JP4863841B2 - Faucet equipment - Google Patents

Description

  The present invention relates to a faucet installation installed in a house.

  In order to minimize the damage caused by the spread of fire, it is important to extinguish surely at the stage of the initial fire, and it is necessary to carry a fire extinguisher near the fire source for quick initial fire extinguishing. Particularly for residential fire extinguishers, hand-held fire extinguishers having such advantages are widely used because they are easy to handle regardless of gender or age. In large-scale housing facilities such as high-rise apartments, fire-fighting equipment such as sprinkler equipment and indoor fire hydrant equipment is also used.

  The fire extinguisher is configured to extinguish fire by emitting a fire extinguisher stored in a container by pressure. The sprinkler equipment is a fixed fire extinguisher that aims to automatically perform initial fire extinguishing. If a part of the sprinkler head attached to the ceiling is melted by the heat of the fire, the sprinkler head main body It is configured to protrude and discharge water to the fire source and its surroundings. In addition, indoor fire hydrant equipment is a fire extinguisher equipment for continuing fire extinguishing work by discharging a large amount of water against a fire that has expanded to such an extent that it cannot be extinguished with a fire extinguisher. When it is made, pressurized water is supplied to the indoor fire hydrant equipment from the elevated water tank and the water pump, and water is discharged from the water discharge nozzle connected to the tip of the hose via the hose installed in the indoor fire hydrant equipment.

  In addition, it can be installed in a narrow place compared to the above sprinkler equipment and indoor fire hydrant equipment, can be used for a long time compared to a fire extinguisher, and as a fire extinguishing device that can be installed at low cost, A fire extinguishing apparatus to be connected has been proposed (see, for example, Patent Document 1). This fire extinguisher is a device that can be said to be a small fire hydrant facility connected to a water pipe. For example, in a system kitchen, a hose and a water outlet are housed in an unexposed state inside a sink stand, and this hose is used on a daily basis. It is configured by connecting to a water pipe for supplying water to the water system used in the system. And when a fire breaks out, it is comprised so that the water supplied from a water pipe can be discharged with respect to a fire source from the water outlet at the front-end | tip of a hose by opening the upper cover of a sink stand and pulling out a hose.

JP 9-290032 A

However, the fire fighting equipment and fire extinguishing apparatus described above have the following problems.
(1) Fire extinguisher In the case of a fire extinguisher used for residential use, the fire extinguisher is downsized with emphasis on the portable type, and the amount of extinguishing agent incorporated is limited, so the release time of the extinguishing agent is short. In addition, in order to operate a fire extinguisher quickly and accurately in the event of a fire, training using an actual fire extinguisher is necessary, but there are few opportunities in reality. Therefore, since the user of the fire extinguisher is unfamiliar with the fire extinguisher, there is a possibility that the fire extinguishing agent cannot be sufficiently emitted toward the fire source and the fire extinguisher cannot be extinguished.

(2) Sprinkler equipment For a large room such as a living room, a plurality of sprinkler heads for discharging water are installed. For example, in the event of a fire at the midpoint relative to the location of these sprinkler heads, all sprinkler heads may operate simultaneously, but the water supply to the residential sprinkler system is directly from the water supply, so the sprinkler There is a limit to the amount of water supplied to the entire facility, and the amount of water supplied to individual sprinkler heads may be reduced and fall below the rated water discharge capacity. In this case, the watering area from the sprinkler head is narrowed, and the amount of watering to the fire source is reduced, so that the fire extinguishing capability may be reduced. Moreover, when installing the sprinkler equipment, it is necessary to construct a water pipe in order to install the sprinkler head on the ceiling surface. Therefore, since a large amount of money is required, it has not been widely used as a fire fighting equipment for houses.

(3) Indoor fire hydrant It is possible to install indoor fire hydrant equipment, which is mainly used as fire fighting equipment for buildings, for residential use, but it requires a large amount of water and requires a certain amount of installation space. There are restrictions on installation. Fire hydrants are not used except in the event of a fire, and usually no water flow is generated inside them. Therefore, stagnant water is generated near the connection between the fire hydrant and the water pipe. May cause problems. Furthermore, as in the case of a fire extinguisher, there are few opportunities for training on the operation of the fire hydrant, so there was a possibility that quick and accurate operation could not be performed in the event of a fire.

(4) Fire extinguishing device For example, the fire extinguishing device described in Patent Document 1 is connected to a water pipe and is not used except when a fire breaks out. May occur. Also, since there are few opportunities for actual operation as in the case of fire extinguishers and indoor hydrants, there is a possibility that rapid and accurate operation may not be possible in the event of a fire.

  This invention is made | formed in view of the above, Comprising: It aims at providing the water faucet equipment provided with the fire extinguishing function which enables the fire extinguishing activity for a long time and can operate quickly and correctly at low cost.

In order to solve the above-described problems and achieve the object, the faucet equipment according to claim 1 is a faucet equipment installed on a sink base of a house, and comprises a water discharge head including a water outlet and a handle portion. And a faucet for performing water discharge or water stop operation in the water discharge head, and a drawer hose that is connected to a water source and the water discharge head and can be pulled out from the sink table via the water discharge head. The water discharge head changes a water discharge direction between a first direction substantially the same as the major axis direction of the handle portion and a second direction substantially orthogonal to the major axis direction of the handle portion. A diverting means for directing, the spout having a fire spout for discharging water in the first direction, and a daily spout for discharging water in the second direction, The selection means for selecting the fire extinguishing spout or the daily spout The features.

The faucet equipment according to claim 2 is characterized in that, in the faucet equipment according to claim 1, the faucet and the selection means are integrated with each other to form a spout selection opening / closing means. To do.

The faucet equipment according to claim 3 is the faucet equipment according to claim 1, wherein the water discharge head is connected to the drawer hose and includes the handle portion and the fire extinguishing spout. A water discharge head and a daily water discharge head provided with the daily water discharge port, and the selection means is configured as an attachment / detachment mechanism that allows the daily water discharge head to be attached to and detached from the fire-extinguishing water discharge head. It is characterized by.

Further, the faucet equipment according to claim 4 is the faucet equipment according to any one of claims 1 to 3, wherein the extra length portion of the drawer hose is wound and stored inside the sink base. It is characterized by providing the storage reel for .

Further, the faucet equipment according to claim 5 is the faucet equipment according to any one of claims 1 to 3 , wherein the drawer hose has a spiral shape memory property and is elastic in a substantially linear shape. It is formed so as to be deformable, and is housed in a spiral shape inside the sink table .

Further, the faucet equipment according to claim 6 is the faucet equipment according to any one of claims 1 to 5 , wherein the faucet equipment is installed in the vicinity of the sink base, stores water, and passes through the drawer hose. Water supply means for supplying water to the water discharge head, the water supply means for storing water supplied from the water source, and a water tank pressurizing means for pressurizing the inside of the water tank. And a water tank pressurizing and starting means for starting the water tank pressurizing means .

The faucet equipment according to claim 7 is a faucet equipment installed on a sink stand of a house, and includes a water discharge head having a water discharge port and a handle, and an operation of water discharge or water stop at the water discharge head. A pull-out hose connected to the water source and the water discharge head, which can be pulled out from the sink table via the water discharge head, and installed in the vicinity of the sink table. And a fire extinguishing agent supply means for supplying a fire extinguishing agent to the water discharge head via the first direction substantially the same as the long axis direction of the handle portion and the long axis of the handle portion. A diverting means for changing a water discharge direction between a second direction substantially orthogonal to the direction, the water discharge port configured to discharge water in the first direction, and the second A daily spout for discharging water in the direction of The fire extinguishing water outlet or the daily water outlet is selected by the fire extinguishing agent supply means. And a fire extinguishing agent tank pressurizing starting means for starting the fire extinguishing agent tank pressurizing means.

Thus, according to the faucet equipment according to claim 1, the drawer hose connected to the water discharge head is housed in the sink base and is formed so as to be freely pulled out from the sink base. Sometimes the water discharge head can be moved to the vicinity of the fire source by pulling out the draw hose. In addition, since the turning means is provided on the water discharge head, between the first direction substantially the same as the major axis direction of the handle portion and the second direction substantially orthogonal to the major axis direction of the handle portion. The direction of water discharge can be changed. Therefore, it can be used by discharging water in the second direction suitable for daily life such as cooking in daily life, and in the event of a fire, by discharging water in the first direction suitable for fire fighting activities, Water can be discharged stably. In this way, since the faucet equipment used on a daily basis is configured to be used as a fire extinguishing equipment in the event of a fire, there is no restriction on the water source, and it can be used for fire extinguishing activities for a long time. Moreover, since it is used on a daily basis even when a fire does not occur and no stagnant water is produced, it is possible to prevent sanitary problems. Furthermore, since the user can become familiar with the operation of the faucet equipment through daily use, it is possible to operate quickly and accurately in the event of a fire. Moreover, since it is comprised simply, it can install cheaply.
In addition, a fire-extinguishing spout for discharging water in the first direction and a daily spout for discharging water in the second direction are provided on the spout head, and selection means for selecting the spout is provided. By selecting the fire-extinguishing spout by the selection means during the activity and discharging water from the fire-extinguishing spout, the water can be discharged stably toward the fire source.

Moreover, according to the faucet equipment of the second aspect, since the faucet and the selection means are integrally configured as the spout selection opening / closing means, the user who grasps the spout head is at hand. Since the faucet can be operated, it is possible to carry out the water discharge head transportation and water discharge operation by one person during the fire fighting operation. In particular, since the spout selection opening / closing means is used on a daily basis and the user is proficient in the operation, it is possible to perform an accurate operation even during fire extinguishing.

Moreover, according to the faucet equipment according to claim 3, the water discharge head is provided with an attachment / detachment mechanism that allows the fire-fighting water discharge head having the fire-extinguishing water discharge port and the daily water discharge head having the daily water discharge port to be detachable from each other. Since it is provided, water can be discharged from the water outlet for daily use during daily use, and water can be discharged from the water outlet for fire extinguishing by removing the daily water discharge head with a simple operation during fire fighting activities.

Further, according to the faucet equipment of the fourth aspect, since the storage reel is installed inside the sink table, the drawer hose can be pulled out from the sink table, and the extra length of the drawer hose can be multiplexed on the storage reel. The drawer hose can be stored by wrapping around.

Further, according to the faucet equipment of the fifth aspect, the draw-out hose has a spiral shape memory property and is formed in a substantially linear shape so as to be elastically deformable, so that the draw-out hose is pulled out from the sink base. The extra length of the drawer hose can be spirally stored inside the sink base.

Further, according to the faucet equipment of the sixth aspect, since the water supply means is provided in the faucet equipment, the stored water is discharged even when the water supply is shut down due to an earthquake or an accident. Can be made. Therefore, fire extinguishing activities can be performed even when the water is shut off, and the faucet equipment can be used as a means for supplying domestic water.

Moreover, according to the faucet equipment of claim 7, since the fire extinguisher supply means is provided in the faucet equipment, the fire extinguisher can be discharged from the spout during the fire extinguishing activity, and the fire extinguishing capability by the faucet equipment Can be improved. Moreover, even when the water supply is shut down due to an earthquake or accident, the fire extinguisher can be released, so that fire extinguishing activities can be performed even when the water is shut down.

  Embodiments of the faucet equipment according to the present invention will be described below in detail with reference to the accompanying drawings. [I] First, the basic concept common to each embodiment was explained, then [II] the specific contents of each embodiment were explained, and [III] Finally, modifications to each embodiment were explained. To do. However, the present invention is not limited to each embodiment.

[I] Basic concept common to the embodiments First, the basic concept of the embodiment will be described. The faucet equipment according to the present embodiment provides a low-cost fire extinguishing equipment that enables fire extinguishing activities for a long time using a faucet equipment that is routinely used in a house and can be operated quickly and accurately. With the goal.

  The installation target of the faucet equipment according to the present embodiment is arbitrary, and can be installed on, for example, a kitchen in a house, a wash basin, or a sink in a hot water supply room of an office building. It can also be applied to sink stands installed outdoors in campsites and parks.

  One feature of the faucet equipment according to the present embodiment is that the faucet equipment that is installed on the sink table and used daily can be used as a fire extinguishing equipment in the event of a fire. It is in the point. The faucet equipment is connected to a water pipe and there are no restrictions on the water source, so it can be used for long-term fire fighting activities. Moreover, since it is used on a daily basis even when a fire does not occur and no stagnant water is produced, it is possible to prevent sanitary problems. Furthermore, since the user can become familiar with the operation of the faucet equipment through daily use, it is possible to operate quickly and accurately in the event of a fire.

  Moreover, since the faucet equipment according to the present embodiment includes a pull-out hose that can be pulled out freely, the water discharge head can be moved to the vicinity of the fire source during the fire extinguishing activity. Furthermore, the faucet equipment includes a water discharge head, and the direction of water discharge from the water discharge head can be switched. Therefore, it can be used in a water discharge direction suitable for daily life such as cooking in daily life, and water can be discharged in a direction suitable for fire extinguishing when a fire occurs. Further, the faucet equipment according to the present embodiment has a simple configuration as described above, and does not require a large-scale water pipe construction for the installation, so that it can be installed at low cost.

[II] Specific Contents of Embodiment Next, specific contents of each embodiment according to the present invention will be described.

[Embodiment 1]
First, the first embodiment will be described. This form is a form in which two types of water discharge ports for daily use and fire extinguishing are installed in the water discharge head.

(Composition of faucet equipment)
1 is an external perspective view of the faucet equipment according to Embodiment 1, FIG. 2 is a perspective view of the faucet equipment shown in FIG. 1 when the drawer hose is extended, and FIG. 3 is the side of the faucet equipment shown in FIG. FIG. 4 is a view showing the water discharge head of the faucet equipment shown in FIG. 1, (a) is a plan view of the water discharge head, (b) is a side view of the water discharge head, and FIG. It is AA sectional drawing of the water discharging head shown to).

  As shown in FIGS. 1 and 2, the faucet equipment 1 installed on the sink base 50 includes a water discharge head 10, a water tap 30 for performing water discharge and water stop operations in the water discharge head 10, and a water discharge head 10. And a connected drawing hose 40.

(Composition of faucet equipment-water discharge head 10)
Among these, the water discharging head 10 is a water discharging means or a water discharging means for discharging water in the faucet equipment 1, and as shown in FIG. 4 (b), a handle part 11, a water discharging port 12, a water flow path 13, and a turning part 14 are provided. And a switching lever 15. The handle portion 11 is a main body portion of the water discharge head 10 and is a holding portion when the user holds the water discharge head 10 and is formed in a long cylindrical shape so as to be easily grasped by a human hand. A water outlet 12 is formed at one end of the handle portion 11, and a drawing hose 40 is connected to the other end of the handle portion 11. The water outlet 12 is an opening for discharging water, and has two openings, a fire outlet 12a and a daily outlet 12b. The water flow path 13 is a flow path that guides water supplied from the draw hose 40 to the water discharge head 10 to the turning section 14, and is provided inside the handle section 11. The diverting unit 14 is a switching mechanism for selectively switching a mouth that discharges water from the water discharging head 10 to either the fire-extinguishing spout 12a or the daily spout 12b. Corresponds to the selection means. The turning portion 14 is built in the distal end portion of the handle portion 11. The switching lever 15 is for selecting a mouth to discharge water from the water discharge head 10, and is arranged in the vicinity of the water outlet 12, and a part of the switch lever 15 is extended inside the handle portion 11 to be changed. It is connected to the direction part 14. Note that further details of the water discharge port 12, the water flow path 13, the diverting portion 14, and the switching lever 15 will be described later. Here, the material constituting the water discharge head 10 is arbitrary, and, for example, by configuring the handle portion 11 with a resin that has been subjected to anti-slip processing such as a groove shape or a protrusion shape, the handle portion 11 can be reliably manufactured even during fire fighting activities. Can be grasped, and accurate fire fighting activities are possible.

(Composition of faucet equipment-faucet 30)
The faucet 30 is a water discharge operation means for performing water discharge and water stop operations in the water discharge head 10, and is installed on the sink table 50 as shown in FIGS. As shown in FIG. 3, the faucet 30 includes a faucet body 31, a valve mechanism 32, an operation handle 33, a water supply pipe 34, a water pipe 35, and a holder 36. The faucet body 31 is formed in a substantially cylindrical shape, and is installed on the sink table 50 so as to be substantially orthogonal to the top plate surface of the sink table 50. A valve mechanism 32 is provided inside the faucet body 31, and an operation handle 33 is connected to the upper part of the valve mechanism 32. Then, the valve mechanism 32 operates in conjunction with the operation on the operation handle 33, and the amount of water passing through the valve mechanism 32 is adjusted.

  In addition, a water supply pipe 34, a water pipe 35, and a draw-out hose 40 are inserted into the internal space of the faucet body 31 through a hole drilled in the sink base 50 immediately below the faucet body 31. The water supply pipe 34 is for supplying tap water to the valve mechanism 32, and has one end (lower end) connected to the water pipe 100 and the other end (upper end) connected to the valve mechanism 32. The water flow pipe 35 is for supplying water that has passed through the valve mechanism 32 to the drawing hose 40, and has one end (upper end) connected to the valve mechanism 32 and the other end (lower end) of the sink base 50. It is connected to the drawing hose 40 at the lower part.

  In addition, the holder 36 is formed in a substantially cylindrical shape and is disposed in the upper inclined direction with respect to the faucet body 31. A pull-out hose 40 is inserted into the holder 36 so that the pull-out hose 40 can be pulled out, and the water discharge head 10 is detachably held at the tip opening.

  In such a configuration, when the operation handle 33 is operated to open the valve mechanism 32, the water pressurized and supplied from the water pipe 100 to the water supply pipe 34 passes through the valve mechanism 32 to the water pipe 35, and It flows into the drawing hose 40, reaches the water discharge head 10, and is discharged from the water discharge port 12.

(Composition of faucet equipment-drawer hose 40)
As shown in FIG. 3, one end of the drawing hose 40 is connected to the water discharge head 10, and the other end is connected to the water conduit 35 at the lower part of the sink base 50. The drawer hose 40 can be pulled out from the sink table 50 via the water discharge head 10, and the extra length portion that is not pulled out from the sink table 50 is stored in the lower part of the sink table 50. Here, when a fire occurs, it is assumed that the fire source is located far away from the sink base 50. Therefore, the drawer hose 40 is long enough to move the water discharge head 10 to the vicinity of the fire source (for example, It is desirable to have ten or more m). Details of the storage structure of the drawer hose 40 will be described later. In addition, the material which comprises the drawer hose 40 is arbitrary, For example, it comprises the synthetic resin reinforced with chemical fibers, such as a polyester fiber and a polyamide fiber, By this, the drawer hose which had durability with respect to intense operation | movement at the time of fire fighting activity 40 can be realized.

(Composition of faucet equipment-description of details of water outlet 12)
Next, the structure of each part of the faucet equipment 1 described above will be described in more detail. First, as shown in FIG. 4, the water outlet 12 includes a fire outlet 12 a and a daily outlet 12 b. The fire-extinguishing spout 12 a is an opening for discharging water during a fire-extinguishing activity, and is formed at the tip of the water-discharge head 10 as an opening surface that is substantially orthogonal to the major axis direction of the handle portion 11. Therefore, water is discharged from the fire-extinguishing spout 12a in a direction (hereinafter referred to as a first direction) substantially the same as the major axis direction of the handle portion 11. For this reason, at the time of fire extinguishing activity, in the state where the handle portion 11 is held and the longitudinal direction thereof is directed to the fire source, water can be discharged from the fire extinguishing spout 12a toward the fire source, and the fire can be extinguished. In particular, here, by reducing the opening diameter of the fire-extinguishing spout 12a as compared with the inner diameter of the water flow path 13 inside the spout head 10, the spout speed is increased and the reach of the spout is increased. Therefore, at the time of fire extinguishing activity, the discharged water can reach the fire source.

  On the other hand, the daily spout 12 b is an opening for discharging water during daily use, and is formed at the tip of the water discharge head 10 as an opening surface substantially parallel to the major axis direction of the handle portion 11. . Therefore, from the water outlet 12b for daily use, a direction substantially orthogonal to the major axis direction of the handle portion 11 (hereinafter, a second direction: a direction toward the sink table 50 when the water discharge head 10 is set in the holder 36). Water is discharged. For this reason, in daily life, water can be supplied from the daily spout 12b toward the sink base 50 to perform cooking or the like.

(Composition of faucet equipment-description of details of water flow path 13)
The water flow path 13 is formed as a hollow cylindrical tube connecting the connection portion with the drawing hose 40 and the turning portion 14 inside the water discharge head 10. An end portion of the water flow path 13 on the side of the turning portion 14 is bent so as to be substantially orthogonal to the major axis direction of the handle portion 11, and the turning portion 14 has the turning portion 14 at the water discharge head 10. It functions as a rotating shaft (rotating joint 130) when rotating inside.

  Specifically, as shown in FIG. 5, the rotary joint 130 fixes the turning portion 14 to the water discharge head 10 with an O-ring 131 for preventing water leakage from the rotary joint 130 to the outside. The latch 132 is provided. The O-ring 131 is fitted in a circumferentially formed groove on the outer periphery of the cylindrical rotary joint 130. The latch 132 is installed in the vicinity of the O-ring 131 on the outer surface of the rotary joint 130, and a spring 133 is fitted between the latch 132 and the rotary joint 130.

(Composition of faucet equipment-description of details of turning section 14)
The turning portion 14 is formed in a cylindrical shape as shown in FIG. 4, and includes a joint bearing portion 140, a latch fitting hole 141, and a water discharge passage 142 as shown in FIG.

  The joint bearing part 140 is a circular opening provided on the plane of the end of the cylindrical turning part 14, and the inner periphery of the opening and the outer periphery of the O-ring 131 provided in the rotary joint 130 are the same. The opening diameter is determined so as to be in close contact.

  The latch fitting hole 141 is for fitting the latch 132 installed on the rotary joint 130, and is provided as a concave hole on the outer surface of the turning portion 14 in the vicinity of the joint bearing portion 140. Yes.

  The water discharge path 142 is a flow path for allowing the water flowing from the water flow path 13 to the turning portion 14 to flow out to the water discharge port 12 (only the water discharge port 12 b is shown in FIG. 5), and the outer peripheral surface of the turning portion 14. Provided as an opening. The opening surface of the water discharge path 142 is substantially parallel to the rotation axis of the turning portion 14, and is formed so that water flows in a direction substantially orthogonal to the rotation axis. Further, the opening diameter of the water discharge path 142 is determined so as to be substantially the same as the opening diameters of the daily water discharge port 12 b and the fire-extinguishing water discharge port 12 a inside the water discharge head 10.

(Composition of faucet equipment-description of details of switching lever 15)
As shown in FIG. 5, the switching lever 15 includes a shaft body 15a and a switching knob 15b. Among these, the shaft body 15a is provided with a switching knob 15b at one end thereof, and a turning portion 14 is connected to the other end thereof, and is rotated in a hole drilled in the water discharge head 10. It is installed freely. The switching knob 15 b is formed in a substantially flat plate shape and is installed so as to be exposed to the outside of the water discharge head 10.

(Composition of faucet equipment-details of storage structure of drawer hose 40)
Next, the storage structure of the drawer hose 40 will be described in more detail. About the short drawer hose in the faucet equipment that has been used conventionally, it can be stored by hanging the extra length of the drawer hose inside the sink base 50, but for the long drawer hose 40 considering fire fighting activity, The extra length of the drawer hose 40 can be spirally wound and stored in the sink base 50. Or more preferably, as shown in FIG. 3, the storage reel 41 is installed in the sink base 50, and the extra length of the drawer hose 40 is wound up and stored. The storage reel 41 includes a cylindrical drum 42, and the draw hose 40 can be housed by winding an extra length portion of the draw hose 40 around the circumferential surface of the drum 42. The drum 42 is urged in a predetermined winding direction by a spring or the like (not shown), and the extra length portion is automatically accommodated without manually rotating the drum 42. In addition, by configuring the drawer hose 40 using a curl hose having a deformable and spiral shape memory property, the drawer hose 40 can be pulled out from the sink base 50, and the extra length portion of the drawer hose 40 is The sink base 50 may be housed in a spiral shape.

(Operation of faucet equipment)
Next, the operation of the faucet equipment 1 obtained by the above configuration will be described.

(Effects of faucet equipment-daily use)
The faucet equipment 1 according to the first embodiment can be used on a daily basis. That is, during daily use, the water discharge head 10 is fixed on the sink base 50 and discharged from the daily water discharge port 12b. In this case, by setting the switching lever 15 to the “daily” position shown in FIG. 4, the water discharge path 142 in the turning portion 14 and the daily water discharge port 12 b in the water discharge head 10 are connected. Furthermore, since the latch 132 provided in the rotary joint 130 is fitted in the latch fitting hole 141 provided in the turning portion 14, the water discharge head 10 and the turning portion 14 are fixed to each other. ing. By opening the faucet 30 in this state, the water supplied from the faucet 30 to the water discharge head 10 flows into the turning portion 14 through the water flow path 13 and is discharged from the daily water discharge port 12b.

  Here, as shown in FIG. 1, when the water discharge head 10 is fixed on the sink table 50, the water discharge head 10 is set so that the long axis direction of the handle portion 11 is substantially parallel to the top plate surface of the sink table 50. Is fixed. At this time, since the water outlet 12b for daily use is installed so that water can be discharged in the second direction substantially orthogonal to the major axis direction of the handle portion 11, the water is discharged from the water outlet 12b for daily use. Water is discharged toward the sink.

(Effect of faucet equipment during fire fighting)
Moreover, the faucet equipment 1 which concerns on this Embodiment 1 can be used also for fire fighting activity. That is, at the time of fire extinguishing activity, the water discharge head 10 can be moved from the sink base 50 to the vicinity of the fire source, and water can be discharged from the fire discharge spout 12a. In this case, when the switching lever 15 is rotated to the “fire extinguishing” position shown in FIG. 4, the rotation operation is transmitted from the switching knob 15b to the turning portion 14 through the shaft body 15a. When the force transmitted to the turning portion 14 exceeds the elastic force of the spring 133 fitting the latch 132 into the latch fitting hole 141, the turning portion 14 rotates with respect to the water discharge head 10. When the switching lever 15 reaches the “fire extinguishing” position, the opening surface of the water discharge path 142 is connected to the fire extinguishing spout 12a. By opening the faucet 30 in this state, the water supplied from the faucet 30 to the water discharge head 10 flows into the turning portion 14 through the water flow path 13 and is discharged from the fire-extinguishing water discharge port 12a.

  Here, when water is discharged from the water discharge head 10, the recoil increases when the water discharge is strengthened. The water discharge head 10 in the faucet equipment 1 that has been used conventionally has a structure that discharges water in a direction substantially orthogonal to the major axis direction of the handle portion 11, and the rotational moment with respect to the handle portion 11 is caused by the reaction force of the water discharge. Occurred and the direction of water discharge could not be stabilized. Therefore, it was difficult to discharge water toward a target such as a fire source during fire fighting. On the other hand, the fire-extinguishing spout 12 a provided in the water discharge head 10 according to the first embodiment is provided so that water can be discharged in the first direction substantially the same as the major axis direction of the handle portion 11. Therefore, the direction of the reaction force generated by the water discharge coincides with the first direction, and the rotational moment with respect to the handle portion 11 does not occur, so the water discharge direction can be stabilized.

(Modification of Embodiment 1)
Next, a modification of the first embodiment will be described. In the faucet equipment 1, the faucet 30 is provided separately from the water discharge head 10, but the water faucet may be provided integrally with the water discharge head 10. For example, a switching opening / closing mechanism 16 configured integrally with a switching lever and a water faucet can be installed on the water discharge head 10. 6-9 is a figure which shows the front-end | tip part periphery of the water discharge head provided with the switching opening / closing mechanism, FIG. 6 is a side view of the front-end | tip part periphery of the water discharge head in a closed state, FIG. 7 is BB cross section of FIG. 8 is a side view of the periphery of the tip of the water discharge head in the open state, and FIG. 9 is a cross-sectional view taken along the line CC in FIG.

  The switching opening / closing mechanism 16 corresponds to the faucet, selection means, and spout selection opening / closing means in the claims, and includes a switching opening / closing lever 160 and a valve mechanism 161 connected to the switching opening / closing lever 160. I have.

  The switching opening / closing lever 160 includes a shaft body 160a, a switching knob 160b, and a male screw portion 160c. The switching opening / closing lever 160 is fixed to the turning portion 14 so as to be rotatable about the shaft body 160a as a rotation axis. The shaft body 160a is connected to a switching knob 160b at one end and a male threaded portion 160c at the other end, and is rotatable in holes formed in the turning portion 14 and the water discharge head 10. Has been placed. The switching knob 160 b is formed in a substantially flat plate shape and is installed so as to be exposed to the outside of the water discharge head 10. The male screw portion 160 c is formed as a male screw having the axis of the shaft body 160 a as a central axis, and is connected to an end portion of the shaft body 160 a opposite to the switching knob 160 b and is installed inside the turning portion 14. Has been.

  On the other hand, the valve mechanism 161 is installed inside the turning portion 14 and includes a valve holding portion 162 and a valve main body 163. The valve holding part 162 forms a guide structure that allows the valve main body 163 to slide relative to the turning part 14 only in the direction along the rotation axis of the turning part 14. Further, the valve holding part 162 is provided with a stopper 162 a that determines the slidable range of the valve main body 163. The valve main body 163 includes a female screw portion 163a and a packing 163b, and the female screw portion 163a is formed so as to mesh with the male screw portion 160c of the switching opening / closing lever 160. The packing 163b is joined to the tip of the valve main body 163 and is installed so as to be in close contact with the end face of the rotary joint 130.

  Although illustration is omitted, in the case where the faucet is provided integrally with the water discharge head 10 as described above, the water supply pipe 34 is directly connected to the drawing hose 40 at the lower part of the sink base 50 and the water pipe 35 is omitted. Can do.

(Operation of faucet equipment equipped with switching mechanism 16-during daily use)
Next, the operation of the faucet equipment 1 provided with the switching opening / closing mechanism 16 will be described. When the switching opening / closing lever 160 is in the “closed” position shown in FIGS. 6 and 7, the valve body 163 protrudes toward the end face of the rotary joint 130, and the packing 163 b is pressed against the end face of the rotary joint 130. Water does not flow into the turning portion 14 and does not discharge from the water outlet 12.

  Next, when the switching opening / closing lever 160 is rotated to the “open” position shown in FIGS. 8 and 9, the male screw portion 160 c rotates with the rotation of the switching opening / closing lever 160. The rotation operation of the male screw portion 160c is transmitted to the female screw portion 163a engaged with the male screw portion 160c. Here, the valve main body 163 in which the female screw portion 163a is formed is slidable only in the direction along the rotation axis of the turning portion 14 by the guide structure formed by the valve holding portion 162. It does not rotate in the rotation direction of 160c. Therefore, the rotation operation of the male screw portion 160c is converted into a linear motion operation of the valve body 163 via the female screw portion 163a. That is, the valve main body 163 linearly moves along the rotation axis of the turning portion 14 by a distance corresponding to the rotation operation of the male screw portion 160c. Due to the linear motion of the valve body 163, a gap is generated between the packing 163 b and the end face of the rotary joint 130, so that water flows into the turning portion 14. Further, here, the water discharge passage 142 and the daily water discharge port 12b are arranged so as to be connected to each other, and further, the latch 132 provided in the rotary joint 130 is a latch fitting hole provided in the turning portion 14. 141, since the water discharge head 10 and the direction change part 14 are being mutually fixed. Accordingly, the water that has flowed into the turning portion 14 is discharged from the daily water discharge port 12b through the water discharge path 142.

(Operation of faucet equipment equipped with switching mechanism 16-during fire fighting)
Further, when the switching opening / closing lever 160 is rotated to the “fire extinguishing” position, the male screw portion 160c rotates with the rotation of the switching opening / closing lever 160, and the rotation operation is transmitted to the female screw portion 163a. Here, since the valve holding portion 162 is provided with the stopper 162a so that the valve main body 163 cannot be operated linearly any more when the switching opening / closing lever 160 is rotated to the “open” position. The main body 163 does not operate linearly. Accordingly, the rotational motion transmitted to the female screw portion 163a is transmitted from the valve body 163 to the turning portion 14 via the valve holding portion 162. When the transmitted force due to the rotational operation exceeds the elastic force of the spring 133 that causes the latch 132 to fit into the latch fitting hole 141, the turning portion 14 rotates about the water discharge head 10 around the rotary joint 130. To do. When the switching open / close lever 160 reaches the “fire extinguishing” position, the opening surface of the water discharge passage 142 is connected to the fire discharge water outlet 12a, and water is discharged from the fire discharge water outlet 12a.

  According to such a modification, since the user who grasps the water discharge head 10 can operate the faucet at hand, it is possible to carry the water discharge head 10 during the fire fighting operation and the water discharge operation alone. It becomes. In particular, since the switching opening / closing lever 160 is used on a daily basis and the user is familiar with the operation thereof, an accurate operation can be performed even during fire extinguishing.

(Effect of Embodiment 1)
As described above, according to the first embodiment, the drawer hose 40 connected to the water discharge head 10 is housed in the sink base 50 and is formed so as to be freely pulled out from the sink base 50. By pulling out the drawing hose 40, the water discharge head 10 can be moved to the vicinity of the fire source. In addition, a fire-extinguishing spout 12a that spouts water in the first direction and a daily spout 12b that spouts water in the second direction are provided on the spout head 10, and a switching lever 15 for selecting the spout 12 is provided. Since it provided, the water discharge direction can be switched. Accordingly, water can be discharged from the daily water outlet 12b in a direction suitable for daily life such as cooking in daily life, and in the event of a fire, by operating the switching lever 15 and discharging water from the fire water outlet 12a, the water is directed toward the fire source. The water can be discharged stably. In this way, since the faucet equipment 1 that is used on a daily basis is configured to be used as a fire extinguishing equipment in the event of a fire, there is no restriction on the water source and it can be used for fire extinguishing activities for a long time. Moreover, since it is used on a daily basis even when a fire does not occur and no stagnant water is produced, it is possible to prevent sanitary problems. Furthermore, since the user can become familiar with the operation of the faucet equipment 1 through daily use, quick and accurate operation is possible in the event of a fire. Moreover, since it is comprised simply, it can install cheaply.

[Embodiment 2]
Next, a second embodiment will be described. This form is a form in which the water discharge head is provided with an attachment / detachment mechanism that allows the fire discharge water discharge head connected to the drawer hose and the daily water discharge head connected to the fire discharge water discharge head to be detachable.

  10 and 11 are views showing the water discharge head 10 in the faucet equipment according to the second embodiment, in which FIG. 10 (a) is a side sectional view in the attached state, and FIG. 10 (b) is a side sectional view in the removed state. FIG. 11 is a cross-sectional view taken along the line DD of FIG. The configuration of the second embodiment is substantially the same as the configuration of the first embodiment except where otherwise specified, and the same configuration as that of the first embodiment is used in the first embodiment. The same reference numerals and / or names are attached as necessary, and the description thereof is omitted.

  As shown in FIGS. 10 and 11, the water discharge head 10 includes a fire-extinguishing water discharge head 18 used in daily life and fire extinguishing activities, and a daily water discharge head 17 connected to the fire-extinguishing water discharge head 18 and used only in daily life. And. Next, each element constituting the water discharge head 10 will be described.

(Configuration of water discharge head 10-water discharge head 18 for fire fighting)
The fire-extinguishing water discharge head 18 is formed in a substantially cylindrical shape, and is a first for connecting the handle portion 11, the fire-extinguishing water discharge port 12 a, the faucet 185, and the daily water discharge head 17 to the fire-extinguishing water discharge head 18. The connection part 180 is provided. The fire-extinguishing spout 12 a is formed at the tip of the fire-extinguishing spout head 18 and is formed as an opening surface that is substantially orthogonal to the major axis direction of the handle portion 11. Accordingly, water is discharged from the fire-extinguishing spout 12a in the first direction substantially the same as the long axis direction of the handle portion 11. The faucet 185 is disposed between the fire-extinguishing spout 12 a and the handle portion 11, and includes a valve mechanism 186 and an operation handle 187 connected to the valve mechanism 186. The valve mechanism 186 is disposed inside the fire-extinguishing water discharge head 18, and the operation handle 187 is disposed outside the fire-extinguishing water discharge head 18.

  The first connecting portion 180 is located between the fire-extinguishing spout 12 a and the faucet 185 in the fire-extinguishing spout head 18 and includes an O-ring 181 and a spring latch fitting groove 182. The O-ring 181 is provided to prevent water leakage from the first connection portion 180 when the daily water discharge head 17 is connected to the fire-extinguishing water discharge head 18 and discharged from the daily water discharge port 12b. Specifically, an O-ring 181 is fitted in a groove provided circumferentially on the outer peripheral portion of the first connection portion 180 having a substantially cylindrical shape. The spring latch fitting groove 182 is a groove for fitting a spring latch 171 (described later) provided in the daily water discharge head 17 when the daily water discharge head 17 is connected to the fire-extinguishing water discharge head 18, and an O-ring 181. Is provided on the outer peripheral portion of the first connection portion 180 in a circumferential shape between the water discharge port 12a for fire extinguishing.

(Configuration of water discharge head 10-daily water discharge head 17)
The daily water discharge head 17 is formed of a hollow tube having a substantially L-shaped side surface, and is a second for connecting the daily water discharge head 17 to the daily water discharge port 12 b and the fire-extinguishing water discharge head 18. The connection part 170 is provided. The daily spout 12b has an opening surface substantially parallel to the major axis direction of the handle portion 11 of the fire-extinguishing spout head 18 when the daily spout head 17 is connected to the fire-extinguishing spout head 18. It is installed to discharge water in a second direction substantially orthogonal to the major axis direction.

  The second connection portion 170 is provided at the end of the daily water discharge head 17 opposite to the daily water discharge port 12b. The second connecting portion 170 is formed in a substantially cylindrical shape, and when connected to the fire-extinguishing water discharge head 18, the inner surface of the second connecting portion 170 is connected to the outer periphery of the O-ring 181 in the first connecting portion 180. The inner diameter of the second connecting portion 170 is determined so as to be in close contact. The second connection portion 170 includes a spring latch 171. The spring latch 171 is used for attaching and detaching the daily water discharge head 17 and the fire-extinguishing water discharge head 18. Specifically, a spring latch 171 formed in a substantially circumferential shape is fitted into a groove provided circumferentially on the inner side surface of the second connection portion 170. Here, a spring 172 is fitted between the spring latch 171 and the groove. The first connection portion 180 and the second connection portion 170 correspond to the attachment / detachment mechanism in the claims.

  On the outer periphery of the spring latch 171, a detach button 171 a extending in the direction from the center of the circumference of the spring latch 171 toward the outer periphery is provided at a position opposite to the spring 172 in the diameter direction of the spring latch 171. The removal button 171 a is provided so as to protrude through the hole formed in the daily water discharge head 17 and to the outside of the daily water discharge head 17. Further, the inner diameter of the spring latch 171 is determined so as to form a clearance fit with respect to the maximum outer diameter of the portion from the fire-extinguishing water outlet 12 a to the spring latch fitting groove 182 in the first connection portion 180.

(Operation of the water discharge head 10)
Next, the operation of the water discharge head 10 obtained by the above configuration will be described. As shown in FIG. 10 (a), when connecting the daily water discharge head 17 to the fire-extinguishing water discharge head 18, the first connection portion 180 is inserted into the second connection portion 170. The water discharge head 17 is pushed into the fire-extinguishing water discharge head 18. When the spring latch 171 reaches the spring latch fitting groove 182, the spring latch 171 is pushed into the spring latch fitting groove 182 by the elastic force of the spring 172, so that the daily water discharge head 17 and the fire extinguishing water discharge head 18 are mutually connected. Fixed.

  At this time, the inner surface of the second connection portion 170 and the outer periphery of the O-ring 181 are in close contact. Accordingly, by operating the operation handle 187 and opening the faucet 185 while the daily water spouting head 17 is connected to the fire extinguishing water spouting head 18, the water that has passed through the faucet 185 leaks to the outside from the connecting portion. The water is discharged from the daily water discharge port 12b without performing the operation.

  Further, when the detachable button 171a is pressed while the daily water discharge head 17 is connected to the fire-extinguishing water discharge head 18, the spring latch 171 is pushed out from the spring latch fitting groove 182, so that the daily water discharge head 17 is fired. Can be moved and removed. As shown in FIG. 10B, when the operation handle 187 is operated and the faucet 185 is opened with the daily spout head 17 removed, the water that has passed through the faucet 185 is spouted from the fire extinguishing spout 12a. Fire fighting activities.

(Effect of Embodiment 2)
As described above, according to the second embodiment, in addition to the same effects as those of the first embodiment, the fire-extinguishing spout head 18 having the fire-extinguishing spout 12a, and the daily spout head 17 having the daily spout 12b, Since the spring latch 171 is provided on the daily water discharge head 17 so as to be detachable from each other, the daily water discharge head 17 can be discharged from the daily water discharge port 12b during daily use, and the daily water discharge head 17 can be easily operated during fire extinguishing activities. The water can be discharged from the water outlet 12a for removal and fire extinguishing.

[Embodiment 3]
Next, Embodiment 3 will be described. This form is the form which provided the water discharge head movable part which can change the water discharge direction in the water discharge head.

  12 is a view showing a water discharge head in the faucet equipment according to the third embodiment, (a) is a plan view of the water discharge head, (b) is a side view of the water discharge head, and FIG. 13 is a water discharge head shown in FIG. EE sectional view of the head, FIG. 14 is an FF sectional view of the water discharge head shown in FIG. 12, (a) is a sectional view in the closed state, (b) is a sectional view in the opened state. . The configuration of the third embodiment is substantially the same as the configuration of the second embodiment unless otherwise specified, and the same configuration as that of the second embodiment is used in the second embodiment. The same reference numerals and / or names are attached as necessary, and the description thereof is omitted.

  As shown in FIG. 12, the water discharge head 10 in the faucet equipment 1 according to the third embodiment is configured to include a water discharge head main body 19 and a water discharge head movable unit 20 located at the tip of the water discharge head 10. ing. Next, each element constituting the water discharge head 10 will be described.

(Configuration of water discharge head 10-water discharge head main body 19)
The water discharge head main body 19 includes the handle portion 11, a water flow path 190, and a rotary joint 191. The water flow path 190 is a flow path that allows water supplied from the draw hose 40 to the water discharge head 10 to pass to the water discharge head movable unit 20 described later. Specifically, the water flow path 190 is formed as a hollow tube connecting the connection portion with the drawing hose 40 and the water discharge head movable portion 20 inside the water discharge head main body 19. Further, the end of the water flow path 190 on the water discharge head movable portion 20 side is formed in a cylindrical shape, and the axis of the cylinder is bent so as to be substantially orthogonal to the major axis direction of the handle portion 11. The bent end portion functions as a rotation axis (rotation joint 191) when the water discharge head movable portion 20 rotates with respect to the water discharge head main body 19.

  Specifically, as shown in FIG. 13, the rotary joint 191 includes an O-ring 131 for preventing water leakage from the rotary joint 191 to the outside. The O-ring 131 is fitted in a circumferentially formed groove on the outer periphery of the cylindrical rotary joint 191.

(Configuration of water discharge head 10-water discharge head movable portion 20)
As shown in FIGS. 12, 13, and 14, the water discharge head movable portion 20 is formed in a shape in which the water discharge head main body 19 is extended in the long axis direction of the handle portion 11, and the joint bearing portion 200 and the water discharge port 12. And a faucet 201.

  The joint bearing part 200 is a circular opening provided on the side of the connection part of the water discharge head movable part 20 with the water discharge head main body 19, and the inner periphery of the opening and the outer periphery of the O-ring 131 provided in the rotary joint 191. The opening diameter is determined so as to be in close contact with each other.

  The water discharge port 12 is formed as an opening provided at the tip of the water discharge head movable unit 20. The opening surface of the water discharge port 12 is substantially parallel to the rotation axis of the water discharge head movable unit 20 and is formed so as to discharge water in a direction substantially orthogonal to the rotation axis.

  The faucet 201 is for adjusting the amount of water discharged from the water outlet 12, and includes an operation handle 202 and a valve mechanism 203 connected to the operation handle 202. Next, details of the operation handle 202 and the valve mechanism 203 will be described below.

(Configuration of the water discharge head 10-description of details of the operation handle 202)
As shown in FIG. 14, the operation handle 202 includes a shaft body 202 a, an operation knob 202 b, and a male screw portion 202 c, and is rotatable with respect to the water discharge head movable portion 20 using the shaft body 202 a as a rotation axis. It is fixed. The shaft body 202a is connected to an operation knob 202b at one end and a male screw portion 202c to the other end, and is installed through a hole drilled in the water discharge head movable portion 20. . The operation knob 202b is formed in a substantially flat plate shape and is installed so as to be exposed to the outside of the water discharge head movable unit 20. The male screw portion 202 c is formed as a male screw having the axis of the shaft body 202 a as a central axis, and is connected to the end of the shaft body 202 a opposite to the operation knob 202 b, and inside the water discharge head movable portion 20. is set up.

(Configuration of water discharge head 10-description of details of valve mechanism 203)
The valve mechanism 203 is installed inside the water discharge head movable unit 20 and includes a valve holding unit 204 and a valve main body 205. The valve holding unit 204 forms a guide structure that allows the valve main body 205 to be slidable only in the direction orthogonal to the opening surface of the water discharge port 12 with respect to the water discharge head movable unit 20. The valve main body 205 includes a female screw portion 205 a and a packing 205 b, and the female screw portion 205 a is formed so as to mesh with the male screw portion 202 c of the operation handle 202. Further, the packing 205 b is joined to the tip of the valve body 205 and is installed so as to be in close contact with the peripheral edge of the water discharge port 12.

(Operation of the water discharge head 10)
Next, the operation of the water discharge head 10 obtained by the above configuration will be described. When the operation handle 202 is in the “closed” position shown in FIG. 12, the valve body 205 protrudes toward the spout 12 as shown in FIG. 14A, and the packing 205 b is pressed against the periphery of the spout 12. Therefore, the water is not discharged from the water outlet 12.

  Next, when the operation handle 202 is rotated to the “open” position shown in FIG. 12, the male screw portion 202 c rotates with the rotation of the operation handle 202. The rotation operation of the male screw portion 202c is transmitted to the female screw portion 205a engaged with the male screw portion 202c. Here, the valve main body 205 in which the female screw portion 205a is formed is slidable only in the direction orthogonal to the opening surface of the water discharge port 12 by the guide structure formed by the valve holding portion 204. It does not rotate in the rotation direction of 202c. Accordingly, the rotation operation of the male screw portion 202c is converted into a linear operation of the valve body 205 via the female screw portion 205a. That is, the valve body 205 linearly moves a distance corresponding to the rotational operation of the male screw portion 202 c along a direction orthogonal to the opening surface of the water discharge port 12. Due to the linear motion of the valve body 205, a gap is formed between the packing 205b and the periphery of the water outlet 12 as shown in FIG. 14 (b), so that water is discharged from the water outlet 12.

  Here, in the state shown in FIG. 12, since the opening surface of the water discharge port 12 is arranged in a direction substantially parallel to the major axis direction of the handle portion 11, the water is in the major axis direction of the handle portion 11. Water is discharged in a substantially orthogonal direction, and water can be supplied during daily life.

  Further, at the time of extinguishing the fire, the water discharge head movable portion 20 is gripped, and the water discharge head movable portion 20 is rotated about the water discharge head main body 19 around the rotary joint 191, so that the opening surface of the water discharge port 12 becomes the grip portion 11. The position is substantially perpendicular to the major axis direction. When the operation handle 202 is operated in this arrangement to open the faucet 201, water is spouted in a first direction substantially the same as the long axis direction of the handle portion 11, and fire extinguishing activity can be performed.

(Effect of Embodiment 3)
As described above, according to the third embodiment, in addition to the same effects as those of the second embodiment, the water discharge head movable portion 20 capable of changing the water discharge direction is provided in the water discharge head 10, so that the handle is used during daily use. The water can be discharged in a second direction substantially orthogonal to the long axis direction of the portion 11, and the first substantially the same as the long axis direction of the handle portion 11 by rotating the water discharge head movable portion 20 during fire extinguishing activity. Water can be discharged in the direction of.

[Embodiment 4]
Next, a fourth embodiment will be described. This form is a form in which an operation handle for turning the water discharge head movable portion is provided in the water discharge head.

  15 is a view showing a water discharge head in the faucet equipment according to Embodiment 4, (a) a plan view of the water discharge head, (b) a side view of the water discharge head, and FIG. 16 a water discharge head shown in FIG. These are GG sectional drawing of these, (a) is sectional drawing of a closed state, (b) has shown sectional drawing of an open state. The configuration of the fourth embodiment is substantially the same as the configuration of the third embodiment except where otherwise specified. The same configuration as that of the third embodiment is used in the third embodiment. The same reference numerals and / or names are attached as necessary, and the description thereof is omitted.

  As shown in FIG. 15, the water discharge head 10 in the faucet equipment 1 according to the fourth embodiment is located at the water discharge head main body 21 and the tip of the water discharge head 10, similarly to the water discharge head 10 of the third embodiment. The water discharge head movable part 22 is configured. Next, each element constituting the water discharge head 10 will be described.

(Configuration of water discharge head 10-water discharge head main body 21)
The water discharge head main body 21 according to the fourth embodiment includes the handle portion 11, the water flow path 190, and the rotary joint 210, similarly to the water discharge head main body 21 according to the third embodiment. Further, the rotary joint 210 is provided with a latch 132 for fixing the water discharge head movable portion 22 and the water discharge head main body 21 to each other. The latch 132 is installed in the vicinity of the O-ring 131 on the outer surface of the rotary joint 210, and a spring 133 is fitted between the latch 132 and the rotary joint 210.

(Configuration of water discharge head 10-water discharge head movable portion 22)
As shown in FIGS. 15 and 16, the water discharge head movable portion 22 is formed in a cylindrical shape, and includes a joint bearing portion 200, a latch fitting hole 221, a water discharge port 12, and a water tap 222. ing.

  The joint bearing part 200 is a circular opening provided in the plane of the end of the cylindrical water discharge head movable part 22, and the inner periphery of the opening and the outer periphery of the O-ring 131 included in the rotary joint 210. The opening diameter is determined so as to be closely attached.

  The latch fitting hole 221 is for fitting the latch 132 installed on the rotary joint 210, and is provided as a concave hole on the outer surface of the water discharge head movable portion 22 in the vicinity of the joint bearing portion 200. ing.

  The water discharge port 12 is formed by providing an opening on the outer peripheral surface of the water discharge head movable unit 22. The opening surface of the water discharge port 12 is formed to be substantially parallel to the rotation axis of the water discharge head movable portion 22 and to discharge water in a direction substantially orthogonal to the rotation axis.

  The water tap 222 is for adjusting the amount of water supplied from the water discharge head body 21 to the water discharge head movable unit 22, and includes an operation handle 202 and a valve mechanism 161 connected to the operation handle 202. Next, details of the operation handle 202 and the valve mechanism 161 will be described below.

(Configuration of the water discharge head 10-description of details of the operation handle 202)
The operation handle 202 includes a shaft body 202a, an operation knob 202b, and a male screw portion 202c, and is fixed to the water discharge head movable portion 22 so as to be rotatable about the shaft body 202a. The shaft body 202a is connected to an operation knob 202b at one end and a male threaded portion 202c at the other end, and rotates in a hole formed in the water discharge head movable portion 22 and the water discharge head main body 21. Arranged freely. The operation knob 202 b is formed in a substantially flat plate shape and is installed so as to be exposed to the outside of the water discharge head main body 21. The male screw portion 202c is formed as a male screw having the axis of the shaft body 202a as a central axis, and is connected to the end of the shaft body 202a opposite to the operation knob 202b. is set up.

(Configuration of water discharge head 10-description of details of valve mechanism 161)
The valve mechanism 161 is installed inside the water discharge head movable unit 22 and includes a valve holding unit 162 and a valve main body 163. The valve holding portion 162 forms a guide structure that allows the valve main body 163 to slide only in the direction along the rotation axis of the water discharge head movable portion 22 with respect to the water discharge head movable portion 22. Further, the valve holding part 162 is provided with a stopper 162 a that determines the slidable range of the valve main body 163. The valve main body 163 includes a female screw portion 163a and a packing 163b, and the female screw portion 163a is formed so as to mesh with the male screw portion 202c of the operation handle 202. Further, the packing 163b is joined to the tip of the valve body 163 and is installed so as to be in close contact with the end face of the rotary joint 210.

(Operation of the water discharge head 10)
Next, the operation of the water discharge head 10 obtained by the above configuration will be described. When the operation handle 202 is in the “closed” position shown in FIG. 15, the valve main body 163 protrudes toward the end face of the rotary joint 210 as shown in FIG. 16A, and the packing 163 b faces the end face of the rotary joint 210. Since the water is pressed, water does not flow into the water discharge head movable portion 22 and does not discharge water from the water discharge port 12. Further, the opening surface of the water discharge port 12 is arranged in a direction substantially parallel to the major axis direction of the handle portion 11. Furthermore, since the latch 132 provided in the rotary joint 210 is fitted in the latch fitting hole 221 provided in the water discharge head movable portion 22, the water discharge head main body 21 and the water discharge head movable portion 22 are fixed to each other. It is in a state.

  Next, when the operation handle 202 is rotated to the “open” position shown in FIG. 15, the male screw portion 202 c rotates with the rotation of the operation handle 202. The rotation operation of the male screw portion 202c is transmitted to the female screw portion 163a engaged with the male screw portion 202c. Here, the valve main body 163 in which the female screw portion 163a is formed is slidable only in the direction along the rotation axis of the water discharge head movable portion 22 by the guide structure formed by the valve holding portion 162. It does not rotate in the rotation direction of the portion 202c. Accordingly, the rotation operation of the male screw portion 202c is converted into a linear motion operation of the valve main body 163 via the female screw portion 163a. That is, the valve main body 163 linearly moves a distance corresponding to the rotation operation of the male screw portion 202 c along the rotation axis of the water discharge head movable portion 22. As the valve body 163 moves linearly, a gap is formed between the packing 163b and the end face of the rotary joint 210 as shown in FIG. 16 (b), so that water flows into the water discharge head movable portion 22 and the water discharge port. 12 is discharged. As described above, since the opening surface of the water discharge port 12 is disposed in a direction substantially parallel to the long axis direction of the handle portion 11, water is discharged in a direction substantially orthogonal to the long axis direction of the handle portion 11. The

  Further, when the operation handle 202 is rotated to the “fire extinguishing” position shown in FIG. 15, the male screw portion 202c rotates with the rotation of the operation handle 202, and the rotation operation is transmitted to the female screw portion 163a. Here, when the operation handle 202 is rotated to the “open” position, the valve holding portion 162 is provided with a stopper 162a so that the valve main body 163 can no longer operate linearly. 163 does not operate linearly. Therefore, the rotation operation transmitted to the female screw portion 163a is transmitted from the valve main body 163 to the water discharge head movable portion 22 via the valve holding portion 162. When the transmitted force due to the rotational operation exceeds the elastic force of the spring 133 that causes the latch 132 to fit into the latch fitting hole 221, the water discharge head movable portion 22 rotates relative to the water discharge head main body 21. When the operation handle 202 reaches the “fire extinguishing” position, the opening surface of the water discharge port 12 becomes a position substantially orthogonal to the major axis direction of the handle portion 11, and the first axis which is substantially the same as the major axis direction of the handle portion 11. Water is discharged in the direction.

(Effect of Embodiment 4)
As described above, according to the fourth embodiment, in addition to the same effects as the third embodiment, the water discharge head movable portion 22 capable of changing the water discharge direction is provided in the water discharge head 10, so that the handle is used during daily use. The water can be discharged in a second direction substantially orthogonal to the long axis direction of the portion 11, and the first substantially the same as the long axis direction of the handle portion 11 by rotating the water discharge head movable portion 22 during fire extinguishing activity. Water can be discharged in the direction of. Moreover, since the operation which rotates the water discharge head movable part 22 at the time of fire extinguishing activity is performed by the operation handle 202 used on a daily basis, quick and accurate operation can be performed.

[Embodiment 5]
Next, a fifth embodiment will be described. This form is a form in which water storage supply means is provided.

  FIG. 17: has shown the internal front view in the door open state of the sink stand 50 in which the faucet equipment which concerns on Embodiment 5 was installed. Note that the configuration of the fifth embodiment is substantially the same as the configuration of the fourth embodiment unless otherwise specified, and the configuration substantially the same as the configuration of the fourth embodiment is used in the fourth embodiment. The same reference numerals and / or names are attached as necessary, and the description thereof is omitted.

  As shown in FIG. 17, the faucet equipment 1 according to the fifth embodiment includes a water storage supply unit 51 inside a sink base 50. The water storage supply unit 51 includes a water storage tank 510 that stores water, a pressurization cartridge 511 that pressurizes the inside of the water storage tank 510, and an activation switch 512 that activates the pressurization cartridge 511. Next, each element which comprises the water storage supply part 51 is demonstrated.

(Structure of the water storage supply unit 51-water storage tank 510)
The water storage tank 510 is a water storage means for storing water, and is stored in the sink base 50. A water pipe 100 and a water supply pipe 34 are connected to the water tank 510, and a check valve 513 is installed between the water tank 510 and the water pipe 100. In addition, although the shape of the water tank 510 and the material which comprises the water tank 510 are arbitrary, since the water tank 510 is pressurized by the cartridge 511 for pressurization mentioned later, for example, metals, such as aluminum and stainless steel, and fiber reinforcement | strengthening It is desirable to use a high-strength material such as plastic to make a container that can withstand high pressure. In order to prevent sanitary problems from occurring due to water remaining inside the water storage tank 510, for example, the outlet of the water pipe 100 inside the water storage tank 510 is directed toward the inner wall surface of the water storage tank 510, The water supplied to the inside of the water storage tank 510 is convected along the inner wall surface of the water storage tank 510, or a rectifying plate that promotes convection inside the water storage tank 510 is provided to stay in the water storage tank 510. It is desirable not to produce water.

(Structure of the water storage supply unit 51-cartridge 511 for pressurization)
The pressurizing cartridge 511 is for pressurizing the inside of the water storage tank 510 and corresponds to the water storage tank pressurizing means in the claims. A high-pressure gas, for example, high-pressure nitrogen is sealed inside the pressurizing cartridge 511 and is installed in the vicinity of the water storage tank 510. The pressurizing cartridge 511 is connected to the water storage tank 510 via a check valve 513.

(Structure of the water storage supply unit 51-switch for activation)
The start switch 512 is for starting the pressurizing cartridge 511 and corresponds to the water tank pressurizing start means in the claims. The start switch 512 is installed at a position where the user can easily operate, for example, near the top plate of the sink base 50, and is electrically or mechanically connected to the pressurizing cartridge 511.

(Operation of the water storage supply unit 51)
Next, the operation of the water storage supply unit 51 will be described. During normal times when water pressure is applied to the water pipe 100 from the outside and tap water is supplied from the water pipe 100 to the water tank 510, the water is stored inside the water tank 510. Since the check valve 513 is installed between the water pipe 100 and the water storage tank 510, water does not flow out from the water storage tank 510 to the water pipe 100. When the faucet 30 is opened in this state, water inside the water storage tank 510 is supplied to the water supply pipe 34 by water pressure applied from the outside, and water is supplied from the water supply pipe 34 to the water discharge head 10 via the draw hose 40. It reaches and is discharged from the water outlet 12.

  Here, when water is cut off due to the occurrence of an earthquake or a water supply accident, the water pressure on the water pipe 100 is lost, so even if the faucet 30 is opened, water is not supplied to the water discharge head 10 and water discharge is impossible. Become. When the pressurizing cartridge 511 is started by operating the start switch 512 in such a water cutoff state, the high-pressure gas enclosed in the pressurizing cartridge 511 is released from the pressurizing cartridge 511 and the inside of the water storage tank 510 is added. Press.

  Here, since the check valve 513 is installed between the pressurizing cartridge 511 and the water storage tank 510, water does not flow backward from the water storage tank 510 to the pressurization cartridge 511. Further, since the check valve 513 is also installed between the water pipe 100 and the water storage tank 510, water does not flow out from the water storage tank 510 to the water pipe 100. Accordingly, when the faucet 30 is opened in this state, the water inside the water storage tank 510 is supplied to the water supply pipe 34 by the pressure applied from the high pressure gas, and from the water supply pipe 34 to the water discharge head 10 via the draw hose 40. Water reaches and is discharged from the water outlet 12.

  Note that when the start switch 512 is operated, the gas supply to the stove may be shut off using the high-pressure gas of the pressurizing cartridge 511. Specifically, the pressurized gas discharge path from the pressurizing cartridge 511 is branched into two systems, one system is connected to the water storage tank 510, and the other system is connected to a gas supply valve (not shown). This gas supply valve is installed in a gas supply system for a gas stove (not shown) provided in the sink base 50, and is driven by pressurized gas from a pressurizing cartridge 511 to cut off gas supply with a known structure. . This makes it possible to quickly and surely shut off gas during a disaster such as an earthquake and improve disaster prevention performance.

(Effect of Embodiment 5)
As described above, according to the fifth embodiment, in addition to the same effects as those of the first to fourth embodiments, the water storage supply unit 51 is provided in the faucet equipment 1, so that the water supply is cut off due to an earthquake or an accident. Even if it becomes a state, the stored water can be discharged. Therefore, fire extinguishing activities can be performed even when the water is shut off, and the faucet equipment 1 can be used as a means for supplying domestic water.

[Embodiment 6]
Next, a sixth embodiment will be described. This form is a form provided with extinguishing agent supply means.

  FIG. 18 shows an internal front view of the sink stand in which the faucet equipment according to Embodiment 6 is installed in an open state. The configuration of the sixth embodiment is substantially the same as the configuration of the fifth embodiment unless otherwise specified, and the configuration substantially the same as the configuration of the fifth embodiment is used in the fifth embodiment. The same reference numerals and / or names are attached as necessary, and the description thereof is omitted.

  As shown in FIG. 18, the faucet equipment 1 according to the sixth embodiment includes a fire extinguishing agent supply unit 52 inside the sink base 50 in which the faucet equipment 1 is installed, and the fire extinguishing agent supply unit 52 includes a fire extinguisher tank 520 for storing a fire extinguisher, a fire extinguisher pressurizing cartridge 521 for pressurizing the inside of the fire extinguisher tank 520, and a fire extinguisher start switch 522 for starting the fire extinguisher pressurizing cartridge 521. . Next, each element which comprises the fire extinguisher supply part 52 is demonstrated.

(Configuration of fire extinguisher supply unit 52-fire extinguisher tank 520)
The fire extinguisher tank 520 is for storing a fire extinguisher and is stored in the sink base 50. A water supply pipe 34 is connected to the fire extinguisher tank 520, and a check valve 513 is provided between the fire extinguisher tank 520 and the water supply pipe 34. Further, a check valve 513 is also provided on the water pipe 100 side in the vicinity of the connection portion of the water supply pipe 34 to the fire extinguisher tank 520.

(Configuration of extinguishing agent supply unit 52-cartridge 521 for pressurizing extinguishing agent)
The extinguishing agent pressurizing cartridge 521 is for pressurizing the inside of the extinguishing agent tank 520 and corresponds to the extinguishing agent tank pressurizing means in claims. A high-pressure gas such as high-pressure nitrogen or high-pressure carbon dioxide is sealed inside the extinguishing agent pressurizing cartridge 521 and is installed in the vicinity of the extinguishing agent tank 520. The extinguishing agent pressurizing cartridge 521 is connected to the extinguishing agent tank 520 through a check valve 513.

(Configuration of fire extinguisher supply section 52-fire extinguisher start switch 522)
The fire extinguisher start switch 522 is for starting the fire extinguisher pressurizing cartridge 521 and corresponds to the fire extinguisher tank pressurizing start means in the claims. The fire extinguisher activation switch 522 is installed in the vicinity of the top plate of the sink base 50 and is electrically or mechanically connected to the fire extinguishing agent pressurizing cartridge 521.

(Operation of fire extinguishing agent supply unit 52)
Next, the operation of the fire extinguisher supply unit 52 will be described. During daily use, pressurized water from the outside exists inside the water supply pipe 34, but since the check valve 513 is installed between the water supply pipe 34 and the fire extinguisher tank 520, the water is put into the fire extinguisher tank. There is no backflow inside 520. When the faucet 30 is opened in this state, water that has reached the water discharge head 10 from the water supply pipe 34 via the draw hose 40 is discharged from the water discharge port 12.

  When the water faucet 30 is opened in the event of a fire and the extinguishing agent pressurizing cartridge 521 is started by operating the extinguishing agent start switch 522, the high-pressure gas enclosed in the extinguishing agent pressurizing cartridge 521 becomes the extinguishing agent pressurizing cartridge 521. The inside of the fire extinguisher tank 520 is pressurized. Here, since the check valve 513 is installed between the extinguishing agent pressurizing cartridge 521 and the extinguishing agent tank 520, the extinguishing agent flows backward from the extinguishing agent tank 520 to the extinguishing agent pressurizing cartridge 521. There is no. Therefore, the extinguishing agent is supplied to the water supply pipe 34 from the inside of the pressurized extinguishing agent tank 520. Further, a check valve 513 is provided on the water pipe 100 side at the connection between the water supply pipe 34 and the fire extinguisher tank 520, and the pressure applied to the fire extinguisher tank 520 by the fire extinguishing agent pressurizing cartridge 521 is the water pipe. Since the pressure exceeds 100, the extinguishing agent supplied to the water supply pipe 34 does not flow backward to the water pipe 100 side. Accordingly, the fire extinguisher reaches the water discharge head 10 via the extraction hose 40 and is discharged from the water discharge port 12.

(Effect of Embodiment 6)
As described above, according to the sixth embodiment, in addition to the same effects as those of the first to fourth embodiments, since the fire extinguisher supply unit 52 is provided in the faucet equipment 1, the fire extinguisher is discharged from the spout 12 at the time of fire extinguishing activity. Can be released, and the fire extinguishing ability of the faucet equipment 1 can be improved. Moreover, even when the water supply is shut down due to an earthquake or accident, the fire extinguisher can be released, so that fire extinguishing activities can be performed even when the water is shut down.

[III] Modifications to Each Embodiment While each embodiment according to the present invention has been described above, the specific configuration and means of the present invention are the same as the technical idea of each invention described in the claims. Modifications and improvements can be arbitrarily made within the range. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About the mutual relationship of each embodiment)
Each embodiment described above can be combined with each other in an arbitrary combination. For example, the water storage device 51 according to the fifth embodiment is further provided inside the sink base 50 according to the sixth embodiment, so that the faucet equipment including both the water storage supply portion 51 and the extinguishing agent supply portion 52 is configured. May be.

(About switching of watering pattern)
In the embodiment described above, the water supplied to the water discharge head is directly discharged from the water discharge port, but the present invention is not limited to this, and for example, a water spray pattern switching mechanism is provided at the water discharge port. You can also. Specifically, the plate body in which the first hole having the same diameter as the opening of the water discharge port and the aggregate of the thin holes are formed so that the plate body surface and the opening surface of the water discharge port are parallel to each other. Close contact with the water outlet from the outside. At this time, the plate body is rotatably installed in a plane parallel to the opening surface of the water outlet. Further, the first hole and the aggregate of the narrow holes are provided at positions where they are connected to the water discharge port by rotating the plate body. With the above configuration, when the spout and the first hole are connected, a rod-like water can be discharged from the spout, and when the assembly of fine holes and the spout is connected, a shower-like shape can be obtained from the spout. Water can be discharged. In addition, by changing the shape and size of the holes to be drilled in the plate body, for example, by spraying water with a mist-like water spray pattern, or by drilling holes of three or more patterns in the plate body, It is also possible to increase the number of switching.

(About rectifier)
In the embodiment described above, the water supplied to the water discharge head is directly discharged from the water discharge port, but the present invention is not limited to this, for example, in the water discharge head, the connection with the drawer hose A rectifier may be provided between the section and the water outlet. Although the configuration of the rectifying body is arbitrary, for example, a rectifying cylinder having a plurality of holes drilled in the major axis direction of the substantially cylindrical body may be installed so that the major axis direction of the holes and the water flow direction are parallel to each other. . Or you may provide a some baffle plate so that it may become parallel to a water flow direction.

(About the connection between the draw-out hose and the water discharge head)
In the embodiment described above, the drawer hose and the water discharge head are directly connected, but the present invention is not limited to this. For example, a rotatable joint is provided between the drawer hose and the water discharge head. You may connect by pinching.

(About the shape of the water discharge head)
The water discharge head is not limited to a linear shape from the root to the water discharge port, but may be a slightly bent-shaped shape that can be easily extinguished. Moreover, the middle of the water discharge head may be constricted so that it can be easily held by hand.

  The faucet equipment according to the present invention can be applied to a faucet equipment that is installed in a house and used on a daily basis. In particular, the faucet equipment is applied to a faucet equipment in a sink stand of a house and can be easily operated for a long time. It is useful for providing a usable fire extinguishing function at a low cost.

It is an external appearance perspective view of the faucet equipment concerning Embodiment 1 of the present invention. It is a perspective view at the time of extension | drawing-out hose of the water faucet equipment shown in FIG. It is a sectional side view of the faucet equipment shown in FIG. It is a figure which shows the water discharging head of the faucet equipment shown in FIG. 1, (a) is a top view of a water discharging head, (b) is a side view of a water discharging head. It is AA sectional drawing of the water discharge head shown to Fig.4 (a). It is a side view of the front-end | tip part periphery of the water discharging head in a closed state. It is BB sectional drawing of FIG. It is a side view of the front-end | tip part periphery of the water discharging head in an open state. It is CC sectional drawing of FIG. It is a figure which shows the water discharging head in the faucet equipment which concerns on Embodiment 2 of this invention, (a) is a sectional side view in an attachment state, (b) is a sectional side view in a removal state. It is DD sectional drawing of FIG.10 (b). It is a figure which shows the water discharging head in the faucet equipment which concerns on Embodiment 3 of this invention, (a) is a top view of a water discharging head, (b) is a side view of a water discharging head. It is EE sectional drawing of the water discharge head shown in FIG. It is FF sectional drawing of the water discharging head shown in FIG. 12, (a) is sectional drawing of a closed state, (b) is sectional drawing of an open state. It is a figure which shows the water discharging head in the faucet equipment which concerns on Embodiment 4 of this invention, (a) The top view of a water discharging head, (b) is a side view of a water discharging head. It is GG sectional drawing of the water discharging head shown in FIG. 15, (a) is sectional drawing of a closed state, (b) is sectional drawing of an open state. It is an internal front view in the open door state of the sink stand in which the faucet equipment concerning Embodiment 5 of the present invention was installed. It is an internal front view in the open door state of the sink stand in which the faucet equipment concerning Embodiment 6 of the present invention was installed.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water faucet equipment 10 Water discharging head 11 Handle part 12 Water outlet 12a Fire outlet 12b Daily water outlet 13 Water flow path 130 Rotating joint 131 O-ring 132 Latch 133 Spring 14 Turning part 140 Joint bearing part 141 Latch fitting hole 142 Water discharge passage 15 Switching lever 15a Shaft body 15b Switching knob 16 Switching opening / closing mechanism 160 Switching opening / closing lever 160a Shaft body 160b Switching knob 160c Male screw portion 161 Valve mechanism 162 Valve holding portion 162a Stopper 163 Valve body 163a Female screw portion 163b Packing 17 Water discharge head 170 Second connection portion 171 Spring latch 171a Detach button 172 Spring 18 Fire discharge water discharge head 180 First connection portion 181 O-ring 182 Spring latch fitting groove 185 Water tap 186 Valve mechanism 187 Operation hand 19 Water discharge head body 190 Water flow path 191 Rotating joint 20 Water discharge head movable part 200 Joint bearing part 201 Water tap 202 Operation handle 202a Shaft body 202b Operation knob 202c Male screw part 203 Valve mechanism 204 Valve holding part 205 Valve main body 205a Female screw part 205b Packing 21 Water discharging head main body 210 Rotating joint 22 Water discharging head movable part 221 Latch fitting hole 222 Water tap 30 Water tap 31 Water faucet main body 32 Valve mechanism 33 Operation handle 34 Water supply pipe 35 Water flow pipe 36 Holder 40 Drawer hose 41 Storage reel 42 Drum 50 Sink stand 51 Water storage supply unit 510 Water storage tank 511 Pressurizing cartridge 512 Start switch 513 Check valve 52 Fire extinguishing agent supply unit 520 Fire extinguishing agent tank 521 Fire extinguishing agent pressurizing cartridge 522 Fire extinguishing agent start switch Chi 100 water pipe

Claims (7)

A faucet installed on a sink stand in a house,
A water discharge head comprising a water discharge port and a handle;
A faucet for performing water discharge or water stop operation in the water discharge head;
It is connected to a water source and the water discharge head, and includes a drawer hose that can be pulled out from the sink table via the water discharge head,
The water discharge head is
A turning means for turning the water discharge direction between a first direction substantially the same as the major axis direction of the handle portion and a second direction substantially orthogonal to the major axis direction of the handle portion is provided. ,
The spout is
A fire outlet for discharging water in the first direction;
A daily spout for discharging water in the second direction;
Have
The turning means is
The selection means for selecting the fire-extinguishing spout or the daily spout;
Water faucet features. The faucet and the selection means are integrated with each other to form a spout selection opening / closing means,
The faucet installation according to claim 1 characterized by things. The water discharge head is
A fire-extinguishing water discharge head connected to the drawer hose and comprising the handle part and the fire-extinguishing water outlet;
A daily spout head comprising the daily spout;
Have
The selection means is configured as an attachment / detachment mechanism that allows the daily water discharge head to be attached to and detached from the fire-extinguishing water discharge head.
The faucet installation according to claim 1 characterized by things. A storage reel for winding and storing the extra length of the drawer hose inside the sink base;
The faucet equipment according to any one of claims 1 to 3, wherein The drawer hose has a spiral shape memory property and is formed to be elastically deformable in a substantially linear shape, and is spirally stored inside the sink base.
The faucet equipment according to any one of claims 1 to 3, wherein Installed in the vicinity of the sink stand, comprising water storage supply means for storing water and supplying water to the water discharge head via the drawer hose;
The water storage supply means is
A water storage tank for storing water supplied from the water source;
Water tank pressurizing means for pressurizing the inside of the water tank;
A water tank pressurizing and starting means for starting the water tank pressurizing means;
Providing
The faucet equipment according to any one of claims 1 to 5, wherein A faucet installed on a sink stand in a house,
A water discharge head comprising a water discharge port and a handle;
A faucet for performing water discharge or water stop operation in the water discharge head;
A draw-out hose connected to a water source and the water discharge head, and capable of being pulled out from the sink table via the water discharge head;
A fire extinguisher supply means that is installed in the vicinity of the sink stand and supplies a fire extinguisher to the water discharge head via the drawer hose,
The water discharge head is
A turning means for turning the water discharge direction between a first direction substantially the same as the major axis direction of the handle portion and a second direction substantially orthogonal to the major axis direction of the handle portion is provided. ,
The spout is
A fire outlet for discharging water in the first direction;
A daily spout for discharging water in the second direction;
Have
The turning means is
The selection means for selecting the fire extinguishing spout or the daily spout.
The extinguishing agent supply means includes
A fire extinguisher tank for storing a fire extinguisher,
A fire extinguisher tank pressurizing means for pressurizing the inside of the fire extinguisher tank;
A fire extinguishing agent tank pressurizing starting means for starting the fire extinguishing agent tank pressurizing means;
Providing
Water faucet features.

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