KR101283861B1 - Rotating faucet having cock - Google Patents

Abstract

The present invention is to wash the faucet always left and right when washing face to wash the face comfortably without jamming the body, it is possible to conveniently wash the faucet body by configuring the rotatable structure from side to side, the existing hot and cold water with one cock It features the convenience of adjusting as it is.

Description

Rotary Faucet {ROTATING FAUCET HAVING COCK}

The present invention is to wash the faucet always left and right when washing face to wash the face comfortably without jamming the body, it is possible to conveniently wash the faucet body by configuring the rotatable structure from side to side, the existing hot and cold water with one cock It is about making the best use of adjustment.

The present invention is to add a function to rotate the faucet body to the existing structure to select the cold and hot water with one valve casing, eliminating the inconvenience of the faucet hitting the body by turning left and right faucet every time when washing.

A similar faucet is a rotary faucet, which is pulled out to the top for rotation of the faucet, and the rotary faucet is positioned at the center of the upper part so that the handle for controlling the amount of cold and hot water is inevitably separated into two sides. In addition, the faucet was bent from the top to discharge the water, so the body was large. As these two knobs regulate the flow rate, the water temperature could not be adjusted quickly, resulting in water consumption.

Although the handle that controls the cold and hot water in the form similar to the above is in the form of a conventional cock, the body and the faucet cannot be integrally formed so that a handle (cock) is made next to the faucet body and connected to the faucet body at the lower support level. There is a form, which is not only large but also bad in terms of production, and above all, aesthetically.

On the other hand, the existing convenient cock that can control the amount of cold and hot water with one tap is fixed so that the tap is not rotated, and it is inevitably caught in the faucet every time when washing the toilet. There was a structure in the mutual dilemma that can only be made.

Therefore, the present invention not only satisfies the above two, but also maintains the size of the faucet body as in the conventional in size, eliminating all the disadvantages of the prior art is a technical feature.

In the prior art as described above, it was difficult to maintain the waterway when the water body and the lower support were separated to rotate the water body in a situation where the cock and the water body of the upper end of the water were already located. In addition, the central axis of rotation is necessary for the rotation of the main body, and since the channel was already located in place of the central axis, the central cock and the retaining of the channel could not be solved. As a result, the natural capital of the cock had no choice but to bring about a change in form.

In the present invention, in order to solve the problems of the previous faucets as described above, the faucet body is separated into the upper and lower rotatable upper end 21 and the lower end 22 which is fixed to the wash basin as shown in FIG. Cold water passage (part connected from cold water inlet 76 to cold water outlet 74) and hot water furnace (hot water) in a semicircular form on the left and right of the rotary shaft 60 connecting the upper end 21 and the water supply end 22. Each part of the inlet 75 connected to the hot water outlet 71 is disposed, which is a cold water outlet 74 located on the surface of the lower end portion 22 in order to maintain a waterway that does not break even when the upper end portion 21 rotates. ) And the hot water outlet 71 are sufficiently wide, and the cold water inlet 64 and the hot water inlet 61 of the upper end portion 21 corresponding to each of them to abut each other, so that the upper end portion 21 of the tap water to the cold hot water even when rotating Hung up But it was always composed of states that can be connected.

The surface of the cold water outlet 74 and the hot water outlet 71 of the lower end of the water supply 22 and the hot water inlet 64 and the hot water inlet 64 of the upper end of the water supply 21 can be maintained at all times even when the upper water supply end 21 rotates. It is because it consists of a long arc shape including the rotation radius of (61), the water having an existing cock by arranging the anti-loosening screw 69 in order to prevent the upper end portion 21 of the rotating body to loosen during frequent rotation It was possible to add a rotating function to the faucet while maintaining its advantages and shape.

As described above, the present invention not only saves the convenience of the existing use of adjusting the hot and cold water to two cold and hot water supply pipes with one operation lever, and solves the inconvenience of taking a faucet when washing.

This has the effect of simplifying the existing production of only one water valve and maintaining the size of the faucet body at the existing size, and at the same time, for the convenience of production, and above all, the beauty of the existing tap water.

1 is a side view of the entire faucet to which the present invention is applied and a plan view and a top and bottom view of each part thereof.
FIG. 2 illustrates the overall relationship diagram in 3D for easy understanding of each part of FIG. 1.
Figure 3 shows a conceptual diagram of rotating the faucet body which is the core of the present invention,
Figure 4 shows a conceptual diagram of cold and hot water selection of the existing Woncock capital
Figure 5 shows a structure that can continue to discharge water even when rotating the top cock left and right,
Figure 6 shows a structure that induces the separated cold and hot water to collect in an adjustable state with one tap cock
Figure 7 shows a separate cold and hot water inflow from the wall to the bottom of the faucet.

An embodiment of the present invention will be described with reference to the accompanying drawings.

First, the overall channel through which cold water and hot water flow is as follows. In FIG. 7, in the case of cold water, the cold water inlet 76 of the water supply lower end 22 passes through the cold water outlet 74, and similarly, the hot water also exits the hot water inlet 75 of the water supply lower end 22 from the hot water inlet 75. . The cold water enters the cold water inlet 64 of the upper end portion 21 of the water, and passes through the cold water inlet 65 through the cold water outlet 66. The hot water also enters the hot water inlet 61 and passes the hot water inlet 62 through the hot water outlet 62. Proceed to (63). These cold and hot water is combined at the cold and hot water inlet surface 55 of FIG. 5 and enters the cold and hot water chamber 55 again through the cold and hot water inlet 54, which is cooled through the spout 52 at the cold and hot water outlet 51. Come out to the water outlet 53.

In the case of hot water in Figure 7 is passed through the hot water outlet 71 from the hot water inlet 75 of the water supply end 22, this passage is a fallopian tube shape of the rotary shaft 72 while gradually extending from the inlet to the outlet It is wrapping half. This structure is the core of the present invention, since the rotary shaft 72 of the upper end portion 21, which is the central shaft portion of the faucet, needs to be connected to the lower end portion 22, the cold water and hot water passages surround the rotating shaft 72. They are arranged in semicircles to the left and right of the axis of rotation. Cold water and hot water pipes of the lower end of the water pipe 22 are gradually widened in the form of a fallopian tube, each of the surface of the cold water and hot water outlet 71 is elongated in an almost semi-circular shape, which is holding the water spout 52 and rotated left and right, The cold water inlet 64 and the hot water inlet 61 located at the bottom of the upper end portion 21 of the rotating body are elongated as long as they can move to keep the waterway even when rotating.

The cold water inlet 64 and the hot water inlet 61 of the upper end portion 21 protrude slightly as shown in FIG. 6, which is inserted into the cold water outlet 74 and the hot water outlet 71 of the lower end 22 of the tap water. Not only helps to prevent the upper part 21 is separated during rotation, and also serves to allow the cold water and hot water to be introduced better, and the upper end of the water supply (73) with the guide shaft 73 around the rotating shaft (60) 21) to guide and limit the rotation angle.

In addition, the cold water and hot water pipes of the water supply end 22 will be described in detail as follows. In FIG. 7, the upper surface E of the lower end of the water supply is a case where the virtually sectional view is viewed from the top to the bottom, and similarly, the lower surface F is a case where the bottom surface F is viewed from the top. There are two guide grooves 73 on the sides of the upper surface E and the lower surface F of the lower water supply end 22, that is, a pair, so that the upper water supply end 21 is not inserted and the upper water supply end ( Both ends of the upper end portion 21 of the water when the 21 is rotated to prevent fine movement up and down.

The rotary shaft 72 protruding from the lower end of the upper end portion 21 puts two sliding rings 68 at the bottom when combined with the lower end portion 22 so that the upper end portion 21 naturally rotates and has a high information bolt ( 60-2) is fixed so that the upper end 21 of the tap water does not fall out, and by finishing the loosening prevention screw 69 on the high tip (60-2), the high tip of the tip (21) ) So that it does not solve. In addition, the upper portion of the rotating shaft 60 has no thread 60-1 so that the upper end portion 21 of the water does not have a problem in rotation, and the anti-loosening groove 67 has the anti-loosening screw 69 in a specific position of the screw 60-1. The anti-loosening groove 67 was put around the 360 degrees of the screw thread 60-1 so that there is no inconvenience to be fitted in. The corner of the end of the anti-loosening screw (69) was designed to be cut into the slant slightly so that the tip was tapered into a slightly conical shape so that it could be easily inserted into the anti-loosening groove (67).

In FIG. 6, the upper surface C of the portion including the cold water flow path 65 and the hot water flow path 62 positioned at the bottom of the upper end portion 21 refers to a case in which the virtually squeezed cross section is viewed from above. Similarly, the bottom surface (D) shows the case viewed from the bottom up. In the case where the cold water inflow path 65 and the hot water inflow path 62 are viewed from the bottom surface D, the mutual distance between the cold water inlet 64 and the hot water inlet 61 is wide, which is two cold water inlets 64 and This is because the rotating shaft 60 is located between the hot water inlet 61, the cold water outlet 66 and the hot water outlet 63 when viewed from the top surface (C) is less than the distance of the bottom surface (D) cold water induction ( 65 and the hot water oil passage 62 are gradually narrowed so that the two cold water outlet 66 and the hot water outlet 63 are located on one side of the edge of the circle of the virtual upper surface C of FIG. 6, which is in contact with this. The cold and hot water inflow surface 55 of the cold and hot water combines the cold water and hot water, and the cold and hot water inflow surface 55 located on the lower surface of the cold and hot water room 59, which rotates when rotating the cock cock to Because it plays a role. A conceptual diagram thereof is as shown in FIG. 4, and in FIG. 3, the water spout 52 has a cold water inlet 64 and a hot water inlet 61 located at the bottom of the upper and lower end portions 21 of the water spout 52. The range to rotate is shown.

The upper surface (A) and the lower surface (B) of the cold and hot water bath 59 of FIG. 5 shows an imaginary cross section viewed from top to bottom, and the bottom surface (B) represents an imaginary cross section viewed from below, which is a conventional It seems that the explanation is unnecessary because it does not have any peculiarity to the tap cock structure of. If the upper and lower cock handle is moved up and down, the flow control bar 58 is moved to adjust the flow rate by the opening and closing amount of the cold and hot water inlet 54, and by rotating the left and right the whole cold and hot water bath 59, the lower part Since the cold and hot water inflow surface 55 moves as shown in FIG. 4 to block the cold water outlet 66 and the hot water outlet 63, the temperature of the cold and hot water is adjusted according to the flow rate of the cold water and hot water mixed.

Here, the hot and cold spout 52 and the channel should always be maintained at the time of left and right rotation by the cock on the upper end of the tap water, so that the cold and hot water outlet 51 is made long.

The following shows how the parts are combined and their mutual structure.

The upper end portion 21 of the water supply is not only determined to be the same structure as the existing cock, and is omitted because it is outside the scope of the present invention.

When the rotary shaft 60 of the combined upper end portion 21 is pushed into the rotary shaft socket 72 of the lower end portion 22, the clamping portion 73-2 protruding inside the bottom surface of the upper end portion 21 is almost closed. Push and turn into the guide groove inlet (73-1) present in a pair of left and right on the upper edge of the water supply end (22). At this time, the corner of the beginning portion where the guide groove 73, which is horizontally folded, is to be finely rounded so that the clasp 73-2 easily rotates horizontally from the entrance of the guide groove, the guide groove inlet 73-1. The exact position of) will come to the right when facing the lower end 22 in the same direction as the washbasin, so push the upper end 21 and turn it halfway clockwise to combine the spout 52 in front do. In the design, the overall shape of the guide groove (73) is the opposite shape of the b-shaped, but it is irrelevant to produce a groove by digging into the b-shaped. At this time, of course, it may be combined counterclockwise.

However, given that most people are right-handed, and that there is more probability of unwittingly pushing the left out than pulling the spout 52, the design of the present invention is the opposite of the It would be more useful to make the guide groove inlet 73-1 at the top.

Then, when looking at the bottom of the water supply end 22, the water supply end 21 is joined to the water supply end 22, and then two sliding rings 68 are inserted into the portion where the rotating shaft 60 protrudes, and the high information obstruction 60-2. ) So that the upper end portion 21 of the water supply does not fall out. Finally, since the high information bolt 60-2 can be released due to frequent rotation of the upper end portion 21, push the loosening prevention screw 69 into the loosening prevention screw hole 60-3 in the high information outlet 60-2. And insert it to the end of the anti-loosening groove 67 which is dug around 360 degrees of the rotation shaft 60. The anti-loosening groove 67 is designed to dig 360 degrees because it is difficult to precisely fit the anti-loosening screw groove 60-3 to the anti-loosening groove 67 finely. Since the sliding ring 68 must withstand frequent rotation, the metal material is preferred to the rubber material. Inserting two rings is to allow the upper end portion 21 to rotate better. In addition, the anti-loosening screw groove (60-3) is structurally difficult to be combined with a narrow space to tighten the screw to prevent loosening the screw 69 in position, but for this purpose, an electric screwdriver of the end of the L-shape is exceptional need.

Since the upper end portion 21 and the lower end portion 22 of the water are combined to be separated, water leakage may occur at the coupling portion, and thus, the dimensions of each portion should be manufactured precisely. In addition, the diameter of the rotary shaft 72 of the upper end portion 21 should be made as large as possible to receive a sufficient force, and to minimize the left and right movement of the upper end portion 21. In the present invention, the diameter of the rotating shaft 72 is designed to about 1/3 of the total diameter of the water supply lower end 22. The bolt was also designed to be large enough to receive the force, because the upper end portion 21 to be separated by the water pressure must be able to bear enough force. In addition, the two front and rear catches (73-2) of the bottom of the upper end portion 21 to be caught by the front and rear guide groove 73 also serves to hold the upper end portion 21 to move left and right, as well as to distribute the water pressure. do.

In this case, when the water spout 52 of the upper end portion 21 is rotated to the right end, it is conceivable that the catch 73-2 at the bottom of the upper end portion 21 caught by the guide groove 73 may fall out. Rotating shaft 60 and a sturdy high information bolt (60-2) just enough to handle this. The catch 53-2 is exceptionally invalid when the spout 52 goes all the way to the right, but this also unconsciously pushes the spout 52 rather than pulling it, given that most people are right-handed. The most likely to be located somewhere other than the end, and in most positions, the clasps 73-2, which are respectively caught by the two guide grooves 73, further assist the hydraulic pressure dispersion. Even if there is no clasp 73-2, a sufficiently large rotary shaft 60 and a sturdy high information bolt 60-2 can afford hydraulic pressure.

Claims (1)

In order to rotate the faucet, it is separated into the upper end portion 21, which is a rotating body, and the lower end portion 22, which is a support part, and connected to the rotating shaft 60 having an anti-loosening screw 69, and the cold water outlet 74 of the lower end portion 22. ) And the hot water outlet 71 are arranged around the rotary shaft socket 72 so that the upper end portion 21 of the water supply can be stably rotated while securing the widest water channel as possible, and the front and rear of the lower end portion 22 to limit the rotation range. A pair of guide grooves 73 and the clasp 73-2 contacted with the pair of guide grooves protrude from the cold water outlet 74 and the hot water outlet 71 of the water supply end 22 respectively. The cold water inlet 64 and the hot water inlet 61 are disposed to maintain the water channel even when the upper end portion 21 rotates from side to side, and the cold water outlet 66 and hot water collected at an angle to control the flow of cold and hot water even during rotation. Rotation characterized by having an outlet (63) Capable faucet.

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