KR20140138156A - Water-spraying nozzle - Google Patents

Abstract

A nozzle body 6 in which a water flow path 10 is formed inside and an operation lever 15 mounted so as to be able to approach the nozzle body 6 and an opening and closing valve 13 for opening and closing the flow path 10 A fulcrum portion 17 rotatably supported on the nozzle body 6 and a pointed portion 18 and 19 contacting the operation lever 15 and a pointed portion 20 contacting the on- The spray nozzle 1 is provided with a relay lever 16 and rotates the relay lever 16 in accordance with the positional relationship between the operation lever 15 and the nozzle body 6 and opens and closes the on- The intermediate lever 16 is provided with two or more counterpoints 18 and 19 having different distances from the fulcrum portion 17 so that the furthest from the fulcrum portion 17 at the exponential position of the on- When the switching point 18 is brought into contact with the operating lever 15 and the other switching point 19 is brought into contact with the operating lever 15 at a position where the opening degree of the opening / The. According to the above-described configuration, in the sprinkle nozzle, the operating load of the operating lever can be reduced even in the high pressure state of the exponential position.

Description

WATER-SPRAYING NOZZLE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sprinkling nozzle which is used mainly for gardening, cleaning, and agriculture in the home or the like, and is connected to the tip of a water supply facility such as waterworks through a hose to perform sprinkling. Nozzle.

In the home, sprinkling nozzles, which are attached to the tip of a hose and arbitrarily switch between sprinkling and stopping, are widely used in horticulture, agriculture, and cleaning. The water spray nozzle receives water from the water supply equipment such as water through the hose and sprinkles from a sprinkling port formed at the tip.

8, the water spraying nozzle 25 of the conventional art forms a water passage 10 for connecting the nozzle body 6 to the spray port 5a at the tip end from the introduction port at the base end Closing valve composed of a valve seat 7a and an opening / closing valve body 13 is provided in the flow passage.

An operation lever 15 is mounted so as to be approachable to the front of the nozzle body 6 (water pipe 7), and the opening / closing valve body 13 Closing the valve seat 7a so as to open and close the opening and closing valve.

The water spray nozzle 25 has a relay lever 26 disposed between the operation lever 15 and the nozzle body 6 in order to interlock the operation lever 15 and the on-off valve.

As shown in Fig. 9, the relay lever 26 formed in a substantially L-shape in side view is formed by forming a fulcrum portion 27 rotatably supported on the nozzle body 6 at a bent portion, A force point portion 28 contacting the lever 15 is formed at one end and a fulcrum portion 29 contacting the opening and closing valve body 13 is formed at the other end.

When the user holds the operation lever 15 at the water spray nozzle, the counterpoint 28 is pushed by the inner surface of the operation lever 15 to rotate the relay lever 26, In the direction away from the opening / closing valve seat 7a.

The water pressure of the faucet in general households was about 0.15 MPa, and the water pressure of 0.05 MPa at the lower limit and 0.74 MPa at the upper limit occasionally occurred.

In the conventional water spray nozzle 25, a load proportional to the hydrostatic pressure and the water pressure is applied to the opening / closing valve body 13 at the valve closing position (exponent position) There is a problem that the operating load of the operating lever 15 becomes heavy.

In general, by increasing the distance from the fulcrum portion 27 to the inverted portion 28, the operating load of the operation lever 15 can be reduced.

However, in order to provide the opening / closing valve with a large flow rate at which the opening / closing valve body 13 does not obstruct the flow of water at the entire open position, it is necessary to take a large amount of disengagement (press) There is a restriction in the angle of refraction of the relay lever 26 and the mounting angle of the relay lever 26 in the nozzle body 6 at the exponential position.

When the distance from the fulcrum portion 27 to the point of disparity 28 is increased under such a constraint, the relay lever 16 is enlarged and protrudes forward of the spray nozzle 25, so that the operation lever 15, There is a problem in that it is necessary to protrude forward and the operability such as the finger hook is deteriorated.

If the distance from the fulcrum portion 27 to the counterpart portion 28 is increased, the amount of depression of the opening / closing valve body 13 with respect to the amount of rotation of the operating lever 15 becomes small. (Stroke) of the operating lever 15 required to turn the operating lever 15 into a longer and longer length, and the operability deteriorates.

In order to reduce the operating load of the operating lever at the exponential position, in the water spray nozzle of Patent Document 1, the annular packing is fluidly inserted into the outer circumference of the valve body at the downstream end of the opening / closing valve body, The annular packing is slidably fitted to the opening / closing valve body by a predetermined length in the upstream downstream direction by preventing the annular packing from slipping out.

As a result, the spray nozzle is provided with a first valve, in which the annular packing approaches the opening / closing valve seat of the nozzle body, and a second valve, in which the annular packing and the valve body of the valve body approach each other.

A large hydrostatic pressure is applied to the valve body at the exponential position where the first valve and the second valve are closed by the valve being biased to the opening and closing valve seat. However, when the operating lever is held, the second valve is opened first, It is possible to reduce the operating load of the operating lever at the exponential position by lowering the pressure by passing the gas through the gap between the packing and the opening / closing valve body, and then opening the first valve.

Japanese Patent Application Laid-Open No. 2001-149819

However, in the sprinkling nozzle of Patent Document 1, in order to reduce the operating load of the operating lever, the annular packing made of a special material and the E ring for preventing the annular packing from escaping are required, There was an increase in material cost and manufacturing cost.

Further, when the water pressure is high, the valve body of the opening / closing valve body is strongly fitted to the annular packing by the water pressure at the time of exponential, and even when the second valve is opened, There is a problem that the operating load of the operating lever can not be significantly reduced.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water spray nozzle capable of effectively reducing an operating load of an operation lever even in a high water pressure state at an exponential position at a low cost.

Means for solving the above problems in the present invention are as follows.

A first aspect of the present invention is directed to a nozzle assembly comprising a nozzle body having a water flow path for connecting water from an inlet to a sprinkler, an operation lever mounted so as to be able to approach the nozzle body, And a control unit that is provided between the operating lever and the opening / closing valve and has a fulcrum portion rotatably supported by the nozzle body, a focusing point contacting the operating lever, and a point- Wherein the relay lever is rotated in accordance with a positional relationship between the operation lever and the nozzle body and opens and closes the on-off valve, wherein the relay lever has a distance from the fulcrum portion to each other Wherein at least two of the other inverted portions are provided so that at the exponential position of the opening / closing valve, And the pointed portion is brought into contact with the operation lever, and in a position where the opening degree of the opening / closing valve becomes larger than a predetermined degree, the other pointed portion is brought into contact with the operation lever.

According to a second aspect of the present invention, the intermediate lever is provided with two or more of the above-mentioned action point portions having different distances from the fulcrum portion, and at the exponent position of the on-off valve, the action point portion closest to the fulcrum portion is contacted And the other point of contact is brought into contact with the opening / closing valve at a position where the opening degree of the opening / closing valve becomes larger than a predetermined degree.

The third invention is characterized in that the relay lever is provided with a first counterpoint that is far from the fulcrum portion and a second counterpoint that is close to the fulcrum portion and the distance from the fulcrum portion to the second counterpoint / Wherein the distance from the first point to the first point is 0.20 to 0.80.

According to the first aspect of the present invention, the intermediate lever is provided with two or more counterpoints having different distances from the fulcrum portion, and at the exponent position of the on-off valve, the counterpoint, which is furthest from the fulcrum portion, The operating point of the operating lever can be reduced by contacting the operating lever that is the farthest from the fulcrum portion at the exponential position of the high water pressure.

In addition, at a position where the opening degree of the opening / closing valve is greater than a predetermined degree, the other counterpoint is brought into contact with the operation lever, so that the other turning point near the focal point comes into contact with the operation lever, , The opening and closing valve can be effectively opened and closed with a small stroke amount of the operation lever.

According to the second aspect of the present invention, the intermediate lever is provided with two or more of the above-mentioned action point portions having different distances from the fulcrum portion, and at the exponent position of the on-off valve, the action point portion closest to the fulcrum portion is provided to the on- The operating point closest to the fulcrum part comes into contact with the opening / closing valve at the exponential position of the high water pressure, so that the operating load of the operating lever can be reduced.

In addition, at the position where the opening degree of the opening / closing valve is greater than a predetermined degree, the other point of contact is brought into contact with the opening / closing valve, so that the other operating point far from the focal point comes into contact with the opening / closing valve, , The opening and closing valve can be effectively opened and closed with a small stroke amount of the operation lever.

According to the third aspect of the present invention, the relay lever is provided with a first counterpoint, which is far from the focal point, and a second counterpoint, which is close to the focal point, and the distance from the focal point to the second point- And the first counterpoint is 0.20 to 0.80, the operating load at the exponential position can be reduced, and the opening / closing valve can be effectively opened / closed by a small stroke amount of the operation lever.

In order to realize these effects, it is possible to appropriately set the ratio of the area in which the first counterpoint part is in contact with the operation lever and the area in which the second counterpoint part is in contact with the operation lever in the rotation range of the operation lever.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view showing an exponential state of a spray nozzle according to a first embodiment of the present invention, wherein (a) is a longitudinal sectional view and (b) is an enlarged view of an A portion in FIG.
Fig. 2 is a partially opened state of the spray nozzle; Fig. 2 (a) is a longitudinal sectional view, and Fig. 2 (b) is an enlarged view of a portion B in Fig.
Fig. 3 is a view showing the entire open state of the spray nozzle; Fig. 4 (a) is a longitudinal sectional view, and Fig. 4 (b) is an enlarged view of a portion C in Fig.
Fig. 4 is a view showing the opening and closing valve body of the spray nozzle; Fig. 4 (a) is a side view, and Fig. 4 (b) is a DD line sectional view of Fig.
Fig. 5 is a front elevation view of the water spray nozzle, Fig. 5 (b) is a plan view, Fig. 5 (c) is a rear upper oblique view, (d) is a front view, (f) is a rear view, (g) is a charge radiating view, (h) is a bottom view, and (i) is a lateral explanatory view.
6 is a view of a water pipe constituting a nozzle body of the water spray nozzle, wherein (a) is a side view and (b) is a front view.
7 is a partially enlarged cross-sectional view showing the vicinity of the relay lever in the exponential state of the spray nozzle.
8 is a view showing a conventional water spray nozzle, wherein FIG. 8A is a longitudinal sectional view, and FIG. 8B is a partially enlarged view of an open / close valve.
Fig. 9 is a view showing a relay lever of a conventional spray nozzle; Fig. 9 (a) is a front perspective view, and Fig. 9 (b) is a rear perspective view.

Hereinafter, a spray nozzle according to an embodiment of the present invention will be described.

This sprinkling nozzle 1 is connected to the tip of a water supply system such as a water supply through a hose and performs sprinkling in horticulture, agriculture, cleaning, and other uses.

As shown in Fig. 1, the spray nozzle 1 has a substantially cylindrical shape extending from a proximal end portion 3a connected to a hose or the like and having an introduction port 2 for introducing water, And a nozzle portion 4 extending forward from the upper end of the grip portion 3 and having spray holes 5a and 5b formed at its tip end. The nozzle portion 4 has an L shape, a letter shape, a pistol shape or the like And a nozzle body 6 formed in a bent shape.

A water flow path 10 extending from the introduction port 2 to the spray ports 5a and 5b is formed in the nozzle body 6.

The nozzle body 6 is formed by assembling a plurality of covers which connect the hose nipple 8 and the water discharge head 9 to the curved water pipe 7 and cover the outer periphery. Or a plurality of members may be coupled to some of them.

The grip portion 3 is formed in a substantially cylindrical shape extending upward from the proximal end portion 3a and can be grasped by the user and turned.

At the proximal end portion 3a of the grip portion 3, an unevenness or an O-ring for connecting with a receiving tool (not shown) mounted on the hose is provided on the outer circumferential surface, and water A hose nipple 8 having an introduction port 2 for introducing a water is installed below the water pipe 7.

The direction of the grip portion 3 may be completely perpendicular, but it may be inclined in the vertical direction as shown in FIG. 1 and extended upward in the direction intersecting the extending direction of the grip portion 3.

The nozzle portion 4 is formed in a substantially cylindrical shape extending forward from the upper end of the grip portion 3. [ At the tip of the nozzle unit 4, the jet head 9 is attached to the tip of the water supply pipe 7.

The water jetting head 9 is provided with a fixing member 11 connected to the water supply pipe 7 and a fixing member 11 mounted on the front end of the fixing member 11 and having a shower water spout 5a and a straight water spout 5b And a screw forward member (12).

A switching member 11a for allowing the water supplied from the water supply pipe 7 to flow to the side of the screw moving member 12 is formed on the peripheral surface of the fixing member 11 and the screw moving member 12 is fixed to the fixing member 11 (Forward and backward) by a screw thread. This allows the switching member 11a to selectively communicate with the shower sprinkler 5a or the straight sprinkler 5b by the position of the screw moving member 12 with respect to the fixing member 11, And straight sprinkles can be switched.

The water spray nozzle (1) has an on-off valve for switching water flow and water flow in the water flow pipe (7).

In the opening / closing valve, the opening / closing valve body 13 is disposed in the flow path 10 on the side of the grip portion 3 of the water supply pipe 7. 4, the opening / closing valve body 13 is formed into a cylindrical shape having a lid internally connected to the water supply pipe 7, and a protruding valve body portion 13a is formed on the lid body .

As shown in Fig. 3 (b) and Fig. 4, the valve body portion 13a is formed into a stepped shape whose diameter gradually decreases as it approaches the tip end. The valve body portion 13a may be formed in a substantially conical shape gradually decreasing in diameter as it approaches the tip, or may be formed by a combination of a stepped shape and a substantially conical shape, , And it may be formed such that the diameter gradually decreases and / or gradually decreases as it approaches the tip.

As shown in Fig. 3 (b), the valve body portion 13a is provided with an O-ring 13b for closing the flow path 10 in contact with the opening / closing valve seat 7a.

As shown in Figs. 3 (a) and 3 (b), O-rings 13c and 13c are disposed at two positions on the outer circumferential surface of the opening / closing valve body 13 so that the outer periphery of the opening / closing valve body 13 does not flow water And the water passage port 13d is opened in the outer peripheral surface above the O-rings 13c, 13c. Water supplied from the base end (lower side) of the water supply pipe 7 flows through the inside of the opening / closing valve body 13 to the outer circumference from the water supply port 13d and flows downstream. Although only one O-ring 13c may be provided, by providing a plurality of, for example, two O-rings 13c, the sealing performance can be increased and the movement of the opening / closing valve body 13 can be made smooth.

1 (a), the valve body portion 13a of the opening / closing valve body 13 is formed to have a larger diameter than the opening / closing valve seat 7a provided in the water supply pipe 7, and the hose nipple 8 And is biased to the opening / closing valve seat 7a side by the coil spring 14 interposed between the opening / closing valve bodies 13 to close the flow passage 10 (exponent position).

A flange portion 13e for positioning the O-ring 13c is provided around the O-ring 13c on the lower side of the opening and closing valve body and the coil spring 14 is fixed to the lower end of the flange portion 13e And the opening / closing valve body 13 is biased.

When the valve body portion 13a is separated from the opening / closing valve seat 7a against this biasing force, the flow path 10 is opened and water can be sprayed from the spray ports 5a and 5b (FIGS.

Since the valve body portion 13a of the opening and closing valve body 13 is formed in a stepped shape, as the opening and closing valve body 13a is separated from the opening and closing valve seat 7a, the flow rate of water passing through the opening and closing valve gradually increases do.

As shown in Fig. 1 (a), an operation lever 15 is attached to the front of the grip portion 3 in order to operate the opening / closing valve body 13. As shown in Fig. The operation lever 15 is mounted on the lower portion of the grip portion 3 with the lower end as a fixed end and the upper end is a free end so that when the user holds the grip portion 3 with his / her hand, It is possible.

The operation lever 15 is formed in a forwardly curved shape and forms an internal space between the nozzle 15 and the nozzle body 6.

As the material of the operation lever 15, a thermoplastic resin such as POM (polyacetal) or ABS (acrylonitrile butadiene styrene copolymer) can be used, and ABS is particularly preferable because it is more excellent in moldability.

Also in this embodiment, ABS is used for this reason.

1, a bending relay lever 16 is disposed between the operating lever 15 and the nozzle body 6. [

As shown in Fig. 5, the relay lever 16 has an arm extending upwardly and an arm extending to the rear, and a pair of cylindrical fulcrum portions 17 And is rotatably supported at the fulcrum pipe 7 of the nozzle body 6 at the fulcrum portion 17. As shown in Fig.

At the upper end of the relay lever 16, there is formed a first counterpoint 18 that contacts the operation lever 15. [ In addition, a second counterpart portion 19, which comes in contact with the operating lever 15, is provided in the middle between the first counterpoint 18 and the fulcrum portion 17 so as to protrude forward.

In the present embodiment, the distance L1 from the fulcrum portion 17 to the first inflection point 18 (see Fig. 1 (b)) is set at 40 mm.

L1 is preferably set to 30 to 60 mm.

If L1 is less than 30 mm, the operating load of the operating lever 15 at the exponential position of high water pressure becomes too heavy. More preferably, L1 is 35 mm or more.

When L1 is larger than 60 mm, the first counterpoint 18 protrudes forward from the nozzle body 6, so that the operating lever 15 covering the first counterpoint 18 must also be projected forward , Operability such as finger engagement is deteriorated. More preferably, L1 is 50 mm or less.

In this embodiment, the distance L2 from the fulcrum portion 17 to the second focusing portion 19 (see Fig. 2 (b)) is set at 18 mm.

L2 is preferably set to 10 to 25 mm.

L2 is smaller than 10 mm so that the first projecting portion 18 of the operating lever 15 contacts the operating lever 15 as the forward projecting amount of the second focusing portion 19 becomes smaller The amount of stroke (stroke) of the operating lever 15 required to bring the open / close valve from the exponential position to the full open position is smaller than the gripping amount (stroke) of the operating lever 15 And the operability is deteriorated. Further, even when the opening / closing valve is partially opened, the operating load of the operating lever 15 becomes too large. More preferably, L2 is 15 mm or more.

If L2 is larger than 25 mm, the pressing amount of the opening / closing valve body with respect to the amount of rotation of the operating lever 15 when the second counterpart portion 19 is in contact with the operating lever 15 becomes small, (Strokes) of the operation lever 15 necessary for turning the operation lever 15 from the exponential position to the entire open position becomes longer and the operability deteriorates. More preferably, L2 is 20 mm or less.

In the present embodiment, the ratio L2 / L1 between L1 and L2 is 0.45.

L2 / L1 is preferably set to be 0.20 to 0.80.

When L2 / L1 is less than 0.20, the area in which the first counterpoint 18 contacts the operation lever 15 in the rotation range of the operation lever 15 becomes large, and the opening / closing valve needs to be changed from the exponential position to the full open position The stroke (stroke) of the operation lever 15 becomes too large and the operability deteriorates. More preferably, L2 / L1 is set to be not less than 0.30.

When L2 / L1 is larger than 0.80, L2 is too large. Therefore, when L2 / L1 is larger than 0.80, L2 is too large, the pressing amount of the opening / closing valve body with respect to the turning amount of the operating lever 15 when the second counterpart portion 19 is in contact with the operating lever 15 (Stroke) of the operating lever 15 required for bringing the opening / closing valve from the exponential position to the entire opening position becomes longer and the operability becomes worse. More preferably, L2 / L1 is set to be not more than 0.60.

In the intermediate lever 16, a tongue piece 21 extends upward in the middle between the first turning point portion 18 and the second turning point portion 19. The tongue piece 21 having elasticity comes into contact with the operation lever 15 to cushion while the user rotates the operation lever 15 of the water spraying nozzle 1 and the tongue piece 21 having elasticity comes into contact with the relay lever 16 and the operation lever 15 By preventing less staggering, operability is improved. That is, the tongue piece 21 is arranged so as to be substantially perpendicular to the longitudinal direction of the relay lever 16 in the relay lever 16 and the operation lever 15 when the operation lever 15 of the spray nozzle 1 is rotated And the elastic lever 15 has a resilient contact function capable of changing the relative positional relationship between the relay lever 16 and the operation lever 15 in contact with each other. This elastic contact function may be such that an elastically deformable portion is integrally provided on the relay lever 16 as in the present embodiment, an elastic deformable portion may be provided integrally on the operation lever 15, and the relay lever 16 and the operation lever 15 may be provided.

The tip of the arm extending rearward from the fulcrum portion 17 is formed with bifurcated action point portions 20 so as to contact the upper end surface of the flange portion 13e of the valve body.

In the present embodiment, an angle? 1 formed by a straight line connecting the fulcrum portion 17 and the first inverted portion 18 and a straight line connecting the fulcrum portion 17 and the fulcrum portion 20 i) is set at 108 degrees.

It is preferable to set? 1 to 90 to 130 degrees.

When the angle? 1 is less than 90 degrees, L1 must be considerably long in order to bring the first counterpoint 18 into contact with the operating lever 15 at the exponential position. In the course of holding the operating lever 15, The relay lever 16 comes into contact with the nozzle body 6 to inhibit the rotation of the relay lever 16. Thus, the relay lever 16 can not be properly housed in the limited internal space. More preferably,? 1 is set to 95 degrees or more, and particularly 100 degrees or more.

the first turning point portion 18 protrudes upward from the nozzle body 6 so that the operating lever 15 covering the first turning point portion 18 needs to protrude forward as well. It becomes worse. More preferably,? 1 is set to 120 degrees or less, particularly 110 degrees or less.

In this embodiment, an angle? 2 formed by a straight line connecting the fulcrum portion 17 and the second focusing point portion 19 and a straight line connecting the fulcrum portion 17 and the fulcrum portion 20 (I)) is set to 133 degrees.

It is preferable that? 2 is set to 110 to 160 degrees.

(stroke) of the operating lever 15 required to bring the open / close valve from the exponential position to the full open position becomes small when the angle &thetas; 2 is less than 110 degrees, the amount of pressing of the opening / closing valve body with respect to the turning amount of the operating lever 15 becomes small, And the operability is deteriorated. More preferably, the angle? 2 is set to 120 degrees or more, particularly 125 degrees or more.

When the angle? 2 is larger than 160 degrees, the second counterpoint 19 protrudes upward from the nozzle body 6, so that the operating lever 15 covering the same must also be projected forward, It becomes worse. In addition, there is a fear that the strength in the vicinity of the projecting second focusing point 19 is lowered. More preferably,? 2 is set at 150 degrees or less, particularly 140 degrees or less.

In the present embodiment, the ratio? 2 /? 1 of the magnitudes of? 1 and? 2 is approximately 1.23.

It is preferable that? 2 /? 1 be 1.03 to 1.60.

When the angle? 2 /? 1 is less than 1.03, the area in which the second counterpart portion 19 contacts the operating lever 15 in the pivotal range of the operating lever 15 becomes too small. The stroke (stroke) of the operation lever 15 necessary for setting the position becomes longer and the operability becomes worse. More preferably,? 2 /? 1 is 1.10 or more, particularly 1.20 or more.

When the angle? 2 /? 1 is larger than 1.60, the second neutral point 19 protrudes upward from the nozzle body 6, so that the operating lever 15 covering the second neutral point 19 needs to be projected forward as well. It becomes worse. In addition, there is a fear that the strength in the vicinity of the projecting second focusing point 19 is lowered. More preferably, it is preferable that? 2 /? 1 is 1.50 or less, particularly 1.40 or less.

A thermoplastic resin such as PP (polypropylene), POM, or ABS can be used as the material of the relay lever 16, and POM which is an engineer plastic is particularly preferable because it has excellent abrasion resistance and high elastic modulus.

Also in this embodiment, POM is used for this reason.

6 (b), the water supply pipe 7 is provided with an opening 7b in the front surface of the grip portion 3 side portion in order to contact the operating point portion 20 with the opening / closing valve body 13 have. Since the two O-rings 13c and 13c are always positioned so as to interpose the opening 7b in the movable range of the opening / closing valve body 13, water is leaked from the opening 7b to the outside of the water pipe 7 There is nothing to be done.

6A, a support plate portion 7c for rotatably supporting the relay lever 16 is extended forward and leftward at the left and right edges of the opening 7b, The fulcrum portion 17 is inserted into the hole of the support plate portion 7c.

An operation lever receiver 7d for forwardly extending an operation lever 15 for rotatably supporting the operation lever 15 is formed in the vicinity of the base end of the water pipe 7 on the side of the grip portion 3, The operating lever 15 can be mounted to the nozzle body 6 so as to be able to move away from each other by turning.

1 (a), on the downstream side of the opening / closing valve, the user controls the flow amount control valve body 23 by rotating the flow amount control member 22 in the left-right direction with the thumb of the hand holding the grip portion 3, The flow rate control valve is rotated.

In this flow rate adjusting valve, by increasing or decreasing the area where the notch formed on the side surface of the tubular flow rate adjusting valve body 23 coincides with the flow path 10 on the side of the nozzle portion 4, Quantity can be fine-tuned.

In the water spray nozzle 1, the valve body portion of the opening / closing valve body is pressed against the opening / closing valve seat by the biasing force of the coil spring 14 at the valve closing position (exponent position), thereby closing the flow passage (A) of FIG. At this time, the operation lever 15 is located at the frontmost position of the rotation range, and the relay lever 16 contacts the inner surface of the operation lever 15 at the first counterpoint 18, (See Fig. 1 (b)).

When the user grasps the operation lever 15 from the exponential position, the opening / closing valve body 13 is separated from the opening / closing valve seat 7a against the biasing force of the coil spring 14 through the rotation of the relay lever 16, The opening / closing valve can be brought into the water flow state.

In the exponential position, a high water pressure comprising a load proportional to the hydrostatic pressure and the water pressure is applied to the opening / closing valve body. However, since the first countercurrent portion 18 formed farthest from the fulcrum portion 17 is in contact with the operation lever 15 , The user can open the on-off valve only by applying a relatively light force.

The second counterpoint 19 is in contact with the inner surface of the operation lever 15 in addition to the first counterpoint 18 at a part of the open position where the operation lever 15 is rotated about 2 degrees from the exponential position Only the second neutral point portion 19 contacts the inner surface of the operation lever 15 to transmit a force for pressing the opening / closing valve body 13 (Fig. 3 (b)).

At this time, since the second counterpart portion 19 close to the fulcrum portion 17 is in contact with the operating lever 15, when the operating lever 15 is rotated by a predetermined amount, the valve body portion 13a is closed by the opening / As shown in Fig. Therefore, the gripping amount (stroke) of the operation lever 15 necessary for opening the open / close valve from the partially open position (FIG. 2) to the entire open position (FIG. 3) can be reduced and the operability of the user is improved.

In the conventional spray nozzle 25 shown in Figs. 8 and 9, the stroke of the operation lever 15 for opening the open / close valve from the exponential position to the entire open position is 11 degrees. In the spray nozzle 1 of this embodiment, The stroke of the operation lever 15 for opening from the exponential position to the entire open position can be reduced to 7 degrees.

Since the distance from the fulcrum portion 17 is shorter than the first counterpoint portion 18 when the second counterpoint portion 19 close to the fulcrum portion 17 is in contact with the operation lever 15, In the direction in which the operating load of the operating lever 15 necessary for moving the lever 15 by the lever is increased. However, at this time, the opening / closing valve is partially opened, the water flows to the downstream side, and the hydraulic pressure for pressing the valve body portion 13a to the opening / closing valve seat is weak, so that the operating load of the overall operating lever 15 does not become so large.

In the exponential position of the opening / closing valve shown in Fig. 1, the clearance C1 between the first counterpoint 18 and the nozzle body 6 is set to 18.5 mm.

C1 is preferably set to 15.0 to 25.0 mm.

If C1 is less than 15.0 mm, even if the operating lever 15 is held to the limit, the opening / closing valve body 13 can not be sufficiently moved away from the opening / closing valve seat 7a, and the flow rate of water becomes insufficient. More preferably, C1 is 16.0 mm or more, particularly 17.5 mm or more.

The first counterpoint 18 protrudes forward of the nozzle body 6 when C1 is made larger than 25.0 mm so that the operating lever 15 also protrudes largely in front of the nozzle body 6 , Operability such as finger engagement is deteriorated. More preferably, C1 is 21.0 mm or less, particularly 19.0 mm or less.

The clearance C2 between the first counterpoint 18 and the nozzle body 6 is set at 16.0 mm at the switching position between the first counterpoint 18 and the second counterpoint 19 shown in Fig.

C2 is preferably set to 8.0 to 20.0 mm.

When C2 is less than 8.0 mm, the range of contact of the second counterpart portion 19 with the operation lever 15 is too small, so that the amount of grip of the operation lever 15 required to bring the open / close valve from the exponential position to the full open position (Strokes) become long and the operability deteriorates. More preferably, C2 is 10.0 mm or more, especially 13.0 mm or more.

In addition, if C2 is made larger than 20.0 mm, inevitably, C1 becomes too large, and the operation lever 15 protrudes greatly in front of the nozzle body 6, so that the operability such as finger placement is deteriorated. More preferably, C2 is 18.0 mm or less, particularly 16.5 mm or less.

The clearance C3 between the first counterpoint 18 and the nozzle body 6 is set to 4.7 mm at the entire open position of the open / close valve shown in Fig.

C3 is preferably set to 10 mm or less.

C3 is larger than 10 mm, the opening / closing valve body 13 can not be sufficiently separated from the opening / closing valve seat 7a even at the entire open position, and the flow rate of water becomes insufficient. More preferably, C3 is 8 mm or less, particularly 6.5 mm or less.

In the present embodiment, the ratio C3 / C1 of the clearance between the exponential position and the entire open position is 0.25.

C3 / C1 is preferably 0.35 or less.

If C3 / C1 is larger than 0.35, the opening / closing valve body 13 can not be sufficiently separated from the opening / closing valve seat 7a even at the entire open position, and the flow rate of water becomes insufficient. More preferably, C3 / C1 is set to be not more than 0.30.

7) from the fixed end of the lower end serving as the turning center of the operation lever 15 to the first counterpoint 18 of the relay lever 16 at the exponential position of the spray nozzle 1 ) Is set to 70 mm.

M1 is preferably set to 55 to 100 mm.

If M1 is less than 55 mm, L1 is also shortened, so that the operating load of the operating lever 15 at the exponential position of high water pressure becomes heavy, and operability deteriorates. More preferably, M1 is 60 m or more, particularly preferably 65 mm or more.

If M1 is made larger than 100 mm, L1 is also long, so that the amount of operation (stroke) of the operation lever 15 necessary for bringing the opening / closing valve from the exponential position to the partial opening position becomes long and the operability deteriorates. More preferably, M1 is 85 mm or less, particularly preferably 75 mm or less.

7) from the fixed end of the lower end serving as the turning center of the operation lever 15 to the second counterpoint 19 of the relay lever 16 at the exponential position of the spray nozzle 1 ) Is set to 45 mm.

M2 is preferably set to 30 to 70 mm.

When M2 is less than 30 mm, the first projecting portion 18 of the operating lever 15 is brought into contact with the operating lever 15 in the pivoting range of the operating lever 15 as the forward projecting amount of the second counter- The amount of stroke (stroke) of the operating lever 15 required to bring the open / close valve from the exponential position to the full open position is smaller than the gripping amount (stroke) of the operating lever 15 And the operability is deteriorated. More preferably, M2 is 38 mm or more, particularly 42 mm or more.

If M2 is made larger than 70 mm, M1 necessarily becomes large, and the holding amount (stroke) of the operating lever 15 required for bringing the opening / closing valve from the exponential position to a part of the opening position becomes long and operability deteriorates Throw away. Further, since L2 is also increased, the amount of operation (stroke) of the operating lever 15 required for bringing the opening / closing valve from the partial opening position to the entire opening position becomes longer and the operability deteriorates. More preferably, M2 is 60 mm or less, particularly 50 mm or less.

The distance M3 between the fixed end of the lower end serving as the turning center of the operation lever 15 and the fulcrum 17 serving as the turning center of the relay lever 16 is set to 30 mm.

M3 is preferably set to 10 mm or more.

If M3 is less than 10 mm, the operating load of the operating lever 15 at the exponential position of high water pressure becomes heavy. More preferably, M3 is 20 mm or more. If M3 is too large, the spray nozzle tends to be enlarged. Therefore, M3 is preferably 60 mm or less, more preferably 50 mm or less, particularly preferably 40 mm or less.

In the present embodiment, the length ratio M1 / L1 is 1.75.

M1 / L1 is preferably 1.20 to 3.00.

When M1 / L1 is less than 1.20, the operating load at the exponential position of high water pressure becomes heavy. More preferably, M1 / L1 is 1.30 or more, particularly 1.50 or more.

Closing valve body 13 can not be opened even if the operating lever 15 is held to the limit since M1 / L1 becomes larger than 3.00 because the amount of stroke for pressing the opening / closing valve body 13 becomes insufficient It can not be sufficiently separated from the opening / closing valve seat 7a, and the flow rate of water becomes insufficient. More preferably, M1 / L1 is 2.80 or less, particularly 2.00 or less.

In the present embodiment, the length ratio M2 / L2 is 2.49.

M2 / L2 is preferably 1.40 to 7.00.

When M2 / L2 is less than 1.40, the operating load of the operating lever 15 becomes too heavy even when the opening / closing valve is partially opened. More preferably, M2 / L2 is 1.50 or more, particularly 2.00 or more.

When the ratio M2 / L2 is larger than 7.00, the spray nozzle 1 becomes large in size, and the operability such as finger placement is deteriorated. More preferably, M2 / L2 is 6.00 or less, particularly 3.50 or less.

The first counterpoint 18 far from the fulcrum portion 17 is brought into contact with the operating lever 15 and the operating lever 15 The second countercontact portion 19 close to the fulcrum portion 17 contacts the operation lever 15 at a part of the open position where the water pressure applied to the valve body portion 13a is small The amount of depression of the valve body portion 13a can be increased, the operating load of the operation lever 15 can be effectively reduced, and the opening / closing of the opening / closing valve can be effectively performed.

Further, it is not necessary to add any special parts as compared with the conventional sprinkling nozzle, and it is only necessary to partially change the shape of the relay lever 16, so that the operating load of the operation lever 15 can be reduced at low cost.

≪ Second Embodiment >

The first counterpoint 18 and the second counterpoint 19 are provided in the relay lever 16 in the first embodiment. However, three or more counterpoints having different distances from the fulcrum portion 17 may be provided, The operating lever 15 may be brought into contact with the operating lever 15 in order from the furthest point farthest from the fulcrum portion 17 if the operating lever 15 is held from the exponential position to the entire open position.

When the operation lever 15 is held from the exponential position to the full open position, the depressed portion, which contacts the operation lever 15, And may be continuously moved from the distal end to the proximal end of the arm.

In the first embodiment, only a section from the second counterpoint 19 to the fulcrum portion 17 may be formed in a curved shape.

≪ Third Embodiment >

Although the first counterpoint 18 and the second counterpoint 19 are provided in the relay lever 16 in the first embodiment, only one counterpoint is formed, and instead, the distance from the fistula 17 is 2 Or more may be provided.

In this case, in the exponent position, the closest point of action of the fulcrum portion 17 is brought into contact with the opening / closing valve body. After the user holds the operating lever 15 to partially open the opening / closing valve, (17) in order from the side close to the opening / closing valve body.

As a result, as in the first embodiment, the operating load of the operating lever 15 can be effectively reduced, and the opening and closing of the opening / closing valve can be effectively performed.

<Other Modifications>

In the first embodiment, the lower end of the operation lever 15 is a fixed end and the upper end is a free end. However, the upper end of the operation lever 15 may be fixed to the nozzle body 6 as a fixed end, Maybe.

In this case, at the exponential position, the first counterpoint 18 far from the fulcrum portion 17 of the relay lever 16 is brought into contact with the operation lever 15, so that the operating load of the operation lever 15 is reduced, The distance from the fixed end of the operation lever 15 to the contact point with the first inflection point 18 (the point of action in the operation lever 15) The operating load of the operating lever 15 can be further reduced since the distance to the gripping portion (a point in the operating lever 15) is relatively short.

When the open / close valve is partially opened and the second counterpart portion 19 close to the fulcrum portion 17 is in contact with the operation lever 15, the fixed end of the operation lever 15 (The point of action in the operating lever 15) from the fixed point to the point of contact with the second counterpoint 19 (the point in the operating lever 15) The valve body portion 13a can be further moved away from the opening / closing valve seat 7a when the operating lever 15 is rotated by a predetermined amount.

The operation lever 15 may be of any type that is mounted so as to be movable with respect to the nozzle body 6 so that the operation lever 15 may be mounted on the nozzle body 6 so as to be slidable back and forth Maybe.

1: Sprinkling nozzle 2: Connection port
5a: (Shower) Sprinkler 5b: (Straight) Sprinkler
6: nozzle body 7: water pipe
7a: opening / closing valve seat 7b: opening
7c: support plate portion 13: opening / closing valve body
13a: valve body portion 13b: O-ring
13c: O-ring 13d:
13e: flange portion 14: coil spring
15: Operation lever 16: Relay lever
17: fulcrum part 18: first emphasis part
19: second focusing point 20:
21: trowel 25: water spray nozzle
26: Relay lever 27:
28: emphasis portion 29:

Claims (3)

A nozzle body in which a water flow path for connecting the inlet port to the spray port is formed,
An operation lever which is mounted so as to be able to approach the nozzle body,
An open / close valve disposed in a path of the flow path to open and close the flow path,
And a relay lever disposed between the operation lever and the on-off valve, the relay lever having a fulcrum section rotatably supported by the nozzle body, a counterpart contacting the operation lever, and a point of action contact with the on-
Wherein the relay lever is rotated in accordance with a positional relationship between the operation lever and the nozzle body, and the spray nozzle opens and closes the open / close valve,
Wherein the relay lever is provided with two or more turning points having different distances from the fulcrum portion,
Closing point of the opening / closing valve is brought into contact with the operating lever and the other switching point is brought into contact with the operating lever at a position where the opening degree of the opening / closing valve becomes greater than a predetermined degree Water spray nozzle. A nozzle body in which a water flow path for connecting the inlet port to the spray port is formed,
An operation lever which is mounted so as to be able to approach the nozzle body,
An open / close valve disposed in a path of the flow path to open and close the flow path,
And a relay lever disposed between the operation lever and the on-off valve, the relay lever having a fulcrum section rotatably supported by the nozzle body, a counterpart contacting the operation lever, and a point of action contact with the on-
Wherein the relay lever is rotated in accordance with a positional relationship between the operation lever and the nozzle body, and the spray nozzle opens and closes the open / close valve,
The relay lever may be provided with two or more of the action point portions having different distances from the fulcrum portion,
Closing point closest to the fulcrum portion is brought into contact with the opening / closing valve at the exponent position of the opening / closing valve, and the other point of the operating point is brought into contact with the opening / closing valve at a position where the opening degree of the opening / Sprinkler nozzle. The method according to claim 1,
Wherein the relay lever is provided with a first counterpoint part far from the fulcrum part and a second counterpoint part close to the fulcrum part,
Wherein a distance from the fulcrum portion to the second focusing portion / a distance from the fulcrum portion to the first focusing portion is 0.20 to 0.80.

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