KR101946686B1 - Faucet - Google Patents

Abstract

The composite water faucet 50 according to one embodiment of the present invention includes a control lever 4, a fixed disk 2, and a fixed disk (not shown) 2, and the flow path is changed by the rotation operation to switch the cold water jet, the cold / hot mixed jet jet, the hot jet jet and the water jet jet.

Description

Complex faucet {Faucet}

The present invention relates to a composite faucet capable of switching cold water, hot water, cold / hot mixed water and purified water by operating one lever and adjusting the respective quantities by operating the lever.

Conventionally, a water treatment device such as a water purifier has been installed to provide a faucet capable of controlling normal cold water, hot water, cold mixed water, and purified water by operation of a lever (Patent Documents 1 and 2).

For example, Patent Document 1 discloses a cold / hot water mixing faucet having two inlet ports for cold water and hot water, a mixed water outlet port for discharging cold / hot mixed water, and an outlet port for water purifier in a mixing faucet main body have. The cold / hot water mixing faucet includes a mixed water-based flow path connecting the two inlet ports and the mixed water outlet port to a flow path formed in the mixing faucet main body, and a purified water flow path connecting the inflow port for the cold water and the outlet port for the water purifier And a switching means for selectively switching the mixed water-based flow path and the water purifying flow path is provided.

[Patent Document 1] Japanese Utility Model Publication No. Hei 2-121673 (published on October 3, 1990) [Patent Document 2] Japanese Utility Model Publication No. 4-108654 (published on September 21, 1992)

However, there is a demand for a new complex faucet as well as a conventional composite faucet. Accordingly, it is a main object of the present invention to provide a new complex faucet.

According to an aspect of the present invention, there is provided a composite water faucet including a single lever, a fixed valve body, and a movable valve body sliding on the fixed valve body in accordance with a rotation operation of the lever, The switching of the cold water jet, the cold / hot mixed jet jet, the hot jet jet and the water jet jet is performed. Thereby providing a new complex faucet.

In addition, in the complex faucet according to one embodiment of the present invention, when the lever reaches the one end and the other end of the section in the cold water jetting section where only the cold water in the rotating operation of the lever is jetted, Is more preferable.

According to the above configuration, since the user who operates the lever recognizes that the lever is in the cold water jetting section, unintended mixing (mixture of cold water and hot water, mixing of cold water and purified water) The effect is not.

In the hot / hot water mixed faucet having the conventional switching means, the user wants to bring out only cold water, but in reality, cold water and purified water may be mixed or mixed with cold water and hot water. In the latter case, an unintended hot water heater operates and unnecessary gas or electric power is used. The above-described structure has been made in view of such a problem, and it is possible to provide a composite faucet in which unintended mixing (mixing of cold water and hot water, mixing of cold water and purified water) does not easily occur.

Further, in the complex water faucet according to one aspect of the present invention, the magnetic pole may be configured to have a change in rotatability.

According to the above configuration, it is possible to recognize that the lever is in the cold water jetting section, that the user who operates the lever can recognize from the fact that the rotatability of the lever has changed, and the unintentional mixing (mixing of cold water and hot water, Mixing effect) does not easily occur.

The composite water faucet according to one aspect of the present invention is characterized in that the one end of the cold water fountain section corresponds to a boundary between the cold water fountain section and the hot water mixed water jet section where hot water and cold water are mixed and jetted, The other end of the section may correspond to the boundary between the cold water jetting section and the constant jetting section in which the constant is jetted.

According to the above configuration, it is possible to prevent the lever from entering the cold / hot mixed water jet section and intend to flood the hot water together with the cold water without intention of the user. Moreover, the lever unintentionally enters the constant water jet section, Can be prevented.

Further, in addition to the above-described configuration, the complex water faucet according to an aspect of the present invention may have a configuration in which resistance is generated in rotation of the lever when the lever reaches the one end and the other end of the cold water jetting section .

Further, in addition to the above-described configuration, the complex water faucet according to an embodiment of the present invention may be configured to cause a change in the rotational property of the lever at the one end and the other end of the cold water running water section.

According to the above configuration, the user can distinguish whether the lever is located at one end or at the other end by the difference in the change.

In addition, in addition to the above-described configuration, the composite faucet according to one aspect of the present invention is characterized in that, when the lever reaches the one end of the cold water jetting section and when the lever reaches the other end of the cold water jetting section, It is possible to make the change of the rotatability larger for the user.

When the hot water is mixed with the cold water, unnecessary electric power or gas is consumed for hot water supply. Therefore, if the one end of the cold water jet water section is adjacent to the cold / hot water jet section, It can be more reliably avoided.

In addition to the above configuration, the complex water faucet according to one aspect of the present invention may be configured such that the amount of water is reduced at the boundary between the cold water jetting section and the water jetting section.

According to the above configuration, the conversion from cold water to purified water can be more easily recognized.

Further, in addition to the above-described configuration, the complex faucet according to one aspect of the present invention further includes a storage container for storing the fixed valve element and the movable valve element, wherein the maximum outer diameter of the storage container is 40 mm or less You may.

Further, in addition to the above configuration, at least one of the fixed valve element and the movable valve element may be a ceramic made of SiC.

Further, in addition to the above configuration, the composite water faucet according to one aspect of the present invention is characterized in that the fixed valve body is provided with a cold water inlet through which cold water flows, a cold / hot water outlet through which cold water, hot water, Hot water inlet, and a water purifier outlet through which the water flows out to the water purifier, and the opening areas of the cold / hot water outlet, the cold water inlet, the hot water inlet,

Cold water inlet> hot water inlet> water purifier outlet.

According to the above arrangement, it is possible to secure a sufficient amount of water to be jetted.

Further, in addition to the above configuration, the complex faucet according to one aspect of the present invention is characterized in that the movable valve element is provided with a water inlet, a water intake, and a communication passage connecting the water inlet and the water intake, And the sectional area may be 8 mm 2 to 45 mm 2.

Further, in addition to the above-described configuration, the composite faucet according to one aspect of the present invention is characterized in that at least a part of the communication path is covered by the porous member, and the minimum width portion is not covered by the porous member It is possible.

According to the above configuration, at least a part of the communication passage is covered with the porous member, thereby making it possible to eliminate the sound of water flowing. On the other hand, the narrowest width portion is not covered with the porous member, thereby preventing the passage opening area from becoming narrow. As a result, the flow rate of the communication passage can be sufficiently secured.

Further, in addition to the above configuration, the complex water faucet according to one aspect of the present invention is characterized by further comprising, in addition to the above configuration, a portion of the fixed valve body that passes through the center of the fixed valve body from a position with respect to the front face of the user operating the lever, And an orthogonal line orthogonal to the imaginary line at the center point and assuming that the orthogonal line is an orthogonal line connecting one end to the other end of the fixed valve body, Hot water outlet and the water purifier outlet are provided on a far side with respect to the front face and the imaginary line is placed between the cold water outlet and the water purifier outlet, Hot water outlet, and the hot water inlet is located opposite to the outlet of the water purifier with the orthogonal line therebetween. Side, and the cold water inlet may also be extended to the vicinity of the perpendicular line than the hot water inlet.

According to the above configuration, since the cold water inlet extends to the vicinity of the orthogonal line rather than the hot water inlet, the flow rate of the cold water can be ensured and the water quantity to the water purifier can be sufficiently secured.

INDUSTRIAL APPLICABILITY The present invention has the effect of providing a new complex water faucet.

1 is a cross-sectional view showing the configuration of a complex water faucet in an embodiment of the present invention,
Fig. 2 is an exploded view of the complex faucet shown in Fig. 1,
FIG. 3 is a view showing a fixed disk provided in the complex receiver shown in FIG. 1,
FIG. 4 is a view showing a movable disk included in the complex water receptacle shown in FIG. 1,
Fig. 5 is a view for explaining the position of the operation lever in the complex power reception shown in Fig. 1,
Fig. 6 is a view for explaining the relationship between the position of the operating lever and the exponent state in the complex power reception shown in Fig. 1,
Fig. 7 is a view showing the positional relationship between the fixed disk and the movable disk provided in the composite power receiver shown in Fig. 1,
Fig. 8 is a view for explaining the relationship between the position of the operation lever and the jetting state in the complex water supply shown in Fig. 1,
Fig. 9 is a view for explaining the resistance to be given to the user of the operation lever in the complex faucet shown in Fig. 1,
Fig. 10 is a partially exploded view showing a configuration for realizing the resistance to be given to the user of the operation lever in the complex faucet shown in Fig. 1,
Fig. 11 is a partially exploded view showing the configuration for realizing the resistance to be given to the user of the operation lever in the complex faucet shown in Fig. 1. Fig.

One embodiment of a complex water faucet according to the present invention will be described with reference to Figs. 1 to 11. Fig.

Fig. 1 is a side sectional view showing the configuration of the complex water inlet 50 of the present embodiment. Fig. 2 is an exploded perspective view of the complex water faucet 50 of the present embodiment shown in Fig. 1. Fig.

The complex water faucet 50 according to the present embodiment is a complex water faucet that can be adjusted by operating one lever to switch cold water, hot water, cold water mixed water, constant water, and each water quantity by operating the lever, It is used for home use. 1, the complex water faucet 50 according to the present embodiment includes a water receiving main body 1, a stationary disk 2 (stationary valve body) fixed in the water receiving main body 1, An operation lever 4 (lever) which is connected to the upper portion of the movable disk 3 via a center rod 24, and an operation lever 4 (lever) which is slidably mounted on the disk 2, Four water ducts of the hot water duct 5, the water feed duct 6, the water purifier water feed duct 7 to the water purifier (not shown), and the purified water duct 8, which are inserted into the water receiving main body 1 from the lower portion, And a discharge pipe 9 mounted on the upper portion of the water receiving main body 1 as main components.

Each of the ducts of the hot water supply duct 5, the water supply duct 6 and the water purifier water supply duct 7 are provided so as to pass through the upper end of the water receiving main body 1, One opening 5a, a second opening 6a, and a third opening 7a (Fig. 2) are formed. In the water receiving main body 1, a cold / hot water discharge passage 11 which is connected to the cold / hot water discharge pipe 10 of the discharge pipe 9 and penetrates the upper end of the water receiving main body 1 to become the fourth opening 11a, And a purified water passage 13 connected to the channel 8 and communicating with the purified water discharge pipe 12 of the discharge pipe 9 are provided.

Two troughs 14a and 14b are formed in the upper portion of the water receiving main body 1. The groove portion 14a on the upper side is provided with a fifth opening 15 which is an outlet of the cold / hot water discharge passage 11 and is connected to the cold / hot water discharge passage 11 in the water receiving main body 1 and the cold / hot water discharge pipe 10 Are communicated with each other. A sixth opening 16 serving as an outlet of the purified water flow path 13 is provided in the lower side groove 14b and the purified water flow path 13 in the water receiving main body 1 and the purified water discharge path 12 in the discharge pipe 9, Respectively.

The base portion 9a of the discharge pipe 9 having the cold / hot water discharge duct 10 and the constant discharge duct 12 is rotatably fitted on the outside of the groove portions 14a and 14b of the water receiving main body 1. [ The discharge pipe 9 is connected to the groove 14a on the upper side of the water receiving main body 1 and the cold / hot water discharge pipe 10 in the state of being fitted to the water receiving main body 1, So that the conduit 12 is communicated. The discharge ports of the cold / hot water discharge pipe 10 and the purified discharge pipe 12 are respectively provided with cylindrical discharge ports 17a and 17b directed downward. A packing 18 (Fig. 1) is provided at a contact portion between the base portion 9a of the discharge pipe 9 and the power receiving main body 1.

Next, the fixed disk 2 and the movable disk 3 will be described with reference to Figs. 3 and 4. Fig.

3 (a) is a plan view of the fixed disk 2 as viewed from the side opposite to the movable disk 3, and FIG. 3 (b) is a plan view Sectional view of the fixed disk 2 cut along the cutting line AA 'shown in FIG. 3 (a), in the direction of the arrow. 4 (a) is a plan view of the movable disk 3, which is viewed from the side facing the fixed disk 2, and Fig. 4 (b) Is a sectional view of the fixed disk 2 cut along the cutting line BB 'shown in FIG. 4 (a) in the direction of the arrow.

The fixed disk 2 is a disk-shaped disk having four through holes as shown in Fig. 3 (a). Each of the through holes has an arcuate shape and is connected to each of the first to fourth openings formed at the upper end of the water receiving main body 1 and has a first hole 19 (hot water inlet to which hot water flows, A second hole 20 (cold water inlet to which cold water flows) to be connected to the water supply duct 6; a third hole 21 (cold water, hot water or cold mixed water to be connected to the cold / hot water discharge passage 11 Hot water outlet), and a fourth hole 22 (cold water outlet for purifying water flowing out to the water purifier) connected to the water purifier water supply line 7.

Here, the fixed disk 2 shown in Fig. 3 corresponds to the front position of the user who manipulates the operation lever 4 of the complex receiver 50 on the upper side of the drawing. A first hole 19 (a hot water inlet for introducing hot water), a second hole 20 (a cold water inlet for introducing cold water) and a second hole 20 A fourth hole 22 (an outlet of the water purifier where the cold water flows out to the water purifier), and a third hole 21 (a cold / hot water outlet through which cold water, hot water or cold / hot mixed water flows out) at the lower left.

In other words, from the position of the fixed disk 2 relative to the front face of the user to the position of passing through the center point C (FIG. 3 (a)) of the fixed disk 2 to the front position (Y) orthogonal to the imaginary line (X) at the center point (C), the orthogonal line (Y) extending from one end of the fixed disk (2) to the other end The third hole 21 and the fourth hole 22 are provided farther from the orthogonal line Y than to the front position and the third hole 21 and the fourth hole 22 are provided on the far side of the orthogonal line Y, And the imaginary line X is placed between the fourth holes 22. The second hole 20 is opposite to the third hole 21 with the orthogonal line Y interposed therebetween. The first hole 19 has a fourth hole 22). The second hole 20 extends near the orthogonal line Y from the first hole 19. That is, the second hole 20 is longer than the first hole 19 (long portion is indicated by a dotted-line rectangle in FIG. 3 (a)). Thus, since the length of the second hole 20 is longer than that of the first hole 19, it is possible to secure the flow rate of the cold water, and to secure a sufficient amount of water to the water purifier.

Here, in the present embodiment, the maximum outer diameter of the case 28 shown in Fig. 1 is 40 mm or less, for example, 40 mm. Since the diameter of the fixed disk 2 and the movable disk 3 accommodated in the case 28 is relatively small when the maximum outer diameter of the case 28 is designed in this way, The aperture size of the hole is further restricted.

Thus, in the present embodiment, the opening area of each hole of the fixed disk 2 is set to,

The third hole 21 (cold / hot water outlet through which cold water, hot water or cold / hot mixed water flows)

The second hole 20 (the cold water inlet to which the cold water flows)> the first hole 19 (hot water inlet to which the hot water flows)> the fourth hole 22 (the water purifier outlet where water flows out to the water purifier).

As a specific example,

The second hole 20 (the cold water inlet to which the cold water flows): The first hole 19 (the hot water inlet to which the hot water flows): The third hole 21 (the cold / hot water outlet from which cold water, hot water, And the fourth hole 22 (the outlet of the water purifier where the cold water flows out to the water purifier) = 1.8: 1.7: 1.4: 1.

By designing the opening area of each hole of the fixed disk 2 in this way, the opening size of the second hole 20 (cold water inlet through which the cold water flows) can be relatively large, and the amount of water flow can be sufficiently secured.

3 (a), the fixed disk 2 has a length P of the fourth hole 22 (the outlet of the water purifier which is discharged from the water purifier by cold water) along the outer peripheral length thereof, The separation distance Q between the fourth hole 22 and the third hole 21 (cold / hot water outlet through which cold water, hot water, or cold / hot water flows out) along the outer circumference is substantially the same. By designing in this manner, the fixed disk 2 having a limited area can have a relatively small gap distance Q and a relatively large opening of the fourth hole 22 (the outlet of the water purifier that discharges cold water into the water purifier) And contributes to securing it.

1 and 2, a movable disk 3 having a diameter slightly smaller than that of the fixed disk 2 is slidably movable relative to the fixed disk 2 on the fixed disk 2 having such a structure Is installed.

The movable disk 3 has a disk shape and is provided with a water inlet 23a and a water intake port 23b and a communication path 23a connecting the water inlet 23a and the water intake port 23b to the surface (lower surface) And an elongated groove 23 having a groove 23c is formed. The inlet 23a of the groove 23 is formed by an arcuate portion formed in the vicinity of the edge of the disk but a protruding region 23d protruding in the planar direction of the lower surface of the movable disk 3 is formed in part of the arcuate portion. And the entrance opening 23a may be considered to have a narrow opening size by the protruding region 23d. By providing this protruding region 23d, unintended mixing can be avoided as described later.

The cross-sectional area of the narrowest width portion 23c 'of the communication path 23c of the groove 23 of the movable disk 3 is preferably 8 mm 2 to 45 mm 2. The shortest width portion 23c 'referred to herein refers to a portion having the narrowest width in the communication path 23c and the sectional area refers to an area of a cross section along the thickness direction of the disk-shaped movable disk 3. [ The lowest width portion 23c 'is near the center of the communication passage 23c. As described above, the diameter of the movable disk 3 is relatively small. For example, when the maximum outer diameter of the case 28 is 40 mm, the diameter of the movable disk 3 is about 35 mm to 38 mm The thickness of the movable disk 3 is about 6 to 10 mm). In the case of the small diameter movable disk 3 having such a small diameter, the communication path 23c of the groove 23 can not but be formed to be narrow and shallow. However, since it is necessary to secure the flow rate at the same time, It is in one range.

Furthermore, depending on the size of the power reception main body 1 or the case 28, it is also possible to design the movable disk 3 to be thick. Since the communication path 23c can be formed as a deep groove, it is possible to form the communication path 23c of a fine groove with a sufficient flow rate in the movable disk 3 having a limited surface area.

The inlet 23a of the groove 23 of the movable disk 3 is covered with a mesh body 23e (porous member). This mesh body 23e has the effect of eliminating the sound of flowing water and contributes to reducing cold and hot water inflowing into the grooves 23. In the present embodiment, only the inlet 23a of the grooves 23 is covered with the mesh body 23e. As a result, a larger amount of water can be secured than in the case of providing the mesh body in the entire area of the grooves 23. However, the present invention is not limited to the structure of the present embodiment, and the mesh body 23e can be provided only on the water intake port 23b side of the grooved groove 23 or on both the water intake port 23a side and the water intake port 23b side . It is more preferable that the mesh body 23e does not cover the narrowest width portion as in the present embodiment. This is because it is possible to prevent the passage opening area from becoming narrow. As a result, the flow rate of the communication passage 23c can be sufficiently secured. In addition, the mesh body 23e may be a rectifying member. The material of the mesh body 23e is not particularly limited. For example, it is preferable that the mesh body 23e is made of metal, polyolefin and ABS, which are durable to water and do not easily rust.

At least one of the fixed disk 2 and the movable disk 3 may be made of a ceramic material made of SiC.

As shown in Figs. 1 and 2, the end of the center bar 24 connected to the operation lever 4 is connected to the upper surface side of the movable disk 3. The movable disc 3 is moved in the vertical direction by fixing the operation lever 4 to one end of the center rod 24 and fixing the operation lever 4 with the fixed pin 25 The movable disk 3 slides eccentrically relative to the disk 2 and the operation lever 4 is rotated on the fixed disk 2 by turning the center rod 24 to the left and right as a rotation axis.

1 and 2, a pedestal 26 for restricting the moving direction of the center rod 24 is provided on the movable disk 3. As shown in Fig. The fixed disk 2, the movable disk 3 and the pedestal 26 are stacked, the center rod 24 is provided on the pedestal 26, and the power reception main body 1 is provided outside the fixed disk 2, A packing 27 (FIG. 1) having holes facing the first through fourth openings at the top is inserted into the case 28 (housing container) to constitute the ceramic cartridge 29. The coupling protrusion 30 is formed on the packing 27 and the coupling groove 31 is formed on the upper end of the receptacle main body 1 so that the coupling protrusion 30 can be retained in the coupling groove 31 (Fig. 2).

The ceramic cartridge 29 is mounted on the power receiving main body 1 and is mounted by putting a cover 32 on the outside thereof and fixing the cover 32 to the power receiving main body 1. A cap 33 is mounted on the cover 32 so as to cover a connection side portion of the operation lever 4.

Of the respective conduits connected to the water receiving main body 1, the hot water supply duct 5 and the water supply duct 6 are connected to the hot water supply pipe and the water pipe in the same manner as the conventional cold / hot water mixing faucet.

The water purifier may be a well-known water purifier that performs microfiltration or adsorption treatment with activated carbon on cold water supplied from a supply port and discharges purified water through a discharge port. The water purifier is housed in a lower portion of the sink in a state in which the water purifier water supply line (7) is connected to the supply port and the water line (8) is connected to the discharge port. In the present embodiment, an example of using a water purifier as a water treatment device is shown, but the water treatment device is not limited to a water purifier. For example, other water treatment devices such as an electric water heater and an ionized water producing device may be used.

Next, a method of using the complex water faucet 50 will be described.

5 to 8 are views for explaining the method of using the complex water faucet described above.

The switching operation of cold water, hot water, and purified water discharged in the complex water supply 50 is performed by turning the operation lever 4 to the left and right as shown in Fig. As shown in Figs. 6 and 8, manipulation of water outflow and water stop is performed by moving the operation lever 4 up and down.

Fig. 6 shows the exponential state of the complex water faucet 50. Fig. In this index state, the operation lever 4 is lowered down, and the movable disk 3 is eccentrically eccentric to the left side in Fig.

In this index state, even if the operating lever 4 is turned to the left or to the right, the grooves 23 do not overlap any of the first holes 19 and the second holes 20 of the fixed disk 2, 23 and the third hole 21 and the fourth hole 22, respectively.

7 (a) to 7 (e) show a state in which the movable disk 3 is mounted on the stationary disk 2 and the respective holes of the fixed disk 2, as viewed from above the movable disk 3, And the grooves 23 of the movable disk 3. As shown in Fig. 7 (a) to 7 (e) show the positions of the upper and lower ends of the figure relative to the front of the user, and from this position, the operation according to the rotation when the rotation angles of the operation levers And shows the positional relationship between the disk 3 and the fixed disk 2 which does not rotate. 7 (a) to 7 (e) all show the jetting state, and the lower ends of FIGS. 7 (a) to 7 (e) all show the exponent state.

7 (a) to 7 (e), the grooves 23 do not overlap with any of the first holes 19 and the second holes 20 of the fixed disk 2, Are not communicated with any of the third hole 21 and the fourth hole 22 through the grooves 23, thereby realizing the exponential state.

Next, the jetting state will be described. For example, when the operation lever 4 in the exponential state shown in Fig. 6 is lifted, the movable disc 3 is eccentrically eccentric to the right with respect to the fixed disc 2 as shown in Fig.

7 (a) to 7 (e) all show the jetting state, and as shown in Fig. 5, the position of the movable disk 3 is changed according to the position of the operating lever 4 on the rotating track, The type of jet will change.

The state of the water jet shown in the upper part of FIG. 7A will be described. This state is a state in which the operating lever 4 shown in FIG. 5 is moved in the rightward (counterclockwise) . In this state, the fourth hole 22 and the intake port 23b face each other with the second hole 20 facing the inlet port 23a. The grooves 23 are formed in the second hole 20, 4 holes 22 are formed. Thereby, the water in the water supply line 6 passes through the second hole 20, the groove 23 and the fourth hole 22 and is introduced into the water purifier water supply line 7 shown in Figs. 1 and 2 . The water supplied to the water purifier is purified and the purified water passes through the purified water pipe 8 to enter the purified water flow path 13 in the water receiving main body 1 and flows through the discharge pipe 9 through the constant discharge pipe 12 and through the discharge port 17b. That is, the jetting state shown at the top of Fig. 7 (a) is an integer jetting state.

The state of the water jet shown in the upper part of Fig. 7B will be described. This state is a state in which the operating lever 4 shown in Fig. 5 slightly goes beyond 40 DEG in the rightward direction (counterclockwise direction) It is in the rotated position. In this state, the second hole 20 and the inlet 23a face each other, the third hole 21 and the fourth hole 22 face the inlet 23b, (20) to the third hole (21) and the fourth hole (22). Thereby, the cold water in the water supply duct 6 is introduced into the water purifier water supply duct 7 shown in Figs. 1 and 2 through the second hole 20, the groove 23 and the fourth hole 22 Hot water discharge passage 11 and the fifth opening 15 shown in Figs. 1 and 2 and the cold / hot water discharge pipe 10 of the discharge pipe 9 from the third hole 21 as shown in Fig. 7 (b), the cold water (neither water nor hot water) is jetted through the discharge port 17a, and at the same time, the purified water purified by the water purifier passes through the purified water line 8 Enters the purified water flow path 13 in the water receiving main body 1 and is discharged through the discharge opening 17b through the constant discharge pipe 12 of the discharge pipe 9 through the sixth opening 16. That is, the jetting state shown in the upper part of (b) of Fig. 7 is a state in which the cold water and the constant water are simultaneously jetted. In the present specification, this is referred to as a mixture of cold water and purified water, and the sprinkled water is referred to as a mixed water.

In the complex faucet of the present embodiment, such a mixed water is less likely to be flooded. This will be described later, and description will be made below with reference to FIG. 7 (c).

The jetted state shown in the upper part of FIG. 7 (c) is a state in which the operating lever 4 shown in FIG. 5 is rotated by 40 degrees in the rightward direction (counterclockwise direction) from the front position. In this state, the second hole 20 and the inlet 23a face each other, and the third hole 21 and the inlet 23b face each other, and the groove 23 connects the water from the second hole 20 Thereby forming a communication path for flowing out into the third hole 21. As a result, the air passes through the third hole 21, the cold / hot water discharge passage 11, the fifth opening 15, and the cold / hot water discharge duct 10 of the discharge pipe 9 shown in FIGS. 1 and 2, (Not purified water or hot water) is discharged through the discharge port 17a. That is, the water jet state shown at the top of FIG. 7 (c) is the cold water jet state.

Describing the jetting state shown at the top of Fig. 7 (d), this state is a state in which the operating lever 4 shown in Fig. 5 is in the front position. 7 (c), in the jet state shown in the upper part of FIG. 7 (d), the entire area of the water inlet 23b of the grooved groove 23 is filled with water There is a difference in that a larger amount of water can be jetted than in the cold water jet state shown in the upper part of (c) of FIG. 7 in that it faces the three holes 21.

7 (d), since the protruding region 23d narrowing the opening size of the inlet 23a of the long groove 23 closes the first hole 19, The hot water does not flow into the grooves 23 from the water tank 19. 7 (d), the second hole 20 is opened in a state where the movable disk 3 is at the position shown in the upper part of FIG. 7 (d) Hot water from the first holes 19 flows into the grooves 23 as well as cold water from the first holes 19 flows out to the third holes 21 through the intake ports 23b. However, in the present embodiment, by providing the movable disc 3 provided with the protruding region 23d, it is possible to secure a wide range in which only cold water can be jetted out of the rotational angle range of the operating lever, Since there is no waste of electricity, it can contribute to energy saving.

The state of the jetting water shown in the upper part of FIG. 7 (e) will be described. This state is a state in which the operating lever 4 shown in FIG. 5 is rotated at a position rotated by 40 degrees from the front position in the left . In this state, the first hole 19 and the inlet 23a face each other, and the third hole 21 and the inlet 23b face each other. The groove 23 is formed in the first hole 19, 3 hole (21). As a result, the hot water from the hot water supply duct 5 passes through the first hole 19, the groove 23 and the third hole 21, and the hot and cold water discharge in the water receiving main body 1 shown in Figs. 1 and 2 Hot water is supplied through the discharge port 17a through the passage 11, the fifth opening 15 and the cold / hot water discharge line 10 of the discharge pipe 9. [ That is, the jetted state shown at the top of FIG. 7 (e) is the hot water jetted state.

As described above, according to the composite power supply 50 of the present embodiment, by the operation of raising and lowering the operation lever 4 and the turning operation in the left and right direction at the time of the lowering, the cold water supply, the hot water supply, , The constant supply and the operation of the exponent can be switched.

The characteristic feature of the present invention is that unintentional mixing (mixing of cold water and hot water, as described above) is performed by imparting to the user a feeling of resistance in the laterally rotating operation of the operation lever 4 (Mixing of cold water and purified water shown in Fig. 7 (b)) does not easily occur.

Fig. 9 is a schematic diagram showing the relationship between the position of the operation lever 4 and the type of jet on the rotation orbit of the operation lever 4. Fig. As shown in Fig. 7 (d), the complex water receiver 50 of the present embodiment has a configuration in which only cold water is jetted when the operation lever 4 is at the position with respect to the front side of the user. In the present embodiment, when the operating lever 4 is in the range from the front position (this position is 0 deg.) To the right side (counterclockwise direction) to 40 deg., Only cold water is jetted. That is, the range from the front position (this position is 0 °) to the right direction (counterclockwise direction) up to 40 ° can be regarded as the cold water jetting section.

In the range from 40 degrees to 25 degrees in the rightward direction (65 degrees in the rightward direction from the front position), the constants are jetted so that the angles from 40 degrees to 65 degrees Can be regarded as a constant jet interval. However, there is a position where cold water and purified water are mixed with each other as shown in FIG. 7 (b) described above during the transition from the cold water jetting section to the constant water portion and the cold water portion.

When the operation lever 4 is in the range from the position beyond the front position (0 DEG) to the angle of 40 DEG to the left (clockwise), the mixed water of cold and hot water is jetted and the maximum angle The hot water is jetted when the operating lever 4 is rotated up to the predetermined angle (40 DEG). That is, the interval from the front position (0 °) to the left direction (clockwise) up to 40 ° can be regarded as the cold / hot mixed water jet section.

The reason that different jetting conditions are realized in accordance with the section is that the positional relationship between the holes of the fixed disk 2 and the grooves 23 of the movable disk 3 is as shown in Figs. 3 and 4 (I) the boundary between the cold water jetting section and the cold / hot water mixed jetting section, and (ii) the boundary between the cold water jetting section and the cold jetting section. In this case, A resistance is imparted to the rotating operation of the operating lever 4 so as to recognize that the operating lever is at the boundary, that is, the section is changed with respect to the user.

More specifically, the resistance feeling can be referred to as click feeling. Specifically, the user can feel the feeling of smoothness felt during the cold water jetting section, the cold water jetting section and the cold / (resistance) when reaching the boundary between (i) and (ii). If the user recognizes this resistance during the rotation operation, the user can recognize that the jet interval has changed.

Further, for example, let us suppose that the user thinks that he wants to bring the operation lever 4 to the front position and to make only cold water. In this case, if there is no resistance at the boundary of the above-mentioned (i), even if the position of the actual operation lever 4 is closest to the cold water jetting section of the cold / hot water mixture section, There is a possibility that hot water is mixed. However, according to the present embodiment, by giving the resistance at the boundary of (i), the user can reliably position the operation lever 4 at the front position and jet only cold water. This is for the following reasons. That is, the user perceives that resistance feeling occurs for a short time by sensing the resistance feeling once. After the recognition, if the user feels a sense of resistance, he tries to rotate the operation lever 4 to a section where resistance is lost and the rotation is smooth. Therefore, it can be said that the composite water faucet 50 of the present embodiment has a constitution in which mixed water is less liable to be sprayed.

This is also the case in the boundary of the above-mentioned (ii). In the case where it is desired to flood the cold water only, or to flood an integer, resistance is given to the user at the boundary, .

The application of the resistance feeling is realized at a position where the user can recognize that the operation lever 4 is out of the cold water jetting period in the case of the boundary of (i). Also, with respect to the boundary of (ii), the resistance imparting is realized at a position where the user can recognize that the operation lever 4 is out of the cold water jetting section. Thus, according to the present embodiment, when the user wants to spray only cold water, the user can surely satisfy the demand.

the resistance at the boundary of (i) continues to be imparted within the angular range from the position beyond the front position to the left direction (clockwise) to 7.5 degrees. In addition, it is not limited to continuously imparting an equal resistance, and the strength of resistance may not be uniform if the resistance is felt more than the operation feeling when the water is rotated in the cold water jet section.

Also, the resistance at the boundary of (ii) is from 14.5 degrees (from the front position to 54.5 degrees to the right) from 40 degrees in the right direction (counterclockwise direction) to the right direction from the front position In the range of the angle of view. 7 (b)) in which the mixed water of cold water and purified water is discharged in this angle range. However, by giving resistance, the user can not place the operation lever 4 within this interval . In other words, according to the configuration (to be described later in detail) that realizes the resistance, the operation lever 4 goes beyond this section without stopping in the section in which the mixed water of cold water and purified water is discharged. Therefore, according to the present embodiment, mixed water of cold water and purified water is not sprinkled.

A specific configuration for enabling the user to impart such resistance to the user will be described with reference to Figs. 10 and 11. Fig. Fig. 10 is a diagram showing a concrete structure for imparting a resistance feeling at the boundary of the above-mentioned (i). Fig. 11 is a view showing a specific structure for imparting resistance at the boundary of the above-mentioned (ii).

In Fig. 10, the case 28 and the pedestal 26 shown in Fig. 1 are disassembled and shown. In the present embodiment, the case 28 is constituted by a case body (not shown) for accommodating the fixed disk 2, the movable disk 3 and the pedestal 26, and a lid covering the upper portion of the case body In Fig. 10, only this lid is shown.

The inner peripheral surface of the lid is provided with a first case side projection portion 28a projecting toward the center rod 24 side. A first pedestal side protrusion 26a is provided on the outer circumferential surface of the pedestal 26. When the rotation of the operation lever 4 rotates the pedestal 26 through the center rod 24, the pedestal 26 rotates inside the case 28 (lid), and at the boundary of the above-mentioned (i) And the first case side projection 28a and the first base side projection 26a are in contact with each other.

The first pedestal side protrusion 26a is composed of a leaf spring 40 which is separate from the pedestal 26 and a pawl body 41 mounted on the pedestal 26 through the leaf spring 40. When the external pressure is applied, the pawl body 41 is once pushed toward the center rod 24, but when the external pressure is released, the pawl body 41 is returned by the restoring force of the leaf spring 40, which is an elastic body. The first pedestal side protrusion 26a is pushed once toward the center rod 24 by contacting the first case side protrusion 28a but the plate spring 40 is disengaged when the pedestal 26 further rotates and the contact is released, It is returned to its original state by the restoring force of During contact, a force acts in a direction to stop the movement of the pedestal 26 in the rotational direction due to the contact resistance between the first pedestal side protrusion 26a and the first case side protrusion 28a. This makes it difficult for the pedestal 26 to rotate as compared with a state in which there is no contact resistance, and this is transmitted to the user who operates the operation lever 4 as a resistance.

In addition, the protruding position of the pawl body 41 is at the same position as the operating lever 4 on the rotating track of the operating lever 4. That is, when the operating lever 4 is at the front position of the user, the protruding position of the pawl body 41 is also in the front position of the user. On the other hand, the first case side projection portion 28a is positioned slightly to the cold / hot water mixed water jetting section side than the front position of the user. Thus, when the user rotates the operation lever 4 from, for example, the water jetting section to the front position, it can be recognized that the front lever has reached the front position.

The above is a configuration for realizing the application of the resistance feeling at the boundary of (i) described above.

Fig. 11 is an exploded view of the lid of the case 28 and the pedestal 26, similarly to Fig. The inner circumferential surface of the lid is provided with a second case side projection portion 28b protruding toward the center rod 24 at a position different from the first case side projection portion 28a. On the outer peripheral surface of the pedestal 26, a second pedestal side protruding portion 26b is provided at a position different from the first pedestal side protruding portion 26a. The second case side projection 28b is provided at a portion where a part of the lid is cut. When an external pressure is applied to the second case side projection 28b from the inner circumferential surface side to the outer circumferential surface side, the cut- And is returned to its original position when the external pressure is released. On the other hand, the second pedestal side protrusion 26b is integrally formed with the pedestal 26. [ And the second case side projection 28b and the second pedestal side projection 26b are in contact with each other at the boundary of the above-mentioned (ii). The contact resistance between the second pedestal side protruding portion 26b and the second case side protruding portion 28b makes it difficult for the pedestal 26 to rotate as compared with the state where there is no contact resistance, ) As a resistance to the user who is operating the device. This is a configuration for realizing the application of resistance at the boundary of the above-mentioned (ii).

As described above, in the present embodiment, the resistance is realized by the different structures at the boundaries of (i) and (ii). By thus recognizing the boundary by the user with different configurations, the user can sensibly recognize at which boundary the operation lever 4 is located. Further, by making them different from each other, it is possible to make the magnitude of the change of the rotatability (the length of the change or the length during the change) to be different. In the present embodiment, the resistance at the boundary of (i) described above is transmitted to the user as a clear click feeling than the resistance at the border of (ii). This is because the leaf spring 40 (made of, for example, SUS) is employed. On the other hand, the contact between the irregularities at the boundary of the above-mentioned (ii) is a soft contact resistance seen when the resin (between the case 28 and the pedestal 26 is made of resin) To the user. That is, the contact resistance between the irregularities at the boundary of (i) described above can be said to be larger than the contact resistance between the irregularities at the boundary of (ii) described above. As a result, it is possible to clearly convey to the user that mixing of hot water occurs. This is effective as a means for realizing energy saving by preventing the hot water from being sprayed including the cold / hot water mixture.

In the present embodiment, the resistance to the user is imparted by the contact resistance between the pedestal 26 and the protrusions provided in the case 28. However, the present invention is not limited to this, (I) and (ii) can be recognized by the user who performs the operation of the operation lever 4 may be of any configuration that generates a magnetic pole, and it is preferable that the configuration is such that a change occurs in the rotatability of the operation lever 4.

For example, as another mode for recognizing the boundaries of (i) and (ii), the operation lever or the lamp provided at any part of the complex faucet lights or blinks to recognize that the operation lever is located at the boundary .

Alternatively, when the boundary is reached, the user may be informed that a sound is emitted from a speaker provided at an operating lever or a complex faucet, and that the operating lever is located at the boundary.

Alternatively, when the boundary is reached, the user may be informed that the operation lever is located at the boundary by vibrating the operation lever.

INDUSTRIAL APPLICABILITY The present invention can be applied to a multifunctional composite water tank for domestic use.

1 Fault main body 2 Fixed disk
3 Operation disk 4 Operation lever
5 hot water pipeline 5a first opening
6 water pipe 6a second opening
7 water purifier water supply line 7a third opening
8 Water pipe 9 Discharge pipe
9a Donation 10 Hot and hot water discharge pipe
11 cold / hot water discharge passage 11a fourth opening
12 purified water discharge line 13 purified water line
14a, 14b groove portion 15 fifth opening
16 outlet of the sixth opening 17a, 17b
17b outlet 18 packing
23 groove 23a inlet
23b intake port 23c
23c 'Throat width portion 23d Extruding area
23e mesh body 24 center rod
25 fixing pin 26 pedestal
26a First protrusion side protrusion 26b Second protrusion side protrusion
27 Packing 28 Cases
28a First case side protrusion 28b Second case side protrusion
29 Ceramic cartridge 30 engaging projection
31 engaging groove portion 32 cover
33 Cap 40 spring plate
41 stone body 50 complex water faucet

Claims (14)

A fixed valve body, and a movable valve body that slides on the fixed valve body in accordance with a rotation operation of the lever, wherein the flow channel is changed by the rotation operation so that the cold water jet, the cold mixed water jet, And the conversion of the water jet is performed,
Wherein when the levers reach the one end and the other end of the section in the cold water jetting section where only the cold water in the rotation operation of the lever is jetted, the magnetic poles are generated,
The one end of the cold water jetting section corresponds to the boundary between the cold water jetting section and the cold / hot water jetting section where hot water and cold water are mixed and jetted,
The other end of the cold water jetting section corresponds to the boundary between the cold water jetting section and the constant jetting section in which the constant jet is performed,
Wherein the movable valve body is provided with a case body which houses the movable valve body, the fixed valve body and the pedestal, and a lid which covers the upper part of the case body,
A first case side protrusion is provided on an inner circumferential surface of the lid, a first pedestal side protrusion is provided on an outer circumferential surface of the pedestal, the first pedestal side protrusion includes a leaf spring, And a protrusion mounted on the pedestal through the leaf spring,
A second case side projection portion is provided at a position different from the first case side projection portion on an inner circumferential surface of the lid and a second peripheral side surface of the second case side projection portion is provided at a position different from the first base side projection portion, Side protruding portion, and the second case-side protruding portion is provided at a cut-away portion of a part of the lid.
delete delete delete The method according to claim 1,
And when the lever reaches the one end and the other end of the cold water jetting section, a resistance is generated in rotation of the lever. The method according to claim 1,
Wherein a change in the rotational property of the lever at the one end and the other end of the cold water jetting section is generated. The method according to claim 6,
Wherein a change in the rotatability is greater when the lever reaches the one end of the cold water jetting section than when the lever reaches the other end of the cold water jetting section. The method according to claim 1,
And the amount of the soil is reduced at the boundary between the cold water jetting section and the water jetting section. The method according to any one of claims 1 and 5 to 8,
Further comprising: a storage container for storing said fixed valve body and said movable valve body,
Wherein the maximum outer diameter of the receiving container is 40 mm or less. The method according to any one of claims 1 and 5 to 8,
Wherein at least one of the fixed valve element and the movable valve element is a ceramic made of SiC. The method according to any one of claims 1 and 5 to 8,
The fixed valve body is provided with a cold water inlet through which cold water flows, a cold water outlet through which cold water, hot water or cold mixed water flows out, a hot water inlet through which hot water flows, and a water purifier outlet through which water is discharged through a water purifier, The cold water inlet, the hot water inlet, and the water outlet of the water purifier,

Cold water inlet> Hot water inlet> Complex water faucet characterized by the outlet of the water purifier. The method according to any one of claims 1 and 5 to 8,
The movable valve element is provided with a water inlet, a water inlet, and a communication path connecting the water inlet and the water inlet,
Wherein the cross-sectional area of the narrowest part of the communication passage is 8 mm < 2 > to 45 mm < 2 >. 13. The method of claim 12,
Characterized in that at least a part of the communication passage is covered by a porous member, while the said minimum width portion is not covered by the porous member. 12. The method of claim 11,
A virtual line connecting the position of the fixed valve body with respect to the front face of the user operating the lever and the opposite position of the position passing through the center point of the fixed valve body; Hot water outlet and the water purifier outlet are provided on the farther side of the orthogonal line than the orthogonal line when the orthogonal line is an orthogonal line connecting the one end to the other end of the fixed valve body as the orthogonal line, Hot water outlet and the outlet of the water purifier,
Wherein the cold water inlet is located opposite to the cold / hot water outlet with the orthogonal line therebetween, the hot water inlet is opposite to the water purifier outlet with the orthogonal line therebetween, and the cold water inlet is connected to the hot water inlet And extends to the vicinity of the orthogonal line.

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