JP2004211457A - Drain cock device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a drain cock device capable of preventing the enlargement of supporting member itself. <P>SOLUTION: The drain cock device is composed of a wire-shaped member 22 connecting a transmission member communicating a section between a movable member and a drain cock, transmitting force from the movable member to the drain cock and displacing the drain cock 18, a shaft-shaped member connected to the movable member, a connecting member, which movably supporting the member 22 and the shaft-shaped member in the longitudinal direction respectively and in which both the member 22 and the shaft-shaped member are arranged in series, a first coil spring, to which the end section of the member 22 is penetrated and mounted in the connecting member and which absorbs force from the movable member and limits the movement of the shaft-shaped member, and a second coil spring having a spring constant larger than that of the first coil spring, being arranged between the member 22 and the shaft-shaped member and absorbing force larger than fixed dimensions when the force is worked to the member 22 and preventing the movement of the shaft-shaped member. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a drain plug device provided in a bathtub, for example.
[0002]
[Prior art]
As shown in FIG. 8, the conventional drainage plug device 110 includes a housing 126 attached to a through hole 122 formed in a rim 120 of the bathtub. The operation button 124 is arranged on the housing 126 so as to be movable along the arrow F direction in FIG. A rod-shaped power transmission member 128 is attached to the back surface of the operation button 124, and the power transmission member 128 penetrates a hole 130 formed in the bottom of the housing 126.
[0003]
One end of the support member 132 is attached to the bottom of the housing 126. A power transmission member 128 passes through the inside of the support member 132, and the power transmission member 128 can be moved in the longitudinal direction (the direction of arrow F in FIG. 8) by a reduced diameter portion 134 formed inside the support member 132. It is supported to be. A driving member 136 is attached to the support member 132, and the driving force of the driving member 136 moves the power transmission member 128 in the longitudinal direction. It is also possible to move the power transmission member 128 in the longitudinal direction by pressing the operation button 124.
[0004]
Here, an open tubular portion 138 is formed below the reduced diameter portion 134 of the support member 132. A lid 140 is attached to the open end of the cylindrical portion 138 so as to close the opening of the cylindrical portion 138. A guide tube 142 is disposed in the internal space of the cylindrical portion 138, and the distal end of the power transmission member 128 is inserted into the guide tube 142. A first coil spring 144 having a relatively high spring constant is arranged between the flange 142A of the guide cylinder 142 and the bottom surface of the lid 140. On the other hand, an umbrella portion 128A is formed near the distal end of the power transmission member 128, and a spring smaller than the spring constant of the first coil spring 144 is provided between the umbrella portion 128A and the bottom of the guide cylinder 142. A second coil spring 146 having a constant is arranged.
[0005]
A coated wire-like member 148 is connected to the bottom of the guide cylinder 142. The wire-like member 148 is connected to a drain plug disposed at a drain port of the bathtub, and a force from the operation button 124 acts on the wire-like member 148 via the power transmission member 128 to thereby form a drain plug. Displacement is used to open and close the drain port.
[0006]
In the drain plug device 110 described above, when the operator presses the operation button 124 or drives the driving member 136, the power transmission member 128 moves in the direction of arrow G in FIG. At this time, the second coil spring 146 is temporarily contracted, and the distance between the power transmission member 128 and the bottom of the guide cylinder 142 is reduced. When the second coil spring 146 contracts, the elastic force of the second coil spring 146 presses the bottom of the guide cylinder 142, and the pressing causes the wire-like member 148 to move downward. As a result, the drain cock is pushed upward, and the lock mechanism disposed near the drain cock acts to hold the drain cock at a position slightly lower than the position where the drain cock is pushed up most. Thereby, the drain port of the bathtub is opened. When the lock mechanism operates and the drain port is opened, the operation button 124 is located slightly below the surface of the edge 120 of the bathtub (the state in FIG. 8). In this operation, the first coil spring 144 does not move.
[0007]
On the other hand, when the operator presses the operation button 124 or drives the drive member 136 again when closing the drain port, the power transmission member 128 similarly moves in the direction of arrow G in FIG. The wire-like member 148 also moves further downward. As a result, the drain cock is pushed up to the highest position, and the lock of the lock mechanism is released.
[0008]
Here, when a relatively large external force acts on the drain plug in a direction of pushing down the drain plug when the drain plug is pushed up to the highest position, the external force acting on the drain plug is transmitted to the wire-like member 148. Then, as shown in FIG. 9, the external force transmitted to the wire-like member 148 pushes the guide cylinder 142 downward (in the direction of arrow G in FIG. 8) (the state of FIG. 9). At this time, the first coil spring 144 is contracted by being pressed by the guide cylinder 142. At this time, the second coil spring 146 is also in the most contracted state.
[0009]
As described above, according to the conventional drain plug device 110, by disposing the first coil spring 144, the first coil spring 144 can have a function as a shock absorber, and the lock mechanism can be provided. The external force acting on the drain plug when released can be absorbed by the first coil spring 144. For this reason, this external force can be prevented from acting on the drive system, and damage and failure of the drive system can be prevented.
[0010]
However, according to the conventional drain plug device 110, it is necessary to form the space 150 for disposing the first coil spring 144 below the support member 132, and inevitably, to form such a space 150. The support member 132 becomes large. Here, since the support member 132 is disposed extremely narrowly below the edge 120 of the bathtub and in a place where the installation space is limited, if the support member itself becomes large, it is inconvenient in terms of the installation place and the installation space. Is a problem. In other words, the support member 132 is contrary to the demand from the construction point that it must be as small as possible.
[0011]
[Patent Document 1]
JP-A-2001-329591 (Page 16, FIG. 10 and FIG. 11)
[0012]
[Problems to be solved by the invention]
Therefore, the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a drainage plug device capable of preventing an increase in the size of a support member itself.
[0013]
[Means for Solving the Problems]
The present invention employs the following means in order to solve the above problems.
The invention according to claim 1 includes a drain plug disposed at a drain of a water tank, an operation unit having a movable member attached to the water tank or a structure in the vicinity thereof, and a movable member and the drain plug. A transmission member that communicates between the members and transmits the force from the movable member to the drain plug to displace the drain plug, a support member connected to the operation unit to support the transmission member, and the drain plug is displaced. A lock mechanism that holds the drain plug with the drain port opened and displaces the drain plug to release the holding of the drain plug. A wire member connected to the stopper, a shaft member connected to the movable member, and the wire member and the shaft member attached to the support member are movably supported in the longitudinal direction, and both are connected in series. Typically A first connecting member, which is provided inside the connecting member and has an end portion of the wire-like member penetrating therethrough, for absorbing a force from the movable member and restricting movement of the shaft-like member. A coil spring, having a spring constant greater than a spring constant of the first coil spring, disposed between the wire-like member and the shaft-like member, and applying a force equal to or greater than a predetermined magnitude to the wire-like member. And a second coil spring that absorbs this force when it acts to prevent movement of the shaft-shaped member.
[0014]
According to the drain plug device of the present invention, when the movable member is pressed, the movable member moves in the pressing direction with respect to the operation unit. The force acting on the movable member is transmitted to the shaft member, and the shaft member movably supported by the support member moves in the pressing direction. Due to the movement of the shaft-like member, the wire-like members arranged in series are directly or indirectly pressed by the shaft-like member. At this time, the first coil spring contracts, the force transmitted to the shaft member is absorbed by the first coil spring, and stops when the shaft member moves a predetermined distance. On the other hand, when the wire-like member is pushed by the shaft-like member, the wire-like member movably supported by the connection member moves along the pressing direction. When the wire-like member moves in the pressing direction, the drain plug connected to the wire-like member is displaced. At this time, the drain plug is held by the lock mechanism and the drain port is opened. When the movable member is pressed again, the drain plug is similarly displaced, the holding of the drain plug is released by the lock mechanism, and the drain port is closed.
In the normal operation of such a drain plug device, the first coil spring expands and contracts, but the second coil spring having a large spring constant does not expand and contract.
[0015]
On the other hand, in a state where the movable member is pushed in and the holding of the drain plug by the lock mechanism is released, for example, when an external force that presses the drain plug toward the drain port acts on the drain plug, the drain plug moves to the drain port side. Try to move to. Thereby, the wire-shaped member is pressed, and the external force acting on the drain plug is transmitted to the wire-shaped member. When the wire member is pressed, the wire member tends to move in the pressing direction. At this time, if the force applied to the wire-shaped member is equal to or larger than a predetermined magnitude, the movable member is pushed in and the shaft-shaped member does not move, so that the wire-shaped member resists the elastic force of the second coil spring. This pushes the second coil spring.
[0016]
That is, the second coil spring has a spring constant larger than the spring constant of the first coil spring. The coil spring is compressed. When the second coil spring contracts, the external force directly acting on the drain plug is absorbed by the second coil spring, so that the shaft-shaped member can be prevented from moving under the influence of the external force. As a result, it is possible to prevent breakage of not only the shaft-shaped member itself but also, for example, when another member is attached to the shaft-shaped member.
[0017]
According to a second aspect of the present invention, in the drainage plug device according to the first aspect, a piston member that moves inside the connection member in the longitudinal direction together with the shaft member is attached near an end of the shaft member. The second coil spring is housed inside the piston member so as to be able to expand and contract in the longitudinal direction, and the end of the wire-shaped member is attached to the end of the second coil spring. It is characterized in that it is connected via a pressure transmitting member movably arranged along the longitudinal direction inside the piston member.
[0018]
According to the drainage plug device of the present invention, when the movable member is pushed in, the shaft-like member and the piston member move along the longitudinal direction along with the movement of the movable member. The movement of the shaft-like member and the piston member moves the wire-like member to displace the drain plug.
On the other hand, when an external force acts on the drain plug, the drain plug tends to move in the pressing direction. When the drain plug attempts to move, the wire-like member is pressed, and the wire-like member attempts to move in the pressing direction. At this time, if the force acting on the wire-shaped member is equal to or larger than a predetermined magnitude, the pressure transmitting member moves against the elastic force of the second coil spring and pushes the second coil spring. Thus, the second coil spring contracts, so that the external force applied to the drain plug can be absorbed by the second coil spring. As a result, the transmission of the external force to the shaft-shaped member can be prevented, and the movement of the shaft-shaped member due to the action of the external force can be prevented.
[0019]
Further, according to the drain plug device of the present invention, since the second coil spring is disposed inside the piston member, there is no need to provide a space for disposing the second coil spring in the support member itself. For this reason, it is possible to prevent the support member itself from being enlarged, and to easily attach the drainage plug device even in a narrow environment where the installation space for the support member is limited.
[0020]
According to a third aspect of the present invention, in the drainage plug device according to the first or second aspect, a driving unit is attached to the support member, and a driving force is transmitted from the driving unit to the shaft-shaped member. Conversion means for converting a force to move the shaft-shaped member is attached.
[0021]
According to the drainage plug device of the present invention, when the driving means is driven, the driving force is transmitted to the conversion means. The conversion means converts the driving force to move the shaft-shaped member. By moving the shaft-shaped member, the wire-shaped member connected to its lower end can also be moved. As a result, the drain plug can be displaced, and the drain port can be opened or closed.
[0022]
Further, according to the drain plug device of the present invention, since the external force acting on the drain plug is absorbed by the second coil spring, the movement of the shaft-shaped member affected by this external force and the local movement of the wire-shaped member are prevented. Flexible bending can be prevented. For this reason, it is possible to prevent the conversion means attached to the shaft-shaped member and the driving means for transmitting the driving force to the conversion means, and to prevent the wire-shaped member from being damaged or deformed, thereby improving the durability thereof. be able to.
[0023]
According to a fourth aspect of the present invention, in the drainage plug device according to the third aspect, the conversion unit is a rack, and the driving unit includes a pinion that meshes with the rack, and a gear that meshes with the pinion. And a motor that meshes with the gear.
[0024]
According to the drainage plug device of the present invention, when the motor rotates, the driving force of the motor is transmitted to each gear constituting the gear train. The driving force transmitted to the gears is reduced by each gear and transmitted to the pinion. When the driving force is transmitted to the pinion, the pinion rotates, and the driving force transmitted to the pinion is transmitted to the rack. At this time, the rotational motion of the pinion is converted into a linear motion by the rack meshing with the pinion. Thereby, the shaft-shaped member can be moved linearly along its longitudinal direction, and the wire-shaped member connected to the lower end of the shaft-shaped member can also be moved. As a result, the drain plug can be displaced, and the drain port can be opened or closed.
[0025]
Further, according to the drain plug device of the present invention, since the external force acting on the drain plug is absorbed by the second coil spring, it is possible to prevent the shaft-shaped member from being moved by the external force. Therefore, damage to the rack attached to the shaft-shaped member, the pinion meshing with the rack, the gear meshing with the pinion, and the motor meshing with the gear can be prevented.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, a drain plug device according to an embodiment of the present invention will be described with reference to the drawings. The drain plug device of the present embodiment is of a type provided in a bathtub.
As shown in FIGS. 1 and 2, the drain plug device 10 includes a drain plug member 14 arranged at a drain port (not shown) of a bathtub (water tank) 12. The drain plug member 14 includes a drain plug main body 16 that is fitted into a drain port of the bathtub 12. A first connection port 20 to which a drain pipe (not shown) is connected is formed in the drain plug main body section 16, and a second connection port through which a coil section 22 described later is inserted and to which a protection member 24 is connected. 26 are formed. In addition, a drain hole 28 for guiding the water inside the bathtub to a drain pipe is formed in the drain plug main body 16. A strainer 30 for collecting hair, dust, and the like is disposed in the drain hole 28.
[0027]
An umbrella-shaped head (drain plug) 18 for closing or opening the drain hole 28 is arranged in the drain plug main body 16. A push-up member (drain plug) 32 connected to the coil portion 22 is attached to the back surface of the umbrella-shaped head portion 18. The push-up member 32 is housed inside a mechanical box 34, and in a state where the umbrella-shaped head portion 18 is pushed up to open the drain hole 28, a hook provided on the push-up member 32 (not shown, A lock mechanism) protrudes outward and is inserted into a recess (not shown, lock mechanism) formed inside the mechanical box. That is, the umbrella-shaped head portion 18 is fixed at that position by locking the push-up member 32 by the lock mechanism.
[0028]
On the other hand, when the push-up member 32 is pressed via the coil portion 22 in a state where the umbrella-shaped head portion 18 has opened the drain hole 28, the umbrella-shaped head portion 18 is further pushed upward (in the direction of the arrow A in FIG. 1). At the same time, the hook portion is retracted and the insertion of the hook portion into the concave portion is released. That is, the lock of the push-up member 32 by the lock mechanism is released. As a result, the umbrella-shaped head portion 18 is lowered by gravity (in the direction of arrow B in FIG. 1), and the drain hole 28 is closed. Note that a conventionally known lock mechanism is used for engagement between the hook portion and the concave portion.
[0029]
As shown in FIG. 1 and FIG. 2, the other end of the wire-shaped coil portion (transmission member, wire-shaped member) 22, for example, the transmission member centered inside the outer tube, is connected to a casing (support member) 36. It is connected to a pressure transmitting member 40 described later disposed inside. Further, a first insertion port 38 is formed inside the casing 36. A connection member (transmission member) 72 in which the coil portion 22 and a support member (transmission member, shaft-like member) described later are arranged in series is attached to the first insertion port 38.
[0030]
As shown in FIGS. 2 and 3, the connection member 72 is formed in a cylindrical shape, and a disk portion 72 </ b> A protruding radially outward is formed on the outer periphery of a central portion. At one end of the connection member 72, a storage pin 74 through which the coil portion 22 penetrates is attached. The coil section 22 is movable with respect to the storage pin 74. A recess 76 is formed at the tip of the storage pin 74, and an end of a first coil spring (transmission member) 78 is inserted into the recess 76. The coil portion 22 that has penetrated the storage pin 74 penetrates the first coil spring 78. Thus, the first coil spring 78 is disposed inside the connection member 72.
[0031]
As shown in FIG. 3, a piston member 80 is inserted into the other end of the connection member 72. The outer peripheral surface of the piston member 80 is in contact with the inner peripheral surface of the connection member 72, and the piston member 80 is slidable in the axial direction of the connection member 72 (the direction of arrow E in FIG. 3). The piston member 80 is also formed in a cylindrical shape as a whole, and is provided with a lid 82 at the tip thereof, and the opening is closed by the lid 82. The pressure transmitting member 40 described above is disposed inside the piston member 80 and on the upper surface of the lid portion 82. The pressure transmitting member 40 includes a substrate portion 40A that comes into contact with the lid portion 82, and a protruding portion 40B that is formed at the center of the substrate portion 40A and that protrudes from the first coil spring 78 on the opposite side. Are formed in a pin shape as a whole.
[0032]
Further, a through hole 84 is formed substantially at the center of the lid portion 82, and a cylindrical coil housing portion 40C formed in the substrate portion 40A penetrates through the through hole 84 to the first coil spring side. positioned. The end of the coil section 22 is inserted into the coil storage section 40C.
[0033]
Further, a second coil spring (transmission member) 86 is fitted inside the piston member 80 and on the outer periphery of the projection 40 </ b> B constituting the pressure transmission member 40, and one of the second coil springs 86 is fitted. The end part is in contact with the substrate part 82. The spring constant of the second coil spring 86 is set to be larger than the spring constant of the first coil spring 78.
[0034]
On the other hand, a stopper 88 attached to an end of the support member 42 is screwed to a rear end of the piston member 80. The other end of the second coil spring 86 is in contact with the tip of the stopper 88 disposed inside the piston member 80. As described above, the connection member 72 connects the coil portion 22, the piston member 80, and the support member 42 in series with the longitudinal direction of the coil portion 22 and the longitudinal direction of the support member 42 being respectively matched. Let me.
[0035]
As shown in FIGS. 2 and 3, the support member 42 penetrates through a second insertion opening 44 formed in the casing 36, projects outside the casing 36, and has an operation button disposed outside the casing 36. (Operation unit) It is connected to 46.
[0036]
On the other hand, as shown in FIGS. 2 and 3, a fitting portion 48 into which the operation button 46 is fitted is formed near the second insertion opening 44 of the casing 36. The fitting portion 48 includes a body portion 50 formed in a cylindrical shape, and a protruding portion 52 formed at an end on the operation button side of the body portion 50 so as to protrude radially outward of the body portion 50. It is configured. Two engagement holes (through holes) 54 are formed in the body 50.
[0037]
As shown in FIG. 2, an operation button 46 is inserted into the fitting portion 48. The operation button 46 includes a disc-shaped button (movable member) 58 having a back surface to which the support member 42 is connected, and a button body 60 that covers the outer periphery of the button 58. A thread groove is formed on the outer periphery of the button portion main body 60, and a nut 62 is screwed onto the outer periphery. A recess 65 is formed in the vicinity of the lower end of the button portion main body 60, and a projecting piece 64 that forms the recess 65 and protrudes radially outward is formed along the outer periphery below the recess 65. . As described above, the button portion 58 is configured to move in the axial direction of the support member 42 (the direction of arrow C in FIG. 2) with respect to the button portion main body 60.
[0038]
On the other hand, as shown in FIGS. 4 to 6, a driving member 66 for moving the support member 42 is screwed to the casing 36. A substrate 90 is provided on the driving member 66. On the substrate 90, a motor 98, a gear train including three gears 92, 94, and 96 having different diameters, and a gear train 96 having the largest diameter are provided. A pinion 100 attached to a rotating shaft (not shown) is arranged.
[0039]
Here, a gear 98A is attached to the rotation shaft of the motor 98, and a gear 98A having the smallest diameter (hereinafter, appropriately referred to as a "first gear 92") forming a gear train meshes with the gear 98A. ing. The first gear 92 meshes with a gear 94 having a diameter larger than the diameter of the first gear 92 (hereinafter, appropriately referred to as a “second gear 94”). A gear 96 having a diameter larger than the diameter of the second gear 94 (hereinafter, appropriately referred to as a “third gear 96”) meshes with the second gear 94. Therefore, the driving force of the motor 98 is transmitted to the pinion 100 via the gear train.
[0040]
On the other hand, a rack 102 is engaged with the pinion 100, and the rack 102 is attached to the support member 42. Further, magnets 104 are arranged near the upper end and the lower end of the rack 102, respectively. Further, a magnetic sensor (not shown) that senses the magnetism of the magnet 104 is disposed at an upper portion and a lower portion on the substrate 90, respectively. The magnetic sensor is connected to a control unit (not shown) described later.
[0041]
Thus, the driving force of the motor 98 is transmitted to the plurality of gears 92, 94, 96 and the pinion 100, and is transmitted from the pinion 100 to the rack 102. The rotational motion of the pinion 100 is converted into a linear motion of the rack 102, and the linear motion of the rack 102 causes the support member 42 to move up and down. At this time, the position of the support member 42 is controlled by a magnetic sensor arranged at a predetermined position detecting the magnetism of each magnet 104.
[0042]
The drive member 66 is electrically connected to a control unit (not shown). When a touch panel (not shown) connected to the control unit is turned on, a drive command is output from the control unit and the motor 98 is turned on. Is activated. This touch panel is installed in a place different from the bathroom (for example, kitchen).
[0043]
As shown in FIGS. 1 and 2, a C-ring 70 is fitted to the body 50 of the fitting 48. A claw 70A is formed on the inner periphery of the C-ring 70, and the claw 70A penetrates through the engagement hole 54 and engages with the protruding piece 64, so that the operation button 46 does not come off the fitting portion 48. It has become. Thus, the operation button 46 is attached to the casing 36 by the C ring 70.
[0044]
Here, a method of attaching the drain plug device 10 to the edge 11 of the bathtub 12 will be described.
As shown in FIGS. 1 and 2, in the drain plug device 10, the drain plug member 14 is disposed at a drain port of the bathtub 12. The casing 36 to which the driving member 66 is attached and the protection member 24 are disposed below the edge 11 of the bathtub 12, and the fitting portion 48 formed in the casing 36 has a through hole formed in the edge 11 of the bathtub 12. It is positioned so as to be located immediately below 80.
[0045]
On the other hand, the operation button 46 is inserted into the hole 80 and the fitting portion 48 from above the through hole 80 in the edge 11 of the bathtub 12. At this time, the operation button 46 is fitted to the fitting portion 48 such that the upper surface of the projecting piece 64 of the button portion main body 60 is flush with the lower inner peripheral surface of the engagement hole 54 formed in the body portion 50. Inserted. Thereafter, the C-ring 70 is fitted into the body 50 from the lateral direction, and the claw 70A penetrates through the engagement hole 54, is inserted into the recess 65, and engages with the protruding piece 64. Thereby, the operation button 46 is connected to the casing 36. Thereafter, the nut 62 is raised toward the edge of the bathtub 12, and the edge 11 is sandwiched between the outer edge 84 of the button body 60 and the nut 62.
The drain plug device 10 is mounted on the bathtub 12 by the above mounting method.
[0046]
Next, the operation and effect of the drainage plug device 10 of the present embodiment will be described.
In the drainage plug device 10 of the present embodiment, as shown in FIG. 4, a drive command is output to the motor 98 by the control unit by turning on the touch panel with the umbrella-shaped head unit 18 closing the drain port 28. Is done. When a drive command is output from the control unit, the motor 98 is driven to rotate, and the rotation of the gear 98A causes the first gear 92 to rotate. When the first gear 92 rotates, the second gear 94 meshed with the first gear 92 rotates. When the second gear 94 rotates, the third gear 96 meshed with the second gear 94 rotates. When the third gear 96 rotates, the pinion 100 located on the same axis also rotates. Thus, the driving force of the motor 98 is transmitted to the plurality of gears 92, 94, 96 and the pinion 100.
[0047]
As shown in FIG. 4, when the pinion 100 rotates, the rack 102 meshing with the pinion 100 moves linearly, and the rack 102 moves downward (in the direction of arrow D in FIG. 2). Thereby, the support member 42, the stopper 88, and the piston member 80 move downward integrally. When the piston member 80 moves downward, the coil portion 22 is pressed by the pressure transmitting member 40 disposed inside the piston member 80 and moves downward. As the coil part 22 moves downward together with the piston member 80, the lid part 82 of the piston member 80 comes into contact with the first coil spring 78. Then, the piston member 80 moves downward by a predetermined amount against the elastic force of the first coil spring 78. Eventually, when the magnetism of the magnet 104 attached to the rack 102 is sensed by the magnetic sensor, a drive stop command is output from the control unit to the motor 98, and the motor 98 stops. At this time, the first coil spring 78 has contracted by a predetermined amount, but the second coil spring 86 has not contracted because its spring constant is relatively large.
[0048]
As shown in FIGS. 4 and 6, when the coil portion 22 moves downward, the push-up member 32 is pushed upward (in the direction of arrow A in FIG. 6), and the umbrella-shaped head portion 18 is pushed up. When the umbrella-shaped head portion 18 is pushed up by the push-up member 32 and reaches the highest position (highest point), the elastic force of the first coil spring 78 pushes the piston member 80 upward (in the direction of arrow X in FIG. 4). Then, the coil portion 22 and the piston member 80 slightly move upward (in the direction of the arrow X in FIG. 4). As a result, the push-up member 32 and the umbrella-shaped head portion 18 connected to the coil portion 22 slightly move downward (in the direction of arrow B in FIG. 6) (holding position). At this time, the hook portion protrudes outward and is inserted into a concave portion formed inside the radio box. In this way, the lock of the lock mechanism acts to hold the umbrella head 18 at the height of the holding position, and the drain hole 28 is opened. When the drain hole 28 is opened, water inside the bathtub 12 can be drained through the drain hole 28.
[0049]
On the other hand, when pouring water into the bathtub 12, it is necessary to lower the umbrella head 18 to close the opening 28. Here, as shown in FIG. 5, when the touch panel is turned on, a drive command is similarly output to the motor 98 by the control unit, and the motor 98 is driven to rotate, and this driving force is transmitted to the plurality of gears 92, 94. , 96 to the pinion 100. The driving force transmitted to the pinion 100 is transmitted to the rack 102, and the support member 42 moves downward (in the direction of arrow D in FIG. 5) together with the rack 102. When the support member 42 moves downward, the coil portion 22 similarly moves downward (arrow D direction in FIG. 5), pushes out the push-up member 32, and the push-up member 32 presses the umbrella-shaped head portion 18. . As a result, the umbrella-shaped head portion 18 is pushed upward (in the direction of arrow A in FIG. 6), and at the same time, the hook portion is released from the concave portion and the lock by the lock mechanism is released.
[0050]
Here, when a relatively large pressing force (arrow P in FIG. 6) acts on the umbrella-shaped head portion 18 in a downward direction (arrow B direction in FIG. 6), the lock by the lock mechanism has already been released. The umbrella head 18 attempts to move downward (in the direction of arrow B in FIG. 6). As a result, the push-up member 32 is pressed by the umbrella-shaped head portion 18 and tends to move in the pressing direction. Further, the coil portion 22 is pressed by the umbrella-shaped head portion 18 and tends to move in the pressing direction.
On the other hand, since the driving force of the motor 98 is transmitted to the rack 102, the support member 42 attempts to move downward (in the direction of arrow D in FIG. 5) together with the piston member 80. That is, the piston member 80 and the coil portion 22 are pressed against each other.
[0051]
When the piston member 80 and the coil portion 22 are pressed against each other, an external force acting on the umbrella-shaped head portion 18 is equal to or larger than a predetermined magnitude. The resultant force of the force in the direction (the direction of arrow D in FIG. 5) and the force in the upward direction (the direction of arrow X in FIG. 5) of the coil portion 22 is larger than the elastic force of the second coil spring 86. When the resultant force is greater than the elastic force of the second coil spring 86, the pressure transmitting member 40 is pushed by the coil portion 22, and the pressure transmitting member 40 is pressed against the elastic force of the second coil spring 86 by the second force. Of the coil spring 86 is pushed. That is, the second coil spring 86 is pressed by the pressure transmitting member 40 and contracts.
At this time, the piston member 80 does not move upward because the driving force from the motor 98 is transmitted. In this state, the first coil spring 78 is also contracted.
[0052]
As described above, according to the drainage plug device 10 of the present invention, even when an external force of a predetermined magnitude or more acts on the umbrella-shaped head portion 18 after the release by the lock mechanism, the external force is applied to the second coil spring 86. Can be absorbed. For this reason, the piston member 80 and the support member 42 do not move upward (the direction of the arrow X in FIG. 5). As a result, the rack 102 does not move, and the pinion 100 meshing with the rack 102 and the gears 92, 94, 96 meshing with the pinion 100 do not rotate. This can prevent the rack 102, the pinion 100, the gears 92, 94, 96, and the gear 98A of the motor 98 from being damaged.
Furthermore, since the coil spring 86 absorbs the external force, it is possible to prevent the coil portion 22 and the protection member 24 covering the coil portion 22 from being locally bent. Therefore, damage, deformation, and the like of the coil portion 22 and the protection member 24 can be prevented, and the durability thereof can be improved.
[0053]
In addition, according to the drain plug device 10 of the present invention, the second coil spring 86 has a function as a shock absorber, but the second coil spring 86 is provided not to the casing 36 but to the connecting member 72. Is arranged inside the piston member 80 that moves. For this reason, since there is no need to provide an installation pace for disposing the second coil spring 86 in the casing 36, the casing 36 itself can be prevented from being enlarged.
As a result, the casing 36 can be attached to a relatively narrow place such as the edge 11 of the bathtub 12. In addition, since the casing 36 does not become large at the time of mounting, a large construction space is not required at the time of mounting, and the mounting operation is facilitated.
[0054]
On the other hand, when the umbrella-shaped head portion 18 is locked by the lock mechanism and the drain hole 28 is opened (the state shown in FIG. 4), when water or hot water is poured into the bathtub, the touch panel is turned on again, The motor 98 rotates, and each gear 92, 94, 96 and pinion 100 also rotate. The rotation of the pinion 100 causes the rack 102 and the support member 42 to move downward (in the direction of arrow D in FIG. 4), and the movement of the support member 42 pushes the coil portion 22 downward (see FIG. 4). (In the direction of arrow D). Further, the push-up member 32 is pushed by the coil portion 22 and moves upward (in the direction of arrow A in FIG. 6), and the lock by the lock mechanism is released. Thereafter, as shown in FIG. 7, the umbrella head 18 descends in the direction of arrow B in FIG. Thereby, water or hot water can be stored inside the bathtub.
[0055]
In the above description, the drive member 66 is driven by the output signal from the control unit. However, the button 58 of the operation button 46 is directly pressed to raise or lower the umbrella-shaped head 18 of the drain plug 14. Then, the drain hole 28 may be opened or closed.
[0056]
Further, in the present embodiment, the form in which the drain plug device 10 is used for the drain port of the bathtub 12 is described, but the present invention is not limited to this, and the drain plug device 10 can be applied to the drain port of a sink provided in a kitchen. Further, the present invention can be applied to a drain of a basin in a washroom.
[0057]
【The invention's effect】
The drain plug device of the present invention described above has the following effects.
According to the first aspect of the invention, it is possible to prevent the shaft-shaped member from moving under the influence of the external force. As a result, it is possible to prevent breakage of not only the shaft-shaped member itself but also, for example, when another member is attached to the shaft-shaped member.
[0058]
According to the second aspect of the present invention, it is possible to prevent the support member itself from being enlarged, and to easily attach the drainage plug device even in a narrow environment where the installation space for the support member is limited.
[0059]
According to the third aspect of the present invention, since the external force acting on the drain plug is absorbed by the second coil spring, it is possible to prevent the shaft-shaped member from moving under the influence of the external force. Therefore, it is possible to prevent the conversion means attached to the shaft-shaped member and the driving means for transmitting the driving force to the conversion means from being damaged.
[0060]
According to the fourth aspect of the invention, since the external force acting on the drain plug is absorbed by the second coil spring, it is possible to prevent the shaft-shaped member from moving under the influence of the external force. Therefore, damage to the rack attached to the shaft-shaped member, the pinion meshing with the rack, the gear meshing with the pinion, and the motor meshing with the gear can be prevented.
[Brief description of the drawings]
FIG. 1 is a sectional view of a drain plug device according to an embodiment of the present invention.
FIG. 2 is a partial sectional view showing a part of the drainage plug device according to one embodiment of the present invention.
FIG. 3 is a configuration diagram showing a connection member that constitutes the drainage plug device according to one embodiment of the present invention.
FIG. 4 is a partial configuration diagram of the drain plug device in a state where the drain plug is locked by a lock mechanism and a drain port is opened.
FIG. 5 is a partial configuration diagram of the drain plug device in a state where the lock by the lock mechanism is released and the drain plug reaches the highest position.
FIG. 6 is a state diagram of a drain plug showing a state in which a drain port is opened.
FIG. 7 is a state diagram of a drain plug showing a state in which a drain port is closed.
FIG. 8 is a partial sectional view showing a conventional drainage line device.
FIG. 9 is a partial sectional view showing a conventional drainage line device.
[Explanation of symbols]
10 Drain tap device
12 Bathtub (water tank)
18 Umbrella head (drain tap)
22 Coil part (wire-like member)
32 Push-up member (drain tap)
36 Casing (supporting member)
40 Pressure transmission member
42 Supporting member (shaft-shaped member)
46 Operation buttons (operation unit)
58 Button (movable member)
72 Connecting member
78 First coil spring
80 Piston member
86 second coil spring
92 gears
94 gears
96 gears
98 motor
100 pinion
102 racks

Claims (4)

A drain plug disposed at a drain of a water tank, an operation unit having a movable member attached to the water tank or a structure in the vicinity thereof, and a communication between the movable member and the drain plug to communicate with the movable member. A transmitting member for transmitting a force to the drain plug to displace the drain plug, a support member connected to the operation unit to support the transmitting member, and a state in which the drain plug is displaced and the drain port is opened, and And a lock mechanism for holding the drain plug and displacing the drain plug to release the holding of the drain plug.
The transmission member is configured such that the wire member connected to the drain plug, the shaft member connected to the movable member, and the wire member and the shaft member attached to the support member can be moved in the longitudinal direction. A connecting member that supports each and arranges both in series, and an end of the wire-like member inside the connecting member is provided to penetrate therethrough, and absorbs a force from the movable member to form the shaft-like member. A first coil spring for restricting the movement of the member, a spring constant greater than a spring constant of the first coil spring, and disposed between the wire-shaped member and the shaft-shaped member; A second coil spring configured to absorb a force greater than a predetermined magnitude on the member and to prevent the shaft-shaped member from moving when the force is applied to the member. A piston member that moves inside the connection member in the longitudinal direction along with the shaft member is attached near an end of the shaft member, and the second coil spring is provided inside the piston member in the longitudinal direction. A pressure transmitting member which is housed so as to be expandable and contractable and has an end of the wire-like member disposed at an end of the second coil spring so as to be movable along the longitudinal direction inside the piston member. The drainage plug device according to claim 1, wherein the drainage plug device is connected through a drain. Driving means is attached to the support member,
3. The drainage according to claim 1, wherein the shaft-shaped member is provided with a conversion unit that receives a driving force from the driving unit, converts the driving force, and moves the shaft-shaped member. 4. Stopper device. The conversion means is a rack;
4. The drainage plug device according to claim 3, wherein the driving unit includes a pinion that meshes with the rack, a gear that meshes with the pinion, and a motor that meshes with the gear. 5.

Images