extending along the radial direction of the outer peripheral wall portion 42A. In the lower collection part 42B, the waste water flowing through the main pipe 41A flows down through the gap formed between the ribs, while the dust contained in the waste water is collected.
 支持軸43は、棒状をなし、その上端部が栓蓋45の背面中央部に取付けられるとともに、その下端側部分が通水部材42に固定されている。そのため、後述する支持突起51Bの上下動に伴い通水部材42が上下動した際には、通水部材42とともに支持軸43及び栓蓋45が上下動することとなる。 The support shaft 43 has a rod shape, and its upper end is attached to the center of the back surface of the stopper lid 45, and its lower end is fixed to the water passage member 42. Therefore, when the water passage member 42 moves up and down in accordance with the vertical movement of the support protrusion 51B described later, the support shaft 43 and the plug lid 45 move up and down together with the water passage member 42.
 ヘアキャッチャー44は、支持軸43の外周から外周側に向けて広がっており、主管41Aを流れる排水に含まれるゴミ等を捕集する機能を備えている。 The hair catcher 44 spreads from the outer periphery of the support shaft 43 toward the outer periphery, and has a function of collecting dust and the like contained in the drainage flowing through the main pipe 41A.
 栓蓋45は、樹脂等からなる円板状の栓蓋本体45Aと、当該栓蓋本体45Aの背面外周側に取付けられた、弾性変形可能な材料(例えば、ゴムや樹脂等)からなる環状のパッキン部45Bとを備えている。本実施形態では、支持突起51Bが下動した際に、通水部材42及び支持軸43とともに栓蓋45が下動し、パッキン部45Bの外周部分全域が底壁部101に接触することで、排水口103が閉鎖されるようになっている。一方で、支持突起51Bが上動した際には、通水部材42及び支持軸43とともに栓蓋45が上動し、パッキン部45Bが底壁部101から離間することで、排水口103が開放されるようになっている。 The plug lid 45 is a disc-shaped plug lid main body 45A made of a resin or the like, and an annular shape made of an elastically deformable material (for example, rubber or resin) attached to the back outer peripheral side of the plug lid main body 45A. Packing part 45B. In the present embodiment, when the support protrusion 51B is moved downward, the stopper cover 45 is moved downward together with the water passage member 42 and the support shaft 43, and the entire outer peripheral portion of the packing portion 45B is in contact with the bottom wall portion 101. The drainage port 103 is closed. On the other hand, when the support protrusion 51B moves upward, the plug lid 45 moves upward together with the water passage member 42 and the support shaft 43, and the packing portion 45B is separated from the bottom wall portion 101, so that the drainage port 103 is opened. It has come to be.
 尚、本実施形態では、排水口103の開放時において、外周壁部42Aの下端面は支持突起51Bに接触しているが、排水口103の閉鎖時において、外周壁部42Aの下端面は支持突起51Bから離間するようになっている。これにより、排水口103の閉鎖時において、栓蓋45(パッキン部45B)を確実に底壁部101へと接触させることができ、良好な水密性を得ることが可能となっている。 In the present embodiment, the lower end surface of the outer peripheral wall portion 42A is in contact with the support protrusion 51B when the drain port 103 is opened, but the lower end surface of the outer peripheral wall portion 42A is supported when the drain port 103 is closed. The protrusion 51B is separated from the protrusion 51B. Thereby, when the drainage port 103 is closed, the stopper lid 45 (packing part 45B) can be reliably brought into contact with the bottom wall part 101, and good water tightness can be obtained.
 さらに、本実施形態においては、浴槽100の表側から栓蓋45や支持軸43を引き上げることで、通水部材42、支持軸43、ヘアキャッチャー44及び栓蓋45からなるユニット46を排水管41から一度に取外すことができるようになっている。そして、前記ユニット46を排水管41から取外した状態では、排水管41(主管41A)内は、支持突起51Bのみが僅かに突出した状態となる。そのため、メンテナンス性や清掃性の向上を図ることができる。 Furthermore, in this embodiment, the unit 46 including the water passage member 42, the support shaft 43, the hair catcher 44, and the plug lid 45 is removed from the drain pipe 41 by pulling up the plug lid 45 and the support shaft 43 from the front side of the bathtub 100. It can be removed at once. In the state where the unit 46 is removed from the drain pipe 41, only the support protrusion 51B slightly protrudes in the drain pipe 41 (main pipe 41A). For this reason, it is possible to improve maintenance and cleaning properties.
 栓蓋側機構部5は、取付管41Bに取付けられており、図7に示すように、回動部51、軸部52、及び、開口蓋部53を備えている。 The stopper lid side mechanism portion 5 is attached to the attachment tube 41B and includes a rotating portion 51, a shaft portion 52, and an opening lid portion 53 as shown in FIG.
 回動部51は、取付管41Bの内周に対し回動可能な状態で挿通されており、その回動軸方向の一端部が円板部51Aによって閉塞された円筒状をなしている。そして、円板部51Aのうち排水管41(主管41A)の内部空間側に位置する表面の外周側には、排水管41(主管41A)内に突出する支持部としての支持突起51Bが設けられている。 Rotating part 51 is inserted in a rotatable state with respect to the inner periphery of mounting tube 41B, and has a cylindrical shape in which one end part in the rotating axis direction is closed by disc part 51A. A support protrusion 51B as a support portion protruding into the drain pipe 41 (main pipe 41A) is provided on the outer peripheral side of the surface located on the inner space side of the drain pipe 41 (main pipe 41A) in the disc part 51A. ing.
 支持突起51Bは、水平方向に延びる棒状をなし、その先端が主管41Aの中心(主管41Aの中心軸)に到達しないように比較的短いものとされている。また、回動部51が回動することで、支持突起51Bは回動しつつ上下動し、上述の通り、支持突起51Bの上下動に伴い排水口103が開閉するようになっている。尚、回動部51の回動時には、円板部51Aの表面が排水管側回動支持部41Dに接触しつつ摺動する。 The support protrusion 51B has a bar shape extending in the horizontal direction, and is relatively short so that its tip does not reach the center of the main pipe 41A (the central axis of the main pipe 41A). Further, as the rotating portion 51 rotates, the support protrusion 51B moves up and down while rotating, and as described above, the drainage port 103 opens and closes as the support protrusion 51B moves up and down. In addition, when the rotation part 51 rotates, the surface of the disk part 51A slides while contacting the drain pipe side rotation support part 41D.
 また、図8に示すように、回動部51の円筒状部分には、その軸方向に対して傾斜する傾斜溝部51Cが2つ貫通形成されている。そして、回動部51の傾斜溝部51Cを形成する部位のうち、主管41A側(軸部52の往動方向前方側)に位置する部位によって、回動側接触部51Dが形成されている。また、回動部51の傾斜溝部51Cを形成する部位のうち、主管41Aとは反対側(軸部52の復動方向前方側)に位置する部位によって、回動側対向部51Eが形成されている。 Further, as shown in FIG. 8, two inclined groove portions 51 </ b> C that are inclined with respect to the axial direction are formed through the cylindrical portion of the rotating portion 51. And the rotation side contact part 51D is formed by the site | part located in the main pipe 41A side (forward movement direction front side of the axial part 52) among the site | parts which form the inclination groove part 51C of the rotation part 51. FIG. Further, among the portions forming the inclined groove portion 51C of the rotation portion 51, the rotation-side facing portion 51E is formed by the portion located on the opposite side to the main pipe 41A (the front side in the backward movement direction of the shaft portion 52). Yes.
 回動側対向部51Eは、回動側接触部51Dと同じ向きに傾斜しており、両者は、回動部51の軸方向に沿って対向した状態となっている。また、回動側接触部51D及び回動側対向部51E間には、軸部52の後述する軸側接触部52Aが配置されており、軸部52が往動したときには、軸側接触部52Aが回動側接触部51Dへと線接触し、軸部52が復動したときには、軸側接触部52Aが回動側対向部51Eへと線接触するようになっている。加えて、本実施形態では、回動側接触部51D及び回動側対向部51Eのうち、軸側接触部52Aと接触する部位は、その全域において、回動部51の回動軸方向(軸部52の運動方向)に対し一定の傾斜を有するものとされている。 The rotation-side facing portion 51E is inclined in the same direction as the rotation-side contact portion 51D, and both are opposed to each other along the axial direction of the rotation portion 51. Further, a shaft-side contact portion 52A (described later) of the shaft portion 52 is disposed between the rotation-side contact portion 51D and the rotation-side facing portion 51E, and when the shaft portion 52 moves forward, the shaft-side contact portion 52A. Is in line contact with the rotation-side contact portion 51D, and when the shaft portion 52 is moved backward, the shaft-side contact portion 52A is in line contact with the rotation-side facing portion 51E. In addition, in the present embodiment, of the rotation-side contact portion 51D and the rotation-side facing portion 51E, the portion in contact with the shaft-side contact portion 52A is the rotation axis direction of the rotation portion 51 (axis The moving direction of the portion 52 is constant.
 軸部52は、回動部51の内周においてその軸方向に沿って往復移動可能に配置されている。また、軸部52には、伝達部材33Aの他端部(被操作部とは反対側に位置する端部)が接続されており、伝達部材33Aの往復移動に伴い軸部52が往復移動するように構成されている。尚、本第2実施形態において、被操作部は、上記第1実施形態のように、往復移動するものであってもよいし、上記第1実施形態とは異なり、回転(回動)するものでもあってもよい。但し、伝達部材33Aは、被操作部の移動に伴い往復移動するように構成されている。 The shaft portion 52 is disposed so as to be capable of reciprocating along the axial direction on the inner periphery of the rotating portion 51. The shaft 52 is connected to the other end of the transmission member 33A (the end located on the side opposite to the operated portion), and the shaft 52 reciprocates as the transmission member 33A reciprocates. It is configured as follows. In the second embodiment, the operated part may reciprocate as in the first embodiment, or rotate (turn) unlike the first embodiment. But it may be. However, the transmission member 33A is configured to reciprocate as the operated portion moves.
 また、軸部52は、その外周から外側に突出する円柱状の軸側接触部52Aを2つ備えている。軸側接触部52Aは、その基端側部分が、回動側接触部51D及び回動側対向部51E間に配置されるとともに、その先端側部分が、取付管41Bの凹部41Cへと配置されている。軸側接触部52Aの先端側部分が凹部41Cに配置されることで、取付管41Bひいては浴槽100に対する軸部52の相対回動が規制されている。すなわち、本実施形態では、軸側接触部52Aの先端側部分が、凹部41Cへと配置される突部に相当し、軸側接触部52Aの先端側部分と、取付管41Bのうち凹部41Cを形成する部位とによって回転規制部が構成されている。また、本実施形態では、軸側接触部52A、回動側接触部51D、及び、回動側対向部51Eによって、運動方向変換部が構成されており、レリースワイヤ33、軸部52、回動部51、通水部材42、及び、支持軸43によって、被操作部の変位を栓蓋45側へと伝達する伝達体TM2(図6参照)が構成されている。 The shaft portion 52 includes two columnar shaft-side contact portions 52A that protrude outward from the outer periphery thereof. The shaft-side contact portion 52A has a proximal end portion disposed between the rotation-side contact portion 51D and the rotation-side facing portion 51E, and a distal end portion disposed in the recess 41C of the attachment tube 41B. ing. By disposing the tip side portion of the shaft side contact portion 52A in the recess 41C, the relative rotation of the shaft portion 52 with respect to the attachment tube 41B and thus the bathtub 100 is restricted. That is, in the present embodiment, the tip side portion of the shaft side contact portion 52A corresponds to a protrusion disposed in the recess 41C, and the tip side portion of the shaft side contact portion 52A and the recess 41C of the attachment tube 41B are provided. The rotation restricting portion is configured by the portion to be formed. In the present embodiment, the shaft-side contact portion 52A, the rotation-side contact portion 51D, and the rotation-side facing portion 51E constitute a movement direction conversion portion, and the release wire 33, the shaft portion 52, and the rotation The transmission part TM2 (refer FIG. 6) which transmits the displacement of a to-be-operated part to the plug lid 45 side is comprised by the part 51, the water flow member 42, and the support shaft 43. As shown in FIG.
 開口蓋部53は、板状をなしており、取付管41Bにおける主管41Aとは反対側の開口を閉鎖することで、取付管41Bからの回動部51及び軸部52の抜け止めを行うものである。また、開口蓋部53の中心部分には、板厚方向に貫通する孔部が形成されており、当該孔部を通して伝達部材33Aの他端部が軸部52へと接続されている。加えて、開口蓋部53には、所定のナット部材54によってチューブ部材33Bの他端部が固定されている。 The opening lid portion 53 has a plate shape, and prevents the turning portion 51 and the shaft portion 52 from coming off from the mounting tube 41B by closing the opening of the mounting tube 41B opposite to the main tube 41A. It is. In addition, a hole that penetrates in the thickness direction is formed at the center of the opening lid 53, and the other end of the transmission member 33A is connected to the shaft 52 through the hole. In addition, the other end portion of the tube member 33 </ b> B is fixed to the opening lid portion 53 by a predetermined nut member 54.
 次に、排水口103の開閉する際の各部の動作について説明する。まず、排水口103を閉状態から開状態とするときには、被操作部の移動により軸部52を往動させることで、軸側接触部52Aが回動側接触部51Dを押圧し、ひいては回動部51が軸部52に対し相対回動する。その結果、支持突起51Bが回転しつつ上動し、支持突起51Bによって通水部材42が持ち上げられる。これにより、栓蓋45が底壁部101から離間した状態となり、排水口103が開放される。 Next, the operation of each part when the drainage port 103 is opened and closed will be described. First, when the drainage port 103 is changed from the closed state to the open state, the shaft side contact portion 52A presses the rotation side contact portion 51D by moving the shaft portion 52 by the movement of the operated portion, and thus rotates. The part 51 rotates relative to the shaft part 52. As a result, the support protrusion 51B moves upward while rotating, and the water passing member 42 is lifted by the support protrusion 51B. As a result, the plug lid 45 is separated from the bottom wall portion 101, and the drainage port 103 is opened.
 一方、排水口103を開状態から閉状態とするときには、被操作部を移動させることで伝達部材33Aを復動させる。これにより、軸側接触部52Aが回動側対向部51Eを押圧し、ひいては回動部51が軸部52に対し開栓時とは反対側に相対回動する。その結果、支持突起51Bが回動しつつ下動し、重力によって通水部材42や栓蓋45が下動する。その結果、栓蓋45が底壁部101に接触した状態となり、排水口103が閉鎖される。 On the other hand, when the drainage port 103 is changed from the open state to the closed state, the transmission member 33A is moved backward by moving the operated portion. As a result, the shaft-side contact portion 52A presses the rotation-side facing portion 51E, and as a result, the rotation portion 51 rotates relative to the shaft portion 52 on the opposite side to that at the time of opening. As a result, the support protrusion 51B moves downward while rotating, and the water passing member 42 and the plug lid 45 move downward due to gravity. As a result, the plug lid 45 comes into contact with the bottom wall portion 101, and the drainage port 103 is closed.
 尚、本実施形態では、回動部51の径方向に沿った回動部51の回動軸から支持突起51Bまでの距離(回動半径)を調節したり、軸部52の往復移動方向に対する回動側接触部51Dの傾斜角度を調節したりすることで、被操作部を移動させたときに、支持突起51Bの鉛直方向に沿った移動量が、軸部52の移動量よりも大きくなるように構成されている。 In the present embodiment, the distance (turning radius) from the turning shaft of the turning portion 51 to the support protrusion 51B along the radial direction of the turning portion 51 is adjusted, or the reciprocating direction of the shaft portion 52 is changed. The amount of movement of the support protrusion 51B along the vertical direction becomes larger than the amount of movement of the shaft portion 52 when the operated portion is moved by adjusting the inclination angle of the rotation-side contact portion 51D. It is configured as follows.
 以上、本第2実施形態によれば、比較的簡素な構成により、軸部52の運動を回動部51の回動運動へと変換し、ひいては支持突起51Bを回動させることができる。従って、栓蓋側機構部5の動作安定性を高めることができる。 As described above, according to the second embodiment, with a relatively simple configuration, the movement of the shaft portion 52 can be converted into the rotation motion of the rotation portion 51, and the support protrusion 51B can be rotated. Therefore, the operational stability of the stopper lid side mechanism portion 5 can be enhanced.
 また、被操作部を移動させたときに、支持突起51Bの鉛直方向に沿った移動量が、軸部52の移動量よりも大きくなるように構成されているため、栓蓋45のより確実な上下動を図りつつ、軸部52の往復移動量(ストローク量)をより小さなものとすることができる。従って、軸部52の往復移動方向に沿った栓蓋側機構部5の長さをより小さなものとすることができる。これにより、排水管41に対する栓蓋側機構部5の取付自由度を高めることができる。また、排水口103を開閉するために必要な被操作部の往復移動量を小さくできるため、操作性を向上させることができるとともに、使用者にとっての使い勝手の向上を図ることができる。 In addition, since the movement amount along the vertical direction of the support protrusion 51B is larger than the movement amount of the shaft portion 52 when the operated portion is moved, the plug lid 45 is more reliable. The amount of reciprocation (stroke amount) of the shaft portion 52 can be made smaller while achieving vertical movement. Therefore, the length of the stopper lid side mechanism portion 5 along the reciprocating direction of the shaft portion 52 can be made smaller. Thereby, the attachment freedom degree of the stopper lid side mechanism part 5 with respect to the drain pipe 41 can be raised. Further, since the reciprocating amount of the operated portion necessary for opening and closing the drainage port 103 can be reduced, the operability can be improved and the usability for the user can be improved.
 さらに、回動部51は、その回動時に、排水管側回動支持部41Dを摺動するため、回動部51をより安定的に回動させることができ、装置の動作安定性を一層高めることができる。また、排水管41の一部によって排水管側回動支持部41Dが構成されるため、装置の小型化や簡素化をより図ることができ、製造コストの抑制を一層図ることができる。 Furthermore, since the rotation part 51 slides the drainage pipe side rotation support part 41D at the time of the rotation, the rotation part 51 can be rotated more stably, and the operation stability of the apparatus is further increased. Can be increased. Further, since the drain pipe side rotation support portion 41D is configured by a part of the drain pipe 41, the apparatus can be further downsized and simplified, and the manufacturing cost can be further reduced.
 加えて、本第2実施形態によれば、軸部52を押引き動作(往復)させることで、回動部51を両方向に回動させることができる。従って、回動部51を他方側に回動させるための部材(例えば、バネ部材からなる戻り力付与部等)を設ける必要がなくなり、製造コストの増大抑制や装置の簡素化(小型化)を一層図ることができる。 In addition, according to the second embodiment, the rotating portion 51 can be rotated in both directions by pushing and pulling (reciprocating) the shaft portion 52. Accordingly, there is no need to provide a member (for example, a return force applying portion made of a spring member) for rotating the rotating portion 51 to the other side, thereby suppressing an increase in manufacturing cost and simplifying (miniaturizing) the apparatus. More can be achieved.
 また、回動側対向部51Eが存在することによって、軸部52が意図せず移動してしまうことを防止できる。これにより、被操作部の意図しない移動をより確実に防止することができ、使用者にとっての使い勝手をより高めることができる。
〔第3実施形態〕
 次に、第3実施形態について、上記第1実施形態との相違点を中心に説明する。
Further, the presence of the rotation-side facing portion 51E can prevent the shaft portion 52 from moving unintentionally. Thereby, the movement which the to-be-operated part does not intend can be prevented more reliably, and the usability for a user can be raised more.
[Third Embodiment]
Next, the third embodiment will be described focusing on the differences from the first embodiment.
 上記第1実施形態では、排水口装置2の支持軸機構23に対しロック機構が設けられているが、本第3実施形態では、図9に示すように、操作装置3の操作側機構部34に対しロック機構345が設けられている。 In the first embodiment, a lock mechanism is provided for the support shaft mechanism 23 of the drain port device 2, but in the third embodiment, as shown in FIG. 9, the operation side mechanism section 34 of the operation device 3. In contrast, a lock mechanism 345 is provided.
 詳述すると、本第3実施形態において、軸部344Bは、図10に示すように、筒状の外側筒部344Eと、当該外側筒部344Eの内部においてこれと同軸に設けられた棒状の内側軸部344Fとを備えており、内側軸部344Fの外周に設けられた回転リング346によってロック機構345の一部が構成されている。また、操作側回動支持部383は、第一構成部383Cと、これに組付けられた第二構成部383Dとを備えており、両構成部383C,383Dの一部が組合わされることでロック機構345の一部を構成するロック用筒部383Eが構成されている。 Specifically, in the third embodiment, as shown in FIG. 10, the shaft portion 344B includes a cylindrical outer cylindrical portion 344E and a rod-shaped inner side provided coaxially with the outer cylindrical portion 344E. A part of the lock mechanism 345 is constituted by a rotating ring 346 provided on the outer periphery of the inner shaft part 344F. Moreover, the operation side rotation support part 383 is provided with the 1st structure part 383C and the 2nd structure part 383D assembled | attached to this, A part of both structure parts 383C and 383D are combined. A locking cylinder 383E that constitutes a part of the locking mechanism 345 is configured.
 外側筒部344Eは、その外周に前記軸側接触部344Dを備えた部位である。 The outer cylinder part 344E is a part provided with the shaft side contact part 344D on the outer periphery thereof.
 内側軸部344Fは、自身の他端部外周にくびれ部分を備えており、当該くびれ部分の外周に対し環状の回転リング346が取付けられている。さらに、内側軸部344Fのうち、回転リング346の被取付部分よりも一端側には、軸部344Bの軸方向に沿って延びる突起部344Gが形成されている。突起部344Gは、内側軸部344Fの周方向に沿って等間隔に複数(本実施形態では、3つ)設けられている。 The inner shaft portion 344F has a constricted portion on the outer periphery of the other end thereof, and an annular rotating ring 346 is attached to the outer periphery of the constricted portion. Further, a projection 344G extending along the axial direction of the shaft portion 344B is formed on one end side of the inner shaft portion 344F with respect to the attached portion of the rotating ring 346. A plurality of projection portions 344G (three in the present embodiment) are provided at equal intervals along the circumferential direction of the inner shaft portion 344F.
 回転リング346は、軸部344Bの中心軸を回転軸として回転可能な状態で内側軸部344Fに取付けられており、軸部344Bの往復移動時に、軸部344Bとともに移動可能となっている。また、回転リング346の外周には、外側に突出形成された被係合部346Aが設けられている。被係合部346Aは、回転リング346の周方向に沿って等間隔に3つ設けられている。また、被係合部346Aは、回転リング346の径方向に沿ってその外周面を視認したとき、台形状をなすように構成されている。 The rotation ring 346 is attached to the inner shaft portion 344F so as to be rotatable about the central axis of the shaft portion 344B, and can move together with the shaft portion 344B when the shaft portion 344B reciprocates. Further, an engaged portion 346 </ b> A that protrudes outward is provided on the outer periphery of the rotating ring 346. Three engaged portions 346 </ b> A are provided at equal intervals along the circumferential direction of the rotating ring 346. Further, the engaged portion 346A is configured to have a trapezoidal shape when the outer peripheral surface thereof is visually recognized along the radial direction of the rotating ring 346.
 第一構成部383Cは、他端部(被操作部344Aとは反対側の端部)が鍔状の円筒状をなしており、その一端側が外側筒部344Eと内側軸部344Fとの間に配置されている。また、第一構成部383Cは、前記内側筒部341Bの他端部にねじ止め固定されており、ひいては浴槽100に対し相対移動不能となっている。 The first component portion 383C has a bowl-like cylindrical shape at the other end (the end opposite to the operated portion 344A), and one end thereof is between the outer cylindrical portion 344E and the inner shaft portion 344F. Has been placed. Further, the first component portion 383C is screwed and fixed to the other end portion of the inner cylindrical portion 341B, and as a result, cannot be moved relative to the bathtub 100.
 さらに、第一構成部383Cの内周には、その周方向に沿って等間隔に複数(本実施形態では、6つ)の係合歯384が設けられている。各係合歯384は、第一構成部383Cの軸方向に沿って延びており、係合歯384の他端面(第一構成部383C側を向く面)には、図11に示すように、その周方向一端から他端に向けて第一斜面部384A、直交面部384B及び第二斜面部384Cがこの順序で設けられている。 Furthermore, a plurality (six in this embodiment) of engagement teeth 384 are provided at equal intervals along the circumferential direction of the inner periphery of the first component portion 383C. Each engagement tooth 384 extends along the axial direction of the first component 383C, and the other end surface of the engagement tooth 384 (the surface facing the first component 383C side) is as shown in FIG. A first inclined surface portion 384A, an orthogonal surface portion 384B, and a second inclined surface portion 384C are provided in this order from one circumferential end to the other end.
 第一斜面部384Aは、係合歯384の他端面の周方向一端から、直交面部384Bに向けて第一構成部383Cの一端側へと傾斜している。直交面部384Bは、両斜面部384A,384C間に設けられ、第一構成部383Cの軸方向と平行な方向に向けて延びている。第二斜面部384Cは、直交面部384Bの他端から係合歯384の他端面の周方向他端に向けて第一斜面部384Aと同じ傾斜方向で傾斜している。 The first inclined surface portion 384A is inclined from one end in the circumferential direction of the other end surface of the engaging tooth 384 toward one end side of the first component portion 383C toward the orthogonal surface portion 384B. The orthogonal surface portion 384B is provided between the both inclined surface portions 384A and 384C, and extends in a direction parallel to the axial direction of the first component portion 383C. The second inclined surface portion 384C is inclined in the same inclination direction as the first inclined surface portion 384A from the other end of the orthogonal surface portion 384B toward the other circumferential end of the other end surface of the engaging tooth 384.
 さらに、各係合歯384間には、第一構成部383Cの軸方向(軸部344Bの運動方向)に延びる筒側溝部384Dが形成されている。筒側溝部384Dは、第一構成部383Cの周方向に沿って等間隔に複数(本実施形態では、6つ)設けられている。筒側溝部384Dには、前記被係合部346Aとともに、突起部344Gが配置されている。 Furthermore, between each engagement tooth 384, the cylinder side groove part 384D extended in the axial direction (movement direction of the axial part 344B) of the 1st structure part 383C is formed. A plurality (six in this embodiment) of the cylinder-side groove portions 384D are provided at equal intervals along the circumferential direction of the first component portion 383C. A protrusion 344G is disposed in the tube side groove 384D together with the engaged portion 346A.
 第二構成部383Dは、第一構成部383Cの被操作部344Aとは反対側の端部開口を閉塞するようにして第一構成部383Cに取付けられている(図10参照)。また、第二構成部383Dのうち第一構成部383Cに挿通された部位の一端部には、案内歯385が設けられている。案内歯385は、周方向に沿って等間隔に複数(本実施形態では、6つ)設けられており、一端側に向けて突出する形状とされている。さらに、案内歯385の一端面(係合歯384側を向く面)には、その周方向一端から他端に向けて第一直交面部385A、第一傾斜部385B、第二直交面部385C及び第二傾斜部385Dがこの順序で設けられている。 The second component 383D is attached to the first component 383C so as to close the end opening of the first component 383C opposite to the operated portion 344A (see FIG. 10). In addition, guide teeth 385 are provided at one end of a portion of the second component 383D that is inserted through the first component 383C. A plurality (six in this embodiment) of guide teeth 385 are provided at equal intervals along the circumferential direction, and are configured to protrude toward one end side. Further, on one end surface of the guide teeth 385 (surface facing the engaging teeth 384 side), the first orthogonal surface portion 385A, the first inclined portion 385B, the second orthogonal surface portion 385C, The second inclined portion 385D is provided in this order.
 第一直交面部385A及び第二直交面部385Cは、第一構成部383Cの軸方向と平行な方向に向けて延びており、第一直交面部385Aの一端から第一傾斜部385Bが延びている。第一傾斜部385B及び第二傾斜部385Dは、第二直交面部385Cを挟むように配置されており、前記斜面部384A,384Cの傾斜方向とは逆向きに傾斜している。 The first orthogonal surface portion 385A and the second orthogonal surface portion 385C extend in a direction parallel to the axial direction of the first component portion 383C, and the first inclined portion 385B extends from one end of the first orthogonal surface portion 385A. Yes. The first inclined portion 385B and the second inclined portion 385D are disposed so as to sandwich the second orthogonal surface portion 385C, and are inclined in the direction opposite to the inclination direction of the inclined surface portions 384A, 384C.
 加えて、隣接する各案内歯385同士の間には、隙間部385Eが形成されている。 In addition, a gap 385E is formed between the adjacent guide teeth 385.
 そして、第一構成部383C及び第二構成部383Dを組合わせた状態では、第一斜面部384Aが第一傾斜部385B及び第二傾斜部385Dと対向し、第二斜面部384Cが第二傾斜部385D及び隙間部385Eと対向するように係合歯384及び案内歯385の相対位置関係が設定されている。 In a state where the first component 383C and the second component 383D are combined, the first inclined surface portion 384A faces the first inclined portion 385B and the second inclined portion 385D, and the second inclined surface portion 384C is the second inclined portion. The relative positional relationship between the engaging teeth 384 and the guide teeth 385 is set so as to face the portion 385D and the gap portion 385E.
 尚、本実施形態では、第一構成部383Cのうち内周に係合歯384及び筒側溝部384Dを有する円筒状部分と、第二構成部383Dのうち第1構成部383Cへと挿通されるとともに、案内歯385を有する部分とによって、ロック用筒部383Eが構成されている。 In the present embodiment, the cylindrical portion having the engagement teeth 384 and the cylindrical groove 384D on the inner periphery of the first component 383C and the first component 383C of the second component 383D are inserted. At the same time, the locking cylinder portion 383E is configured by the portion having the guide teeth 385.
 次いで、被操作部344Aの押圧により軸部344Bを往動させたときにおける、被係合部346Aの動作や状態、及び、軸部344Bや伝達部材33Aの位置等について、図12(a)~(d)を参照しつつ説明する。 Next, the operation and state of the engaged portion 346A and the positions of the shaft portion 344B and the transmission member 33A when the shaft portion 344B is moved forward by pressing the operated portion 344A are shown in FIGS. This will be described with reference to (d).
 まず、被係合部346Aが筒側溝部384Dに配置されている状態(図11参照)では、前記戻り力付与部からの付勢力により、軸部344B(軸側接触部344D)は回動部342(回動側接触部342B)で押圧され、軸部344Bは、比較的一端側にて保持されることとなる。そのため、伝達部材33Aは所定の第一位置にて保持されることとなり、排水口103は栓蓋24によって閉鎖された状態とされる。 First, in a state where the engaged portion 346A is disposed in the cylinder side groove portion 384D (see FIG. 11), the shaft portion 344B (shaft side contact portion 344D) is turned by the urging force from the return force applying portion. The shaft portion 344B is held at a relatively one end side by being pressed by the 342 (the rotation side contact portion 342B). Therefore, the transmission member 33A is held at a predetermined first position, and the drainage port 103 is closed by the plug lid 24.
 この状態において、被操作部344Aを押圧することで、軸部344Bを往動させ、ロック用筒部383Eに対し軸部344Bをその軸方向に沿った所定位置以上まで移動させると、図12(a)に示すように、被係合部346Aにおける往動方向前方側の面が案内歯385の第一傾斜部385Bに接触しつつ当該第一傾斜部385Bを摺動し、最大で被係合部346Aが第二直交面部385Cに接触するまで回転リング346が回転する。 In this state, by pressing the operated portion 344A, the shaft portion 344B is moved forward, and when the shaft portion 344B is moved to a predetermined position or more along the axial direction with respect to the locking cylinder portion 383E, FIG. As shown in a), the front surface in the forward movement direction of the engaged portion 346A is in contact with the first inclined portion 385B of the guide tooth 385 and slides on the first inclined portion 385B, and is engaged at the maximum. The rotating ring 346 rotates until the portion 346A contacts the second orthogonal surface portion 385C.
 その後、被操作部344Aに対する押圧力(軸部344Bに加えられていた往動方向への力)が解除されると、前記戻り力付与部からの付勢力により、回動部342(回動側接触部342B)によって軸部344B(軸側接触部344D)が押圧されることで、軸部344B及び回転リング346が復動する。そして、図12(b)に示すように、被係合部346Aの復動方向前方側の面が係合歯384の第一斜面部384Aに接触しつつ第一斜面部384Aを摺動し、被係合部346Aが直交面部384Bと接触するまで、回転リング346が回転する。これにより、係合歯384に対し被係合部346Aが係合され、軸部344Bは比較的他端側にて保持される(図9参照)。また、伝達部材33Aは前記第一位置よりも排水口装置2側の第二位置にて保持される。その結果、栓蓋24が押し上げられた状態となり、ひいては排水口103が開状態で保持されることとなる。 Thereafter, when the pressing force on the operated portion 344A (force in the forward direction applied to the shaft portion 344B) is released, the rotating portion 342 (the rotating side) is applied by the urging force from the return force applying portion. When the shaft portion 344B (shaft side contact portion 344D) is pressed by the contact portion 342B), the shaft portion 344B and the rotating ring 346 are moved backward. Then, as shown in FIG. 12B, the surface on the front side in the backward movement direction of the engaged portion 346A slides on the first inclined surface portion 384A while contacting the first inclined surface portion 384A of the engaging teeth 384, The rotating ring 346 rotates until the engaged portion 346A comes into contact with the orthogonal surface portion 384B. Thus, the engaged portion 346A is engaged with the engaging teeth 384, and the shaft portion 344B is held relatively on the other end side (see FIG. 9). Further, the transmission member 33A is held at the second position on the drain port device 2 side from the first position. As a result, the plug lid 24 is pushed up, and as a result, the drainage port 103 is held open.
 この状態において、被操作部344Aを再度押圧し、軸部344Bに対しその往動方向へと力を加えると、図12(c)に示すように、被係合部346Aの往動方向前方側の面が案内歯385の第二傾斜部385Dに接触しつつ当該第二傾斜部385Dを摺動し、被係合部346Aが隙間部385Eに至るまで回転リング346が回転する。 In this state, when the operated portion 344A is pressed again and a force is applied to the shaft portion 344B in the forward movement direction, as shown in FIG. 12C, the forward direction of the engaged portion 346A. The second ring 385D is slid while contacting the second inclined portion 385D of the guide tooth 385, and the rotating ring 346 rotates until the engaged portion 346A reaches the gap portion 385E.
 その後、被操作部344Aに対する押圧力(軸部344Bに加えられていた往動方向への力)が解除されると、戻り力付与部からの付勢力により、軸部344B及び回転リング346が復動する。そして、図12(d)に示すように、被係合部346Aの復動方向前方側の面が係合歯384の第二斜面部384Cに接触しつつ当該第二斜面部384Cを摺動し、その結果、係合歯384に対する被係合部346Aの係合が解除されるとともに、被係合部346Aが筒側溝部384Dに落ち込み、軸部344Bが所定の戻り位置まで戻る。これにより、伝達部材33Aが前記第一位置にて保持されるとともに、栓蓋24によって排水口103が閉鎖されることとなる。 Thereafter, when the pressing force on the operated portion 344A (force in the forward movement direction applied to the shaft portion 344B) is released, the shaft portion 344B and the rotating ring 346 are restored by the urging force from the return force applying portion. Move. Then, as shown in FIG. 12D, the surface on the front side in the backward movement direction of the engaged portion 346A slides on the second inclined surface portion 384C while being in contact with the second inclined surface portion 384C of the engaging teeth 384. As a result, the engaged portion 346A is disengaged from the engaging teeth 384, the engaged portion 346A falls into the cylinder-side groove portion 384D, and the shaft portion 344B returns to a predetermined return position. Accordingly, the transmission member 33A is held at the first position, and the drainage port 103 is closed by the plug lid 24.
 以降、被操作部344Aを押圧する度に、上述した、係合歯384に対する被係合部346Aの係合と、係合歯384に対する被係合部346Aの係合の解除とが交互に行われることとなる。つまり、被操作部344Aを押圧する度に、排水口103の開閉が交互に行われることとなる。 Thereafter, every time the operated portion 344A is pressed, the engagement of the engaged portion 346A with the engaging teeth 384 and the release of the engaged portion 346A with respect to the engaging teeth 384 are alternately performed. Will be. That is, every time the operated portion 344A is pressed, the drainage port 103 is alternately opened and closed.
 尚、本実施形態では、軸部344Bの移動時であっても停止時であっても、筒側溝部384Dに対し常に突起部344Gが配置されている。これにより、浴槽100に対し軸部344Bが相対回転不能となっている。つまり、本実施形態では、第一構成部383Cのうち筒側溝部384Dを形成する部位と突起部344Gとによって、回転規制部が構成されている。 In the present embodiment, the protruding portion 344G is always arranged with respect to the tube-side groove portion 384D regardless of whether the shaft portion 344B is moving or stopped. As a result, the shaft portion 344 </ b> B cannot rotate relative to the bathtub 100. That is, in the present embodiment, the rotation restricting portion is configured by the portion of the first component portion 383C that forms the tube-side groove portion 384D and the projection portion 344G.
 以上、本第3実施形態によれば、基本的には上記第1実施形態と同様の作用効果が奏されることとなる。 As described above, according to the third embodiment, the same functions and effects as those of the first embodiment are basically obtained.
 また、本第3実施形態によれば、筒側溝部384Dは、回転リング346の相対回転を規制することと、軸部344Bの相対回転を規制することとの双方において共通して用いられる。従って、ロック機構345を設けながらも、装置が複雑化してしまうことをより確実に防止できる。その結果、装置の簡素化(小型化)や製造コストの増大抑制をより確実に図ることができる。 Further, according to the third embodiment, the cylinder-side groove portion 384D is used in common for both restricting the relative rotation of the rotating ring 346 and restricting the relative rotation of the shaft portion 344B. Therefore, it is possible to more reliably prevent the apparatus from becoming complicated while providing the lock mechanism 345. As a result, simplification (miniaturization) of the device and suppression of increase in manufacturing cost can be achieved more reliably.
 尚、上記実施形態の記載内容に限定されず、例えば次のように実施してもよい。勿論、以下において例示しない他の応用例、変更例も当然可能である。 In addition, it is not limited to the description content of the said embodiment, For example, you may implement as follows. Of course, other application examples and modification examples not illustrated below are also possible.
 (a)軸側接触部344D,52Aに対し回転可能なローラ部を設け、被操作部の移動に伴い、前記ローラ部が回動側接触部342B,51Dを押圧しつつ回転するように構成してもよい。この場合には、回動部342,51の回動時に、軸側接触部344D,52A(ローラ部)に対し回動側接触部342B,51Dを非常にスムーズに移動させることができ、軸側接触部344D,52Aと回動側接触部342B,51Dとの間で生じる抵抗を効果的に小さくすることができる。従って、操作部材344の移動に要する力をより低減させることができ、一層良好な操作性を実現することができる。 (A) A roller portion that is rotatable with respect to the shaft side contact portions 344D and 52A is provided, and the roller portion rotates while pressing the rotation side contact portions 342B and 51D as the operated portion moves. May be. In this case, when the rotation parts 342 and 51 are rotated, the rotation side contact parts 342B and 51D can be moved very smoothly with respect to the axis side contact parts 344D and 52A (roller part). Resistance generated between the contact portions 344D and 52A and the rotation side contact portions 342B and 51D can be effectively reduced. Therefore, the force required to move the operating member 344 can be further reduced, and better operability can be realized.
 (b)上記実施形態において、回動側接触部342B,51Dは、操作部材344の往復移動方向(回動部342の回動軸の延びる方向)に対する傾斜が一定とされた螺旋状をなすように構成されているが、必ずしも操作部材344の往復移動方向に対する回動側接触部の傾斜は一定でなくてもよい。従って、例えば、図13に示すように、回動部352の回動側接触部352Bが、排水口103を開放するために被操作部を移動させたときに、軸側接触部と最初に接触する部位である回動側接触始端部352Cと、排水口103を開放するために被操作部を移動させたときに、軸側接触部と最後に接触する部位である回動側接触終端部352Dと、回動側接触始端部352C及び回動側接触終端部352Dの間に位置する回動側接触中間部352Eとを有するものとし、回動側接触始端部352Cの傾斜が、回動側接触中間部352Eの傾斜よりも緩やかなものとなるように構成してもよい。 (B) In the above embodiment, the rotation- side contact portions 342B and 51D have a spiral shape in which the inclination with respect to the reciprocating movement direction of the operation member 344 (the direction in which the rotation axis of the rotation portion 342 extends) is constant. However, the inclination of the rotation-side contact portion with respect to the reciprocating direction of the operation member 344 is not necessarily constant. Therefore, for example, as shown in FIG. 13, when the rotation-side contact portion 352 </ b> B of the rotation portion 352 moves the operated portion to open the drainage port 103, it first contacts the shaft-side contact portion. Rotation side contact start end portion 352C that is a portion to be operated and rotation side contact termination portion 352D that is a portion that finally contacts the shaft side contact portion when the operated portion is moved to open drain port 103. And a rotation side contact intermediate portion 352E positioned between the rotation side contact start end portion 352C and the rotation side contact end portion 352D, and the inclination of the rotation side contact start end portion 352C is the rotation side contact. You may comprise so that it may become gentler than the inclination of the intermediate part 352E.
 このように構成することで、通常、回動部352が回動し開栓し始めるまでには、開栓した後よりも比較的大きな力を要するところ、回動部352を回動させ開栓させ始めるときに被操作部344Aへの加えることが必要となる力を比較的小さくすることができる。その結果、良好な操作性を得ることができる。 With such a configuration, normally, a relatively large force is required before the pivoting portion 352 begins to pivot and begins to open, so that the pivoting portion 352 is pivoted to open the plug. The force required to be applied to the operated portion 344A when starting the operation can be made relatively small. As a result, good operability can be obtained.
 尚、「回動側接触始端部352Cの傾斜が、回動側接触中間部352Eの傾斜よりも緩やかである」とは、回動側接触部352Bを平面上に展開したときに、回動部352の回動軸と回動側接触始端部352Cとのなす角のうち鋭角の角度が、前記回動軸と回動側接触中間部352Eとのなす角のうち鋭角の角度よりも小さいことをいう。また、回動側接触中間部352Eが湾曲形状であったり、複数の角度の異なる傾斜面を有する形状であったりする場合には、回動側接触中間部352Eを平面上に展開したときに、回動側接触中間部352Eの各部において、前記回動軸と回動側接触中間部352E(回動側接触中間部352Eが湾曲形状の場合は、回動側接触中間部352Eに接する接線)とのなす角のうち鋭角の角度が、回動軸と回動側接触始端部352Cとのなす角のうち鋭角の角度よりも大きなものとされる。 Note that “the inclination of the rotation-side contact start end portion 352C is gentler than the inclination of the rotation-side contact intermediate portion 352E” means that the rotation portion when the rotation-side contact portion 352B is developed on a plane. The acute angle among the angles formed by the rotation shaft 352 and the rotation side contact start end portion 352C is smaller than the acute angle among the angles formed by the rotation shaft and the rotation side contact intermediate portion 352E. Say. Further, when the rotation-side contact intermediate portion 352E has a curved shape or has a plurality of inclined surfaces with different angles, when the rotation-side contact intermediate portion 352E is developed on a plane, In each part of the rotation side contact intermediate part 352E, the rotation axis and the rotation side contact intermediate part 352E (when the rotation side contact intermediate part 352E is curved, a tangent line that contacts the rotation side contact intermediate part 352E) The acute angle among the angles formed by the rotation angle is larger than the acute angle among the angles formed by the rotation shaft and the rotation side contact start end portion 352C.
 さらに、図14に示すように、回動部362の回動側接触部362Bのうち、前記戻り力付与部から伝達部材33Aを介して被操作部344Aに対しその復動方向に加わる力が所定値よりも大きくなる段階で軸側接触部344Dと接触する部分362Cの傾斜を、回動側接触部におけるその他の部分362Dの傾斜よりも緩やかにしてもよい。この場合には、例えば、被操作部344Aを往動させるときの最後の段階などにおいて、回動部362を回動させるために被操作部344Aへと加えることが必要な押圧力を比較的小さく抑えることができ、操作性をより高めることができる。 Further, as shown in FIG. 14, the force applied in the backward movement direction to the operated portion 344A from the return force applying portion to the operated portion 344A through the transmission member 33A in the rotating side contact portion 362B of the rotating portion 362 is predetermined. The slope of the portion 362C that comes into contact with the shaft-side contact portion 344D when it becomes larger than the value may be made gentler than the slope of the other portion 362D in the rotation-side contact portion. In this case, for example, in the final stage when the operated portion 344A is moved forward, the pressing force necessary to be applied to the operated portion 344A to rotate the rotating portion 362 is relatively small. Therefore, the operability can be further improved.
 さらに、例えば、回動側接触部のうち、回動部342を回動させるために被操作部344Aへと加えることが必要な押圧力が比較的小さくて済む段階(例えば、回動部342の回動開始後、各部材間の遊びや隙間がなくなるまでの段階)で軸側接触部344Dと接触する部分については、その傾斜を比較的急なものとしてもよい。この場合には、被操作部344Aの押込量(操作量)が比較的小さくても、伝達部材33Aを比較的大きく移動させることができる。 Further, for example, among the rotation side contact portions, a stage where the pressing force necessary to be applied to the operated portion 344A to rotate the rotation portion 342 may be relatively small (for example, the rotation portion 342). About the part which contacts shaft side contact part 344D in the stage until the play and clearance gap between each member disappear after rotation start, it is good also considering the inclination as comparatively steep. In this case, even if the pushing amount (operation amount) of the operated portion 344A is relatively small, the transmission member 33A can be moved relatively large.
 (c)上記実施形態では、回動側接触部342B,51Dが傾斜面状をなすように構成されているが、図15に示すように、軸部374Bの軸側接触部374Dが傾斜面状をなすように構成し、回動部372の回動側接触部372Bが非傾斜面状(例えば、突起状)をなすように構成してもよい。また、回動側接触部及び軸側接触部の双方が傾斜面状をなすように構成してもよい。 (C) In the above embodiment, the rotation side contact portions 342B and 51D are configured to have an inclined surface shape. However, as shown in FIG. 15, the shaft side contact portion 374D of the shaft portion 374B has an inclined surface shape. The rotation side contact part 372B of the rotation part 372 may have a non-inclined surface shape (for example, a protrusion shape). Moreover, you may comprise so that both a rotation side contact part and an axial side contact part may make an inclined surface shape.
 加えて、軸側接触部が傾斜面状をなす場合、軸側接触部を、回動部372の回動軸の延びる方向(回動部372の周方向)に対する傾斜が一定とされた螺旋状としてもよい。この場合には、上記実施形態と同様に、動作安定性の向上や操作ミスの防止といった作用効果が奏されることとなる。 In addition, when the shaft-side contact portion has an inclined surface shape, the shaft-side contact portion has a spiral shape in which the inclination with respect to the direction in which the rotation shaft of the rotation portion 372 extends (the circumferential direction of the rotation portion 372) is constant. It is good. In this case, as in the above-described embodiment, operational effects such as improved operational stability and prevention of operational errors are exhibited.
 また、軸側接触部の傾斜を一定とせず、例えば、上記(b)において示した回動側接触部の構成を軸側接触部に対して適用してもよい。この場合には、上記(b)において記載した作用効果と同様の作用効果が奏されることとなる。 Further, the inclination of the shaft-side contact portion is not constant, and for example, the configuration of the rotation-side contact portion shown in (b) above may be applied to the shaft-side contact portion. In this case, the same effect as the effect described in the above (b) is exhibited.
 さらに、軸側接触部が傾斜状をなす場合には、回動側接触部に対し回転可能なローラ部を設け、軸部の移動に伴い、前記ローラ部が軸側接触部に押圧されつつ回転するように構成してもよい。この場合には、被操作部を移動させたときに、軸側接触部に対し回動側接触部(ローラ部)を非常にスムーズに移動させることができ、軸側接触部と回動側接触部との間で生じる抵抗を効果的に小さくすることができる。その結果、被操作部の移動に要する力をより低減させることができ、一層良好な操作性を実現することができる。 Further, when the shaft-side contact portion is inclined, a roller portion that can rotate with respect to the rotation-side contact portion is provided, and the roller portion rotates while being pressed by the shaft-side contact portion as the shaft portion moves. You may comprise. In this case, when the operated part is moved, the rotation side contact part (roller part) can be moved very smoothly with respect to the axis side contact part. It is possible to effectively reduce the resistance generated between the two parts. As a result, it is possible to further reduce the force required to move the operated portion, and to realize better operability.
 (d)図16に示すように、軸部374Bは、その運動方向に対し傾斜する軸側接触部374Dを有するとともに、その運動方向に沿って軸側接触部374Dの背後に位置し、軸側接触部374Dと同じ向きに傾斜する傾斜面状の軸側背面傾斜部374Eを有するものとしてもよい。また、回動部372は、軸側接触部374Dと接触可能な回動側接触部372Bとともに、軸側背面傾斜部374Eと接触可能な第二回動側接触部372Cを備えることとしてもよい。そして、軸部374Bの往動に伴い、軸側接触部374Dが回動側接触部372Bを押圧することで、回動部372が軸部374Bに対し一方側に相対回動し、軸部374Bの復動に伴い、軸側背面傾斜部374Eが第二回動側接触部372Cを押圧することで、回動部372が軸部374Bに対し他方側に相対回動することとしてもよい。この場合には、軸部374Bを押引き動作(往復)させることで、回動部372を両方向に回動させることができる。従って、回動部372を他方側に回動させるための部材(例えば、戻り力付与部)を設ける必要がなくなり、製造コストの増大抑制や装置の簡素化(小型化)を一層図ることができる。 (D) As shown in FIG. 16, the shaft portion 374B has a shaft-side contact portion 374D inclined with respect to the movement direction, and is positioned behind the shaft-side contact portion 374D along the movement direction. It is good also as what has the inclined surface-shaped axial side back inclination part 374E inclined in the same direction as contact part 374D. Moreover, the rotation part 372 is good also as providing the 2nd rotation side contact part 372C which can be contacted with the axial side back inclination part 374E with the rotation side contact part 372B which can be contacted with the axis side contact part 374D. As the shaft portion 374B moves forward, the shaft side contact portion 374D presses the rotation side contact portion 372B, so that the rotation portion 372 rotates relative to the shaft portion 374B to one side, and the shaft portion 374B. As the shaft moves backward, the shaft-side back inclined portion 374E presses the second rotation-side contact portion 372C, so that the rotation portion 372 rotates relative to the other side with respect to the shaft portion 374B. In this case, the rotating portion 372 can be rotated in both directions by pushing and pulling (reciprocating) the shaft portion 374B. Accordingly, there is no need to provide a member (for example, a return force applying unit) for rotating the rotating unit 372 to the other side, and it is possible to further suppress an increase in manufacturing cost and simplify (miniaturize) the apparatus. .
 また、軸側背面傾斜部374E及び第二回動側接触部372Cが存在することによって、軸部374Bが意図せず移動してしまうことを防止できる。これにより、被操作部の意図しない移動をより確実に防止することができ、使用者にとっての使い勝手をより高めることができる。 Further, the presence of the shaft-side back inclined portion 374E and the second rotation-side contact portion 372C can prevent the shaft portion 374B from moving unintentionally. Thereby, the movement which the to-be-operated part does not intend can be prevented more reliably, and the usability for a user can be raised more.
 (e)上記実施形態において、軸側接触部344D,52A及び回動側接触部342B,51Dはそれぞれ2つ設けられているが、軸側接触部及び回動側接触部の数はこれに限定されるものではない。例えば、軸側接触部及び回動側接触部を1つずつ設けてもよいし、両者をそれぞれ3つ以上ずつ設けてもよい。 (E) In the above embodiment, two shaft- side contact portions 344D and 52A and two rotation- side contact portions 342B and 51D are provided, but the number of shaft-side contact portions and rotation-side contact portions is limited to this. Is not to be done. For example, one shaft side contact portion and one rotation side contact portion may be provided, or three or more of each may be provided.
 (f)上記第1実施形態において、軸側接触部344D及び回動側接触部342Bは面接触するように構成されているが、両者が線接触又は点接触するように構成してもよい。この場合には、軸側接触部と回動側接触部との接触抵抗をより小さなものとすることができる。従って、被操作部を移動させる際に要する力を一層低減させることができ、操作性を一層向上させることができる。 (F) In the first embodiment, the shaft side contact portion 344D and the rotation side contact portion 342B are configured to be in surface contact, but may be configured to be in line contact or point contact. In this case, the contact resistance between the shaft side contact portion and the rotation side contact portion can be made smaller. Therefore, it is possible to further reduce the force required to move the operated portion and further improve the operability.
 尚、軸側接触部と回動側接触部とを点接触とするには、例えば、回動側接触部及び軸側接触部のうちの一方を螺旋状とし、回動側接触部及び軸側接触部のうちの他方における前記一方に向く部分を前記一方側に凸の球面状としたり、前記一方側に突出する尖端状としたりすればよい。 In order to make point contact between the shaft side contact portion and the rotation side contact portion, for example, one of the rotation side contact portion and the shaft side contact portion is formed in a spiral shape, and the rotation side contact portion and the shaft side A portion of the contact portion facing the one side may be formed in a spherical shape convex on the one side or a pointed shape protruding on the one side.
 (g)上記第1実施形態では、回動部342の内周に段差を設けることで傾斜面状の回動側接触部342Bが構成されているが、回動部342の内周に溝を設けることで回動側接触部を構成することとしてもよい。また、軸側接触部を傾斜面状とする場合にも同様である。 (G) In the first embodiment, the rotation-side contact portion 342 </ b> B having an inclined surface is configured by providing a step on the inner periphery of the rotation portion 342, but a groove is formed on the inner periphery of the rotation portion 342. It is good also as comprising a rotation side contact part by providing. The same applies to the case where the shaft-side contact portion is inclined.
 (h)上記実施形態では、軸部344Bの外周に回動部342が設けられる構成とされているが、軸部の内周に回動部を設ける構成としてもよい。そして、軸部の内周に設けられた軸側接触部、及び、回動部の外周に設けられた回動側接触部の少なくとも一方を傾斜面状とすることで、軸部の移動時に、軸部に対し回動部が回動するように構成してもよい。 (H) In the above-described embodiment, the rotation portion 342 is provided on the outer periphery of the shaft portion 344B. However, the rotation portion may be provided on the inner periphery of the shaft portion. And by making at least one of the shaft side contact portion provided on the inner periphery of the shaft portion and the rotation side contact portion provided on the outer periphery of the rotation portion into an inclined surface, when the shaft portion moves, You may comprise so that a rotation part may rotate with respect to a shaft part.
 (i)上記第1実施形態では、回動部342の回動時に、回動部342によって伝達部材33Aの一端部が押圧されることで、回動部342の回動方向の接線方向に沿って伝達部材33Aの一端部が往動するように構成されている。これに対し、回動部342の回動時に、回動部342によって伝達部材33Aの一端部が引かれることで、回動部342の回動方向の接線方向に沿って伝達部材33Aの一端部が復動するように構成してもよい。 (I) In the first embodiment, when the rotation unit 342 is rotated, one end portion of the transmission member 33A is pressed by the rotation unit 342, thereby being along the tangential direction of the rotation direction of the rotation unit 342. Thus, one end of the transmission member 33A is configured to move forward. On the other hand, when the rotation part 342 rotates, one end part of the transmission member 33A is pulled by the rotation part 342, so that one end part of the transmission member 33A extends along the tangential direction of the rotation part 342. May be configured to return.
 また、上記実施形態において、伝達部材33Aは、チューブ部材33Bの内周を往復移動可能なワイヤー等により構成されているが、伝達部材の構成はこれに限定されるものではなく、例えば、伝達部材は、ワイヤー等と、当該ワイヤー等の一端部に直列的に接続されるとともに、側面部分に複数の歯が並んで設けられた棒状のラック部とを備えるものであってもよい。そして、回動部の外周に歯車を設けるとともに、前記ラック部の歯を回動部の前記歯車に噛合させることで、軸部に対して回動部が相対回動したときに、回動部の回動方向の接線方向に沿って前記ラック部が往動又は復動するように構成してもよい。 Moreover, in the said embodiment, although the transmission member 33A is comprised by the wire etc. which can reciprocate the inner periphery of the tube member 33B, the structure of a transmission member is not limited to this, For example, a transmission member May be provided with a wire or the like and a rod-shaped rack portion provided in series with a plurality of teeth on the side surface portion while being connected in series to one end portion of the wire or the like. And while providing a gear in the outer periphery of a rotation part and meshing | engaging the tooth | gear of the said rack part with the said gear of a rotation part, when a rotation part rotates relatively with respect to a shaft part, a rotation part The rack portion may be configured to move forward or backward along a tangential direction of the rotation direction.
 (j)上記実施形態では、回動部のうち軸側接触部の往動方向前方側に回動側接触部が設けられているが、回動部のうち軸側接触部の復動方向前方側に回動側接触部を設け、軸部の復動時に、軸側接触部が回動側接触部を押圧することで、回動部が回動するように構成してもよい。すなわち、上記第2実施形態における回動側対向部51Eを回動側接触部として捉えることとしてもよい。尚、この場合には、上記第2実施形態における回動側接触部51Dが回動側対向部として捉えられることとなり、軸部52の往動に伴い、軸側接触部が回動側対向部を押圧することで、回動部51が軸部52に対し一方側に相対回動し、軸部52の復動に伴い、軸側接触部が回動側接触部を押圧することで、回動部51が軸部52に対し他方側に回動することとなる。 (J) In the above embodiment, the rotation-side contact portion is provided on the forward side in the forward movement direction of the shaft-side contact portion of the rotation portion. A rotation side contact portion may be provided on the side, and the rotation portion may be rotated by the shaft side contact portion pressing the rotation side contact portion when the shaft portion is moved backward. That is, it is good also considering the rotation side opposing part 51E in the said 2nd Embodiment as a rotation side contact part. In this case, the rotation-side contact portion 51D in the second embodiment is regarded as the rotation-side facing portion, and the shaft-side contact portion becomes the rotation-side facing portion as the shaft portion 52 moves forward. , The rotating part 51 rotates relative to the one side with respect to the shaft part 52, and the shaft side contact part presses the rotating side contact part as the shaft part 52 moves backward. The moving part 51 rotates to the other side with respect to the shaft part 52.
 また、例えば、上記(d)における第二回動側接触部372Cを回動側接触部として捉えることとしてもよい。尚、この場合には、回動側接触部372Bが第二回動側接触部として捉えられ、軸側接触部374Dが軸側背面傾斜部として捉えられ、軸側背面傾斜部374Eが軸側接触部として捉えられることとなる。そして、軸部374Bの往動に伴い、軸側背面傾斜部が第二回動側接触部を押圧することで、回動部372が軸部374Bに対し一方側に相対回動し、軸部374Bの復動に伴い、軸側接触部が回動側接触部を押圧することで、回動部372が軸部374Bに対し他方側に相対回動することとなる。 Further, for example, the second rotation side contact portion 372C in (d) may be regarded as the rotation side contact portion. In this case, the rotation-side contact portion 372B is regarded as the second rotation-side contact portion, the shaft-side contact portion 374D is regarded as the shaft-side back inclined portion, and the shaft-side back inclined portion 374E is the shaft-side contact. It will be understood as a part. As the shaft portion 374B moves forward, the shaft-side back inclined portion presses the second rotation-side contact portion, so that the rotation portion 372 rotates relatively to one side with respect to the shaft portion 374B. As the shaft 374B moves backward, the shaft side contact portion presses the rotation side contact portion, so that the rotation portion 372 rotates relative to the shaft portion 374B to the other side.
 (k)上記実施形態において、被操作部344Aは取付部材31の表面から常に非突出となるように構成されているが、被操作部344Aが取付部材31の表面から突出するように構成してもよい。 (K) In the above embodiment, the operated portion 344A is configured not to protrude from the surface of the mounting member 31. However, the operated portion 344A is configured to protrude from the surface of the mounting member 31. Also good.
 (l)上記実施形態において、操作装置3は浴槽100(槽体)に取付けられているが、操作装置の取付対象は、これに限定されるものではなく、例えば、槽体の近傍に設けられた構造物であってもよい。 (L) In the said embodiment, although the operating device 3 is attached to the bathtub 100 (tank body), the attachment object of an operating device is not limited to this, For example, it is provided in the vicinity of a tank body. It may be a structure.
 (m)上記第1、第3実施形態では、側壁部102に形成された、貫通孔としてのオーバーフロー口104に対応して操作装置3が設けられているが、浴槽100が、側壁部102の裏側において、これと隙間をあけて配置された板状のエプロンを備えることとし、当該エプロンに貫通形成された貫通孔に対応して操作装置を設けることとしてもよい。浴槽のエプロンは、通常、この裏側に位置する側壁部102との間隔が小さいものとされ、エプロンに対し操作装置を取付けることは決して容易ではないが、上記実施形態の操作装置3は、被操作部344Aの移動方向に沿った長さが非常に小さなものとなるため、エプロンに対してもより容易に取付けることができる。 (M) In the first and third embodiments, the operation device 3 is provided corresponding to the overflow port 104 formed as a through hole formed in the side wall portion 102, but the bathtub 100 is provided on the side wall portion 102. On the back side, a plate-like apron arranged with a gap may be provided, and an operating device may be provided corresponding to the through-hole formed through the apron. The apron of the bathtub usually has a small gap with the side wall portion 102 located on the back side, and it is never easy to attach the operating device to the apron, but the operating device 3 of the above embodiment is not operated. Since the length along the moving direction of the portion 344A is very small, it can be more easily attached to the apron.
 また、浴槽100と、これに隣接して設置される洗い場と、浴槽100及び洗い場の周囲に設置される複数の板状の壁パネルとを備えてなる浴室ユニットにおいて、前記壁パネルに対し貫通孔を形成し、この貫通孔に対応して操作装置を設けることとしてもよい。通常、壁パネルとその裏側の壁面との隙間は小さくなりやすいため、壁パネルに対し操作装置を取付けることは容易ではないが、被操作部344Aの移動方向に沿った長さを小さくできる上記実施形態の操作装置3であれば、壁パネルに対しても容易に取付可能である。 Further, in a bathroom unit comprising a bathtub 100, a washing place installed adjacent to the bathtub 100, and a plurality of plate-like wall panels installed around the bathtub 100 and the washing place, a through-hole is formed in the wall panel. It is good also as providing an operating device corresponding to this through-hole. Usually, since the clearance between the wall panel and the wall surface on the back side tends to be small, it is not easy to attach the operating device to the wall panel, but the length along the moving direction of the operated portion 344A can be reduced. If it is the form of operating device 3, it can be easily attached also to a wall panel.
 (n)上記実施形態では、槽体として浴槽100を例示しているが、本発明の技術思想を適用可能な槽体は浴槽に限定されるものではない。従って、例えば、洗面化粧台や流し台などに対して、本発明の技術思想を適用することとしてもよく、これらに対し操作装置を取付けることとしてもよい。 (N) In the above embodiment, the bathtub 100 is illustrated as the tank body, but the tank body to which the technical idea of the present invention can be applied is not limited to the bathtub. Therefore, for example, the technical idea of the present invention may be applied to a bathroom vanity or a sink, and an operation device may be attached to these.
 尚、洗面化粧台は、鉛直方向に延びるとともに、所定の壁面との間で隙間をあけて配置される板状のバックガードを備えることとし、当該バックガードに形成された貫通孔に対応して操作装置を設けることとしてもよい。洗面化粧台のバックガードは、通常、この裏側に位置する壁面との間隔が小さいため、バックガードに対し操作装置を取付けることは容易ではない。しかしながら、上記実施形態の操作装置3は、被操作部344Aの移動方向に沿った長さが非常に小さなものとなるため、バックガードに対してもより容易に取付けることができる。 The vanity is provided with a plate-like back guard that extends in the vertical direction and is spaced from a predetermined wall surface, and corresponds to the through-hole formed in the back guard. An operating device may be provided. Since the back guard of the vanity is usually small in distance from the wall surface located on the back side, it is not easy to attach the operating device to the back guard. However, since the operating device 3 of the above embodiment has a very small length along the moving direction of the operated portion 344A, it can be attached to the back guard more easily.
 (o)上記第1、第3実施形態において、戻り力付与部は、支持軸機構23に設けられているが、戻り力付与部を操作側機構部34に設けることとしてもよい。また、ロック機構及び戻り力付与部の一方を支持軸機構23に設け、ロック機構及び戻り力付与部の他方を操作側機構部34に設けることとしてもよい。 (O) In the first and third embodiments, the return force application unit is provided in the support shaft mechanism 23, but the return force application unit may be provided in the operation side mechanism unit 34. Alternatively, one of the lock mechanism and the return force applying unit may be provided in the support shaft mechanism 23, and the other of the lock mechanism and the return force applying unit may be provided in the operation side mechanism unit 34.
 (p)上記第2実施形態では、回動側接触部51D及び回動側対向部51Eが設けられているが、回動側接触部51Dのみを設けることとしてもよい。そして、伝達部材33Aの往動に伴い軸部52が往動したときに、軸側接触部が回動側接触部を押圧することで、回動部51が回動し、支持突起51Bが上動又は下動するように構成してもよい。 (P) In the second embodiment, the rotation-side contact portion 51D and the rotation-side facing portion 51E are provided, but only the rotation-side contact portion 51D may be provided. When the shaft portion 52 moves forward with the forward movement of the transmission member 33A, the shaft side contact portion presses the rotation side contact portion, whereby the rotation portion 51 rotates and the support protrusion 51B moves upward. It may be configured to move or move downward.
 また、軸部52の復動方向前方側に回動側接触部のみを設け、伝達部材33Aの復動に伴い軸部52が復動したときに、軸側接触部が回動側接触部を押圧することで、回動部51が回動し、支持突起51Bが上動又は下動するように構成してもよい。 Further, only the rotation-side contact portion is provided on the front side in the backward movement direction of the shaft portion 52, and when the shaft portion 52 moves backward along with the backward movement of the transmission member 33A, the shaft-side contact portion becomes the rotation-side contact portion. By pressing, the rotation part 51 may rotate and the support protrusion 51B may move up or down.
 (q)上記実施形態において、伝達部材33Aは、チューブ部材33Bの内周を往復移動可能なワイヤー等によって構成されているが、伝達部材の構成はこれに限定されるものではなく、例えば、回転力を伝達可能なユニバーサルジョイントなどによって伝達部材を構成してもよい。この場合には、回動部342にユニバーサルジョイントの一端部を直列的に接続したり、回動部342がユニバーサルジョイントの一端部を形成したりするものとし、回動部342が回動したときに、その回動力がユニバーサルジョイントへと伝達されるように構成してもよい。 (Q) In the above embodiment, the transmission member 33A is configured by a wire or the like that can reciprocate along the inner periphery of the tube member 33B. However, the configuration of the transmission member is not limited to this, and for example, rotation You may comprise a transmission member by the universal joint etc. which can transmit force. In this case, one end of the universal joint is connected in series to the rotating unit 342, or the rotating unit 342 forms one end of the universal joint, and the rotating unit 342 rotates. In addition, the turning force may be transmitted to the universal joint.
 (r)上記第2実施形態では、支持部として、回動部51の端面外周側に設けられた支持突起51Bを挙げているが、支持部の構成はこれに限定されるものではない。例えば、支持部として、回動部の外周からその径方向外側に突出するとともに、その先端部によって被支持部材を支持する棒状部材を用いてもよい。この場合には、回動部の回動に伴い、棒状部材の先端部が上下動することで、被支持部材及びこれに支持された栓蓋を上下動させることができ、ひいては排水口103を開閉することができる。また、この場合には、被支持部材として、上端部が栓蓋の背面中央部に取付けられる支持軸を用いてもよい。 (R) In the second embodiment, the support protrusion 51B provided on the outer peripheral side of the end surface of the rotating part 51 is cited as the support part, but the structure of the support part is not limited to this. For example, a rod-shaped member that protrudes outward in the radial direction from the outer periphery of the rotating portion and supports the supported member by the tip portion may be used as the support portion. In this case, the tip of the rod-shaped member moves up and down with the rotation of the rotating unit, so that the supported member and the plug lid supported by the member can be moved up and down. Can be opened and closed. In this case, a support shaft whose upper end portion is attached to the rear center portion of the plug lid may be used as the supported member.
 1…排水栓装置、3…操作装置、5…栓蓋側機構部、33…レリースワイヤ、33A…伝達部材、33B…チューブ部材、41…排水管、41A…主管、41B…取付管、41C…凹部、41D…排水管側回動支持部、42…通水部材(被支持部材)、51,342…回動部、51B…支持突起(支持部)、51D,342B…回動側接触部、51E…回動側対向部、52,344B…軸部、52A…軸側接触部(突部)、100…浴槽(槽体、取付対象物)、101…底壁部、102…側壁部、103…排水口、104…オーバーフロー口(貫通孔)、343,383…操作側回動支持部、343B…棒状部、344…操作部材、344A…被操作部、344C…穴部、344D…軸側接触部、344G…突起部、345…ロック機構、346…回転リング、346A…被係合部、372C…第二回動側接触部、374E…軸側背面傾斜部、383E…ロック用筒部、384…係合歯、384D…筒側溝部、TM1,TM2…伝達体。 DESCRIPTION OF SYMBOLS 1 ... Drain plug apparatus, 3 ... Operation apparatus, 5 ... Plug lid side mechanism part, 33 ... Release wire, 33A ... Transmission member, 33B ... Tube member, 41 ... Drain pipe, 41A ... Main pipe, 41B ... Installation pipe, 41C ... Concave part, 41D ... Drain pipe side rotation support part, 42 ... Water flow member (supported member), 51, 342 ... Rotation part, 51B ... Support projection (support part), 51D, 342B ... Rotation side contact part, 51E: Rotating side facing part, 52, 344B ... Shaft part, 52A ... Shaft side contact part (protrusion part), 100 ... Bathtub (tank body, attachment object), 101 ... Bottom wall part, 102 ... Side wall part, 103 ... Drain port, 104 ... Overflow port (through hole), 343,383 ... Operating side rotation support part, 343B ... Bar-shaped part, 344 ... Operating member, 344A ... Operated part, 344C ... Hole part, 344D ... Axis side contact Part, 344G ... projection part, 345 ... lock mechanism, 46 ... Rotating ring, 346A ... Engaged part, 372C ... Second rotating side contact part, 374E ... Shaft side rear inclined part, 383E ... Locking cylinder part, 384 ... Engaging tooth, 384D ... Cylinder side groove part, TM1 , TM2 ... Transmitter.

Claims (19)

  1.  所定の取付対象物に対し移動可能な状態で設けられた操作用の被操作部と、
     上下動可能に構成され、自身の上下動に伴い槽体の排水口を開閉可能な栓蓋と、
     前記被操作部及び前記栓蓋の間に設けられ、前記被操作部の変位を前記栓蓋側へと伝達する伝達体とを備えた排水栓装置であって、
     前記伝達体は、
     前記被操作部の移動に伴い、自身の軸方向に沿って移動可能な軸部と、
     前記軸部の外周又は内周に配置されるとともに、前記軸部の周方向に沿って前記軸部に対し相対回動可能な回動部と、
     前記軸部の運動を回動運動に変換し、前記回動部を回動させる運動方向変換部とを有し、
     前記取付対象物及び前記槽体の少なくとも一方に対し前記軸部を相対回転不能に規制する回転規制部が設けられ、
     前記運動方向変換部は、
     前記軸部に設けられた軸側接触部と、
     前記回動部に設けられ、前記軸側接触部に対し接触可能な回動側接触部とを具備するとともに、
     前記軸側接触部のうち前記回動側接触部に接触する部位、及び、前記回動側接触部のうち前記軸側接触部に接触する部位の少なくとも一方は、前記軸部の移動方向に対し傾斜する傾斜面状をなし、
     前記被操作部の移動に伴い、前記軸側接触部が前記回動側接触部を押圧することで、前記回動部が前記軸部に対し相対回動するように構成されていることを特徴とする排水栓装置。
    An operated part for operation provided in a movable state with respect to a predetermined attachment object;
    A plug lid that is configured to be movable up and down, and that can open and close the drain outlet of the tank body with its own vertical movement,
    A drain plug device provided between the operated portion and the plug lid, and comprising a transmitter for transmitting the displacement of the operated portion to the plug lid side,
    The transmitter is
    Along with the movement of the operated part, a shaft part movable along its own axial direction,
    A rotating portion that is disposed on the outer periphery or inner periphery of the shaft portion, and that is rotatable relative to the shaft portion along the circumferential direction of the shaft portion;
    A movement direction conversion section that converts the movement of the shaft section into a rotation movement and rotates the rotation section;
    A rotation restricting portion for restricting the shaft portion from being relatively unrotatable with respect to at least one of the attachment object and the tank body is provided,
    The movement direction conversion unit is
    A shaft-side contact portion provided in the shaft portion;
    A rotation-side contact portion provided in the rotation portion and capable of contacting the shaft-side contact portion;
    At least one of a portion of the shaft-side contact portion that contacts the rotation-side contact portion and a portion of the rotation-side contact portion that contacts the shaft-side contact portion is in a moving direction of the shaft portion. An inclined surface is formed,
    The shaft-side contact portion presses the rotation-side contact portion as the operated portion moves, so that the rotation portion rotates relative to the shaft portion. Drain plug device.
  2.  前記被操作部、前記軸部、前記回動部、及び、前記運動方向変換部を具備するとともに、前記取付対象物に形成された貫通孔に対し前記被操作部及び前記軸部の少なくとも一方が挿通されてなる操作装置を有し、
     前記軸部は、前記被操作部の移動方向に沿って前記被操作部に対し直列的に固定されており、
     前記伝達体は、往復移動可能な伝達部材を有し、
     前記軸部に対して前記回動部が相対回動したときに、前記回動部から前記伝達部材の一端部へと動力が加わり、前記回動部の回動方向の接線方向に沿って前記伝達部材の一端部が移動するように構成されていることを特徴とする請求項1に記載の排水栓装置。
    The operated portion, the shaft portion, the rotating portion, and the movement direction converting portion are provided, and at least one of the operated portion and the shaft portion is formed with respect to a through hole formed in the attachment object. Having an operating device inserted through;
    The shaft portion is fixed in series to the operated portion along the moving direction of the operated portion,
    The transmission body has a reciprocating transmission member,
    When the rotating portion rotates relative to the shaft portion, power is applied from the rotating portion to one end portion of the transmission member, and the tangential direction of the rotating portion rotates along the tangential direction. The drain plug device according to claim 1, wherein one end portion of the transmission member is configured to move.
  3.  前記取付対象物は、底面部と、当該底面部に立設された側壁部とを有する浴槽であり、
     前記貫通孔は、前記側壁部に形成されていることを特徴とする請求項2に記載の排水栓装置。
    The attachment object is a bathtub having a bottom surface portion and a side wall portion standing on the bottom surface portion,
    The drain plug device according to claim 2, wherein the through hole is formed in the side wall portion.
  4.  前記取付対象物は、所定の壁面との間で隙間をあけて配置される板状のバックガードを備えてなる洗面化粧台であって、
     前記貫通孔は、前記バックガードに形成されていることを特徴とする請求項2に記載の排水栓装置。
    The attachment object is a vanity comprising a plate-shaped back guard arranged with a gap between a predetermined wall surface,
    The drain plug device according to claim 2, wherein the through hole is formed in the back guard.
  5.  前記取付対象物は、底面部と、当該底面部に立設された側壁部と、当該側壁部との間で隙間をあけて配置される板状のエプロンとを備えてなる浴槽であり、
     前記貫通孔は、前記エプロンに形成されていることを特徴とする請求項2に記載の排水栓装置。
    The attachment object is a bathtub including a bottom surface portion, a side wall portion standing on the bottom surface portion, and a plate-like apron disposed with a gap between the side wall portion,
    The drain plug device according to claim 2, wherein the through hole is formed in the apron.
  6.  前記取付対象物は、洗い場及び当該洗い場に隣接して設置される浴槽と、前記洗い場及び前記浴槽の周囲に設置される複数の板状の壁パネルとを備えてなる浴室ユニットであり、
     前記貫通孔は、前記壁パネルに形成されていることを特徴とする請求項2に記載の排水栓装置。
    The attachment object is a bathroom unit including a washing place and a bathtub installed adjacent to the washing place, and a plurality of plate-like wall panels installed around the washing place and the bathtub,
    The drain plug device according to claim 2, wherein the through hole is formed in the wall panel.
  7.  前記被操作部を移動させたときに、前記伝達部材の一端部の移動量が、前記被操作部の移動量よりも大きくなるように構成されていることを特徴とする請求項2乃至6のいずれか1項に記載の排水栓装置。 The movement amount of the one end part of the transmission member is configured to be larger than the movement amount of the operated part when the operated part is moved. The drain plug device according to any one of claims.
  8.  前記取付対象物に対し直接又は間接的に取付けられ、前記回動部のその回動軸方向の端面が接触するとともに、前記回動部の回動時に前記端面が摺動する操作側回動支持部を備え、
     前記軸部は、前記被操作部とは反対側に開口する穴部を具備する筒状をなし、
     前記操作側回動支持部は、前記穴部に挿通される棒状部を備え、
     前記穴部及び前記棒状部は、前記穴部に対し前記棒状部が挿通された状態において、前記棒状部に対し前記軸部が相対回転不能となるように構成されており、前記棒状部及び前記軸部のうち前記穴部を形成する部位によって前記回転規制部が構成されることを特徴とする請求項2乃至7のいずれか1項に記載の排水栓装置。
    An operation-side rotation support that is directly or indirectly attached to the object to be attached, and whose end surface in the rotation axis direction of the rotation unit is in contact with and that the end surface slides when the rotation unit rotates. Part
    The shaft portion has a cylindrical shape including a hole opening on the opposite side to the operated portion,
    The operation side rotation support portion includes a rod-like portion inserted through the hole portion,
    The hole portion and the rod-shaped portion are configured so that the shaft portion cannot be relatively rotated with respect to the rod-shaped portion in a state where the rod-shaped portion is inserted into the hole portion. The drain plug device according to any one of claims 2 to 7, wherein the rotation restricting portion is configured by a portion of the shaft portion where the hole portion is formed.
  9.  内部空間が前記排水口を通る排水の流路を構成する筒状の排水管と、
     前記栓蓋に対し直接又は間接的に取付けられるとともに、前記排水管内に配置された被支持部材と、
     前記排水管に取付けられるとともに、前記軸部、前記回動部、及び、前記運動方向変換部を具備してなる栓蓋側機構部とを備え、
     前記伝達体は、筒状のチューブ部材と、当該チューブ部材の内周において往復移動可能に構成された伝達部材とを有してなるレリースワイヤを備えており、前記被操作部を移動させることで前記伝達部材が往動するように構成され、
     前記軸部は、前記伝達部材のうち前記被操作部とは反対側に位置する端部が接続されるとともに、前記伝達部材の往復移動時に前記伝達部材とともに移動し、
     前記回動部には、前記排水管内へと突出するとともに、少なくとも前記排水口を開放した状態において前記被支持部材が載置されることで前記被支持部材を支持する支持部が設けられ、
     前記支持部は、前記回動部の回動に伴い回動しつつ上下動可能であるとともに、前記軸部の移動に伴い前記回動部が回動したときに、上動又は下動するように構成されており、
     前記支持部の上下動に伴い前記被支持部材及び前記栓蓋が上下動するように構成されていることを特徴とする請求項1に記載の排水栓装置。
    A cylindrical drainage pipe in which an internal space forms a drainage flow path passing through the drainage port;
    A supported member that is directly or indirectly attached to the stopper lid and disposed in the drain pipe;
    Attached to the drain pipe, and provided with a plug lid side mechanism portion comprising the shaft portion, the rotating portion, and the movement direction converting portion,
    The transmission body includes a release wire having a cylindrical tube member and a transmission member configured to be reciprocally movable on the inner periphery of the tube member, and by moving the operated portion The transmission member is configured to move forward;
    The shaft portion is connected to an end portion of the transmission member opposite to the operated portion, and moves together with the transmission member when the transmission member reciprocates.
    The rotating portion is provided with a support portion that protrudes into the drain pipe and supports the supported member by placing the supported member at least in a state where the drain port is opened.
    The support portion can move up and down while rotating as the rotation portion rotates, and moves upward or downward when the rotation portion rotates as the shaft portion moves. Is composed of
    The drain plug device according to claim 1, wherein the supported member and the plug lid are configured to move up and down as the support portion moves up and down.
  10.  前記被操作部を移動させたときに、前記支持部の鉛直方向に沿った移動量が、前記軸部の移動量よりも大きくなるように構成されていることを特徴とする請求項9に記載の排水栓装置。 The movement amount along the vertical direction of the support portion is configured to be larger than the movement amount of the shaft portion when the operated portion is moved. Drain plug device.
  11.  前記排水管は、前記排水の流路を構成する筒状の主管と、当該主管の外周から突出し前記主管に連通された筒状の取付管とを備え、
     前記取付管は、自身の内周に自身の軸方向に沿って延びる凹部を有し、
     前記軸部は、前記凹部に配置される突部を備え、
     前記回転規制部は、前記突部、及び、前記取付管のうち前記凹部を形成する部位によって構成されることを特徴とする請求項9又は10に記載の排水栓装置。
    The drainage pipe includes a cylindrical main pipe that constitutes the drainage flow path, and a cylindrical mounting pipe that protrudes from the outer periphery of the main pipe and communicates with the main pipe.
    The mounting tube has a recess extending along its own axial direction on its inner periphery,
    The shaft portion includes a protrusion disposed in the recess,
    The drain plug device according to claim 9 or 10, wherein the rotation restricting portion is configured by the protrusion and a portion of the attachment pipe that forms the concave portion.
  12.  前記排水管は、前記回動部のその回動軸方向の端面が接触するとともに、前記回動部の回動時に前記端面が摺動する排水管側回動支持部を備えることを特徴とする請求項9乃至11のいずれか1項に記載の排水栓装置。 The drain pipe is provided with a drain pipe-side rotation support portion that contacts an end surface of the rotation portion in the rotation axis direction and slides the end surface when the rotation portion rotates. The drain plug device according to any one of claims 9 to 11.
  13.  少なくとも前記回動側接触部のうち前記軸側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
     前記回動側接触部のうち前記軸側接触部に接触する部位は、その全域において、前記軸部の運動方向に対する傾斜が一定とされた螺旋状をなすことを特徴とする請求項1乃至12のいずれか1項に記載の排水栓装置。
    At least a portion of the rotation-side contact portion that contacts the shaft-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
    The portion of the rotating contact portion that contacts the shaft-side contact portion has a spiral shape in which the inclination with respect to the movement direction of the shaft portion is constant throughout the entire region. The drain plug device according to any one of the above.
  14.  少なくとも前記回動側接触部のうち前記軸側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
     前記回動側接触部のうち前記軸側接触部に接触する部位は、前記軸部の運動方向に対する傾斜が一定ではない形状をなすことを特徴とする請求項1乃至12のいずれか1項に記載の排水栓装置。
    At least a portion of the rotation-side contact portion that contacts the shaft-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
    The part which contacts the said shaft side contact part among the said rotation side contact parts makes the shape where the inclination with respect to the moving direction of the said shaft part is not constant, The one of Claim 1 thru | or 12 characterized by the above-mentioned. The drain plug device described.
  15.  少なくとも前記軸側接触部のうち前記回動側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
     前記軸側接触部のうち前記回動側接触部に接触する部位は、その全域において、前記軸部の運動方向に対する傾斜が一定とされた螺旋状をなすことを特徴とする請求項1乃至12のいずれか1項に記載の排水栓装置。
    At least a portion of the shaft-side contact portion that comes into contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
    The portion of the shaft-side contact portion that contacts the rotation-side contact portion has a spiral shape in which the inclination with respect to the movement direction of the shaft portion is constant throughout the entire region. The drain plug device according to any one of the above.
  16.  少なくとも前記軸側接触部のうち前記回動側接触部に接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
     前記軸側接触部のうち前記回動側接触部に接触する部位は、前記軸部の往復移動方向に対する傾斜が一定ではない形状をなすことを特徴とする請求項1乃至12のいずれか1項に記載の排水栓装置。
    At least a portion of the shaft-side contact portion that comes into contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
    The part which contacts the said rotation side contact part among the said shaft side contact parts makes the shape where the inclination with respect to the reciprocation direction of the said shaft part is not constant, The any one of Claim 1 thru | or 12 characterized by the above-mentioned. The drain plug device according to 1.
  17.  前記軸部は、自身の軸方向に沿って往復移動可能であり、
     少なくとも前記回動側接触部は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
     前記回動部は、前記軸部の運動方向に沿って前記回動側接触部と対向し、前記回動側接触部と同じ向きに傾斜する傾斜面状の回動側対向部を備え、
     前記軸部の往動に伴い、前記軸側接触部が前記回動側接触部及び前記回動側対向部の一方を押圧することで、前記回動部が前記軸部に対し一方側に相対回動するとともに、
     前記軸部の復動に伴い、前記軸側接触部が前記回動側接触部及び前記回動側対向部の他方を押圧することで、前記回動部が前記軸部に対し他方側に相対回動するように構成されていることを特徴とする請求項1乃至16のいずれか1項に記載の排水栓装置。
    The shaft portion can reciprocate along its own axial direction,
    At least the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion,
    The rotating portion includes an inclined surface-like rotating side facing portion that faces the rotating side contact portion along the movement direction of the shaft portion and is inclined in the same direction as the rotating side contact portion.
    As the shaft portion moves forward, the shaft-side contact portion presses one of the rotation-side contact portion and the rotation-side facing portion, so that the rotation portion is relative to the shaft portion on one side. As it turns,
    Along with the backward movement of the shaft portion, the shaft-side contact portion presses the other of the rotation-side contact portion and the rotation-side facing portion, so that the rotation portion is relative to the shaft portion on the other side. The drain plug device according to any one of claims 1 to 16, wherein the drain plug device is configured to rotate.
  18.  前記軸部は、自身の軸方向に沿って往復移動可能であり、
     少なくとも前記軸側接触部のうち前記回動側接触部と接触する部位は、前記軸部の運動方向に対し傾斜する傾斜面状をなしており、
     前記軸部は、自身の運動方向に沿って前記軸側接触部の前記傾斜面状をなす部位の背後に位置し、前記軸側接触部のうち前記傾斜面状をなす部位と同じ向きに傾斜する傾斜面状の軸側背面傾斜部を備え、
     前記回動部は、前記軸側背面傾斜部と接触可能な第二回動側接触部を備え、
     前記軸部の往動に伴い、前記回動側接触部に対する前記軸側接触部の押圧、及び、前記第二回動側接触部に対する前記軸側背面傾斜部の押圧の一方が行われることで、前記回動部が前記軸部に対し一方側に相対回動するとともに、
     前記軸部の復動に伴い、前記回動側接触部に対する前記軸側接触部の押圧、及び、前記第二回動側接触部に対する前記軸側背面傾斜部の押圧の他方が行われることで、前記回動部が前記軸部に対し他方側に相対回動するように構成されていることを特徴とする請求項1乃至16のいずれか1項に記載の排水栓装置。
    The shaft portion can reciprocate along its own axial direction,
    At least a portion of the shaft-side contact portion that is in contact with the rotation-side contact portion has an inclined surface shape that is inclined with respect to the movement direction of the shaft portion.
    The shaft portion is positioned behind the portion of the shaft-side contact portion that forms the inclined surface along the direction of movement of the shaft portion, and is inclined in the same direction as the portion of the shaft-side contact portion that forms the inclined surface shape. An inclined surface-like back side inclined part
    The rotating part includes a second rotating side contact part that can come into contact with the shaft side back inclined part,
    With the forward movement of the shaft portion, one of pressing of the shaft-side contact portion against the rotation-side contact portion and pressing of the shaft-side back inclined portion against the second rotation-side contact portion is performed. The rotating part rotates relative to the shaft part on one side,
    With the backward movement of the shaft portion, the other of the pressing of the shaft-side contact portion against the rotation-side contact portion and the pressing of the shaft-side back inclined portion against the second rotation-side contact portion is performed. The drain plug device according to any one of claims 1 to 16, wherein the rotating portion is configured to rotate relative to the shaft portion on the other side.
  19.  前記軸部の中心軸を回転軸として回転可能な状態で前記軸部に取付けられるとともに、前記軸部とともに移動可能であり、かつ、外側に突出形成された被係合部を有する回転リングと、
     前記軸部のうち前記回転リングの取付けられた部位の外周に配置されるとともに、前記取付対象物及び前記槽体の少なくとも一方に対し相対移動不能とされた筒状のロック用筒部とを備えるとともに、
     前記ロック用筒部は、その周方向に沿って複数設けられた、前記軸部の運動方向に沿って延びる筒側溝部を有し、かつ、
     前記ロック用筒部に対し前記軸部をその軸方向に沿った所定位置以上まで移動させることで、前記ロック用筒部に設けられた係合歯に対し前記被係合部が係合されること、及び、前記係合歯に対する前記被係合部の係合が解除され、前記筒側溝部に前記被係合部が落ち込むとともに、前記軸部が所定の戻り位置まで戻ることが交互になされるように構成されたロック機構を具備し、
     前記軸部は、外側に突出する突起部を備え、
     前記突起部の少なくとも一部は、前記軸部が移動するときに、常に前記筒側溝部に配置され、
     前記筒側溝部に前記突起部が配置されることで、前記回転規制部としての機能が発揮されるように構成されていることを特徴とする請求項1乃至18のいずれか1項に記載の排水栓装置。
    A rotating ring that is attached to the shaft portion in a rotatable state with the central axis of the shaft portion as a rotation axis, and that is movable with the shaft portion, and has an engaged portion that is formed to protrude outward.
    A cylindrical locking cylinder portion which is disposed on an outer periphery of a portion of the shaft portion to which the rotating ring is attached and which is not movable relative to at least one of the attachment object and the tank body; With
    The locking cylinder part has a cylinder side groove part that is provided in a plurality along the circumferential direction and extends along the movement direction of the shaft part, and
    By moving the shaft portion to a predetermined position or more along the axial direction with respect to the locking cylinder portion, the engaged portion is engaged with the engaging teeth provided on the locking cylinder portion. In addition, the engaged portion is disengaged from the engaging teeth, the engaged portion falls into the cylindrical groove portion, and the shaft portion returns to a predetermined return position alternately. Comprising a locking mechanism configured to
    The shaft portion includes a protruding portion protruding outward,
    At least a part of the protruding portion is always arranged in the tube side groove when the shaft portion moves,
    19. The structure according to claim 1, wherein the protruding portion is disposed in the cylindrical groove portion so that the function as the rotation restricting portion is exhibited. Drain plug device.
PCT/JP2016/065128 2015-05-29 2016-05-23 Drain plug device WO2016194670A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201680030186.2A CN107614806B (en) 2015-05-29 2016-05-23 Drain plug device

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2015-109440 2015-05-29
JP2015109440A JP6405286B2 (en) 2015-05-29 2015-05-29 Drain plug device

Publications (1)

Publication Number Publication Date
WO2016194670A1 true WO2016194670A1 (en) 2016-12-08

Family

ID=57441562

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2016/065128 WO2016194670A1 (en) 2015-05-29 2016-05-23 Drain plug device

Country Status (3)

Country Link
JP (1) JP6405286B2 (en)
CN (1) CN107614806B (en)
WO (1) WO2016194670A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016223136A (en) * 2015-05-29 2016-12-28 Toto株式会社 Operation device

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7219690B2 (en) * 2019-10-08 2023-02-08 Ykk Ap株式会社 Drainage system and fittings
JP7235639B2 (en) * 2019-10-08 2023-03-08 Ykk Ap株式会社 Drainage system and fittings

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000160620A (en) * 1998-11-24 2000-06-13 Maruichi Kk Remote control drainage device
JP2002097694A (en) * 2000-09-22 2002-04-02 Yasumi Ota Face washing device
JP2014159697A (en) * 2013-02-20 2014-09-04 Nippon Alpha:Kk Drain plug device

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3225285B2 (en) * 1996-12-06 2001-11-05 丸一株式会社 Remote-operated drain valve opening / closing device
JP2006063517A (en) * 2004-08-24 2006-03-09 Matsushita Electric Works Ltd Drainage system
EP1703027B1 (en) * 2005-03-17 2016-08-24 Geberit International AG Device for activating the outlet valve of sanitary articles and in particular a bathtub
JP5299711B2 (en) * 2010-12-21 2013-09-25 アイシン精機株式会社 Operation rod coupling structure and connecting member
JP6103188B2 (en) * 2012-11-28 2017-03-29 Toto株式会社 Bathtub drain plug device
JP6223100B2 (en) * 2013-10-03 2017-11-01 株式会社日本アルファ Operating device
JP2014167251A (en) * 2014-04-18 2014-09-11 Maruichi Corp Remote control type drain plug device

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000160620A (en) * 1998-11-24 2000-06-13 Maruichi Kk Remote control drainage device
JP2002097694A (en) * 2000-09-22 2002-04-02 Yasumi Ota Face washing device
JP2014159697A (en) * 2013-02-20 2014-09-04 Nippon Alpha:Kk Drain plug device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016223136A (en) * 2015-05-29 2016-12-28 Toto株式会社 Operation device

Also Published As

Publication number Publication date
JP2016223135A (en) 2016-12-28
CN107614806A (en) 2018-01-19
CN107614806B (en) 2019-11-15
JP6405286B2 (en) 2018-10-17

Similar Documents

Publication Publication Date Title
WO2016194670A1 (en) Drain plug device
EP3245892B1 (en) Umbrella with a combination of an automatic and manual opening and closing structure
JP6014307B2 (en) Drain plug device
JP6259974B2 (en) Remote-controlled drain plug device
JP2009057687A (en) Remote controlled drain valve device
JP6405125B2 (en) Drain plug device
JP5663402B2 (en) Drain plug device
CN208501820U (en) A kind of water drainage valve button bracket of key orientation
JP6452200B2 (en) Locking mechanism of tubular body
JP5628586B2 (en) Drain plug device
JP2008190193A (en) Lock device
JP5663403B2 (en) Drain plug device
JP5783447B2 (en) Drain plug device
JP6498529B2 (en) Operating device
EP3550099B1 (en) A driving assembly for a lever-type door lock
JP2012031720A (en) Drain plug device
EP2390428B1 (en) Drainage device for kitchen and bath facilities
JP5757621B2 (en) Valve drive device with microswitch in water tap
JP6244437B1 (en) Rotating handle mechanism and antifreeze faucet column
JP2013144898A (en) Operation part mounting structure for drain plug device
US10619759B2 (en) Drain plug device
JP6596241B2 (en) Drain plug device
JP5849714B2 (en) Remote-controlled drain plug device
JP2007092450A (en) Faucet device
EP3505691B1 (en) Drain plug device

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 16803105

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 16803105

Country of ref document: EP

Kind code of ref document: A1