JPH0614641U - Faucet device that is controlled in multiple stages by one operating lever - Google Patents

Abstract

(57) [Abstract] [Purpose] You can supply a desired amount of water for a desired time with a simple operation, and you can stop water discharge without touching the cock etc., and change the water amount during use. It is an object of the present invention to provide a faucet device that can be easily controlled in a multi-step manner by a single hygienic operating lever. [Structure] A structure in which water is stopped and multi-stage water discharge is performed by operating one operating lever protruding from the water discharge port.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a faucet device in which the amount of water is controlled in multiple stages by operating one operating lever.

[0002]

[Prior art]

 Generally, in the faucet device for water supply, the cock provided at the top is twisted by hand, and the on-off valve provided inside is opened and closed to stop water supply.However, when washing the hand with this faucet device, twist the cock by hand. After draining water from the faucet and washing your hands, you have to grasp the cock with your hand again and twist it in the opposite direction.

However, the hand for twisting the cock and supplying the tap water is dirty, and even if the cock is touched with the dirty hand and the hand is washed, it is not possible to touch the cock again. It is not hygienic because it gets dirty by a dirty cock.

In order to solve such a problem, therefore, there has been proposed a faucet device in which an operating lever is projected from a faucet and water is discharged and water is stopped by operating the operating lever (for example, See Japanese Utility Model Publications Nos. 50-144,327, 58-33, 872 and Japanese Utility Model Publication No. 3-606).

The faucet device disclosed in Japanese Utility Model Publication No. 50-144,327 automatically shuts off the water by operating a water shutoff valve when the water discharged from the faucet and stored in the container becomes full. It was done like this. The faucet device disclosed in Japanese Utility Model Laid-Open No. 58-33,872 measures the amount of water flowing out from the faucet and automatically stops the water after flowing a predetermined amount of water.

In the faucet device disclosed in Japanese Utility Model Publication No. 3-606, the water wheel is rotated by the water flowing out from the faucet, and after a predetermined amount of water has flowed, the water stop valve is operated to automatically stop the water. It is a thing.

[0007]

[Problems to be solved by the device]

 However, in the faucet device of Japanese Utility Model Publication No. 50-144,327, in order to stop the water, it is necessary to make a predetermined amount of water in the container, and the water cannot be stopped unless water is stored in the container. There is a problem called. The faucet device of Japanese Utility Model Laid-Open No. 58-33,872 or Japanese Utility Model Publication No. 3-606 requires a gear mechanism for measuring the amount of water, has a large number of parts, is large in size, and has a complicated structure and cost. There is a problem that it becomes disadvantageous. Although the above-mentioned faucet device is hygienic, when adjusting the water discharge amount, the water amount cannot be adjusted without twisting the cock provided at the top by hand, and the cock touched with dirty hands There is a problem that it is not hygienic when trying to adjust the water discharge amount again after adjusting the water amount once. Furthermore, since water is automatically supplied and water is stopped, there is also a problem in that water discharge and water stop cannot be freely controlled by the operator's intention. The present invention has been made in view of the above-mentioned problems, and can supply a desired amount of water for a desired time with a simple operation and can be performed without touching a cock or the like even when water discharge is stopped. It is an object of the present invention to provide a sanitary faucet device which can be easily changed in use while being controlled in multiple stages by a single hygienic operating lever.

[0008]

[Means for Solving the Problems]

 The present invention to achieve such an object is a cylindrical body having a support body attached to the end of a water channel opened and closed by a cock through an O-ring and a water passage opening supported at the center of the support body. A valve seat portion, a valve body repulsed by a spring to close the water passage, an O-ring fitted inside an annular groove formed in the lower surface of the flat plate portion of the valve body, and the lower portion of the flat plate portion. A valve body portion having a valve sleeve provided on the main body, a main operating rod provided so as to project from an outlet opened at a lower end of the support body, and a lower end of the support body integrally provided with the main operating rod. Main operation lever consisting of a flat plate part having a through hole provided so as to abut the flat part of the outlet, a flat plate part placed on the flat plate part and having a through hole, and this flat plate part integrated And a driven lever made up of a driven rod An operating mechanism and a flat vertical wall are formed in a water passage in an annular body attached to the valve seat portion, and a control groove for controlling opening and closing of the valve body with respect to the valve seat portion is formed on the vertical wall, A plurality of protrusions for setting the position of the valve body with respect to the main body of the control unit are formed in the control groove, and the pin is formed so as to move in one direction in the control groove by overcoming these protrusions. The control unit has one end fitted and the other end of the pin locked to the valve body. The driven lever of the driven lever is fitted in the valve sleeve of the valve body. However, it is a faucet device that is controlled in multiple stages by one operating lever, characterized in that the driven operating rod can be slid only in the vertical direction. The valve body has a pipe body having a through hole and a guide piece portion formed by dividing the upper portion of the pipe body in half, and the guide piece portion is formed on the vertical wall. It is preferable to insert the guide grooves in the parallel guide grooves.

[0009]

[Action]

 By doing this, once the cock is twisted to release the water, it is washed with water. Water can be supplied / stopped and the amount of water can be adjusted by operating one operating lever, so touch the cock. It is hygienic because you can operate the faucet device without using it. In particular, since the amount of water discharged can be controlled in multiple stages according to the amount of tilting of the operating lever, operability is also greatly improved. For example, when the water discharge operation of the first stage in which the operation lever is slightly tilted is performed, the water is slightly discharged, and when the operation lever is released, the water discharge is immediately stopped. Next, when the water discharge operation of the second stage, in which the operation lever is tilted further than the above state, is performed, the water discharge amount further increases and the state is locked, and the predetermined amount of water is kept for the desired time. If the third stage water discharge operation, in which water can be discharged and the operation lever is tilted, is performed, the amount of water discharged can be further increased, and that state is locked, and a predetermined amount of water is kept for the desired time. You can spray water. When water is stopped during the second and third stage water discharge operations, tilting the operation lever releases the lock and simply returns it to its original state to stop water. Therefore, it is possible to perform water supply-stopping and adjustment of the amount of water by operating one operating lever that is washed with water during discharge, and it is extremely hygienic without touching the cock. . Further, since no gears are used, the structure is simple and the cost is advantageous.

[0010]

【Example】

 Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the drawings. FIG. 1 is a partially cutaway front view showing an embodiment of the present invention, FIG. 2 is an exploded perspective view of a main part of FIG. 1, and FIG. 3 is a perspective view showing a control groove of the same embodiment. 4 is a sectional view showing a stopped state of the same embodiment, FIG. 5 is a sectional view showing a first stage water discharging operation state of the same embodiment, and FIG. 6 is a sectional view showing a second stage water discharging operation state of the same embodiment. FIG. 7, FIG. 7 is a sectional view showing a third stage water discharge operation state of the same embodiment, FIG. 8 is a sectional view showing a steady state in a third stage water discharge operation state of the same embodiment, and FIG. It is sectional drawing which shows the state which unlocked from the water discharge operation state of the 3rd step.

As shown in FIG. 1, the faucet device 10 of the present embodiment is attached to an elbow pipe portion 13 formed at the tip of a straight pipe portion 12 to which a cock 11 is attached, and the faucet device 10 as a whole is It has a support body 20 for supporting, an operation mechanism 30 for operating the valve body, a valve body section 40 operated by the operation mechanism 30, and a control section 50 for controlling the opening and closing of the valve body 41. ing.

First, as shown in FIG. 1 or 4, the support body 20 is screwed into a threaded portion 14 formed on the outer periphery of the lower end of the elbow pipe portion 13, and is provided between the support body 20 and the elbow pipe portion 13. From a first support member 21 that supports a valve seat portion 42 described later via an O-ring O, and a second support member 22 that is screwed into a screw portion 42a formed on the outer peripheral surface of the lower end of the valve seat portion 42. Has become. However, when attaching to the elbow pipe portion 13 in which the threaded portion 14 is not formed, as shown in FIG. 10, a fastening member 16 having a large number of divided pieces 15 at the tip is to be fastened by a sleeve 17 from the outer periphery. It can also be attached using the attachment 18 described above. The details of the fixture 18 are disclosed in Japanese Utility Model Publication No. 3-606, and detailed description thereof will be omitted.

As shown in FIG. 1 or FIG. 4, the operation mechanism 30 is provided in the second support member 22 by a spring 33 so that the operation mechanism 30 is elastically repelled and protrudes from the second support member 22 to the outside. It has a lever 31. The operation lever 31 is composed of a main operation lever 311 having a T-shaped cross section and a driven operation lever 312 having an inverted T-shaped cross section. A through hole h is opened in a flat plate portion 311a of the main operation lever 311 and a central portion thereof is formed. A main operating rod 311b is projected toward the outside of the case 32. A through hole h is also formed in the flat plate portion 312a of the driven lever 312 having an inverted T-shaped cross section, and the driven rod 312b projects in the central portion in a direction opposite to the direction of the operating rod 311b. The flat plate portion 311a of the main operating lever 311 comes into contact with the flat portion 35 near the outlet 34 formed by narrowing the lower end of the second supporting member 22, and when the lower end portion of the main operating rod 311b is tilted. With the flat portion 35 as a fulcrum, the main operation lever 311 can be operated by the so-called "lever" principle. The main operation lever 311 and the driven operation lever 312 are separate bodies, and when the main operation rod 311b is tilted, the driven operation lever 312 follows this and is restricted only by the vertical direction regulated by the valve element 41 described later. It is designed to be moved.

The valve body portion 40 is sandwiched by the first support body 21 at the lower end of the elbow pipe portion 13, and a cylindrical valve seat portion 42 having a water passage opening H at its center and a water passage opening by a spring 43. The valve body 41 is repelled so as to close H 2. In the valve body 41, an annular groove 412 is formed on the lower surface of the flat plate portion 411, and an O-ring O is fitted inside. A valve sleeve 413 is formed on the lower portion of the valve body 41, and a pipe body 414 is projectingly provided on the upper portion. Inside the valve sleeve 413, the driven rod 312b of the driven lever 312 is relatively closely fitted so that the driven rod 312b can slide only in the vertical direction. As shown in FIG. 2, the tubular body 414 formed on the flat plate portion 411 is divided into a base annular portion 414a having a plurality of passages h and an upper half portion of the base annular portion 414a. It has the guide piece part 414b formed by. The guide piece portion 414b is adapted to be fitted into the guide groove 56 of the control unit 50 described later. However, this guide piece portion 414b serves as a so-called rotation stopper for the valve body 41, and does not necessarily have to be in a fitted state with the guide groove 56, and is simply in contact with a vertical wall 53a described later. May be

The control section 50 is a section for controlling the valve body 41 actuated by the operation lever 311. As shown in FIGS. 2 and 4, the control section 50 is screwed to the screw section 42 b at the upper end of the valve seat section 42. It is composed of an annular lower half portion 52 having a threaded portion 51a to be fitted and an upper half portion 53 integrally formed with the lower half portion 52. It has a main body 54 which is a cylindrical body having a substantially truncated cone shape as a whole. A pair of parallel guide grooves 55 and a substantially rhombus-shaped control groove 56 are formed on a vertical wall 53a formed on the upper half portion 53 of the main body 54. The pipe body 414 is inserted into the lower half portion 51a, but the guide piece portion 414b after being inserted through the lower half portion 51a is inserted into the pair of parallel guide grooves 55 to form the valve body 41. It exerts its own rotation prevention function.

A portion defined by the guide piece portion 414b and the vertical wall 53a is a water flow passage, and the water flows through the passage having a semicircular cross section. As shown in FIG. 3, the control groove 56 has a diamond-shaped multi-step control groove 56 a and a vertical groove 56 b connected to the multi-step control groove 56 a. One end of the pin 57 is slidable. The other end of the pin 57 is engaged with the annular lower half portion 52 of the tube body 414. The vertical groove 56b is a portion used when performing the first stage water discharge, and is used when the valve body 41 is slightly opened. The diamond-shaped multistage control groove 56a is a part used when the valve body 41 is controlled in multiple stages, and is a vertical protrusion T that is erected from the bottom surface of the groove.₁, T₂The tip of the pin 57 is engaged with the position of the valve body 41 with respect to the main body 54 of the control unit 50. Therefore, this protrusion T₁, T₂Is formed in two places, but each protrusion T₁, T ₂ Are configured so that they cannot move backward so that they can be moved in only one direction by the pin 57.

Next, the operation of the above embodiment will be described. In the state shown in FIG. 4, the faucet device is in a water stop state. From this state, when the main operating rod 311b of the faucet device 10 configured as described above is lightly pressed into the first stage water discharge state, as shown in FIG. 5, the main operating lever 311 has a flat plate portion 311a. The flat portion 35 is used as a fulcrum and tilted by the so-called "lever" principle. Since the main operation lever 311 and the driven operation lever 312 are separate bodies, when the main operation rod 311b is tilted, the driven operation lever 312 is regulated by the valve sleeve 413 of the valve body 41 and the spring. It moves slightly upward against 33. That is, in the valve body 41, the guide piece portion 414b of the pipe body 414 slides along the parallel guide groove 55 of the control unit 50, and the valve body 41 surely moves upward. At this time, since the tip of the pin 57 is engaged with the vertical groove 56b, the pin 57 merely moves up and down in the vertical groove 56b. At this time, the passage between the vertical wall 53a and the guide piece portion 414b serves as a water flow passage, through which the water flows down from the water passage H of the valve seat portion 42. In this state, the valve body 41 is only slightly opened, so the amount of water is extremely small.

As shown in FIG. 6, when the main operating rod 311b is further pressed, the flat plate portion 311a of the main operating lever 311 is further tilted with the flat portion 35 as a fulcrum. By the movement of the main operation lever 311, the driven operation lever 312 is guided by the valve sleeve 413 to move upward, and the valve body 41 further moves upward accordingly. Therefore, the valve body 41 further expands the water passage port H of the valve seat, and the water discharge amount increases.

At this time, the tip of the pin 57 is engaged with the _first vertical protrusion T ₁ from the vertical groove 56b of the control groove 56 and locked to the protrusion T ₁ , so that the valve of the valve body 41 is closed. The position with respect to the seat will be retained. However, if the pressing force of the main operating rod 311b is released, the valve body 41 will be in the closed position, and the main operating levers 311 and 312 will return to the state shown in FIG. To stop the water discharge in this state, the main operating rod 311b may be further pressed. As a result, the tip of the pin 57 moves further upward from the first protrusion T ₁ , makes one round in the control groove 56, and then reaches the vertical groove 56b, which is in the water-stop state shown in FIG.

As shown in FIG. 7, when the main operating rod 311b is further pressed, the flat plate portion 311a of the main operating lever 311 is further tilted with the flat portion 35 as a fulcrum, and the valve body 41 passes through the valve seat. The water outlet H is almost fully opened to maximize the water discharge amount. At this time, the tip of the pin 57 moves beyond the _second protrusion T ₂ of the control groove 56. To maintain the maximum water discharge state, the pressing of the main operation rod 311b is released. As a result, as shown in FIG. 8, the tip of the pin 57 is locked to the _second protrusion T ₂ . As a result, in the valve body 41, the main operating lever 311 and the driven operating lever 312 are returned to their original positions by the force of the spring 33 and their own weight in a state where the maximum open position is held with respect to the valve seat 42, and the main flow lever causes main water to flow. The operation lever 311 will be washed.

Finally, when the main operating rod 311b is slightly pushed from the maximum water discharge state in which the main operating lever 311 and the driven operating lever 312 have been returned to their original positions, the main operating rod 311b, as shown in FIG. Is transmitted through the valve sleeve 413 due to the fitting of the valve sleeve 413 of the valve body 41 and the main operating rod 311b, and the tip of the pin 57 is easily disengaged from the protruding portion a of the control groove 56 to control. Pass through the groove 56 and return to the vertical groove 56b. If the inner space of the valve sleeve 413 and the inner space of the valve seat 41 are communicated with each other through a small hole (not shown), the driven rod 312b can move smoothly and the driven rod 312b can move rapidly. On the other hand, the valve sleeve 413 and the main operating rod 311b are integrally operated, and the engagement of the pin 57 can be easily released.

The present invention is not limited to the above-described embodiments, but can be variously modified within the scope of the claims for utility model registration. For example, if the valve body 41 can be prevented from rotating, the guide piece 414b formed by dividing the upper portion of the pipe body 414 into half and the pair of parallel guide grooves 55 formed on the vertical wall 53a do not necessarily have to be fitted. Alternatively, the contact may be simply made.

[0023]

[Effect of device]

 As described above, according to the present invention, the opening degree of the valve body can be adjusted by the amount of pressing the operation lever, which allows the hand to be washed while adjusting the amount of water flowing out from the faucet, and after washing the hand. Since water can be stopped easily by operating the operation lever, a desired amount of water can be supplied and an arbitrary stop can be performed with a simple operation. Also, the time from the opening of the valve to the closing of the valve can be adjusted by the user, and a mechanism for adjusting the water discharge time is not required, which is structurally simple. Further, the operating lever can be washed with water even while the hands are being washed, and the cock or the like is not touched when the water discharge is stopped, so that the faucet device is excellent in hygiene.

[Brief description of drawings]

FIG. 1 is a partially cutaway front view showing an embodiment of the present invention,

2 is an exploded perspective view of an essential part of FIG.

FIG. 3 is a perspective view showing the moving truck of the embodiment,

FIG. 4 is a sectional view showing a stopped state of the embodiment.

FIG. 5 is a sectional view showing a first stage water discharge operation state of the embodiment,

FIG. 6 is a cross-sectional view showing a second stage water discharge operation state of the same embodiment,

FIG. 7 is a cross-sectional view showing a third stage water discharge operation state of the same embodiment,

FIG. 8 is a cross-sectional view showing a steady state in a third stage water discharge operation state of the same embodiment,

FIG. 9 is a cross-sectional view showing a state where the lock is released from the water discharge operation state of the third stage of the embodiment,

FIG. 10 is a cross-sectional view showing a modified example of the fixture.

[Explanation of symbols]

11 ... Cock, 20 ... Support, 30 ... Operating mechanism, 311
... Main operation lever having T-shaped cross section, 311a ... Flat plate part, 31
1b ... Main operating rod, 312a ... Flat plate portion, 312b ... Followed operating rod, 312 ... Followed operating lever, 35 ... Flat portion, 40 ...
Valve body portion, 41 ... Valve body, 411 ... Flat plate portion, 412 ... Annular groove, 413 ... Valve sleeve, 414 ... Pipe body, 414b ... Guide piece portion of pipe body, 42 ... Valve seat portion, 43 ... Spring, 50 ... control unit, 53a ... vertical wall, 54 ... main body, 55 ... guide groove, 56 ... control groove, 57 ... pin, T ₁ through T ₂ ...
Protrusion, H ... water passage, O ... O ring.

Claims (2)

[Scope of utility model registration request] 1. A support body (20) attached via an O-ring (O) to an end of a water channel opened and closed by a cock (11), and a water inlet (center) supported by the support body (20). (H) is a cylindrical valve seat portion (42), a valve body (41) repelled by a spring (43) so as to close the water passage (H), and a flat plate of the valve body (41). A valve body portion having an O-ring (O) fitted inside an annular groove (412) formed in the lower surface of the portion (411) and a valve sleeve (413) provided in the lower portion of the flat plate portion (411). 40), a main operating rod (311b) provided so as to project from the outlet (34) opened at the lower end of the support (20), and the main operating rod (311b).
11b) is integrally provided with the lower end outlet (34) of the support (20).
The main operation lever (311) consisting of a flat plate portion (311a) having a through hole (h) provided so as to abut the flat portion (35) of the flat plate portion (35), and placed on the flat plate portion (311a). An operating mechanism (30) having a flat plate portion (312a) having a through hole (h) opened and a driven lever (312) including a driven rod (312b) integrally provided with the flat plate portion (312a). And a flat vertical wall (53a) is formed in the water channel in the annular main body (54) attached to the valve seat portion (42), and the vertical wall (53a) is formed.
A control groove (56) for controlling opening and closing of the valve body (41) with respect to the valve seat portion (42) is formed in (a), and the main body (54) of the control unit (50) is formed in the control groove (56). A plurality of protrusions (T _{1 to} T ₂ ) that set the position of the valve body (41) with respect to the control groove are formed while overcoming these protrusions (T _{1 to} T ₂ ).
One end of a pin (57) is fitted so that the pin (57) can move in one direction, and the other end of the pin (57) is locked to the valve body (40) (50). ), The driven rod (312b) of the driven lever (312) is fitted in the valve sleeve (413) of the valve body (40), and the driven rod (3
A faucet device that is controlled in multiple stages by one operating lever, characterized in that 12b) can be slid only in the vertical direction. 2. The valve body (41) includes a pipe body (414) having a through hole (h) and a guide piece portion (414b) formed by dividing an upper portion of the pipe body (414) in half. ) And the guide piece (414b) is fitted into a pair of parallel guide grooves (55) formed in the vertical wall (53a). Faucet device that is controlled in multiple stages by the operation lever.