JP3477405B2 - Water faucet mounting structure - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a faucet mounting structure used for connecting a faucet to a water supply pipe or the like.

[0002]

2. Description of the Related Art In order to connect a conventional faucet such as a single water faucet or a hot and cold water mixing faucet to a water supply pipe, a male threaded joint portion of the water faucet is provided at a downstream portion of the water supply pipe. This was done by screwing it into the supply port and then winding a seal tape around the joint between the joint and the supply port.

[0003]

However, in the conventional connection method as described above, since the fitting part of the faucet is screwed into the supply port of the water supply pipe to be mounted, the top and bottom of the faucet are at appropriate positions. It is difficult to fix as described above, and it takes time, and when screwing the joint portion into the supply port,
Unnecessary force was applied and the supply port, and thus the water supply pipe, was damaged.

The present invention has been made in view of the above matters, and an object of the present invention is to attach a faucet for facilitating attachment and detachment of a faucet such as a single faucet or a hot and cold water mixing tap performed on a pipe. Is to provide the structure.

[0005]

In order to achieve the above object, the faucet mounting structure of the present invention is provided at a downstream portion of a water supply pipe or a hot water supply pipe, and the outer peripheral surface is provided in order from the downstream side. , downstream portion, the seal portion formed on the flat, the water outlet with a substantially cylindrical plug and flow Ryocho integer lever and lock release switch lock groove portion is formed, connected to the upstream portion of the faucet or hose Alternatively, the lock portion for locking the lock groove portion, the seal member capable of abutting on the seal portion, and the central portion are formed on the inner wall in order from the upstream side. The lock part of the socket is held by the through hole and the through hole, and is biased toward the inside of the socket by the protruding part of the sliding member when locked, and when unlocked. Consists of a locking ball retracted into recesses of the sliding member, the sliding member is slidable along the outer wall of the socket, and are always biased toward the upstream side by a spring, further , The water supply
For the outlet, close the flow rate adjusting lever,
After pressing the lock release switch, move the flow rate adjustment lever
In a call by pressing the back direction, configured so as to be able to release the lock
Has been made (claim 1).

Further, serrations may be formed in the downstream portion of the plug (claim 2), and further, serrations corresponding to the serrations in the downstream portion of the plug may be formed in the central portion of the socket. May be present (Claim 3).

With the above structure, it is possible to provide a water faucet mounting structure which simplifies the mounting and dismounting of water faucets such as single faucet and hot and cold water mixing faucet.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are a perspective view and a vertical sectional view schematically showing the structure of a faucet mounting structure D according to a first embodiment of the present invention. Reference numeral 1 denotes a water outlet, which has a substantially cylindrical plug 2 and a flow rate adjusting lever 1a.
And an unlock switch 1b. Also, 3
Is a single faucet having on the upstream side a socket 4 that is detachably attached to the plug 2 of the water outlet 1. The socket 4 may be formed integrally with the single faucet 3,
It may be connected to the single faucet 3 by an appropriate method such as screwing.

The water faucet mounting structure D comprises a plug 2 of the water outlet 1 and a socket 4 of the single water faucet 3.

FIG. 3 and FIG. 4 are enlarged longitudinal cross-sectional views of a main part schematically showing the structure of the plug 2 and the socket 4 before and after connection. The plug 2 is a water supply pipe 1c
(See FIG. 2), the downstream portion 5, a flat seal portion 6, and a lock groove portion 7 are formed on the outer peripheral surface thereof in this order from the downstream side. The plug 2 is not limited to being connected to the water supply pipe 1c, but the plug 2 may be integrally formed in the downstream portion of the water supply pipe 1c, for example.

Serrations are formed in the downstream portion 5.

The socket 4 is a substantially cylindrical member, and the inner wall thereof has the lock groove portion 7 in order from the upstream side.
There are formed a lock portion 8 for locking, a seal member 9 capable of contacting the seal portion 6, and a central portion 10. Further, 11 is a substantially cylindrical sliding member, and
It is slidable along the outer wall of the socket 4 in the axial direction of the socket 4, and is always biased to the upstream side by the spring 12.

The lock portion 8 comprises a through hole 13 and a lock ball 14 held by the through hole 13.

The seal member 9 is, for example, a U packing, and its inner peripheral surface can be brought into contact with the seal portion 6 of the plug 2. When the seal member 9 is a U packing, the connection work between the plug 2 and the socket 4 which will be described later can be performed smoothly, and the U packing has excellent durability. It becomes possible to use D for a long time. The seal member 9 is U
The packing is not limited to the packing, and a Y packing or an O ring may be used.

Serrations corresponding to the serrations provided in the downstream portion 5 of the plug 2 are formed in the central portion 10.

A projecting portion 15 is formed on the inner peripheral surface of the sliding member 11 toward the inside, and the inner peripheral surface of the projecting portion 15 is located on the upstream side of the projecting portion 15. The recessed portion 16 is formed so as to be outside the inner peripheral surface. The spring 1 that constantly biases the sliding member 11 to the upstream side is provided on the downstream side surface of the protrusion 15.
The upstream end of 2 is abutted. Also,
A ring-shaped retaining member 17 is provided on the outer peripheral surface of the tip end portion of the socket 4, and the retaining member 17 is for preventing the sliding member 11 from coming off from the socket 4 to the upstream side. Is.

Next, the operation of the faucet mounting structure D having the above structure will be described. When the socket 4 is in the initial state, the sliding member 11 is located at the most upstream side of the slidable range, and at this time, the protrusion 15 of the sliding member 11 is located.
Is located immediately outside the lock portion 8. In this state, the protrusion 15 urges the lock ball 14 to the inside of the socket 4, and the lock ball 14 thus urged protrudes to the inside of the inner wall of the socket 4. The lock ball 14 protruding inward from the inner wall of the socket 4 prevents the plug 2 from entering the inside of the socket 4.

When the sliding member 11 of the socket 4 in the initial state as described above is slid to the downstream side, the socket 4
Can be attached to the plug 2. That is, when the sliding member 11 is slid to the downstream side, the protruding portion 15 located immediately outside the lock portion 8 moves to the downstream side from this position, and the recessed portion 16 immediately outside the lock portion 8. Will be located in. Then, in this state, the lock ball 14 can be retracted from the inner wall of the socket 4 to the recessed portion 16, and the plug 2 can be inserted into the socket 4.

After that, the plug 2 is inserted into the socket 4 so that the serrations of the downstream portion 5 of the plug 2 and the serrations of the central portion 10 of the socket 4 can be meshed well.
At this time, the seal member 9 of the socket 4 comes into contact with the seal portion 6 of the plug 2.

When the sliding member 11 which has been slid to the downstream side is energized by the spring 12, the sliding member 11 returns to the initial position, and the lock ball 14 is again moved by the protruding portion 15. It is urged toward the inside of the socket 4. The lock ball 14 thus urged abuts on the lock groove portion 7 of the plug 2, so that the socket 4 is locked by the plug 2.
It is locked so that it cannot be pulled out.

By setting the faucet mounting structure D in the locked state as described above, it becomes possible to send water from the water outlet 1 to the single faucet 3. The amount of water sent from the water outlet 1 to the single faucet 3 is adjusted by the flow rate adjusting lever 1 described above.
This can be done by rotating a.

In the water faucet mounting structure D in the locked state, in order to remove the socket 4 from the plug 2, it is necessary to release the lock by the lock ball 14 and the lock groove portion 7, and the lock is released. , The sliding member 11
Can be carried out by sliding to the downstream side. That is, when the sliding member 11 is slid to the downstream side, the lock ball 14 can be retracted to the recessed portion 16 of the sliding member 11, the lock groove 14 is unlocked by the lock ball 14, and the lock ball 14 is released. Will be canceled. The unlocking operation described above can be performed with one hand.

The lock may be released as described above, but may be released using the water outlet 1. That is, the water outlet 1 has a function of releasing the lock by closing the flow rate adjusting lever 1a, pressing the lock release switch 1b, and then pushing the flow rate adjusting lever 1a in the backward direction. is doing.

In the faucet mounting structure D having the above structure, the single faucet 3 can be easily attached and detached to and from the water supply pipe 1c and the like.

Further, when replacing the single faucet 3 or the like, conventionally, it was necessary to close the main plug of the water supply pipe 1c, but according to the present invention, the main plug of the water supply pipe 1c is not closed. Moreover, since it is only necessary to close the flow rate adjusting lever 1a of the water outlet 1, it is possible to save the time and labor required for the above-mentioned work.

In the single faucet 3 having the faucet mounting structure D having the above structure, the flow rate of the water discharged from the single faucet 3 is not normally adjusted by the flow rate adjusting lever 1a of the water outlet 1, and the single water faucet is not adjusted. Flow rate adjustment lever 3'provided on the stopper 3
(See FIG. 1 or FIG. 2).

[0027]

FIG. 5 is a perspective view schematically showing the construction of a faucet mounting structure D ₂ according to a second embodiment of the present invention. The members having the same structures as those shown in the above embodiment are designated by the same reference numerals, and the description thereof will be omitted. Faucet mounting structure D
The configuration and effect of ₂ are almost the same as those of the first embodiment, except that they are not used to attach the single faucet 3 to one water outlet 1, but the eccentric pipes 18, 18 It is a point used for connection between the hot and cold water mixing plug 19 and the two water outlets 1 and 1 via the.

The plugs 2 and 2 of the water outlets 1 and 1
Are connected to a water supply pipe and a hot water supply pipe (both not shown), respectively.

Each of the eccentric tubes 18 has a hot and cold water mixing plug 1 at the front.
9. Connection part 20 for 9 and flow rate adjusting plug part (not shown)
, The socket 4 to the rear and the strainer part 2 to one side.
1 respectively.

In the faucet mounting structure D _{2 having the} above-described structure, the hot and cold water mixing stopper 19 for pipes such as water supply pipes is used.
Easy to install and remove.

Further, when replacing the hot and cold water mixing plug 19, it has been necessary to close the main plugs of the water supply pipe and the hot water supply pipe. However, according to the present invention, the water supply pipe and the hot water supply pipe are connected. Since it suffices to close the flow rate adjusting lever 1a of each water outlet 1 without closing the main plug of the pipe, it is possible to save the time and labor required for the above work.

In the hot and cold water mixing plug 19 having the faucet mounting structure D ₂ having the above structure, the flow rate of water or hot water discharged from the hot and cold water mixing tap 19 is not usually adjusted by the flow rate adjusting lever 1a of the water outlet 1. The flow rate adjusting lever 19 'provided on the hot and cold water mixing valve 19 is used.

In the faucet mounting structure D _{2 having the} above structure, the two water outlets 1, 1 and the hot and cold water mixing tap 19 are provided.
Although the eccentric pipes 18 and 18 are used for connection with the above, the present invention is not limited to such a configuration, and the hot and cold water mixing plug 19 is detachably connected directly to the water outlets 1 and 1 without using the eccentric pipes 18 and 18. You may do it. Further, regardless of whether or not the eccentric tube is used, even in the case of the hot and cold water mixing plug, serrations may be formed in the plug and the socket as in the first embodiment.

In the above-mentioned two embodiments, the socket 4 is used as the single faucet 3 and the hot and cold water mixing tap 19.
The subject to be used is not limited to the above faucet,
For example, a hose may be used. In addition, in the structure of the socket 4 used for the hose, the central portion 10 may be provided with serrations. However, when the serrations are not provided, the hose is rotatable about its axis and the water outlet 1 or the like is used. It can be attached to the plug 2 provided in the.

[0036]

Since the present invention is configured as described above, it is possible to provide a faucet mounting structure in which faucets such as a single faucet and a hot and cold water mixing faucet can be easily attached to and removed from a pipe. It will be possible. The amount of water sent from the water outlet to the faucet can be adjusted by rotating the flow rate adjusting lever. Furthermore, the water outlet can be unlocked by closing the flow rate adjusting lever, pressing the lock release switch, and then pushing the flow rate adjusting lever in the backward direction. In addition, in a case of performing the replacement work of the faucet, the order of the flow rate adjusting lever of tap outlets need only be closed, unlike the conventional, that Do is possible to save the trouble of tightening the main tap.

[Brief description of drawings]

FIG. 1 is a perspective view schematically showing a configuration of a water faucet mounting structure according to an embodiment of the present invention.

FIG. 2 is a vertical sectional view schematically showing the configuration of the above embodiment.

FIG. 3 is an enlarged vertical cross-sectional view of a main part schematically showing the configuration before connecting the plug and the socket in the above embodiment.

FIG. 4 is an enlarged longitudinal sectional view of an essential part schematically showing the configuration after the plug and the socket are connected in the above embodiment.

FIG. 5 is a perspective view schematically showing a configuration of a water faucet mounting structure according to a second embodiment of the present invention.

[Explanation of Codes] 1 ... Water outlet, 1a ... Flow rate adjusting levers 1a, 1b
... lock release switch, 1c ... water supply pipe, 2 ... plug, 3 ... water faucet, 4 ... socket, 5 ... downstream part, 6 ... seal part, 7 ... lock groove part, 8 ... lock part, 9 ... seal member,
10 ... Central part, 11 ... Sliding member, 12 ... Spring, 1
3 ... Through hole, 14 ... Rock ball, 15 ... Projection part, 16
… Recessed part, D… Faucet mounting structure.

Claims (3)

(57) [Claims] 1. A substantially cylindrical shape which is provided at a downstream portion of a water supply pipe or a hot water supply pipe and has an outer peripheral surface in which a downstream portion, a flat seal portion, and a lock groove portion are formed in this order from the downstream side. And a water outlet provided with a flow rate adjusting lever and a lock release switch, and is connectable to or formed on the upstream side of the faucet or hose and is detachable from the plug. The inner wall has the lock in order from the upstream side. A lock part for locking the groove part, a seal member capable of contacting the seal part, and a socket having a central part formed therein, the lock part of the socket having a through hole,
The lock member is held by the through hole, is biased toward the inside of the socket by the protrusion of the sliding member when locked, and retracts to the recessed portion of the sliding member when unlocked. is slidable along the outer wall of the socket, and are always biased toward the upstream side by the spring, further the water outlet, wherein
Close the flow rate adjustment lever and set the lock release switch
After pressing, push the flow rate adjustment lever inward.
The structure for mounting a faucet is characterized in that the lock can be released . 2. The water faucet mounting structure according to claim 1, wherein serrations are formed at a downstream portion of the plug. 3. The water faucet mounting structure according to claim 2, wherein serrations corresponding to the serrations in the downstream portion of the plug are formed in the central portion of the socket.