JP2020045717A - Faucet stand - Google Patents

Abstract

To provide a faucet stand that can efficiently discharge a liquid having entered a body part.SOLUTION: The faucet stand comprises: a cylindrical body part 20 having openings at both ends; a mounting part provided on the other end side of the body part 20 to attach the body part 20 to a wall part; and a head that is held at one end of the body part 20 and is configured to be able to be pulled out from the one end of the body part 20. The faucet stand has an exhaust passage for discharging a liquid that has entered through the opening at the one end of the body part 20 from the opening 21b at the other end of the body part 20 to the outside of the cylindrical body part 20.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a faucet stand.

Patent Literature 1 describes a faucet stand that is used by being installed on a deck surface of a sink.
As shown in FIG. 10, the faucet stand 90 has a tubular main body 91 having openings 91 a at both ends, and is connected to the other end of the main body 91 and has a through hole formed in a deck surface (not shown). A joint tube 94 is inserted to adjust the position of the main body portion 91 with respect to the deck surface, and a head portion (not shown) held at one end of the main body portion 91 is provided. The head section includes a hose 95 inserted into the main body section 91, and is configured to be able to be pulled out from one end side of the main body section 91. On one end side of the main body portion 91, a cylindrical draining member 96 is mounted. The outer diameter of the draining member 96 is configured to be smaller than the inner diameter of the main body 91, and the draining member 96 is mounted in a state fitted inside the opening 91 a at one end of the main body 91. Since the gap between the hose 95 and the main body 91 is reduced by the draining member 96, water adhering to the surface of the hose 95 is suppressed from entering the inside of the main body 91. In the wall surface on the front side of the main body portion 91, opening holes 97 penetrating the wall surface are provided at two upper and lower locations. The liquid that has passed through the draining member 96 and entered the inside of the main body 91 is configured to be discharged onto the deck surface from these two openings 97.

JP 2007-16454 A

  In the faucet stand 90 of Patent Literature 1, the water (liquid) that has entered the inside of the main body 91 is discharged from a part of the wall surface on the front side of the main body 91. Water that has infiltrated the water is difficult to be discharged. Further, when water enters the other end side of the main body portion 91 from the lower opening hole 97 of the upper and lower two opening holes 97, there is a possibility that it becomes difficult to discharge the water from the opening hole 97. The present invention has been made in view of such circumstances, and an object thereof is to provide a faucet stand that can more appropriately discharge a liquid that has entered the inside of a main body.

  A faucet stand for solving the above-mentioned problem is a tubular main body having openings at both ends, a mounting part provided on the other end side of the main body and attaching the main body to a wall, A water faucet stand comprising a head portion held at one end of the portion and configured to be able to be pulled out from one end of the main body portion, wherein the liquid that has entered through the opening at one end side of the main body portion, The gist of the present invention is to have a discharge passage for discharging from the opening at the other end of the main body to the outside of the cylinder of the main body.

  According to this configuration, by having the discharge path for discharging the liquid that has entered through the opening at one end of the main body to the outside of the cylinder of the main body from the opening at the other end of the main body, the liquid enters the main body. The drained liquid can be more appropriately discharged.

  Regarding the faucet stand, the mounting part has a joint pipe connected to the other end of the main body part to adjust a position of the main body part with respect to the wall part, and the discharge path is provided in the joint pipe. Preferably. According to this configuration, the discharge path can be provided by utilizing the joint pipe.

  With regard to the faucet stand, the mounting portion has a pedestal provided on the wall portion, and the discharge path has an end on the other end of the main body and an end on one end of the pedestal. It is preferable to be provided between them. According to this configuration, the gap between the other end of the main body and the one end of the pedestal can be used as a discharge path.

  Regarding the faucet stand, it is preferable that the mounting portion has a passage interval maintaining member that maintains the passage interval of the discharge passage. According to this configuration, it becomes easy to maintain the passage interval of the discharge passage.

  ADVANTAGE OF THE INVENTION According to the faucet stand of this invention, the liquid which invaded the inside of a main-body part can be discharged | emitted more appropriately.

The perspective view of a faucet stand. Partial sectional view of a faucet stand. FIG. 3 is an exploded cross-sectional view of a main body and a mounting portion of the faucet stand. (A) is a partial perspective view of the joint pipe, (b) is a sectional view taken along line bb of (c), (c) is a plan view of the joint pipe, and (d) is a sectional view taken along line dd of (b). . (A) is a perspective view of a pedestal, (b) is a cross-sectional view taken along line bb of (a), (c) is a perspective view of a rotating member, and (d) is a plan view of the rotating member. Partial sectional view of a faucet stand. The partial perspective view of the joint pipe of a modification. The partial sectional view of the faucet stand of another modification. The partial sectional view of the faucet stand of another modification. FIG. 3 is a partial cross-sectional view of a conventional water tap stand.

An embodiment of the faucet stand will be described.
As shown in FIGS. 1 and 2, the faucet stand 10 is installed on a wall 11 constituting a deck surface of a vanity stand. The faucet stand 10 includes a cylindrical main body 20 having openings 21 a and 21 b at both ends, an attachment part 30 provided on the other end of the main body 20 to attach the main body 20 to the wall 11, And a head 25 which is held at one end of the main body 20 and is configured to be able to be pulled out from one end of the main body 20. The main body 20 is disposed on the pedestal 70 as the mounting part 30 with the axis at the other end side extending along the vertical direction. The main body portion 20 is curved from the center side to one end side, and one end side is inclined toward the wash bowl 11a side (front side) of the vanity stand. An opening 23 for draining water is formed in the wall surface on the front side in the axial center of the main body 20.

  On the lower surface of the head body 25a of the head section 25, a discharge section 25c for discharging hot water is provided. At the tip of the head body 25a, a switching button 25d for switching the discharge mode of hot and cold water discharged from the discharge unit 25c is provided. The discharge unit 25c is configured to be capable of adjusting a discharge amount and switching discharge water by operating an operation unit (not shown) installed at a position adjacent to the faucet stand 10. .

Each member will be described.
First, the mounting portion 30 will be described.
As shown in FIG. 2, the mounting portion 30 includes a holder 40 inserted into a through hole 11 b provided in the wall portion 11, a nut 50 screwed to the holder 40 to fix the holder 40 to the wall portion 11, It has a rotating member 60 attached to one end of the holder 40 and a pedestal 70 also attached to one end of the holder 40. The mounting portion 30 is connected to the main body 20 with the holder 40, the nut 50, the rotating member 60, and the pedestal 70 inserted therethrough, and is connected to the joint pipe 80 for adjusting the position of the main body 20 with respect to the wall 11. Prepare.

  As shown in FIG. 3, the holder 40 has a cylindrical portion 41 and a flange portion 42 formed on the outer periphery on one end side of the cylindrical portion 41. Both the cylindrical portion 41 and the flange portion 42 are configured such that the outer periphery is circular. The outer diameter of the cylindrical portion 41 is configured to be slightly smaller than the outer diameter of the through hole 11b provided in the wall portion 11. The outer diameter of the flange 42 is configured to be larger than the outer diameter of the through hole 11 b provided in the wall 11.

  An annular vertical wall 43 protruding in the axial direction from an inner peripheral edge of the cylindrical portion 41 is provided on an end surface on one end side of the cylindrical portion 41. A thread groove 44 is formed on the outer periphery of the cylindrical portion 41 on the other end side of the flange portion 42. An annular concave portion 45 is formed in the inner periphery on the other end side of the cylindrical portion 41 along the circumferential direction. The holder 40 is configured such that when the cylindrical portion 41 is inserted into the through hole 11b of the wall portion 11, a part of the screw groove 44 projects from the lower surface of the wall portion 11. The holder 40 is fixed to the wall 11 by screwing the screw groove 51 of the nut 50 into the screw groove 44 protruding from the lower surface of the wall 11. That is, the holder 40 is fixed to the wall 11 by sandwiching the wall 11 between the flange 42 and the nut 50 of the holder 40.

  As shown in FIGS. 2 and 3, between the flange portion 42 of the holder 40 and the upper surface of the wall portion 11, an annular packing 46 that seals between them is arranged. The material of the packing 46 is not particularly limited, but is preferably a foamed resin. If the resin is a foamed resin, the packing 46 can be compressed in the thickness direction when the nut 50 is screwed into the holder 40, so that the packing 46 can be made inconspicuous. As the foamed resin, for example, foamed polyethylene can be used.

  An annular packing 47 is arranged between the nut 50 and the lower surface of the wall 11. The material of the packing 47 is not particularly limited, but is preferably rubber. Due to the frictional force between the annular packing 47 and the lower surface of the wall 11, rotation of the mounting portion 30 with respect to the wall 11 is suppressed. Further, an annular slip washer 48 is arranged between the packing 47 and the nut 50. The friction between the nut 50 and the packing 47 can be reduced by disposing the slip washer 48.

  As shown in FIGS. 2 and 3, the turning member 60 as the mounting portion 30 is formed in a tubular shape. A step 63 is formed on the inner periphery of the rotating member 60 at the center in the axial direction. The step 63 is formed in an annular shape along the circumferential direction of the rotating member 60. The rotating member 60 has a first inner peripheral portion 61 on one end side of the stepped portion 63 and a second inner peripheral portion 62 on the other end side of the stepped portion 63. The inner diameter of the first inner peripheral portion 61 is smaller than the inner diameter of the second inner peripheral portion 62. The first inner peripheral portion 61 is formed in a non-circular shape. Specifically, the first inner peripheral portion 61 has a shape in which four corners of a rectangular shape are curved, and is configured to be able to be fitted to a shaft portion 81 of a joint pipe 80 described later. ing. The second inner peripheral portion 62 is formed in a circular shape. The inner diameter of the second inner peripheral portion 62 is configured to be slightly larger than the outer diameter of the vertical wall 43 provided on one end side of the holder 40, and the second inner peripheral portion 62 is fitted on the vertical wall 43 of the holder 40. In this state, the rotating member 60 is disposed on one end side of the holder 40. The rotating member 60 is configured to be rotatable in the circumferential direction in a state where the rotating member 60 is disposed on one end side of the holder 40. Between the step portion 63 of the rotating member 60 and the vertical wall 43 of the holder 40, an annular packing 64 having a U-shaped cross section for sealing therebetween is arranged. By disposing the annular packing 64, it is possible to seal between the holder 40 and the rotating member 60 and between the joint pipe 80 inserted into the rotating member 60 and the rotating member 60.

  As shown in FIGS. 2 and 3, the pedestal 70 as the mounting portion 30 has a circular top wall 71 and an outer peripheral wall 72 extending from the outer peripheral edge of the top wall 71 in the thickness direction of the top wall 71. . The inner diameter of the outer peripheral wall 72 is slightly larger than or substantially equal to the outer diameter of the flange portion 42 of the holder 40. At the center of the top wall 71, an insertion hole 73 into which a joint pipe 80 described later is inserted is formed. An inner peripheral wall 74 extending in the same direction as the outer peripheral wall 72 is formed on the peripheral edge of the insertion hole 73. The outer peripheral wall 72 and the inner peripheral wall 74 are formed at a predetermined interval, and the height of the inner peripheral wall 74 is lower than the height of the outer peripheral wall 72.

  As shown in FIG. 2, the pedestal 70 is attached to the holder 40 in a state where the outer peripheral wall 72 of the pedestal 70 is fitted on the flange portion 42 of the holder 40. The pedestal 70 is press-fitted by utilizing the bending of the outer peripheral wall 72, and the outer peripheral wall 72 of the pedestal 70 and the flange portion 42 of the holder 40 are connected by uneven fitting (not shown) between the outer periphery of the flange 42 and the inner periphery of the outer peripheral wall 72. It will be in the state of being forcibly fitted. In other words, the outer peripheral wall 72 of the pedestal 70 is fixed to the flange portion 42 of the holder 40 by being fitted and killed. Thereby, rotation of the pedestal 70 with respect to the holder 40 is suppressed. When the pedestal 70 is attached to the holder 40, the rotating member 60 is arranged inside the pedestal 70. Specifically, one end of the rotating member 60 is fitted inside the inner peripheral wall 74 of the pedestal 70. When the pedestal 70 is attached, the flange portion 42 and the rotating member 60 of the holder 40 are covered with the pedestal 70 and cannot be seen from the outside, so that the pedestal 70 also functions as a cover.

As shown in FIG. 3, the joint pipe 80 as the attachment part 30 has a cylindrical shaft part 81 and a flange part 82 provided on one end side of the shaft part 81.
As shown in FIG. 4D, the outer periphery of the shaft portion 81 is formed in a non-circular shape. Specifically, the outer periphery of the shaft portion 81 has a shape in which four corners of a rectangular shape are curved, and is configured so that it can be fitted to the first inner peripheral portion 61 of the rotating member 60. Have been. By fitting the shaft portion 81 to the first inner peripheral portion 61 of the rotating member 60, the joint pipe 80 and the rotating member 60 are configured to rotate integrally.

  As shown in FIG. 3, a plurality of concave grooves 83 are formed on the outer periphery of the other end side of the shaft portion 81 at predetermined intervals in the axial direction. Each of the plurality of concave grooves 83 is formed in an annular shape along the circumferential direction of the shaft portion 81. The C ring 27 is attached to the concave groove 83.

  As shown in FIGS. 4A to 4D, the flange portion 82 is provided over the entire circumference of the shaft portion 81, and has a circular outer circumference. A screw groove 82a is provided on the outer periphery of the flange portion 82. The screw groove 82a and the screw groove 22 provided on the inner circumference at the other end of the main body 20 are screwed together, so that the main body 20 and the joint pipe 80 are connected. An adhesive (not shown) is applied between the screw groove 82 a of the flange 82 and the screw groove 22 provided on the inner circumference at the other end of the main body 20. Since the adhesive is applied between the two, the screwed state between the two can be strengthened.

  The flange portion 82 includes a bottom wall 82b extending radially outward of the shaft portion 81, a side wall 82c extending from the outer peripheral edge of the bottom wall 82b to one end of the shaft portion 81, and a plurality of ribs connecting the side wall 82c and the shaft portion 81. 82d. The plurality of ribs 82d are formed in a plate shape, stand upright from the bottom wall 82b, and are arranged side by side so as to be radial with respect to the axis of the shaft portion 81.

  As shown in FIGS. 4B and 4C, the flange 82 has a notch 82 f that is cut out in a substantially rectangular shape from the outer peripheral edge to the inner peripheral side of the bottom wall 82 b of the flange 82. A plurality is formed. The notch portion 82f is also formed continuously on the side wall 82c of the flange portion 82, and is cut out in a substantially rectangular shape from the base end side to the tip end side of the side wall 82c. The plurality of notches 82f are respectively provided between adjacent ribs 82d in the plurality of ribs 82d. By providing the notch 82f, a hole penetrating in the axial direction of the shaft 81 is formed in the bottom wall 82b of the flange 82.

  As shown in FIGS. 4B and 4D, a protruding portion 82e protruding from the other end of the shaft portion 81 is formed on the back side of the bottom wall 82b opposite to the front side where the side wall 82c is provided. ing. The projecting portion 82e is formed in an annular shape having an outer diameter smaller than the bottom wall 82b, and the inner peripheral side of the projecting portion 82e is formed integrally with the shaft portion 81. The other end surface M of the shaft portion 81 in the protruding portion 82e is formed as a plane, and in a state where the main body portion 20 and the joint pipe 80 are connected, an end portion 20a on the other end side of the main body portion 20, The end face M of the projection 82e is configured to be located on the same plane.

  As shown in FIGS. 2 and 3, an O-ring 84 is attached to the outer periphery of the protruding portion 82e as a passage interval maintaining member. The O-ring 84 is made of rubber. The thickness of the O-ring 84 is configured to be larger than the protruding height of the protruding portion 82e, and in a state where the O-ring 84 is attached to the protruding portion 82e, the O-ring 84 84 is configured to protrude.

  Here, the above-mentioned annular packing 46, annular packing 47, annular slip washer 48, annular packing 64 having a U-shaped cross section, O-ring 84, and C-ring 27 are also included in the mounting portion 30. .

Next, the main body 20 will be described.
As shown in FIG. 2, the main body 20 has a thread groove 22 formed on the inner periphery on the other end side, and the thread groove 82 a of the flange 82 of the joint pipe 80 is screwed into the thread groove 22. I have. A draining member 24 is attached to the opening 21 a on one end side of the main body 20. The draining member 24 is formed in a tubular shape, and the outer diameter of the draining member 24 is configured to be smaller than the inner diameter of the opening 21 a at one end of the main body 20. The draining member 24 is attached to the main body 20 in a state where the other end of the draining member 24 is fitted inside the opening 21a at one end of the main body 20. The inner diameter of the draining member 24 is configured to be slightly larger than the diameter of a hose 25b connected to a head main body 25a described later, and the clearance between the inner periphery of the draining member 24 and the outer periphery of the hose 25b is configured to be small. I have. Therefore, the water adhering to the surface of the hose 25b comes into contact with one end of the draining member 24 and is easily dropped. This suppresses water from entering the inside of the main body 20 through the opening 21a at one end.

Next, the head section 25 will be described.
As shown in FIGS. 1 and 2, the head section 25 has a cylindrical head body 25a and a hose 25b connected to the other end of the head body 25a. The hose 25b supplies hot water to the head main body 25a, and extends to the back side of the wall portion 11 with the main body portion 20 of the faucet stand 10 and the mounting portion 30 being inserted. The hose 25b is configured to be able to be pulled out together with the head main body 25a by a predetermined length when the head main body 25a is pulled out from the main body section 20.

  The head main body 25 a is configured to be held on one end side of the main body 20. More specifically, the head body 25a is configured to be held by the main body 20 in a state where the inner circumference on the other end side is fitted to the outer circumference of the draining member 24 attached to one end side of the main body 20. I have.

The position adjusting mechanism of the faucet stand 10 will be described.
As shown in FIG. 2, in a state where the main body part 20, the head part 25, and the mounting part 30 are assembled, the C-ring 27 is attached to the concave groove 83 provided on the outer periphery on the other end side of the joint pipe 80. I have. When the main body 20 is lifted in the vertical direction with respect to the wall 11, the joint pipe 80 is lifted together with the main body 20. When the main body 20 is further lifted, the C ring 27 attached to the joint pipe 80 is fitted into the concave portion 45 provided on the inner circumference on the other end side of the holder 40. By fitting the C-ring 27 into the concave portion 45 of the holder 40, the position of the main body 20 is fixed. The position of the main body 20 can be adjusted at two positions: a position before the main body 20 is lifted with respect to the wall 11, and a position at which the C ring 27 is fitted into the concave portion 45 of the holder 40. Therefore, the joint pipe 80 functions as an adjusting member that adjusts the position of the main body 20 with respect to the wall 11. At the other end of the joint tube 80, the adjustable position of the main body 20 can be selected by selecting the concave groove 83 for mounting the C-ring 27 from a plurality of concave 83 grooves.

The moderating mechanism of the faucet stand 10 will be described.
As shown in FIGS. 5A and 5B, a plurality of protrusions 75 are juxtaposed along the circumferential direction on the inner wall surface of the inner peripheral wall 74 of the pedestal 70.

  As shown in FIGS. 5C and 5D, an engaging portion 65 having elasticity in the radial direction is provided on the outer periphery of one end of the rotating member 60. The engaging portion 65 has an arm portion 65a extending along the circumferential direction of the rotating member 60, and a claw portion 65b projecting radially outward of the rotating member 60 at the tip of the arm portion 65a. The arm 65a is configured such that the base end is connected to the turning member and the distal end is separated from the turning member.

  As shown in FIG. 2, in a state where one end side of the rotating member 60 is fitted inside the inner peripheral wall 74 of the pedestal 70, the engaging portion 65 of the rotating member 60 engages with the convex portion of the inner peripheral wall 74 of the pedestal 70. 75 is engaged. When the joint pipe 80 is rotated together with the main body 20 of the faucet stand 10, the rotating member 60 also rotates integrally. Therefore, the engaging portion 65 of the rotating member 60 is moved to the convex portion 75 of the inner peripheral wall 74 of the pedestal 70. And a resistance is generated. This resistance is transmitted to the hand of the person who rotates the main body 20 of the faucet stand 10 as a sense of moderation. Therefore, the plurality of convex portions 75 provided on the inner peripheral wall 74 of the pedestal 70 function as engaged portions. The engagement part 65 of the rotating member 60 and the engaged part of the pedestal 70 constitute a moderation member.

The operation of the present embodiment will be described.
As shown in FIG. 6, in a state where the members of the faucet stand 10 are assembled, a gap S is provided between an end 20 a on the other end of the main body 20 and an end 70 a on one end of the pedestal 70. Are formed. The gap S is formed by the O-ring 84 attached to the protrusion 82 e on the back side of the flange 82 of the joint pipe 80 protruding from the protrusion 82 e in the axial direction of the joint pipe 80. A plurality of notches 82f are formed in the flange 82 of the joint tube 80, and a plurality of holes penetrating the flange 82 are formed. Thereby, as shown by the arrow, the water that has entered from the opening at one end of the main body 20 passes through the notch 82f of the flange 82 at the opening 21b at the other end of the main body 20. Further, the air passes through a gap S between an end portion 20a on the other end side of the main body 20 and an end portion 70a on one end side of the pedestal 70, and is discharged onto the wall portion 11 outside the cylinder of the main body portion 20. Therefore, the notch 82 f of the flange 82 and the gap S between the end 20 a at the other end of the main body 20 and the end 70 a at the one end of the pedestal 70 constitute a discharge path. Here, a discharge path formed by the notch 82f of the flange 82 is referred to as a first discharge path R1, and a gap S between an end 20a on the other end of the main body 20 and an end 70a on one end of the pedestal 70. Is defined as a second discharge path R2.

The effect of the present embodiment will be described.
(1) There is a discharge path for discharging water that has entered through the opening 21 a on one end of the main body 20 from the opening 21 b on the other end of the main body 20 to the outside of the cylinder of the main body 20.

  Regardless of the position on the front side, the back side, or the like of the main body 20, water that has entered the inside of the main body 20 can be discharged from the opening 21 b on the other end to the outside of the cylinder of the main body 20. Water that has entered the inside of the section 20 can be more appropriately discharged. Further, since the number of the opening holes 23 provided in the wall surface of the main body 20 can be reduced, the appearance of the faucet stand 10 can be improved.

  (2) The joint pipe 80 has an O-ring 84 as a passage space maintaining member for maintaining the passage space of the discharge passage. Therefore, it is easy to maintain a predetermined gap S between the end 20a on the other end of the main body 20 and the end 70a on the one end of the pedestal 70, which is the interval between the discharge paths.

This embodiment can be implemented with the following modifications. The present embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
The liquid discharged from the discharge passage of the faucet stand 10 is not limited to water. Liquid soap or detergent may be used.

  In the present embodiment, one drainage opening hole 23 is formed in the front wall surface at the axial center part of the main body part 20, but the drainage opening hole 23 is not formed. Is also good. Since the opening hole 23 is not formed in the wall surface of the main body 20, the appearance of the faucet stand 10 can be further improved. Two or more drain holes 23 may be formed.

  The head 25 of the faucet stand 10 is not limited to a mode in which the head main body 25a is held by the draining member 24 connected to one end of the main body 20. The faucet stand 10 may not have the draining member 24, and the head main body 25a may be directly held on one end side of the main body 20.

  -The O-ring 84 as a passage spacing maintaining member is not limited to the mode attached to the joint pipe 80. For example, the O-ring 84 may be attached to the end 70 a at one end of the pedestal 70.

  The passage interval maintaining member is not limited to the rubber O-ring 84. A member that can maintain a predetermined gap S between the other end 20a of the main body 20 and the one end 70a of the pedestal 70 can be appropriately employed. Other than the rubber O-ring 84, for example, a resin or metal annular packing can be used.

  -The O-ring 84 as a passage spacing maintaining member may be omitted. That is, the second discharge path R2 may be formed without using the O-ring 84. For example, a gap S may be formed by providing a plurality of irregularities or grooves on one end 70a side of the pedestal 70. Further, for example, a plurality of concaves and convexes or grooves may be provided on the other end 20a side of the main body 20 to form the gap S. Further, the gap S may be formed by protruding the protrusion 82 e of the flange 82 in the joint tube 80 beyond the end 20 a on the other end side of the main body 20 toward the wall 11.

  -The shape and the number of the notches 82f provided in the flange 82 of the joint pipe 80 are not limited to the form of the present embodiment. The notch 82f may be provided only on the bottom wall 82b of the flange 82, or may be provided only on the side wall 82c of the flange 82. The shape and number of the notches 82f can be appropriately selected as long as the water that has entered the inside of the main body 20 can be discharged.

  -The configuration of the flange portion 82 of the joint pipe 80 is not limited to the configuration of the present embodiment. For example, as shown in FIG. 7, the flange portion 82 of the joint pipe 80 is formed in a disk shape, and a groove 85 extending in the axial direction is provided on an outer peripheral edge of the disk shape. The discharge path R1 may be used. In addition, for example, a groove extending in the axial direction may be provided on the inner circumference on the other end side of the main body 20, and this groove may be used as the first discharge path R1.

  -The joint pipe 80 as the attachment part 30 does not need to have a function as an adjusting member for adjusting the position of the main body part 20. For example, as shown in FIG. 8, the C ring 27 attached to the concave groove 83 on the outer periphery of the other end of the shaft portion 81 of the joint pipe 80 is in contact with the end 40 b of the other end of the holder 40. It may be configured such that the position of the joint pipe 80 cannot be changed in the axial direction of the holder 40.

  The mounting portion 30 of the faucet stand 10 may be configured without the pedestal 70, the rotating member 60, and the holder 40. For example, as shown in FIG. 9, a screw groove 86 is formed on the outer periphery of the other end side of the shaft portion 81 of the joint pipe 80, and the screw groove 51 of the nut 50 is directly screwed into the screw groove 86, The main body 20 of the faucet stand 10 may be attached to the wall 11.

  The wall 11 to which the main body 20 of the faucet stand 10 is attached is not limited to the wall 11 constituting the deck surface of the vanity stand. It may be attached to a wall constituting a counter of a kitchen or a bathroom. Further, the wall portion 11 is not limited to the mode arranged in the horizontal direction like the deck surface of the vanity stand of the present embodiment, and may be arranged in the vertical direction.

10: faucet stand, 11: wall, 20: body, 21a, 21b: opening, 25: head, 30: mounting part.

Claims (4)

A cylindrical main body having openings at both ends; a mounting portion provided at the other end of the main body to attach the main body to a wall; and a main body held at one end of the main body. A faucet stand comprising a head portion configured to be able to be pulled out from one end side of the faucet,
A faucet stand, comprising: a discharge path for discharging the liquid that has entered through the opening at one end of the main body to the outside of the cylinder of the main body from the opening at the other end of the main body. . The mounting portion has a joint pipe connected to the other end of the main body portion to adjust a position of the main body portion with respect to the wall portion,
The faucet stand according to claim 1, wherein the discharge path is provided in the joint pipe. The mounting portion has a pedestal provided on the wall portion,
The faucet stand according to claim 1, wherein the discharge path is provided between an end on the other end of the main body and an end on one end of the pedestal. The faucet stand according to any one of claims 1 to 3, wherein the mounting portion includes a passage interval maintaining member that maintains an interval of the discharge passage.

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