KR101237396B1 - Diverter assembly for bi-faucet - Google Patents

Abstract

The present invention relates to a diverter assembly that enables selection of a water inlet, and more particularly, a channel connecting a water inlet and a water outlet in a diverter for mixing / individual water inlet and water, and a second inlet and a third outlet. (Coupling) can be separated into each other to ensure accurate withdrawal of the two coke, which prevents a small amount of water from being discharged to the other coke while the coke is selected by the user. It relates to a diverter assembly that enables the selection of the outlet to enhance the ease of use by inducing the diverter to stop at the position to block the exit of each cockroke when operating the lever.

In order to implement this, the diverter assembly which enables the selection of the water outlet according to the present invention comprises: a support plate each having a rear first inlet hole, a central first outlet hole, and a front second outlet hole; And a diverter having a rear second inlet hole, a central inlet and outlet unit, and a front third outlet hole communicating with the second inlet hole, wherein the diverter has a first cock when the outlet is discharged. A waterway connecting the 1st entry hole, the entry and exit part, and the 1st exit hole is formed, and the waterway connecting the 1st entry hole, the 2nd entry hole, the 3rd exit hole, and the 2nd exit hole is formed at the exit of the second coke. It is characterized by.

Faucet, Tap, Mixer Tap, Diverter, Coke

Description

DIVERTER ASSEMBLY FOR BI-FAUCET}

The present invention allows accurate extraction of two cokes by dividing the channel of the inlet / outlet and the channel connecting the second inlet and the third outlet in a diverter for mixing / individual inlet and outlet of hot and cold water. Prevents a small amount of water from exiting one coke while the other one is selected by the user.

The present invention relates to a diverter assembly that enables selection of an outlet channel which improves the convenience of use by inducing the diverter to stop at the position where the cockle exits when operating the control lever.

In the faucet,

Republic of Korea Utility Model No. 20-1998-063736 (Nov. 25, 1998, publicly known as 'prior art 1') "disc structure for the cold / hot water mixed cartridge of the water supply" is presented,

The prior art 1 forms a pair of hot and cold water inlet and one outlet and one outlet, and each form a cold water inlet and hot water inlet and outlet in the lower fixing plate of the cartridge, respectively, cold water inlet and hot water in the disc Inlet hole and outlet hole are formed one by one, and the long groove is formed around, so that the grease is put in the long groove so that it can move smoothly during operation according to the operation.

As another technology, Republic of Korea Patent Publication No. 10-2005-0091237 (September 15, 2005, published, "prior art 2") "Sudocock" is presented,

The prior art 2 is to form a pair of outlets in one inlet hole, to select a single branch or to select a pair of outlets can be used for a variety of applications, such as,

A pair of hot and cold water inlets and a water outlet were formed, and in order to use a pair of water outlets, a water channel selection valve was installed between the water outlets so that the water outlets could be selected and used.

The prior arts 1 and 2 are difficult to assemble the parts forming each, in particular, each of the parts to be assembled according to the right position for the inlet or outlet, separate guide process even if the wrong assembly is made without a separate guide It is difficult to identify the defective product without going through, and if there is no separate inspection process there was a problem that the defective rate of the product must be high.

In addition, if the user does not want to exit the water (after the end of use to lock the water) operation of the operating lever to block the water inlet and the water outlet of the hole is made, the operation lever is not positioned to block the waterway That is, the user recognizes that the operating lever is located at a position to block the waterway, but when the waterway is inadequately connected, there is a big problem that water leaks through the waterway intermittently or continuously.

In addition, the plates arranged in contact with the top and bottom of the diverter may have a slight gap or a size error between each inlet and outlet in manufacturing, and thus, the outlet for sharing the outlet of the two cokes shares a single channel. In this case, there was a problem that a case in which a small amount of water may be discharged to the user's unwanted coke due to manufacturing errors.

The present invention allows accurate extraction of two cokes by dividing the channel of the inlet / outlet and the channel connecting the second inlet and the third outlet in a diverter for mixing / individual inlet and outlet of hot and cold water. It is an object of the present invention to provide a diverter assembly that enables the selection of a discharge path that prevents a small amount of water from being discharged to another coke while being discharged by one user selected coke.

In addition, an object of the present invention is to provide a diverter assembly which improves the convenience of use by inducing the diverter to stop at the position to block the exit of each cockroke when operating the operation lever.

In order to solve the above-mentioned problems, the diverter assembly which enables the selection of the water outlet according to the present invention,

A support plate each having a first outlet hole positioned in the center, a first inlet hole positioned behind the first outlet hole, and a second outlet hole positioned in front of the first outlet hole; And

A diverter having a central entrance and exit part, a second entrance hole located behind the entrance and exit part, and a third exit hole located in front of the entrance and exit part and communicating with the second entrance hole;

, ≪ / RTI >

According to the displacement of the diverter

At the time of exiting the first coke, a channel is formed to connect the first inlet-outlet-outlet-first outlet.

At the time of exiting the second cock, a water channel connecting the first inlet-second inlet-third outlet-second outlet can be formed.

And the diverter of the diverter is characterized in that the groove shape of the opening.

And it is characterized in that the connection path for the communication between the second inlet and the third outlet of the diverter has an open groove shape.

On the other hand, a relay body is provided for sealing the waterway connecting the second inlet and third outlet of the diverter,

The lever mounting body is hingedly coupled to the operating lever connected to the relay body,

The relay body and the lever mounting body are provided with a stopper for stopping the diverter at a position for blocking the water exit of both the first and second cocks when the operating lever is operated.

The first inlet of the support plate is characterized in that divided into hot water and cold water.

The diverter assembly which enables the selection of the outlet passage according to the present invention,

In the diverter for hot / cold water mixing / individual inflow and outflow, the two channels can be precisely discharged by separating the channel of the inlet / outlet section and the channel connecting the second inlet and the third outlet. It is arranged to face the diverter and its upper and lower parts as compared to the conventional diverter assembly which shares the exit channel for the two corks while preventing the discharge of a small amount of water from the other one to the other. Each inlet and outlet hole of the plate does not have to be precisely processed, there is an effect that can increase the productivity.

In addition, when the operation lever is operated, the diverter stops at the position where the water exit of each cock is blocked, thereby improving usability and reducing unnecessary waste of water.

In addition, it is easy to mutually assemble each part of the lever-operated faucet that can be selected by mixing hot and cold water, and it is possible to assemble each part in the correct position during assembly, thereby reducing the defective rate of the product. .

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view illustrating a diverter assembly according to the present invention, FIG. 2 is a plan view and a bottom view of the base plate of FIG. 1, FIG. 3 is a plan view of the support plate of FIG. 1, and FIG. 4 is FIG. 1. Is a plan view and a bottom view of the diver of FIG. 5 is a plan view and a bottom view of the relay body of FIG. 1, FIG. 6 is a plan view and a bottom view of the lever mounting body of FIG. 1, and FIG. Figure 8 is a view showing a coupling relationship of the lever mounting body, Figure 8 is a cross-sectional view of Figure 1, Figure 9 is a view schematically showing the operating state of the diverter assembly according to the invention, Figure 10 is an example the base plate and the support It is a figure which shows the coupling relationship of a plate, and FIG. 11 is a figure which shows that the diverter assembly which concerns on this invention was installed in the open receiving box.

Prior to the description, in FIG. 1, the second water inlet 31 is referred to as the rear side based on the diverter, and the third water outlet 33 in the opposite side is designated as the front, and the second water inlet 31 and the The inlet / outlet part 32 corresponding to the center between the three outlet holes 33 is defined as the center.
This directionality is not limited to diverters but applies to all configurations, including support plates. Therefore, in the support plate 20, the first water outlet 21 located at the center of the support plate is the center of the support plate, and the first water inlet 23 is located behind the first water outlet. The second outlet is said to be located in front of the first outlet.

In addition, the lever mounting body 50 side is determined as the upper side or the upper side, and the base plate 10 side is determined as the lower side or the lower side based on FIG.

And the upper right circular chain line of Figure 1 shows a bottom perspective view of the lever mounting body 50, the right center circular chain line of Figure 1 shows a bottom perspective view of the relay body 40, the lower right circular chain line of Figure 1 The bottom perspective view of the diverter 30 is shown.

As shown in Figures 1 to 11, the diverter assembly to enable the selection of the water outlet according to the present invention,

It comprises a support plate 20 and the diverter 30,

Further comprising a relay body 40 and the lever mounting body 50 for the operation of the diverter 30,

It further comprises a base plate 10 connected to the first and second cocks (1, 2) and arranged in contact with the lower portion of the support plate 20,

It further comprises a body 60 for the above configurations.

Looking at the above configuration in more detail,

The base plate 10 is

Inner hole 11 arranged at the center,

An external water hole 12 having an arc shape arranged in a forward direction when divided up and down based on a center; and

Left and right inlet holes 13 and 14, which are arranged on the same circumference as the outgoing water hole 12 and arranged in the rear side and are partitioned from side to side

It is made, including.

Here, the inner and outer outlet holes (11, 12) and the left and right inlet holes (13, 14) are gradually expanded from the upper portion to the lower portion to displace the water pressure of the inlet and outlet.

The support plate 20 is

To be in contact with the upper surface of the base plate 10,

A central first outlet 21 and a front second outlet 22 corresponding to each of the inner and outer outlet holes 11 and 12 of the base plate 10, and

The first inlet hole 23 divided into the hot water hole 23a and the cold water hole 23b corresponding to each of the left and right inlet holes 13 and 14 of the base plate 10 is formed.

The diverter 30

To be in contact with the upper surface of the support plate 20,

The rear second inlet hole 31, the central inlet and outlet unit 32, and the front third outlet hole 33 communicated with the second inlet hole 31 are formed.

Here, the second inlet hole 31 is arranged in contact with the rear side of the first inlet hole 23 of the support plate 20,

In addition, the inlet / outlet part 32 is arranged to correspond to the first outlet hole 21 of the support plate 20,

In addition, the third water extraction hole 33 is arranged in contact between the first water extraction hole 21 and the second water extraction hole 22 of the support plate 20.

At this time, according to the displacement of the diverter 30

At the time of exiting the first coke 1, a channel W1 connecting the first inlet hole 23, the inlet and outlet unit 32, and the first outlet hole 21 is formed.

When the water is discharged to the second coke 2, a water channel W2 is formed to connect the first water inlet 23, the second water inlet 31, the third water inlet 33, and the second water inlet 22. .

And the water inlet and outlet 32 of the diverter 30 has an open groove shape,

In addition, a connection path 34 for communication between the second inlet hole 31 and the third outlet hole 33 of the diverter 30 is formed, and the connection path 34 preferably has an open groove shape. Do.

Therefore, the water inlet / outlet part 32 and the connection path 34 of the diverter 30 have a structure in which they are separated from each other.

On the other hand, the outgoing water hole 11 of the base plate 10 and the first water extraction hole 21 of the support plate 20 has a large diameter of the two circular holes of different diameters are located in the rear and the diameter Small circular hole is located in the front, but forms a penetrating structure in the form of overlapping,

The water inlet / outlet part 32 of the diverter 30 forms a groove-shaped structure that is open in a shape corresponding to that of the water outlet hole 11 and the first water outlet hole 21.

The relay body 40

It is coupled to the upper surface of the diverter 30 for the sealing of the channel connecting the second inlet hole 31 and the third outlet hole 33 of the diverter,

The fitting portion 41 is formed in the upper center is inserted into the end of the operation lever (L) to be described later.

The lever mounting body 50

The operating lever (L) connected to the relay body 40 is hinged,

Mounting body (51), and

A cylindrical body 52 arranged above the mounting body 51 and having a through hole 521 at the center and a hinge hole 522 at the outer circumferential surface thereof.

It is made, including.

By coupling the hinge H to the corresponding hinge hole (not shown) formed in the operation lever (L) and the hinge hole 522, the front and rear turning operation is made with the hinge (H) as an axis.

The body 60 is

The base plate is wrapped around the support plate 20, the diverter 30, the relay body 40, and the lever mounting body 50 so that the operation lever L of the lever mounting body 50 is exposed. In combination with (10),

A lower body 61 having an inner receiving portion 613 to surround the support plate 20, the diverter 30, the relay body 40, and the lever mounting body 50, and

An upper body 62 having a hollow 621 which is arranged on the lower body 61 and the operating lever L is fitted

It is made, including.

Here, the cylindrical body 52 of the lever mounting body 50 is fitted into the hollow 621 of the upper body 62, the operating lever L hinged to the cylindrical body 52 is the hollow 621 is exposed to the top.

On the other hand, the base plate 10 is provided with two hook portions 16 and two coupling guides (17A, 17B) on the top,

The base plate 10 is formed with two support pieces 15 protruding from the upper edge,

The hook portion 16 is arranged on each of the outer surfaces of the two support pieces 15,

In addition, the coupling guides 17A and 17B are arranged on inner surfaces of the two support pieces 15.

Referring to FIG. 2A, when the size of the one coupling guide 17A is D1 and the size of the other coupling guide 17B is D2, the size of D1 is larger than that of D2. desirable.

3, the support plate 20 has two coupling parts 25A and 25B corresponding to two coupling guides 17A and 17B of the base plate 10 at a side thereof.

The two coupling parts 25A and 25B are grooves recessed in the side of the support plate 20,

D1 of the one coupling guide 17A and D3 of the one coupling portion 25A have a corresponding size,

In addition, D2 of the other coupling guide 17B and D4 of the other coupling portion 25B have a corresponding size.

As a result, when the support plate 20 is arranged on the base plate 10, the support plate 20 may be arranged in a proper position.

And the base plate 10 is further provided with a guide portion 18 protruding from the upper edge,

The guide portion 18 is coupled to the corresponding guide portion 612 of the body 60 to be described later.

On the other hand, the relay body 40 is provided with two connecting guides (43A, 43B) at the bottom, two insertion guides (42A, 42B) at the top, and the operation lever (L) end fitting portion (41) at the upper center It is

Referring to (a) and (b) of FIG. 5, when the size of the one insertion guide 42A, 42B is D7 and the size of the other insertion guide 42B is D8, the D7 is the same. It is preferred that the size is smaller than D8.

In addition, when the size of the one connecting guide (43A, 43B) is D9, the size of the other connecting guide (43B) is D10, it is preferable that the D9 is larger than the size of the D10.

4, the diverter 30 includes two connection guides 43A and 43B of the relay body 40 and two connection parts 35A and 35B corresponding to each other.

The two connecting portions 35A and 35B are recesses recessed from the upper portion of the diverter 30 to the lower portion,

D9 of the one connecting guide 43A and D5 of the one connecting portion 35A have a corresponding size,

In addition, D10 of the other connecting guide 43B and D6 of the other coupling part 35B have a corresponding size.

As a result, when the relay body 40 is arranged on the diverter 30, the relay body 40 may be arranged in a proper position.

And the lever mounting body 50 is provided with two insertion parts (53A, 53B) corresponding to the two insertion guides (42A, 42B) of the relay body 40 at the bottom, and two protrusions (54) on the side,

Referring to (a) and (b) of FIG. 6, D11 of the one insertion portion 53A has a size corresponding to that of the one insertion guide 42A,

In addition, D12 of the other insertion portion 53B has a size corresponding to that of the other insertion guide 42B.

As a result, when the lever mounting body 50 is arranged on the relay body 40, it may be arranged to fit in the correct position.

Meanwhile, referring to FIGS. 6 and 7, the body 60 is in contact with two protrusions 54 of the lever mounting body 50 and two corresponding protrusions 614 for limiting the rotation radius of the lever mounting body 50. ) And two hooking portions 611 coupled to the two hook portions 16 of the base plate 10.

Meanwhile, referring to FIGS. 1 and 2, the base plate 10 has an O-ring inserting groove P21 for inserting the sealing O-rings P2 and P1 into upper and lower portions, respectively, in a form surrounding each inlet hole and each outlet hole. , P11) is formed,

Referring to FIGS. 1 and 3, an O-ring inserting groove P31 for inserting the sealed O-ring P3 in a form surrounding the connection path 34 of the diverter 30 in the lower portion of the relay body 40. Is formed.

Diverter assembly according to the invention,

Two coupling guides 17A and 17B of the base plate 10 or two connecting guides 43A and 43B of the relay body 40 or two insertion guides 42A and 42B of the relay body 40, or these It is preferred that each of the mating pairs has a different size or different shape.

Having other sizes is as described above,

Although not shown in the drawings, it is possible to induce in-situ coupling of each part by varying each of the paired shapes.

In addition, the diverter assembly according to the present invention,

Two coupling guides 17A and 17B of the base plate 10 or two connecting guides 43A and 43B of the relay body 40 or two insertion guides 42A and 42B of the relay body 40, or these It is preferable that all of them are arranged at the top or the bottom when they are divided up and down with respect to the center.

For example, referring to FIG. 10,

Two coupling guides 17A and 17B of the base plate 10 are arranged to be biased to the upper side with respect to the center.

In addition, the two coupling parts 25A and 25B of the support plate 20 are also arranged to be biased to the upper side with respect to the center.

When the base plate 10 and the support plate 20 are coupled to each other, each of the inflow holes and the exit holes may be guided to a proper position so as not to be inverted.

Diverter assembly according to the invention,

In the relay body 40 and the lever mounting body 50, the diverter 30 is placed at a position to block water discharge of both the first and second cocks 1 and 2 when the operation lever L is operated. Stopper (S) is provided to stop,

The stopper (S) is

Stop groove (S1) formed in the outer wall of the fitting portion 41 of the relay body 40,

An installation space S2 formed at the lower part of the lever mounting body 50, and

An elastic body S3-2 supporting the projecting body S3-1 and the projecting body S3-1, the elastic body S3-2 and the projecting body S3-1 are accommodated, and the projecting body ( S3-1) engaging portion (S3) including a container (S3-3) that is exposed to expose the end

It is made, including.

Therefore, when the operation lever L is positioned at the center in the state in which the operation lever L is operated back and forth, the projecting body S3-1 of the latching and exiting part S3 stops the stop groove of the relay body 40 ( It is made by elastically inserting into S1).

As a result, when the operation lever L coupled to the fitting portion 41 of the relay 40 comes to the center position, the lower diverter 30 coupled to the relay 40 is supported by the support plate ( 20 is located in the center, and the channels of the support plate 20 and the diverter 30 are blocked.

And the diverter assembly according to the invention as shown in Figure 11,

Installed in the open faucet 70,

The open faucet box 70 is formed with an inlet portion 71 is connected to the left and right inlet hole (13, 14) of the cold and hot water is contained, the base plate 10,

First and second cocks 1 and 2 connected to the inner and outer water outlets 11 and 12 of the base plate 10 are formed, respectively.

The sealed O-ring 74 is provided to prevent leakage of the open faucet and the installation site of the diverter assembly of the present invention.

Accordingly, the cold and hot water of the water inlet 71 is selectively discharged to the first and second cocks 1 and 2 through the channels of the plates and the diverters according to the operation of the diverter 30.

Meanwhile, referring to FIG. 9,

9 (A) shows the coupling relationship of the diverters 30 arranged on the upper surface of the support plate 20 and the channel structure thereof in a cross-sectional form,

FIG. 9B shows the position of the lever L with respect to each of (a) to (c) in FIG. 9A.

Looking in more detail as follows.

As shown in (A) of FIG. 9 (A) and (A) of (B),

With the operating lever L at the center of the lever position (i.e. the initial unoperated state), the diverter is rotated counterclockwise (approximately 50 °)-zero angle-clockwise rotation (About 50 °)] because the channel between the support plate 20 and the diverter 30 is not formed, the inflow and outflow of cold and hot water is not made.

And as shown in (A) and (B) in (A) of Figure 9,

When operating the lever L down (lever position down) and the diverter rotated counterclockwise (approximately 50 °) with the diverter moved rearward, the channel between the support plate 20 and the diverter 30 (W1) hot water flows in and out along the [hot water hole 23a-the inlet and outlet part 32-the first outlet hole 21],

When the angle of the diverter is 0 while the operating lever L is lowered, along the waterway W1 (hot water and cold water holes 23a and 23b, inlet / outlet part 32, and first water outlet 21). Mixed cold and hot water flows in and out,

If the diverter is rotated clockwise (approximately 50 °) while the operating lever L is lowered, the waterway W1 (cold water hole 23b-inlet / outlet part 32-first water outlet 21) is opened. Cold water flows in and out. As a result, in the state in which the operation lever L is lowered, the water is discharged to the water extraction hole (that is, the first water extraction hole) located inside, regardless of the angle of the diverter.

And as shown in (A) and (B) to (C) of Figure 9,

In the case where the diverter is rotated counterclockwise (approximately 50 °) with the lever position up and the diverter moved forward, the channel between the support plate 20 and the diverter 30 is (W2) hot water flows in and out along the hot water hole (23a) -second inlet (31) -third outlet (33) -second outlet (22);

If the angle of the diverter is 0 with the operating lever L raised, the waterway W2 (hot water and cold water holes 23a and 23b, second water inlet 31 and third water outlet 33). The cold and hot water mixed along the second water outlet (22);

If the diverter is rotated clockwise (approximately 50 °) with the operating lever L raised, the waterway W2 (cold water hole 23b-second inlet hole 31-third outlet hole 33) -Cold water flows in and out along the second outlet (22). As a result, in the state in which the operation lever L is raised, the water is discharged to the water extraction hole (that is, the second water extraction hole) located on the outside regardless of the angle of the diverter.

Finally, hot / cold water mixing / individual water inlet and outlet water conversion are made by the operation forms of FIGS. 9A to 9C.

In the above description of the present invention with reference to the accompanying drawings, a diverter assembly having a specific shape and structure has been described mainly with respect to the present invention, but various modifications and changes can be made by those skilled in the art, Such modifications and variations are to be interpreted as falling within the protection scope of the present invention.

1 is an exploded perspective view showing a diverter assembly according to the present invention;

2 is a plan view and a bottom view of the baseplate of FIG.

3 is a plan view of the support plate of FIG.

4 is a plan view and a bottom view of the diverter of FIG. 1;

5 is a plan view and a bottom view of the relay of FIG. 1;

6 is a plan view and a bottom view of the lever mounting body of FIG.

7 is a view showing a coupling relationship between a relay body and a lever mounting body;

8 is a cross-sectional view of FIG.

9 is a view schematically showing an operating state of the diverter assembly according to the present invention;

10 is a view showing a coupling relationship between a base plate and a support plate as an example;

11 is a view showing that the diverter assembly according to the present invention is installed in an open faucet.

Description of the Related Art

H: hinge

L: Control lever

P1, P2, P3: Sealed O-Ring

P11, P21, P31: O-ring Insertion Groove

10: base plate

11: Going out water 12: Going out water

13: left entrance hole 14: milk entrance hole

15: support piece 16: hook portion

17A, 17B: coupling guide 18: guide

20: support plate

21: 1st water extraction hole 22: 2nd water extraction hole

23: first water inlet 23a: hot water ball

23b: cold water hole 25A, 25B: coupling portion

30: diverter

31: 2nd acquisition work 32: entry and exit department

33: 3rd exit 34: connection road

35A, 35B: Connection

40: relay

41: fitting portion 42A, 42B: insertion guide

43A, 43B: Connection Guide

50: lever mounting body

51: mounting body

52: cylinder

521: through hole 522: hinge hole

53A, 53B: insert

54: protrusion

60: body

61: lower body

611: latching section 612: response guide

613: accommodating part 614: counterpart projection

62: upper body

621: hollow

70: open faucet

71: acquisition part 74: sealed O-ring

S: Stopper

S1: Stop Groove S2: Installation Space

S3: Hanging part S3-1: parting body

S3-2: Elastomer S3-3: Receptor

Claims (4)

A support plate each having a first outlet hole positioned in the center, a first inlet hole positioned behind the first outlet hole, and a second outlet hole positioned in front of the first outlet hole; A diverter having a central entrance and exit part, a second entrance hole located behind the entrance and exit part, and a third exit hole located in front of the entrance and exit part and communicating with the second entrance hole; And The inner and outer holes located in the center, the outgoing holes located in front of the outgoing holes, and the left and right inlet holes, which are arranged on the same circumference as the outgoing holes at the rear position of the outgoing holes, are divided to the left and right, respectively. A diverter assembly comprising a base plate and mounted on a receiving box, The outboard water hole of the base plate is connected to the first cock of the faucet box, the outboard water hole of the base plate is connected to the second cock of the faucet box, According to the displacement of the diverter At the time of exiting the first coke, a channel is formed to connect the first inlet-outlet-outlet-first outlet. At the time of exiting the second cock, a waterway connecting the first inlet-second inlet-third outlet-second outlet is formed. A relay body is provided for the sealing of the channel connecting the second inlet and the third outlet of the diverter, The lever mounting body is hingedly coupled to the operating lever connected to the relay body, The relay body and the lever mounting body are provided with a stopper for stopping the diverter at a position for blocking water discharge of both the first and second cocks when the operating lever is operated. The diverter assembly of claim 1, wherein the first inlet of the support plate is divided into hot water and cold water. The method of claim 1, And a diverter assembly for enabling selection of the outlet passage, wherein the diverter portion of the diverter has an open groove shape. The method of claim 1, The diverter assembly for the selection of the outlet passage, characterized in that the connection path for the communication between the second inlet hole and the third outlet hole of the diverter. delete

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