JPH07268918A - Faucet fixing structure - Google Patents

Abstract

PURPOSE:To lock a fastening seat plate in it slant posture on a guide piece or a fastening bolt, and easily and reliably screw-fit a fastening nut with both hands by arranging a seat plate locking through hole in a position eccentric from the axis of the fastening seat plate. CONSTITUTION:A seat plate locking through hole 57 is arranged in a position eccentric from the center line X-X of a fastening seat plate 56, and since the center of gravity of the fastening seat plate 56 penetratingly passing through a guide piece 50 of an operation lever 51 of a pop-up type drain cock exists on the opposite side of an operation lever guide piece 50, the fastening seat plate 56 inclines with an engaging part with the operation lever guide piece 50 as its center. In this condition, the fastening seat plate 56 does not fall even if one's hold is released since an inside surface of the seat plate locking through hole 57 is contacted with and locked on a surface of the operation lever guide piece 50. Thereby, screw-fitting work of a fastening nut to a fastening bolt can be easily and reliably performed by using both hands. It may be locked by using a through hole of the fastening bolt instead of the seat plate locking through hole 57.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a faucet fixing structure capable of easily attaching and fixing a faucet to a wash bowl or the like.

[0002]

2. Description of the Related Art Conventionally, as a form of a structure for fixing a faucet,
As described in Japanese Patent Application Laid-Open No. 3-178430, the faucet mounting seat fixed to the base of the faucet body and the tightening seat plate sandwich the faucet mounting wall, and a base end is formed at the base of the faucet body. Extend the tightening bolts that have been secured through the through holes provided in the faucet mounting wall and the through holes provided in the tightening seat plate, and screw the tightening nuts into the extended parts to attach the tightening seat plate to the faucet. There is a faucet fixing structure that can be fixed to the faucet mounting surface on the wall.

Further, such a faucet main body mounting structure has a structure capable of mounting an operating rod of a pop-up type drain plug, and the operating rod extends downward through a through hole provided in a faucet mounting wall.

[0004]

In the faucet fixing work using the conventional faucet fixing structure described above, in order to screw the tightening nut to the tightening bolt, the tightening seat plate is temporarily held. Although it is necessary, since no holding means is provided, the tightening seat plate is pressed with one hand and the tightening nut is screwed into the tightening bolt with the other hand.

However, the work of screwing the tightening nut onto the tightening bolt with only one hand has been a complicated work because the working space is narrow.

In addition, in order to increase the fixing strength between the faucet base and the tightening seat plate, and because of the compatibility with other components, a guide is separately required to maintain the directionality of each other. Therefore, the faucet is required. Was supposed to raise the production cost of.

An object of the present invention is to provide a water faucet fixing structure capable of solving the above problems.

[0008]

According to the present invention, a base portion of a faucet body and a tightening seat plate are provided on the upper and lower surfaces of a mounting opening provided in a faucet mounting wall, respectively. Extend the tightening bolt with the upper end fixed to the base part downward through the mounting opening and the through hole provided in the tightening seat plate, screw the tightening nut into the downward extension of the tightening bolt, and use the screw to tighten the tightening seat. In the faucet fixing structure in which the plate is crimped to the lower surface of the faucet mounting wall and the faucet body can be fixed to the faucet mounting surface on the faucet mounting wall, the tightening seat plate is attached to the base of the faucet body. At the position eccentric from the axis, attach the base end of the operating rod guide piece of the long pop-up type drain plug that extends downward through the mounting opening, and attach the guide piece to the seat plate locking transparent plate provided on the tightening seat plate. The present invention relates to a faucet fixing structure characterized by being penetrated and locked in a hole.

According to the present invention, the base portion of the faucet body and the tightening seat plate are respectively disposed on the upper and lower surfaces of the mounting opening provided in the faucet mounting wall, and the upper end is provided at the base portion of the faucet body. Extend the secured tightening bolt downward through the mounting opening and the through hole provided in the tightening seat plate, screw the tightening nut into the downward extension part of the tightening bolt, and screw the tightening seat plate into the faucet. In a faucet fixing structure in which the faucet body can be fixed to the faucet mounting surface on the faucet mounting wall by crimping to the lower surface of the mounting wall, the tightening bolts are placed at a position eccentric from the axis of the tightening seat plate. However, the present invention relates to a faucet fixing structure characterized in that the tightening bolt is penetrated and locked in a through hole provided in a tightening seat plate.

According to the present invention, the base portion of the faucet body and the tightening seat plate are respectively disposed on the upper and lower surfaces of the mounting opening provided in the faucet mounting wall, and the upper end is provided at the base portion of the faucet body. Extend the secured tightening bolt downward through the mounting opening and the through hole provided in the tightening seat plate, screw the tightening nut into the downward extension part of the tightening bolt, and screw the tightening seat plate into the faucet. In a faucet fixing structure in which the faucet body can be fixed to the faucet mounting surface on the faucet mounting wall by crimping to the lower surface of the mounting wall, the base of the faucet body is eccentric from the axis of the tightening seat plate. At the position, attach the base end of the operating rod guide piece of the long pop-up type drain plug that extends downward through the mounting opening, and penetrate the guide piece through the seat plate locking through hole provided in the tightening seat plate. While locking, place the tightening bolt at a position eccentric from the axis of the tightening seat plate. Those of the faucet fixing structure, characterized in that belt was sealed through-engaged in a through hole provided in the clamping for seat plate.

[0011]

The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings.

(Embodiment 1) In this embodiment, as shown in FIGS. 1 and 2, the faucet fixing structure according to the present invention is equipped with a hand detecting sensor to automatically detect a hand movement. This is the case when it is applied to the automatic faucet A capable of spouting and stopping water. However, the application target of the present invention is not limited to the automatic faucet A.

As shown in FIGS. 1 and 2, an automatic faucet A having a faucet fixing structure according to this embodiment has a faucet mounting surface 30a formed at the back of a wash bowl 30 of a basin B. The faucet part A1 installed and below the washbasin B, and the faucet part
A1 is composed of an automatic faucet control box C for supplying the mixed hot and cold water through the mixed hot and cold water supply pipe 5 which is made of a flexible tube such as a resin tube (vinyl chloride pipe or the like).

The faucet portion A1 includes a faucet body 1 installed on the faucet mounting surface 30a in a forwardly inclined state, a water discharge pipe 3 having a base end projecting from an upper front portion of the faucet body 1. It is composed of a hand detecting sensor S provided on the same front surface and below the water discharge pipe 3.

On the other hand, the automatic control box C contains therein a thermostat type mixing valve V, an electromagnetic opening / closing valve V1, a control unit F, a power supply unit E, etc. Is a hot water supply pipe 7 whose upstream end is connected to a hot water supply source and a water supply source, respectively.
And the other end of the water supply pipe 8 are connected for communication.

With this structure, the user can wash the bowl.
When the hand H is inserted into the hand 30, the hand detection sensor S operates to output an output signal, and the controller F opens the electromagnetic opening / closing valve V1 based on the output signal. Therefore, the mixed hot water whose temperature is adjusted to an appropriate temperature by the thermostatic mixing valve V is discharged from the water discharge pipe 3 into the wash bowl 30 via the mixed hot water supply pipe 5 and the faucet body 1. The hand H can be automatically washed with water.

The present invention is characterized by a faucet fixing structure for fixing the automatic faucet A having the above-mentioned structure to the faucet mounting surface 30a.

The faucet fixing structure will be described below with reference to FIGS. 2 and 5.

As shown in the figure, in a faucet body 1 having a double pipe structure in which an inner pipe 12 and an outer pipe 11 are concentrically arranged, a skirt portion 12a forming a base end of the inner pipe 12 is Plug mounting surface 30a
It is disposed above the mounting opening 39 provided in. Further, the skirt portion 12a has a bolt fixing metal fitting 40 integrally attached to the inner peripheral surface thereof, and the bolt fixing metal fitting 40 is a long tightening bolt that extends vertically downward at a position eccentric from the center.
The upper end of 41 is fixedly connected.

Further, the bolt fixture 40 has a through hole 42 through which the mixed hot and cold water supply pipe 5, the control cord 17 and the like are inserted, and an operation rod 51 and an operation rod guide piece of a pop-up type drain plug described later.
A notch groove 43 for inserting 50 is provided.

An annular water faucet mounting seat 44 is attached to the lower surface of the skirt portion 12a of the inner pipe 12 in a fitted state. The water faucet mounting seat 44 has a through hole through which the tightening bolt 41 is inserted. 45
A through hole 46 through which the mixed hot and cold water supply pipe 5, the control cord 17 and the like are inserted, and a cutout groove 47 through which the operating rod 51 and the operating rod guide piece 50 are inserted.

On the lower surface of the faucet mounting seat 44, an operating rod guide is provided.
48 is provided, and the operating rod guide 48 is an upper annular portion.
49, and an operating rod guide piece 50 having a semicircular cross section that is integrally provided on the peripheral edge of the upper annular portion 49.

Then, an upper annular portion 49 of the operating rod guide 48.
A through hole for inserting the tightening bolt 41, the mixed hot and cold water supply pipe 5, the control cord 17 and the like is formed therein, while a guide groove 52 for guiding the operating rod 51 is formed in the operating rod guide piece 50. Will be formed.

An annular upper packing 52a is provided between the faucet mounting seat 44 and the operating rod guide 48.

Next, on the rear surface side of the mounting opening 39, as shown in FIGS. 2 and 5, an annular chrysanthemum washer 54 and a packing 55, each of which is formed by cutting out a part of its peripheral edge, are provided.

A horseshoe-shaped thick seat plate 56 for tightening is arranged below the packing 55.
A through hole 57 for inserting the tightening bolt 41 and a notch groove for inserting the mixed hot and cold water supply pipe 5, the control cord 17 and the like are provided at 56.
58 and a through hole 59 for inserting the operating rod 51 and the operating rod guide piece 50 are provided.

Normally, a chrysanthemum washer 54, a packing 55,
The tightening seat plate 56 is integrally formed with an adhesive or the like in order to facilitate the work of fixing the faucet.

Further, below the tightening seat plate 56, a tightening nut 60 made of a long cylinder is arranged.

Next, the procedure for fixing the faucet body 1 to the faucet mounting surface 30a by the faucet fixing structure having the above-mentioned structure will be described.

As shown in FIGS. 2 and 5, the faucet mounting surface 30
Place the faucet body 1 on top of a, the upper packing 52a, and the operating rod guide.
48, Mounted via the faucet mounting seat 44.

As shown in FIGS. 5 and 6, a state in which the mixed hot and cold water supply pipe 5, the control cord 17, the operating rod guide 48, the tightening bolt 41, etc. are penetrated or inserted through the back side of the mounting opening 39. Then, the chrysanthemum washer 54, the packing 55, and the tightening seat plate 56 are sequentially attached.

After that, the tightening nut 60 is screwed into the tightening bolt 41, and the tightening seat plate 56 is strongly pressed against the back side of the mounting opening 39, so that the faucet body 1 is firmly attached to the faucet mounting surface 30a. Can be stuck to.

Further, in the fixing work, in order to screw the tightening nut 60 into the tightening bolt 41, it is necessary to hold the tightening seat plate 56. In the case of this embodiment, the operating rod guide piece 50 is used. Shows the center XX of the tightening seat plate 56 as shown in FIG.
Since it is arranged at a position eccentric to the operating rod guide piece 50, the center of gravity of the tightening seat plate 56 is located on the opposite side of the operating rod guide piece 50 as shown in FIG. 50
The inner surface of the through hole 57 comes into contact with the surface of the operating rod guide piece 50 while inclining about the engaging portion with.

Therefore, the tightening seat plate 56 is in a so-called automatic stop state, and even if the operator releases the hand, the tightening seat plate 56 is surely held by the operating rod guide piece 50. The tightening operation of the tightening nut 60 can be performed very easily and reliably.

In the fixing work described above, the operation rod guide piece 50 may be replaced with a tightening bolt 41 to automatically stop the operation.

That is, in the case of this embodiment, the tightening bolt 41 is
As shown in FIG. 5, since it is arranged at a position eccentric from the center of the tightening seat plate 56, the center of gravity of the tightening seat plate 56 is located on the opposite side of the tightening bolt 41, as shown in FIG. As a result, the tightening seat plate 56 inclines about the engaging portion with the tightening bolt 41, and the inner surface of the through hole 57 contacts the surface of the tightening bolt 41.

Therefore, also in this case, the tightening seat plate 56 is in the so-called automatic stop state, and the tightening seat plate 56 is released even if the hand is released.
Since 56 is held by the tightening bolt 41, the work of screwing the tightening nut 60 onto the tightening bolt 41 can be performed extremely easily and reliably.

Next, the configuration of each component of the automatic faucet A according to the illustrated embodiment, and the action and effect thereof will be specifically described with reference to the accompanying drawings.

(Faucet body 1) In the present embodiment, the direction of water discharge of the mixed hot water discharged from the water discharge pipe 3 of the water faucet body 1 is substantially horizontal.

That is, as shown in FIG. 1, in the present embodiment, the water discharge port 10a of the water discharge pipe 3 has its water discharge direction set to the water discharge line.
The angle θ formed by L ₁ with respect to the virtual horizontal line L ₂ is 0 ° downwardly.
It is set to be in the range of 35 °.

Therefore, the mixed hot and cold water discharged from the water discharge pipe 3 is discharged while drawing radiation, and a wide hand-washing or face-washing space in the wash-basin 30 can be secured.

As a result, it is possible to prevent the condition that the face-washing space becomes narrow by extending the water discharge pipe 3 toward the front of the wash bowl 30 as in the conventional case, and the usability of the automatic faucet A can be improved. . Moreover, since the hand H can be freely moved, the spouted mixed hot water can be applied not only to the fingertips but also to the entire palm of the hand H that is extended, so that almost all the mixed hot water can be used for cleaning. It is possible to wash hands with a small amount and save water.

Further, since the forward projection amount of the water discharge pipe 3 can be made small, it is possible to eliminate or reduce the feeling of pressure felt by the user by extending the water discharge pipe 3 toward the front of the wash bowl 30. it can.

Further, as shown in FIGS. 1 and 4, since the water outlet of the water discharge pipe 3 is visible to the user, the user can accurately and easily extend his / her hand toward the water discharge pipe 3,
From this aspect as well, the usability of the automatic faucet A can be improved.

Here, the maximum angle of the formed angle θ is set to 35 °, because if it is set to be more than that, the length of the water discharge pipe 3 needs to be increased, which gives a feeling of pressure to the user. is there.

On the other hand, when the minimum angle of the angle θ is set to 0 °, if the angle is smaller than 0 °, the position where the discharged water which draws the radiation falls on the hand H is located at the rear part of the wash bowl, which is not convenient. Because it will be.

From the experimental results, it has been found that the optimum angle θ is preferably 15 ° to 30 °.

As experimental data, when the constant flow valve 6 of 5 l / min was used, the horizontal reach distance at 15 cm under the water discharge port 10a was about 9 cm. Therefore, the length of the water discharge pipe 3 can be shortened by about 4 cm as compared with the conventional one.

Next, the specific structure of the faucet body 1 will be described. As shown in FIGS. 2 and 3, the faucet body 1 is fitted with a cylindrical outer tube 11 and the outer tube 11. It has a double tube structure including a cylindrical inner tube 12.

When the outer tube 11 is preferably made of metal and the inner tube 12 is preferably made of synthetic resin, the manufacturing cost can be reduced without impairing the glossy appearance of the automatic faucet A. You can

The faucet body 1 can be erected by fixing the base end of the inner pipe 12 to the faucet mounting surface 30a as shown in FIG.

Further, the faucet body 1 is, as shown in FIG.
The faucet mounting surface 30a is erected so as to be inclined forward at a certain gentle angle α (for example, 15 °).

Therefore, as shown in FIGS. 1 and 2, when the water discharge pipe 3 is connected to the faucet body 1 in an orthogonal state, it may be tilted downward with respect to a horizontal plane at a gentle angle θ equal to the inclination angle α. As a result, as described above, the spouting water from the spouting port 10a can be drawn with a parabola, the optimum position for hand washing can be determined, and the hand washing space at that position can be widened.

As shown in FIGS. 2 and 3, the faucet body 1 has skirts 12a and 11a formed by bulging the skirts of the inner pipe 12 and the outer pipe 11. Such skirt 12a,
The 11a improves the adhesion between the inner and outer pipes 12 and 11, and prevents twisting of the inner and outer pipes 12 and 11 when the water discharge pipe 3 is attached to or removed from the faucet body 1, for example. Can be planned.

(Water Discharge Pipe 3) Next, the structure of the water discharge pipe 3 will be described with reference to FIGS. 2 and 3.

First, the mounting structure of the water discharge pipe 3 to the faucet body 1 will be described. As shown in the drawing, the inner pipe 12 and the outer pipe 11 are
The water faucet main body 1 fitted with is fitted and fixed at the top of an inner pipe 12 thereof with a water discharge pipe mounting head 2 formed of a cylindrical box.

As shown in FIG. 2, the water discharge pipe mounting head 2 is provided therein with an L-shaped bent flow passage K, and a water discharge pipe screwing portion 2a is formed at one end of the flow passage K. At the other end of the flow path, a supply pipe connecting portion 5a that connects and connects the downstream end of the mixed hot and cold water supply pipe 5 is formed.

Further, the water discharge pipe fixing nut 9 is fitted into the hexagonal insertion hole 2b provided on the front surface of the water discharge pipe mounting head 2 and has a female screw portion inside thereof. Then, the base end portion 3a of the water discharge pipe 3 is screwed through the water discharge pipe insertion holes 12b and 11b respectively provided in the upper front portions of the inner pipe 12 and the outer pipe 11 and the insertion hole 2b provided in the front face of the water discharge pipe mounting head 2. Will be connected.

In addition, the outer peripheral surface of the water discharge pipe 3 is shown in FIGS.
As shown in FIG. 3, a tubular water discharge pipe cover 4 is fitted on the outer surface of the water discharge pipe cover 4. The water discharge pipe cover 4 includes a cover engaging collar portion 3d formed on the peripheral surface of the tip end portion of the water discharge pipe 3 and a faucet body 1. It is clamped and supported between the outer tube 11 and the outer peripheral surface.

Further, the water discharge pipe 3 is detachably screwed with a discharge cap 10 having a plurality of flow straightening plates 26 at its tip.

As described above, the water discharge port 10a of the discharge cap 10 has the water discharge pipe 3 arranged in a substantially horizontal state.
It is easily visible to the user. Therefore, the usability of the automatic faucet A can be improved.

The other components in FIGS. 2 and 3 will be described. 3b is a discharge hole formed at the tip of the water discharge pipe 3, 3c is formed behind the discharge hole 3b, and is screwed with the discharge cap 10. Male threaded portion, 27 is an O-ring provided between the discharge pipe mounting head 2 and the inner pipe 12, 28 is an O-ring provided between the discharge pipe 3 and the discharge pipe mounting head 2, 29 is a discharge pipe Three
And an O-ring provided between the water discharge pipe cover 4 and the water discharge pipe cover 4.

(Hand Detection Sensor S) The mounting structure of the hand detection sensor S is shown in FIGS. 2 and 3.

As shown in the figure, in this embodiment, the mounting structure of the hand detecting sensor S is arranged on the front side of the outer pipe 11 of the faucet body 1 and at a position below the water discharge pipe 3. ,
Substantially, the sensor window 13 mounted on the front surface of the outer tube 11 and the inner tube
On the front surface of 12, a sensor mounting hole 14 is provided at a location corresponding to the sensor window 13, and a sensor mounting lid 15 fitted in the mounting hole 14.

A hand detecting sensor S is provided inside the lid 15.
Is installed. In this way, the hand detection sensor S is arranged below the water discharge pipe 3, and the light projecting direction is downward at about 15 °.
Therefore, the position where the hand sensor S detects the hand H is
It will be located below the upper edge of the wash bowl 30. Therefore, even if a part of the water that hits the hand is scattered, it is possible to reliably prevent the scattered water from being scattered to the outside of the wash bowl 30. Also, as is clear from FIG.
The hand detection sensor S is a light receiving element in order from top to bottom.
A battery 60, a dry battery indicator LED 61, and a light projecting element 62 are mounted in series.

In such a structure, as described above, when the water discharge pipe 3 is in a substantially horizontal state, the faucet body 1 whose axis is substantially orthogonal to the axis of the water discharge pipe 3 is substantially perpendicular to the faucet mounting surface 30a. Since it is erected in this state, the user can clearly see the dry battery dead display LED 61 even from the front, and can easily and reliably replace the dry battery 86 described later.

Further, since the dry battery indicator LED 61 is interposed between the light receiving element 60 and the light projecting element 62, a sufficient distance can be provided between the light receiving element 60 and the light projecting element 62. The light receiving element 60 can reliably receive the reflected light from the hand H.

Further, in the present embodiment, when the light receiving element 60 detects the reflected light within 10 minutes after the first power-on after the installation, the fact is indicated on the dry battery indicator LED 61. For example, when there is light reflected from the pottery surface at the time of installation, that fact is displayed, so that it can be notified that the installation position is bad. In addition, at the time of confirmation after installation, it is possible to confirm whether or not it is sensed without opening the water supply tap (it is normally done with the water supply tap closed at the time of installation). Therefore, incorrect construction can be prevented.

(Automatic faucet control box C) Next, washbasin B
And a hot water supply pipe 5 for mixing in the faucet A1.
The configuration of the automatic faucet control box C that supplies the mixed hot and cold water via the will be described with reference to FIGS. 2 and 8 to 11.

As shown in FIG. 2, the mixed hot and cold water discharge port 70 of the thermostat type mixing valve V fixed to the wall surface W by the hot water hot water supply pipe 7 and the hot water supply pipe 8 has a mixed hot water flow passage 71 formed therein. Integrally molded piping 72 consisting of molded products
The mixed hot and cold water inflow portion 72a is fixedly connected.

Further, the integrally formed pipe 72 has an electromagnetic opening / closing valve V1 installed in the middle thereof and the mixed hot and cold water outlet 72b thereof.
An upstream end of the mixed hot and cold water supply pipe 5 is communicatively connected to the above via a supply pipe connection structure 90 described later.

The electromagnetic on-off valve V1, the integrally molded pipe 72, the control device F, the power supply device E, etc. are integrally surrounded by a protective case 73 having a rectangular box shape.

As shown in FIGS. 2 and 10, the protective case 73 is a rectangular plate-shaped first protective case 75 having a shallow annular rib portion 74 on the periphery which is firmly connected to and held by the integrally molded pipe 72.
The annular rib portion 74 of the first protective case 75 has a deep annular rib portion.
A second protective case in which 76 is detachably connected and cooperates with the first protective case 75 to form a storage space 77 such as an electromagnetic on-off valve.
It consists of 78 and.

In this structure, the first protective case 75
As shown in FIG. 2, an opening 79 is provided in the upper side wall on one side. Through this opening 79, a screw cylinder 80 having a base end integrally projecting on the side surface of the integrally molded pipe 72 is projected to the outside, and a tightening nut 81 is screwed to the projecting end. Therefore, when the tightening nut 81 is rotated, the inner surface of the first protective case 75 can be strongly pressed against the flange 82 provided on the outer periphery of the screw cylinder 80 in the integrally molded pipe 72, and the first protective case 75 can be securely held. Moreover, the integrally molded pipe 72 can be connected and held without separately using tightening bolts and nuts.

On the other hand, the first protective case of the second protective case 78
The connection to 75 can be easily made by a set screw 83, as shown in FIG.

In the upper space of the protective case 73, as shown in FIG.
As shown in FIG. 10 and FIG. 10, a control device F and a power supply device E are arranged, and the control device F is connected to the upper wall of the first protective case 75 by a set screw 84.

On the other hand, the power supply device E includes a dry battery case 85 detachably mounted in the second protective case 78 through an opening provided in the side wall of the second protective case 78, and a plurality of dry battery cases 85 mounted in the case 85. It consists of a dry cell 86. In such a configuration, as shown in FIGS. 10 and 11, a conductive plate 86a is provided at the extended end of the dry battery case 85, and the conductive plate 86a is
A conductive spring protruding from the control device F toward the dry battery case 85 when the dry battery case 85 is mounted in the second protective case 78.
It comes into contact with 87, and by this contact, power can be supplied from the dry battery 86 to the control device F and the electromagnetic on-off valve V1.

Further, a conductive plate 86a provided on the dry battery case 85
As shown in FIG. 10 and FIG. 11, the conductive guide ridges 88 are provided on both sides thereof to prevent the conductive spring 87 from bending,
The conduction between the conductive plate 86a and the conductive spring 87 can always be ensured.

Further, in the present embodiment, the integral molding unit 72
The upper end opening of the above and the mixed hot and cold water supply pipe 5 are connected by a supply pipe connection structure 90 having the following configuration.

That is, as shown in FIGS. 2 and 12, the integrally molded pipe 72 has its upper end portion at the upper wall of the second protective case 78.
It projects upward through the opening 78b provided in 78a, forms a cylindrical threaded portion 91 with an externally threaded surface 91a on its outer peripheral surface at the same protruding portion, and at the position opposite the upper end of the threaded portion 91 by 180 °. , A pair of rotation preventing pawls 92, 92 are integrally projected.

The anti-rotation pawls 92, 92 are formed by the cylindrical screw portion 91.
It has a cross-sectional shape formed by an outer arcuate portion 92a having the same diameter as that of and an inner flat portion 92b.

On the other hand, as shown in FIG. 12, a tubular socket 93 is provided above the tubular screw portion 91, and the tubular socket 93 is fitted inside the tubular screw portion 91. O around the surface
It is composed of a lower fitting portion 93a to which a ring 93d is attached, a central diameter-increasing flange portion 93b whose peripheral surfaces facing each other by 180 ° are chamfered, and a bamboo shoot-shaped upper supply pipe connecting portion 93c.

In the above structure, when the lower fitting portion 93a is fitted inside the cylindrical threaded portion 91, the central expanded flange portion 93b is formed.
The chamfers on both sides are the inner flats 92b and 92
It comes into surface contact with b. Therefore, the cylindrical socket 93
Cannot rotate relative to the cylindrical threaded portion 91.

On the other hand, the upstream end opening of the mixed hot and cold water supply pipe 5 is communicatively connected to the upper supply pipe connection portion 93c provided at the upper end of the cylindrical socket 93.

Further, on the outer peripheral surface on the upstream end side of the mixed hot and cold water supply pipe 5, there is slidably arranged a tapered cap nut 94 having an internal diameter expanding female screw surface 94a and a diameter reducing sliding surface 94b formed therein. It is set up.

Therefore, after the tubular socket 93 is fitted into the above-mentioned tubular threaded portion 91, the cap nut 94 is slid downward through the radially reduced sliding surface 94b, and then the radially expanded female threaded surface 94a is tubularly shaped. Screw part
When it is screwed onto the male screw surface 91a of 91, the rotation of the tubular socket 93 is completely blocked by the anti-rotation pawls 92, 92, so that the tubular socket 93 should be firmly inserted into the tubular screw portion 91. Since they can be connected and connected, the watertightness between the tubular screw portion 91 and the tubular socket 93 can be sufficiently ensured.

At this time, the inner surface of the cap nut 94 presses the mixed hot and cold water supply pipe 5 against the bamboo shoot-shaped upper supply pipe connecting portion 93c of the cylindrical socket 93. Watertightness with the cylindrical socket 92 can be sufficiently ensured.

Further, in this embodiment, as shown in FIG.
The cap nut 94 has its outer peripheral surface processed with a lore, so that the cap nut 94 can be easily hand-operated without using a tool that may damage the cap water nut 94 or the mixed hot and cold water supply pipe 5 made of a resin tube. The above-described connecting work and releasing work can be performed.

Further, in this embodiment, the socket 194 provided at one end of the control cord 17 is used as an input plug on the control device F side.
It is also characterized by a connection reinforcement structure that can be firmly connected to 95.

That is, in FIG. 8 and FIG. 13 to FIG.
The intermediate bottom wall 78b of the protective case 78 is integrally provided with a cylindrical screw portion 96 surrounding the flat rectangular block-shaped input plug 95, and an internal screw 96a is formed on the inner surface of the cylindrical screw portion 96. Has been formed.

On the other hand, similarly to the input plug 95 described above, the control cord 17 having the flat rectangular block-shaped socket 194 connected to one end has the inner split cylinder 97 slidably mounted on the outer peripheral surface on the one end side. ing.

In the inner split tube 97, the tubular end portion 97a which is opposite to the input plug 95 has a diameter smaller than that of the main body tubular portion 97b, and the connecting portion between the tubular end portion 97a and the main body tubular portion 97b is formed. A plurality of cord pressing pawls 97c are provided on the inner peripheral surface at intervals in the circumferential direction so that each cord pressing pawl 97c extends toward the center of the control cord 17, and the outer peripheral surface of the control cord 17 is extended. And slidably abut.

Further, the inner split cylinder 97 is provided with a pair of notches 97d, 97d along the split surface at the end portion on the input plug 95 side.

Further, an outer tightening cylinder 98 is concentrically mounted on the outer peripheral surface of the inner split cylinder 97 in a slidable manner. The outer tightening cylinder 98 is attached to the end portion on the input plug side thereof. A male screw 98a that can be screwed into the female screw 96a of the cylindrical screw portion 96 described above is formed, and the cylindrical end portion 97a that is on the opposite side of the input side plug is tapered in diameter.

Therefore, after the socket 194 of the control cord 17 is connected to the input plug 95 of the control unit F with a predetermined slack, the male screw 98a of the outer tightening cylinder 98 is connected to the cylindrical screw portion 96.
When it is screwed into the female screw 96a of the
98 is strongly connected and fixed to the second protective case 78, and its tubular end portion 97a presses the tubular end portion 97a of the inner split cylinder 97 to reduce its diameter. Presses the outer peripheral surface of the control cord 17 and strongly clamps it.

Further, at this time, the socket 194 provided at one end of the control cord 17 is sandwiched between the notches 97d, 97d provided at the tip of the inner split tube 97, so that the outer side of the inner split tube 97 is closed. It is possible to reliably prevent collusion with the tightening cylinder 98,
The inner split tube 97 can be reliably reduced in diameter.

Therefore, the control code 17 can be strongly connected to the second protective case 78 via the inner split cylinder 97 and the outer tightening cylinder 98, so that the control code 17 can be strengthened by careless operation. Even when a tensile force is applied, it is possible to reliably prevent the socket 194 from falling off the input plug 95.

Further, as shown in FIG.
The input plug 95 is provided with a locking hook 194a having elasticity and a locking projection 95a capable of elastically engaging with the locking hook 194a on its side surface, and by these engagements, It is designed to prevent the socket 194 from falling off the input plug 95.

As experimental data, the tensile strength due to the engagement between the locking hook 194a of the socket 194 and the locking projection 95a of the input plug 95 is about 40 N. It can have a tensile strength of 5 times.

Further, as shown in FIGS. 2, 15 and 16,
In the present embodiment, the mixed hot and cold water discharge port 70 of the thermostat type mixing valve V is detachably but firmly connected to the mixed hot and cold water inflow portion 72a of the integrally molded pipe 72 by the following pipe connecting structure having the pipe connecting fitting Q. ing.

As shown in FIG. 15, the mixed hot and cold water discharge port 70 and the integrally molded pipe 72 to be connected to each other are respectively
Connection flanges 101 and 102 are fixed to the connection ends.

On the other hand, as shown in FIG. 15, the pipe connecting fitting Q has a pair of opposing outer bending members 103, 103 integrally connected by a U-shaped connecting member 104 having elasticity to open one end U. The bracket body 105 is formed, and the bracket body 105 is formed.
The opening width w of the opening 106 is smaller than the outer diameter of the connecting flanges 101, 102, and the connecting hot water discharge port 70 and the integrally forming pipe 72 of the connecting flanges 101, 102 are formed in the central portions of the outer curved members 103, 103. Rectangular cutout hole that can insert the outer peripheral edge
107,107 are provided.

Therefore, the above-mentioned connecting flanges 101, 102
After abutting the end faces of each other, the outer bending members 103, 103 of the pipe connecting fitting Q are expanded against the elastic force of the U-shaped connecting member 104, and are fitted into the peripheral edges of the connecting flanges 101, 102. After that, when the dead center is exceeded, this time, the elastic force causes the peripheral edge portions of the connecting flanges 101, 102 to be fitted into the rectangular notch holes 107, 107 provided in the outer curved members 103, 103, respectively.
The connecting flanges 101, 102 can be integrally connected to each other, and as a result, as shown in FIG. 16, the integrally formed pipe 72 is connected to the mixed hot and cold water discharge port of the thermostat type mixing valve V.
Can be connected to 70.

In this embodiment, however, as shown in FIG. 15, a hook-shaped anti-rotation projection 108 is integrally provided on the outer peripheral surface of the one-side coupling flange 102. , Figure
As shown in 16, connect the pipe connection fitting Q to the connecting flange 101,
When mounted on 102, it will fit into a recess 109 formed inside the U-shaped connecting member 104.

Therefore, in a narrow installation space, it is possible to surely prevent the accident that the pipe connecting fitting Q rotates due to high-pressure water supply or the like and collides with the protective case 73 to damage the protective case 73.

If the thickness of the protective case 73 is increased,
Although such a damage accident can be prevented, the cost of manufacturing the protective case 73 is increased, which is economically problematic.

Further, the work of attaching the protective case 73 to the integrally molded pipe 72 is performed in a narrow space, but the rotation of the pipe connecting fitting Q hinders the attaching work. In this respect, in the present embodiment, the rotation of the pipe connecting fitting Q can be surely prevented, so that the protective case 73 can be easily and surely attached to the integrally molded pipe 72.

Further, as shown in FIG. 15, in this embodiment, the one side coupling flange 102 is provided with a pair of fitting recesses 109a facing each other, and the other side coupling flange 101 is provided.
A pair of fitting protrusions 109b are provided so as to project on the annular end surface of the above-mentioned portion corresponding to the above-mentioned pair of fitting recesses 109a.

Therefore, by fitting the fitting protrusion 109a into the fitting recess 109b, the electromagnetic on-off valve V1 attached to the integrally molded pipe 72 can be made directional. That is, in this embodiment, the rotation preventing protrusion 108 can be located on the front side (right side in FIG. 2), and the electromagnetic opening / closing valve V1 can be easily attached / detached.

Further, in this embodiment, as shown in FIG.
The mounting structure of the solenoid on-off valve V1 to the mounting pedestal 110 formed integrally with the integrally molded pipe 72 is also characterized.

As shown in FIGS. 2 and 17, the electromagnetic opening / closing valve V1
Is the diaphragm valve 111 and the diaphragm valve holding plate 11
2 and an electromagnetic on-off valve drive unit 113.

On the other hand, as shown in FIG. 17, when dust is clogged in the bleed hole 115 into which the cleaning pin 114 is inserted, it is necessary to loosen the mounting bolt and remove the solenoid valve V1 in order to remove the dust. However, since the diaphragm valve 111 and the diaphragm valve retainer plate 112 have a strong adhesive force during the removal work, only the solenoid on-off valve drive unit 113 was removed, and both the diaphragm valve 111 and the diaphragm valve retainer plate 112 were attached to the mounting base. Only 110 will be left.

However, as shown in FIG. 2, since the rear end surface of the diaphragm valve pressing plate 112 and the upper edge of the mounting base 110 are flush with each other, the removal tool cannot be engaged as it is.

Therefore, in this embodiment, a tool insertion space 116 is provided on the rear end face of the diaphragm valve pressing plate 112.

Therefore, by inserting the tip of the removal tool into the tool insertion space 116, the diaphragm valve pressing plate 112 and the diaphragm valve 111 can be easily removed, and the dust can be easily removed from the bleed hole 115. You can

Further, in this embodiment, in the automatic faucet control box C, as shown in FIGS. 1 and 2, a metering valve 6 is provided between the thermostat type mixing valve V and the mixed hot and cold water supply pipe 5. Therefore, even if the water pressure fluctuates, the identification amount valve 6 prevents the mixed hot and cold water having a predetermined flow rate or more from being discharged from the discharge port 10a.

Therefore, even if the mixed hot water is discharged in the form of a parabola, the water flow can be controlled by the metering valve 6, so that the mixed hot water is scattered to a part (arm etc.) other than the palm of the hand H. Can be effectively prevented.

As the metering valve 6, various types including commercially available ones can be used, for example, the one described in Japanese Utility Model Publication No. 2-42231 can be used. 2) As shown in FIGS. 19 to 21, the present embodiment is characterized in that the thermostatic mixing valve V is not arranged in the automatic control box C but is arranged below the faucet mounting surface 230a. To do.

That is, as shown in FIGS. 19 and 20, the automatic faucet A according to this embodiment has a faucet portion mounted on a faucet mounting surface 230a formed at the back of the wash bowl 230 of the basin B. A1 and below the washbasin B, and supply the mixed hot and cold water to the water faucet part A1 via a mixed hot and cold water supply pipe 205 made of a flexible tube such as a resin tube (vinyl chloride pipe etc.) The automatic faucet control box C and the thermostat type mixing valve V provided below the washbasin B separately from the automatic faucet control box C.

The faucet part A1 is composed of a faucet body 201 installed on the faucet mounting surface 230a in a forwardly inclined state, a water discharge pipe 203 having a proximal end projecting from the front upper part of the faucet body 201, It is composed of a hand detection sensor S provided on the same front surface and below the water discharge pipe 203.

On the other hand, the automatic control box C accommodates therein an electromagnetic opening / closing valve V1, a control device F, a power supply device E and the like.

The thermostat type mixing valve V is
Substantially attached to the back surface of the faucet mounting surface 230a, the temperature adjusting handle 300 is installed on the faucet mounting surface 230a.

Explaining the piping configuration, the hot water inlet and the water inlet of the thermostatic mixing valve V are connected to the hot water supply pipe 7 and the water supply pipe 8 whose upstream ends are connected to the hot water supply source and the water supply source, respectively. The ends are connected for communication.

On the other hand, the mixed hot and cold water outlet of the thermostat type mixing valve V is connected to the inflow opening of the integrally formed pipe 272 arranged in the automatic control box C through the mixed hot and cold water supply pipe 306.

With this configuration, when the user extends his hand into the washbasin B, the hand detection sensor S operates and outputs an output signal. Based on the output signal, the control device F opens the electromagnetic on-off valve V1. Put in a state. Therefore, the mixed hot water whose temperature is adjusted to an appropriate temperature by the thermostat type mixing valve V is passed through the mixed hot water supply pipe 205 and the faucet body 201.
The water is discharged from the water discharge pipe 203 into the wash bowl B, and the discharged water can automatically wash the hand.

Also in this embodiment, as in the first embodiment,
The faucet body 201 is fixed on the faucet mounting surface 230a by the faucet fixing structure having the same configuration as that of the first embodiment.

Therefore, similar to the first embodiment, the effect of automatic stop can be obtained, and the work of fixing the faucet can be performed easily and quickly.

The automatic faucet A according to this embodiment has the same configuration as that of the first embodiment except the configuration described below.
It is shown by adding 200 to the code of the first embodiment.

That is, in the illustrated embodiment, a structure different from that of the first embodiment will be described. In this embodiment, the faucet body 201 is substantially made of plastic or the like on the back surface of the metal fitting body 302 made of figure casting. The sensor mounting cover 303 made of synthetic material is detachably attached, and the metal fitting body 302
Between the sensor and sensor mounting cover 303
Forming 304.

Further, the faucet body 201 has a water discharge pipe at its tip.
203 is attached, and the fitting 305 is connected at its base end to the distal end of the mixed hot and cold water supply pipe 205 extending in the storage space 104 such as the supply pipe, and the discharge cap 210 is attached to the distal end. As described above, the discharge port 210a of the discharge cap 210 forms the water discharge direction, and the angle θ formed by the water discharge line L ₁ with respect to the virtual horizontal line L ₂ is 0 ° downward.
It is set within the range of ~ 35 °.

Further, a hand detecting sensor S is attached to the sensor mounting cover 303, and the hand detecting sensor S has a control cord extending through the accommodation space 104 such as the supply pipe.
The tip of 217 is connected.

Further, as shown in FIG. 20, the metal fitting body 302
On the upper part of the sensor mounting cover 303 and the sensor mounting cover 303, respectively, weirs 310, 311 for water return are provided in a state of sandwiching the water discharge pipe 203, and due to the weir structure, splash water is prevented from flowing into the faucet body 20.
It is possible to reliably prevent an accident such that the inside of 1 is invaded and the lower side flows down along the control code 217 etc. to wet and corrode the floor surface.

Although the present invention has been described with reference to the embodiments, the present invention is not limited to the structures described in the embodiments, and the following modifications, for example, are also within the scope of the claims. Includes.

Although the faucet mounting surface is formed in the washbasin in this embodiment, the faucet mounting surface is not limited to the washbasin, and for example, a wall body may be used as the mounting surface.

[0135]

According to the present invention, at the position eccentric from the axis of the tightening seat plate,
The operating rod guide piece or the tightening bolt of the pop-up type drain plug is arranged in a fixed support state, and the through hole and the like provided in the tightening seat plate are penetrated through these guide pieces and the tightening bolt.

Therefore, the center of gravity of the tightening seat plate is located on the opposite side of the operating rod guide piece and the like, and the tightening seat plate is inclined around the engaging portion of the operating rod guide piece and the like, and The inner surface comes into contact with the surface of the operating rod guide piece. Therefore, the tightening seat plate will be in the so-called automatic stop state, and even if you release your hand, the tightening seat plate will be securely held by the operating rod guide piece etc., so that the tightening nut is screwed onto the tightening bolt. The work can be performed extremely easily and reliably.

Particularly, when both the operating rod guide piece of the pop-up type drain plug and the tightening bolt are fixedly supported at a position eccentric from the axis of the tightening seat plate, the operating rod guide piece is attached to the operating rod. Since it can be used not only as a guide but also as a guide for the tightening seat plate, the work of installing the tightening seat plate can be performed extremely easily, and since there is no need to provide a dedicated guide separately, the fixing structure is simple. It can be structured, and the overall product price can be reduced.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a usage state of an automatic faucet provided with a faucet fixing structure according to a first embodiment of the present invention.

FIG. 2 is a sectional side view showing the overall configuration of the same automatic water faucet.

FIG. 3 is an exploded perspective view of the water faucet portion.

FIG. 4 is a front view of the water faucet portion.

FIG. 5 is an exploded perspective view of the water faucet fixing structure.

6 is a cross-sectional view taken along the line I-I of FIG.

FIG. 7 is an explanatory diagram of automatic stop by tightening bolts.

8 is a view taken along the line II-II of FIG.

9 is a view taken along the line III-III in FIG.

10 is a view taken along the line IV-IV in FIG.

FIG. 11 is a front view of a power supply case.

FIG. 12 is an exploded perspective view of a supply pipe connecting structure.

FIG. 13 is an exploded perspective view of a control cord connection reinforcing structure.

14 is a sectional view taken along line VV of FIG.

FIG. 15 is an exploded perspective view of a pipe connection structure.

FIG. 16 is an assembly perspective view of a pipe connection structure.

FIG. 17 is a cross-sectional side view of a diaphragm valve and a diaphragm valve holding plate of the electromagnetic opening / closing valve.

FIG. 18 is a sectional view taken along line VI-VI in FIG.

FIG. 19 is a front view showing the overall structure of the automatic faucet according to the second embodiment.

FIG. 20 is a sectional side view showing the overall configuration of the same automatic water faucet.

FIG. 21 is an explanatory diagram of a thermostatic mixing valve of the same automatic water faucet.

[Explanation of symbols]

 A Automatic faucet 1 Faucet body 39 Mounting opening 56 Tightening seat plate 41 Tightening bolt 57 Through hole 30a Water faucet mounting surface 50 Operating rod guide piece 59 Seat plate locking through hole

Front page continuation (72) Inventor Mitsuyoshi Seki, 1-1 1-1 Nakajima, Kokurakita-ku, Kitakyushu, Fukuoka Prefecture Totoki Equipment Co., Ltd. (72) Gakuri Kawabata, 2-chome, Nakajima, Kitakyushu, Kitakyushu, Fukuoka No. 1 Totoki Equipment Co., Ltd.

Claims (3)

[Claims] 1. A faucet body (1) is provided with a base portion and a tightening seat plate (56) on the upper and lower surfaces of a mounting opening (39) provided in the faucet mounting wall, respectively. Extend the tightening bolt (41) whose upper end is fixed to the base of (1) downwards through the mounting opening (39) and the through hole (57) provided in the tightening seat plate (56), and then tighten the tightening bolt (41).
Tighten the tightening nut (60) to the downward extension of the screw, and crimp the tightening seat plate (56) to the lower surface of the faucet mounting wall by the same screwing, and fix the faucet body (1) on the faucet mounting wall. In the faucet fixing structure that can be fixed to the faucet mounting surface (30a), the axis line (XX) of the tightening seat plate (56) is attached to the base of the faucet body (1).
An operating rod guide piece (50) for a long pop-up type drain plug that extends downward through the mounting opening (39) at a position eccentric from
A faucet fixing structure characterized in that the base end of is attached, and the guide piece (50) is penetrated and locked into a seat plate locking through hole (59) provided in the tightening seat plate (56). 2. A faucet body (1) is provided with a base portion and a tightening seat plate (56) on the upper and lower surfaces of a mounting opening (39) provided in the faucet mounting wall, respectively. Extend the tightening bolt (41) whose upper end is fixed to the base of (1) downwards through the mounting opening (39) and the through hole (57) provided in the tightening seat plate (56), and then tighten the tightening bolt (41).
Tighten the tightening nut (60) to the downward extension of the screw, and crimp the tightening seat plate (56) to the lower surface of the faucet mounting wall by the same screwing, and fix the faucet body (1) on the faucet mounting wall. In the faucet fixing structure that can be fixed to the faucet mounting surface (30a), dispose the tightening bolt (41) at a position eccentric from the axis (XX) of the tightening seat plate (56). 41) the tightening seat plate (5
A faucet fixing structure characterized by being penetrated and locked in a through hole (57) provided in 6). 3. A faucet main body (1) is provided with a base portion and a tightening seat plate (56) on the upper and lower surfaces of a mounting opening (39) provided in the faucet mounting wall, respectively. Extend the tightening bolt (41) whose upper end is fixed to the base of (1) downwards through the mounting opening (39) and the through hole (57) provided in the tightening seat plate (56), and then tighten the tightening bolt (41).
Tighten the tightening nut (60) to the downward extension of the screw, and crimp the tightening seat plate (56) to the lower surface of the faucet mounting wall by the same screwing, and fix the faucet body (1) on the faucet mounting wall. In the faucet fixing structure that can be fixed to the faucet mounting surface (30a), the axis line (XX) of the tightening seat plate (56) is attached to the base of the faucet body (1).
An operating rod guide piece (50) for a long pop-up type drain plug that extends downward through the mounting opening (39) at a position eccentric from
Attach the base end of the guide piece (50) and penetrate and lock the guide piece (50) into the seat plate locking through hole (59) provided in the tightening seat plate (56).
Place the tightening bolt (41) at a position eccentric from the axis (XX) of the tightening seat plate (56), and then use the tightening bolt (41) to tighten the tightening seat plate (56).
A faucet fixing structure characterized by being penetrated and locked in a through hole (57) provided in the.