KR20220003921A - Two-pronged faucet without distinction - Google Patents

Abstract

The present invention relates to a two-pronged faucet without vertical or horizontal division, which can minimize space restrictions, comprising: a faucet body (100); a main supply pipe (200) for receiving raw water; a first outlet (400); a second outlet (500); a first interception unit (700) to which a first fluid interception means (600) is coupled; and a second interception unit (900) to which a second fluid interception means (800) is coupled.

Description

Two-pronged faucet without distinction

It relates to a two-pronged faucet that does not have a top-down or left-right division, and more specifically, to solve the difficulty of installation due to the change in the discharge direction of the fluid according to the vertical or left-right division of the conventional two-pronged faucet, the top and bottom of the two-pronged faucet Alternatively, the direction of fluid discharge is always maintained the same even if it is changed to the left and right, so it is possible to install without considering the installation direction when installing the two-pronged faucet, and there is no need for reinstallation due to an error in the installation direction. , it relates to a two-pronged faucet bracket that can minimize space restrictions and has no vertical or left and right divisions.

In general, a faucet installed in a sink is used to wash dishes or food materials by receiving raw water from a water faucet buried in a wall or floor. In addition, in recent years, household appliances such as water purifiers, washing machines, and dishwashers are used in the kitchen due to the improvement of life, and raw water supplied to these household appliances is supplied by connecting a faucet fitting to a supply pipe buried in a wall or floor.

Accordingly, various faucet fittings have been disclosed for sinks or home appliances using water to receive raw water from a supply pipe installed on a wall or floor of a building. However, conventionally, since the faucet embedded in the wall is generally a single faucet, the faucet is connected to a single faucet to each household appliance such as a washing machine, a dishwasher, and a water purifier. However, since the water hydrant for receiving raw water is limited, various methods are used to connect the pipe to solve this problem. For example, if you want to supply raw water to the water purifier, dishwasher, and sink at the same time at home, you can use a water faucet to supply raw water through a supply pipe that supplies one raw water through a distribution valve that connects a plurality of T-type or L-type connectors. to be supplied.

However, this method has a problem in that it must be used by connecting many parts, and it is difficult to install when the space is narrow. It has been applied and is easy to use. That is, by combining the supply pipe of raw water supplied to the sink and a faucet having two or three outlets, one or two outlets are additionally provided in addition to the outlet for directly supplying raw water to the sink, so that the water purifier can be connected separately or the dishwasher can be installed separately. connected and ready to use.

A faucet having such a plurality of outlets is generally used as a two-prong faucet configured to allow the discharge of raw water in two branches and to be intermittent, respectively. These two-pronged faucet fittings are mainly used for faucets installed with shower heads in apartment verandas and bathrooms, and the normal two-pronged faucet fittings are one of the main supply pipe connected to the supply pipe, which is a raw water supply line, and the left and right sides of the main supply pipe. A first outlet protruding from either side, a first valve unit formed on the opposite side of the first outlet and intermittently controlling the fluid discharged to the first outlet, and a second protruding downward of the main supply pipe There is a form consisting of an outlet and a second valve unit formed in front of the main supply pipe and intermittently controlling the fluid discharged to the second outlet. It is formed on either side, and the outlet is generally formed so as to be capable of discharging raw water by being formed up and down, respectively.

However, such a conventional two-pronged faucet has the following problems.

First, the main supply pipe rotates excessively in the process of tightening the screws to receive the raw water while preventing water leakage during the coupling process between the main supply pipe and the supply pipe formed on the wall or floor from which the raw water is discharged. Therefore, it is difficult to select the exact position of the outlet due to screw fastening, and there is a difficulty in installation that the screw must not be fully fastened or must be rotated more forcefully than the original screw fastening.

Here, if the screw is not fully tightened to match the position of the outlet, it may cause leakage, and if the screw is tightened excessively and forcibly coupled, the screw part of the main supply pipe or the screw part of the supply pipe is damaged, making subsequent maintenance difficult. There is a problem that arises, and a configuration that solves the problem is required.

Second, in the conventional two-pronged faucet, as described above, one of the first and second outlets faces downward orthogonally downward from the axis of the main supply pipe, and the other is orthogonally directed to any one of the left and right sides or upwards. Thus, the positions of the first and second valve units are configured at positions perpendicular to each other on either the front side and the left and right sides with respect to the first and second outlets, respectively, so that they are substantially separated from the top and bottom.

Looking at the form in which the upper and lower positions are distinguished in this way, it can be easily explained through the part in which the outlet described in the latter in the above-mentioned two-pronged faucet is vertically configured. The intermittent first outlet is configured to discharge raw water downward, and the second outlet intercepted by the second valve unit formed on either the left or right side of the main supply pipe is configured to discharge raw water upward.

However, if such a normal two-pronged faucet is not installed and is installed in an inverted state, the raw water is discharged upward through the first outlet controlled by the first valve unit protruding toward the front of the main supply pipe, and the main The second outlet, which is intercepted by the second valve unit formed on either the left or right side of the supply pipe, has to be reinstalled due to poor installation because raw water is discharged downward and the valve unit is installed in the opposite direction to the actual water discharge direction to be installed. hassle arises.

In addition, an increase in working time for re-installation and unnecessary labor costs may occur, as well as problems due to product damage.

Third, in the conventional two-pronged faucet, since one of the valve units is configured on either the left or the right side of the main supply pipe, the overall installation width must be large, and the installation area must be enlarged accordingly. Constraints follow. In addition, even if the place to be installed is to install the faucet at a right angle or rotated 180 degrees to install it in an upside down state, there is a problem in that installation is limited because the installation is possible only by considering the space, which leads to an increase in installation time and unnecessary This will result in wastage of costs due to the cost of personnel expenses.

Therefore, the conventional two-pronged or double-pronged faucet not only serves as a faucet, but also serves as a stopcock, so it is widely used in various fields. It has not been introduced or introduced, and there is a frequent demand for a two-pronged faucet bracket that does not distinguish up and down even when used upside down in the field.

1. Republic of Korea Patent Application No. 10-2017-0126460, filed on September 28, 2017. 2. Republic of Korea Patent Application No. 10-2018-0005187, filed January 15, 2018. 3. Republic of Korea Utility Application No. 20-2018-0001701, filed on June 08, 2018.

Therefore, the present invention was created to solve the above-described problems, so that when the two-pronged faucet is installed, the raw water discharge direction of the outlet controlled by the control of the valve unit is always installed in the same way even when installed upside down. By doing this, it solves the difficulty of installation due to the change of the raw water discharge direction of the outlet according to the upper and lower division, which is a problem of the conventional two-pronged faucet, so there is no need to reinstall even if the installation direction is changed The purpose is to provide a two-pronged faucet without distinction.

In order to achieve the above object, the two-pronged faucet without distinction of up and down or left and right according to the present invention is a faucet for branching and controlling the raw water supplied from the supply pipe (1), the faucet main body (100); a main supply pipe 200 for receiving raw water supplied from the supply pipe by being pipe-connected to the rear side of the faucet body body 100 by a pipe connecting means 300 for fixing in place; The faucet bracket body 100 is formed to protrude downward, and is communicated with the main supply pipe 200 so that the raw water supplied through the supply pipe 1 is discharged downward through the main supply pipe. a first outlet 400 formed to protrude; The faucet bracket body 100 is formed to protrude upward, communicates with the main supply pipe 200, and the raw water supplied through the supply pipe 1 is discharged upwardly through the main supply pipe. a protruding second outlet 500; The faucet body body 100 is formed to protrude to the front right side, the main supply pipe 200 and the first outlet 400 are formed to communicate, and the first fluid control means 600 for controlling the discharge of raw water to the lower side is blocked. The coupled first stopper 700 and; The faucet body body 100 is formed to protrude to the left in front of the main supply pipe 200 and the second outlet 500 is formed to communicate with the second fluid control means 800 to control the discharge of raw water to the upper side is blocked. It is formed of a second intermittent unit 900 that is coupled and formed symmetrically with the first intercept unit 700; the faucet body body 100 is turned 180° so that the first outlet 400 is directed upward, Even if the second outlet 500 is directed downward, the first intercepting unit 700 is located to the left, and the second intermittent unit 900 is located to the right, the downward discharge of the fluid is always controlled by the intermittent unit located at the right The upward discharge of the fluid is always controlled by the intermittent unit located on the left side, so that the discharge and control of the fluid is always possible in the same position regardless of the normal position or the 180° inverted position of the faucet body. do it with

Between the main supply pipe 200 and the faucet main body 100, a tool engaging part 210 chamfered on both sides of a hexagonal or cylindrical shape to enable coupling with the supply pipe 1 by a tool is further formed, characterized in that do.

On the other hand, each of the communication between the first and second outlets 400 and 500 and the main supply pipe 200 is a first and second intercepting hole ( Intermittent control of the fluid is made through 710 and 910), and the fluid introduced from the main supply pipe 200 to the first and second intercepting units 700 and 900 through the first and second intercepting holes 710 and 910 is 700,900) and the first and second outlets 400,500 through the first and second communication holes (410,510) formed on one side of the first and second outlets (400,500) inside the faucet main body 100 to communicate with the first and second It is characterized in that the fluid introduced into the intermittent unit (700,900) is discharged upward or downward through the first and second outlets (400,500).

Here, the first and second fluid control means 600 and 800 include adjusting shafts 604 and 804 having levers 602 and 802 for controlling the flow rate formed in the front to reciprocate back and forth according to the adjustment of the lever; a closing cap (606, 806) coupled to the axis of the adjustment shaft (604, 804) and formed behind the lever (602, 802) so that the first and second interlocking parts (700, 900) are watertightly coupled; Intermittent packings (608, 808) coupled to the rear end of the control shaft (604, 804) and formed to intercept the first and second intermittent holes (710, 810) communicating with the main supply pipe (200) and the first and second intermittent units (700, 900) ); characterized in that it is formed.

On the other hand, the fixed position pipe connecting means 300 formed at the rear end coupled to the supply pipe 1 of the main supply pipe 200 is a wedge-shaped locking frame 310 having a reduction cut-out line 312 so that the diameter can be reduced. Wow; The wedge-shaped locking frame 310 is fitted with a watertight locking through hole 322 is formed, and the fixed position fixing nut member 320 is formed so as to be idling in a state coupled to the wedge-type locking frame 310; A plurality of watertight packing members 330 coupled to be watertight between the wedge-shaped locking frame 310 and the fixed position fixing nut member 320, and coupled to the tip of the supply pipe 1 to be watertight; characterized in that it is formed of .

In the present invention, when installing a two-pronged faucet, even when installed in a normal position or turned 180°, the direction of the raw water discharge of the outlet controlled by the interruption of the valve unit and the direction of the lever for intermittently controlling the discharge of raw water are always the same By installing it, it is necessary to reinstall it even if the installation direction is changed by solving the difficulties of installation due to the change of the direction of the raw water discharge of the outlet and the change of the direction of the lever that controls the intermittent flow of the fluid according to the upper and lower division, which is a problem of the conventional two-pronged faucet. There is no space, and it has the effect of minimizing the space constraint.

1 is an overall perspective view of a two-pronged faucet bracket without upper and lower or left and right divisions according to the present invention.
Figure 2 is an exploded perspective view of a two-pronged faucet bracket without upper and lower or left and right divisions according to the present invention.
3 is a partially cut-away perspective view of the downward discharging portion of the two-pronged faucet having no upper and lower or left and right divisions according to the present invention.
4 is a partially cut-away perspective view of the upwardly discharging portion of the two-pronged faucet bracket without vertical or left and right divisions according to the present invention.
5 is a perspective view in which the front side of the two-pronged faucet bracket has no upper and lower or left and right divisions according to the present invention.
6 is a front view of a two-pronged faucet bracket without vertical or left and right divisions according to the present invention, installed in a normal position, and in a state of being turned upside down by 180°.
7 is a front side cut-away perspective view formed so that the raw water discharge direction is discharged to the left and right by installing at a 90° angle of the two-pronged faucet having no upper and lower or left and right divisions according to the present invention.
8 is a normal position installation in a state in which the two-pronged faucet according to the present invention is installed at a 90° angle so that the raw water discharge direction is discharged to the left and right and the use state in a 180° flipping state It is a front view.

Advantages and features of the present invention, and methods for achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a number of different forms.

In the present specification, the present embodiment is provided so that the disclosure of the present invention is complete, and to completely inform those of ordinary skill in the art to which the present invention belongs, the scope of the invention. And the invention is only defined by the scope of the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described in order to avoid obscuring the present invention.

Like reference numerals refer to like elements throughout. In addition, the terms used (mentioned) herein are for the purpose of describing the embodiments and are not intended to limit the present invention in any way. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. In addition, elements and operations referred to as 'include (or include)' do not exclude the presence or addition of one or more other elements and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not ideally or excessively interpreted unless they are defined.

Hereinafter, with reference to the accompanying drawings, the technical features according to the embodiment of the two-pronged faucet without the vertical or left and right divisions according to the present invention will be described in detail.

1 is an overall perspective view of a two-pronged faucet without division up and down or left and right according to the present invention, FIG. 2 is an exploded perspective view of a two-pronged faucet according to the present invention without division between up and down or left and right, and FIG. A partial cutaway perspective view of the downward discharge portion of the two-pronged faucet without vertical or left/right division according to the present invention, and FIG. is a perspective view of the front side of the two-pronged faucet having no upper and lower or left and right divisions according to the present invention, in a cutaway view, and FIG. It is a front view in a state of use, and FIG. 7 is a front side cut-away perspective view formed so that the raw water discharge direction is discharged to the left and right by installing the two-pronged faucet at a 90° angle according to the present invention, which has no upper and lower or left and right divisions, and FIG. 8 is a front view of a two-pronged faucet having no vertical or left-right division according to the present invention installed at a 90° angle so that the raw water discharge direction is discharged to the left and right, installed in a normal position, and in a state inverted by 180° .

The two-pronged faucet according to the present invention has no vertical or left-right division, and when the two-pronged faucet is installed, the raw water discharge direction and raw water of the outlet controlled by the control of the valve unit even when installed in the normal position or turned 180° By ensuring that the direction of the lever for intermittent control of the discharge is always installed in the same direction, the change in the direction of the raw water discharge at the discharge port and the change of the direction of the lever to control the intermittent fluid flow according to the upper and lower division, which is a problem with the conventional two-pronged faucet, By solving the difficulty of installation, there is no need to reinstall even if the installation direction is changed, and it is configured to minimize space restrictions. As shown in FIGS. 1 and 2, the faucet body body 100, the main supply pipe 200 ), a first outlet 400 , a second outlet 500 , a first intermittent unit 700 , and a second intermittent unit 900 .

The faucet body body 100 has a main supply pipe 200, a first outlet 400, a second outlet 500, a first intercepting unit 700, and a second interposing unit 900 to be described later up and down and back and forth. It is configured such that the fluid is discharged vertically and intermittently controlled through communication between the main supply pipe 200 and the first and second outlets.

The main supply pipe 200 is connected to the supply pipe of the building and configured to receive raw water, and the supply pipe and the in-place fixed pipe connecting means 300 are pipe-connected to the rear of the faucet main body 100 and supply from the supply pipe. It is configured to receive raw water to be used. Here, between the main supply pipe 200 and the faucet main body 100, a tool engagement part 210 chamfered on both sides of a hexagonal or cylindrical shape is further formed to enable coupling with the supply pipe 1 by a tool. . The tool engagement part 210 is formed to maintain the faucet main body 100 in a fixed position by a tool when it is connected to the supply pipe 1 by a fixed position fixing pipe connecting means 300 to be described later. do. That is, in the prior art, it is configured to be connected to the supply pipe and the supply pipe by turning the faucet body, but the tool engagement part 210 of the present invention is a fixed position fixed pipe connection to be described later in a state in which the faucet body body 100 is fixed in the original position as it is. This is to prevent the watertight coupling of the faucet bracket main body in a crooked state by pipe connection with the supply pipe 1 through the means 300 .

On the other hand, when the pipe connection means 300 for fixing the position of the main supply pipe 200 is connected to the supply pipe 1, as described above, the faucet body body 100 is attached to the tool engaging part 210 by a tool. ) is to prevent the faucet body body 100 from being installed crookedly when connecting to the supply pipe in a fixed state. In general, when connecting the supply pipe and the faucet, the number of thread pitches of the supply pipe or the coupling process is performed while watertight is performed. It is configured to solve the problem of being installed in a slightly twisted state, that is, in a crooked state, which cannot be fixed in the correct position due to the forced coupling for watertightness in It is composed of a packing member (330).

The wedge-shaped engaging frame 310 is formed at the rear end coupled to the supply pipe 1 of the main supply pipe 200, and is fitted into the watertight engaging through hole 322 of the fixed position fixing nut member 320 to be described later. It is formed in a wedge shape so as to be engaged with the watertight locking through hole 322 . And, since the diameter of the wedge-shaped engaging frame 310 is formed to be larger than the watertight engaging through hole 322 and is configured to be engaged, the diameter is reduced so that the wedge-shaped engaging frame is easily fitted into the watertight engaging through hole 322. A reduction incision line 312 is formed so that it can be elastically restored back to its original state. That is, the wedge-shaped engaging frame 310 is reduced in diameter as it is gathered toward the center by the reduction cut-out line 312, and the reduced diameter wedge-shaped engaging frame penetrates through the watertight interlocking hole and is restored to its original state and is watertight. As the engagement hole is engaged, the fixed position fixing nut member 320 is coupled to be idling on the outer periphery of the wedge-shaped locking frame.

The fixed position fixing nut member 320 is pipe-connected through screw coupling with the supply pipe 1 while idling on the periphery of the wedge on which the reduced cut-out line 312 of the wedge-shaped locking frame 310 is formed, so that the faucet body body is It is formed to be installed correctly in a fixed position without being installed crookedly, and a watertight locking through hole 322 into which the wedge-type locking frame 310 is fitted is formed, and is coupled to the wedge-type locking frame 310 . It is formed so as to be idling in a state of being.

That is, when the supply pipe 1 and the main supply pipe 200 are coupled, the operator fixes the tool to the tool engagement part 210 to fix the faucet body body 100 in a fixed position, and then the fixed position fixing nut member 320 ) by screwing to the threaded part (symbol omitted) of the supply pipe and watertightly coupled, it is possible to solve the problem of skewed installation of the faucet body body due to the connection with the supply pipe while rotating the faucet body in the prior art.

The watertight packing member 330 is configured to require watertightness when the supply pipe and the main supply pipe are coupled. ) and formed to be watertight. That is, a reduced cut-out line 312 is formed on the outer periphery side of the wedge-shaped locking frame 310 to prevent water leakage through the reduced cut-out line, and the front end of the main supply pipe is the tip of the wedge-type locking frame 310 and the supply pipe. When the tip is in close contact, it is possible to prevent water leakage by configuring it to be watertightly coupled by the watertight packing member so as to be coupled watertightly.

As shown in FIGS. 3 and 5, the first outlet 400 is formed to protrude below the faucet main body 100, is communicated with the main supply pipe 200, and is supplied through the supply pipe 1 It is formed to protrude to the lower side of the faucet main body 100 so that raw water is discharged downward through the main supply pipe.

As shown in FIGS. 4 and 5, the second outlet 500 is formed to protrude upward from the faucet main body 100, is communicated with the main supply pipe 200, and is supplied through the supply pipe 1 It is formed to protrude upward of the faucet main body 100 so that raw water is discharged upward through the main supply pipe.

Here, as shown in FIGS. 3 to 5 , the respective communication between the first and second outlet ports 400 and 500 and the main supply pipe 200 is the first and second interlocking units 700 and 900 and the main supply pipe 200 to be described later. ) and intermittent control of the fluid through the first and second interrupting holes 710 and 910 for communication with ), the fluid introduced into the first and second interceptors 700,900 and the first and second outlets 400,500 are formed on one side of the first and second outlets 400,500 inside the faucet body body 100 , The fluid introduced into the first and second interlocking units 700 and 900 through the second communication holes 410 and 510 is discharged upwardly or downwardly through the first and second outlets 400 and 500 .

The first control unit 700 is formed to protrude to the front right side of the faucet main body body 100 so that the main supply pipe 200 and the first outlet 400 communicate with each other so that the raw water is discharged to the lower side. The first fluid interception means 600 is coupled.

The second control unit 900 is formed to protrude to the left in front of the faucet body body 100 so that the main supply pipe 200 and the second outlet 500 communicate with each other so that the raw water is discharged to the upper side. The second fluid interception means 800 is coupled to form symmetrical with the first interception unit 700 .

On the other hand, the first and second fluid control means 600 and 800 that are coupled to the first and second control units 700 and 900 to intermittently control the discharge of raw water flowing through the main supply pipe include levers 602 and 802 for adjusting the flow rate. The adjusting shafts 604 and 804 are provided so as to be formed in the front and to reciprocate back and forth according to the adjustment of the lever. In addition, the control shafts 604 and 804 are coupled to the axis, and are formed behind the levers 602 and 802 to provide closing caps 606 and 806 so that the first and second interlocking parts 700 and 900 are watertightly coupled. Then, the intermittent packings 608 and 808 are coupled to the rear tip of the control shaft 604 and 804 and intermittently the first and second intermittent holes 710 and 810 communicating with the main supply pipe 200 and the first and second intermittent parts 700 and 900. ) is formed.

That is, the order in which the raw water is discharged through the first outlet is as shown in FIGS. 3 and 5 , the main supply pipe 200 - the first interception hole 710 - the first interception part 700 - the first communication. As shown in FIGS. 4 and 5, the fluid is moved and discharged in the order of the ball 410 - the first discharge hole 400, and the raw water is discharged through the second discharge port, the main supply pipe 200 - the first The fluid is moved and discharged in the order of the second interruption hole 910 - the second interruption part 900 - the second communication hole 510 - the second discharge hole 500 .

In addition, the fluid intermittently controlled by the first and second fluid interception means 600 and 800 coupled to the first and second intermittent parts 700 and 900 is a control shaft controlled by the lever 602 of the first fluid interception means 600 . By intermittently controlling the first intermittent hole 710 by the intermittent packing 608 coupled to the tip of the 604, the fluid discharge to the first outlet is intermittently controlled, and the lever of the second fluid intercepting means 800 is intermittently controlled. By intermittently controlling the second intermittent hole 910 by the intermittent packing 808 coupled to the tip of the adjusting shaft 804 controlled by 802, the fluid discharge to the second outlet is intermittently controlled.

As shown in FIG. 6, the faucet main body 100 according to this configuration is turned 180° so that the first outlet 400 faces upward, and the second outlet 500 faces downward, and the first Even if the intermittent unit 700 is located to the left and the second intermittent unit 900 is located to the right, the downward discharge of the fluid is always controlled by the intermittent unit located on the right, and the upward discharge of the fluid is always located on the left. It is formed to be controlled by the intermittent part so that the fluid discharge and control is always possible in the same position regardless of the normal position or the 180° inverted position of the faucet body. Because it has the discharge direction of the fluid, it is possible to prevent an increase in construction time due to reinstallation and consequent increase in construction cost and labor cost.

Accordingly, the features of the installation example of the two-pronged faucet bracket without upper and lower or left and right divisions according to the present invention will be described as follows.

<Example 1>

1 and 5, as the faucet body body is installed in the normal position, the fluid discharge direction of the first outlet 400 is downward, and the fluid discharge direction of the second outlet 500 is upward. positioned to be discharged. In addition, the first fluid interception means 600 which is coupled to the first control unit 700 and controls the downward discharge of the fluid as it controls the intermittent flow of the fluid discharged to the first outlet is located on the right side and the lever 602 on the right side ), the discharge control of the fluid discharged downward is controlled. In addition, the second fluid interception means 600 is coupled to the second control unit 900 and controls the upward discharge of the fluid as it controls the intermittent flow of the fluid discharged to the second outlet is located on the left side and the left lever 802 ), the discharge control of the upwardly discharged fluid is controlled.

That is, when the user operates by the right lever, the raw water supplied through the main supply pipe is discharged downwardly to the first outlet through the first communication hole through the first interception part through the first interception hole, and the operation of the right lever is always raw water. is discharged downward, and the left side is discharged upward.

<Example 2>

As shown in FIG. 6, the fluid discharge direction of the first outlet 400 is upward as the faucet body body is installed upside down to the 180° position, and the fluid discharge direction of the second outlet 500 is discharged downward. very positioned However, the first fluid interception means 600 for controlling the downward discharge of the fluid as it is coupled to the first interception unit 700 and controls the intermittent flow of the fluid discharged to the first outlet is located on the right side in the normal position, but 180° When turned over to the left, the lever 602 located on the right when the normal position is installed is moved to the left to control the discharge control of the fluid through which raw water is discharged upward according to the operation of the lever. In addition, the second fluid interception means 600 which is coupled to the second control unit 900 and controls the upward discharge of the fluid as it controls the intermittent flow of the fluid discharged to the second outlet is discharged downward, and the position of the lever is from the left The lever 802 operates in a state in which it is changed to the right and positioned on the right, so that the discharge control of the fluid from which the raw water is discharged downward is controlled.

That is, if the user operates both the normally installed faucet and the faucet in the turned 180° state by the right lever, the raw water supplied through the main supply pipe is discharged downward, and the left side is discharged upward. The discharge of raw water upward and downward according to the lever operation of the position is made in the same direction.

On the other hand, as shown in FIGS. 7 and 8, the faucet main body of the present invention is installed at a 90° angle so that the raw water direction of the first outlet is discharged in the right direction, and the raw water direction of the second outlet is discharged in the left direction. Therefore, it can be easily installed even in a narrow place. In addition, even if the direction of the discharge port is configured to the left and right, even if it is installed at a 90° angle or at a 270° angle, the discharge direction of raw water whose discharge control is controlled by the lever located on the upper side is located on the right side, and the The discharge direction of raw water whose discharge control is controlled by this is located on the left side, so that the discharge direction of raw water according to the upper and lower configuration of the lever always has the same direction. Because there is no hassle of installation, it is possible to shorten the working time, and because it is easy to install, anyone can easily install it.

In the above, the present invention has been described in detail as one embodiment, but the scope of the present invention is not limited thereto, and it is clear that many variations and modifications are possible by those skilled in the art within the scope of the technical idea, and the present invention Examples and practical equivalents will be included.

1: supply pipe
100: faucet body body 200: main supply pipe
210: tool engagement part 300: fixed position fixed pipe connection means
310: wedge-shaped locking frame 312: reduced incision improvement
320: nut member 322: watertight interlocking hole
330: watertight packing member 400: first outlet
410: first communication hole 500: second outlet
510: second communication hole 600, 800: first and second fluid control means
602,802: lever 604,804: adjustment shaft
606,806: Closing cap 608,808: Intermittent packing
700: first intercepting unit 710: first intercepting hole
900: second intercepting part 910: second intercepting hole

Claims (5)

In the power faucet which branches and controls the raw water supplied from the supply pipe (1),
The faucet body body 100 and;
a main supply pipe 200 for receiving raw water supplied from the supply pipe by being pipe-connected to the rear side of the faucet body body 100 by a pipe connecting means 300 for fixing in place;
The faucet body body 100 is formed to protrude downward, communicate with the main supply pipe 200, and the raw water supplied through the supply pipe 1 is discharged downward through the main supply pipe. a first outlet 400 formed to protrude;
The faucet bracket body 100 is formed to protrude upward, communicates with the main supply pipe 200, and the raw water supplied through the supply pipe 1 is discharged upward through the main supply pipe. a protruding second outlet 500;
The faucet body body 100 is formed to protrude to the front right side, the main supply pipe 200 and the first outlet 400 are formed to communicate, and the first fluid control means 600 for controlling the discharge of raw water to the lower side is blocked. The coupled first intercepting unit 700 and;
The faucet body body 100 is formed to protrude to the left in front of the main supply pipe 200 and the second outlet 500 is formed to communicate with the second fluid control means 800 to control the discharge of raw water to the upper side is blocked. It is formed of; a second intercepting unit 900 formed symmetrically with the first intercepting unit 700 by being combined.
The faucet body body 100 is turned 180° so that the first outlet 400 faces upward, the second outlet 500 faces downward, and the first stopper 700 is positioned to the left, and the second Even if the intermittent unit 900 is located to the right, the downward discharge of the fluid is always controlled by the intermittent unit located on the right, and the upward discharge of the fluid is always controlled by the intermittent unit located on the left, so that the faucet body body A two-pronged faucet that does not distinguish between up and down or left and right, characterized in that it is formed so that the discharge and control of the fluid is always possible in the same position regardless of the normal position or the 180° inverted position.
The method of claim 1,
Between the main supply pipe 200 and the faucet main body 100, a tool engaging part 210 chamfered on both sides of a hexagonal or cylindrical shape to enable coupling with the supply pipe 1 by a tool is further formed, characterized in that A two-pronged faucet bracket that does not distinguish between the top and bottom or left and right.
The method of claim 1,
Each of the first and second outlets 400,500 and the main supply pipe 200 are in communication with the first and second intercepting parts 700 and 900 and the first and second intercepting holes 710 and 910 for communication with the main supply pipe 200. Intermittent control of the fluid is performed through The first and second intercepting units through the first and second communication holes 410 and 510 formed on one side of the first and second outlets 400,500 inside the faucet main body 100 so as to communicate with the first and second outlets 400,500. A two-pronged faucet having no upper and lower or left and right divisions, characterized in that the fluid introduced into (700, 900) is discharged upward or downward through the first and second outlets (400, 500).
4. The method of claim 3,
The first and second fluid control means 600 and 800 include adjusting shafts 604 and 804 in which levers 602 and 802 for controlling the flow rate are formed in the front and are provided to reciprocate back and forth according to the adjustment of the lever;
a closing cap (606, 806) coupled to the axis of the adjustment shaft (604, 804) and formed behind the lever (602, 802) so that the first and second interlocking parts (700, 900) are watertightly coupled;
Intermittent packings (608, 808) coupled to the rear end of the control shaft (604, 804) and formed to intercept the first and second intermittent holes (710, 810) communicating with the main supply pipe (200) and the first and second intermittent units (700, 900) ); a two-pronged faucet with no upper and lower or left and right divisions, characterized in that it is formed by.
The method of claim 1,
The fixed position pipe connecting means 300 formed at the rear end coupled to the supply pipe 1 of the main supply pipe 200 includes a wedge-shaped locking frame 310 having a reduction cut-out line 312 so that the diameter can be reduced;
The wedge-shaped locking frame 310 is fitted with a watertight locking through hole 322 is formed, and the fixed position fixing nut member 320 is formed so as to be idling in a state coupled to the wedge-type locking frame 310;
A plurality of watertight packing members 330 coupled to be watertight between the wedge-shaped locking frame 310 and the fixed position fixing nut member 320, and coupled to the tip of the supply pipe 1 to be watertight; characterized in that it is formed of A two-pronged faucet bracket that does not distinguish up and down or left and right.

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