KR20110065308A - Faucet for cold and warm water having an automatic temperature control function - Google Patents

Abstract

PURPOSE: A faucet for cold and hot water having the automatic temperature control function is provided to minimize the waste of water by controlling the inflow and discharge rate of a cold water pipe and a hot water pipe automatically to make the temperature of water discharged by mixing cold water and hot water quickly at the preset temperature. CONSTITUTION: A faucet for cold and hot water having the automatic temperature control function comprises: a washstand joint(13) coupling a faucet(1) to a washstand(2); a mixing valve(20) flowing in cold water and hot water influent from the outside; a temperature setting unit(30) setting the temperature of effluent water; and bimetal(32) assembled to a cylindrical chamber body(10) integrally and controlling the mixing amount of cold water and hot water of the mixing valve.

Description

Faucet for cold and warm water having an automatic temperature control function}

The present invention relates to a faucet for cold and hot water, and more particularly, to a cold and hot water faucet having a structure for automatically adjusting the mixing ratio of cold water and hot water so that the discharge water temperature becomes a temperature set by a user within a short time. will be.

Conventional cold and hot water mixing valve is configured to mix the cold water and hot water flowing through the cold water pipe and hot water pipe at a rate set by the user in advance, and discharged at a temperature set by the user. The cold and hot water mixing valve is to control the opening and closing amount of the cold water valve and the hot water valve connected to the cold water pipe for introducing cold water, hot water pipe for introducing hot water, respectively, by the handle or lever for temperature control.

However, in the conventional cold and hot water mixing valve, the user manually adjusts the temperature adjusting handle or lever to set the temperature of the discharged water discharged from the tap to the desired temperature. After that, there was a problem in that the water consumption of the wastewater was unnecessarily consumed by readjusting the handle or the lever until the temperature of the discharged water reached the desired temperature.

Examples of automatic water conduction to automatically adjust the temperature of the water in order to solve the above problems include "automatic water conduction" of Patent Document 1 and "automatic water supply and the valve assembly configured therein" of Patent Document 2.

Patent Document 1: Patent Publication No. 1993-0005335 (Notice date 1993. 6. 17.) Patent Document 2: Patent Publication No. 195-0011801 (Notification date 1995. 10. 10.) The automatic water conduction disclosed in Patent Document 1 includes a mixing chamber, a cold / hot water mixing tube in which a cold / hot water inlet is formed, and a plurality of cold / hot water outlets that can communicate with the mixing chamber are formed, and a bimetal in the mixing chamber. A temperature sensor, a cold / hot water mixing valve having a flow opening / closing tube which is installed to slide in the cold / hot water mixing pipe so as to selectively open / close the cold / hot water outlet in response to the operation of the bimetal, and is operatively engaged by the bimetal. It is composed. However, the cold and hot water mixing valve of the automatic faucet disclosed in Patent Document 1 is connected to the outer end of the spiral (or helical) bimetallic flow opening and closing pipe slidingly sliding in the left and right direction in the hot and cold water mixing pipe, There was a problem that the temperature control was not large and fine. That is, the inner (center) end of the spiral bimetal disclosed in Patent Document 1 is fixed to the central axis for temperature control, and the outer end moves the flow opening / closing tube in left and right directions through the opening / closing tube actuator to cool the cold water outlet and hot water. It was almost impossible to adjust the temperature manually because the outlet was opened and closed at the same time. For example, if the temperature control knob is rotated only about 7 ° and the central axis for temperature control is rotated about 7 °, the tip of the bimetal is rotated by 7 ° so that either the cold water outlet or the hot water outlet is completely closed and the other is fully open. The phenomenon occurred that the temperature control was almost impossible. On the other hand, the automatic water tap disclosed in Patent Document 2 is provided with a mixing valve for opening the passage between the inner and outer cylinders formed with the cold water passage and the hot water passage by the helical bimetal drive. However, the inner (center) end of the spiral bimetal disclosed in Patent Document 2 is fixed to the central axis for temperature control, and the outer end is fixed to the outer cylinder of the mixing valve with a pin, and the outer cylinder is rotated by driving the bimetal. Since it is configured to open and close the cold water passage and the hot water passage, it was almost impossible to manually adjust the temperature. For example, if the knob for temperature control is rotated only about 10 °, the central axis for temperature control is also rotated about 10 ° and the tip of the bimetal is rotated 10 ° so that either the cold or hot water path of the mixing valve is completely closed and fully open. The temperature control was very difficult.

Accordingly, an object of the present invention is to provide a faucet that minimizes waste of water by automatically adjusting the inflow and discharge amounts of the cold water pipe and the hot water pipe so that the temperature of the water discharged by mixing the cold water and the hot water is quickly set to a user-set temperature. have.

Another object of the present invention is to provide a faucet for cold and hot water that the user can easily adjust the water temperature, and automatically adjusts the temperature of the water by mixing cold water and hot water at a set temperature.

Still another object of the present invention is to provide a water tap for cold and hot water in which the outer end of the vortex bimetal is fixed at a fixed position and the central axis thereof is rotated according to the mixing temperature of cold water and hot water according to the temperature setting. .

Still another object of the present invention is to discharge the cold water and hot water by mixing the cold water and hot water at a temperature set by the user by the rotation of the temperature controller, and a cold and hot water faucet having a thermostatic function having a structure that can finely control the temperature of the discharge water In providing.

The water tap according to the present invention for achieving the above object is a cylindrical chamber body having a head lever formed on the upper end with a discharge port for discharging the fluid to be filled in the inner mixing chamber on one side; A sink unit coupled to the inner bottom of the cylindrical body to have the cold water and hot water inlet fixed to the sink, and the cylindrical chamber body to be rotated at the top of the sink; The cold water outlet by opening and closing the cold water and hot water inlet and discharged to at least one cold water outlet and hot water outlet formed in the upper portion, and the temperature control rotary shaft is installed on the top of the outlet disk and coupled to the upper portion And a mixing valve controlling an amount of mixing of cold water and hot water by adjusting an open cross-sectional area of the hot water outlet. A tooth is formed on an inner circumferential surface and is formed at a central portion of a ring gear installed to rotate at an inner upper end of the cylindrical chamber body, and is formed with a larger diameter than the rotary gear rotated by a temperature setting rotary shaft of the temperature controller. A temperature setting unit comprising a reduction gear coupled between the rotary gear and the inner circumferential surface of the ring gear; It is wound in a spiral shape and positioned at the lower end of the temperature setting part, and the center thereof is fixed to the temperature adjusting rotation shaft, and an outer end thereof is connected to a pin formed in a hole formed at an edge of the ring gear, and contracted according to the temperature in the cylindrical chamber body. It is characterized by comprising a bimetal that extends to drive the mixing valve.

The vane coupling portion is formed in the center of the inlet disk formed with the cold water and hot water inlet, the flange sleeve (flange sleeve) seated on the annular protrusion protruding annularly on the inner bottom of the cylindrical chamber body, the upper end of the circular protrusion Screwed to the flange sleeve, the lower end is composed of a flange nut is fitted into the coupling hole of the sink.

Cold and hot water faucet having a thermostatic function according to an embodiment of the present invention is fixed to the end of the bimetal to the ring gear rotated by the rotation of the thermostat of the mixing valve for introducing cold water and hot water by the rotation of the center By controlling the quantity, the temperature can be more precisely controlled, and the user can adjust the temperature by finely rotating the outer end of the bimetal that controls the opening amount of the mixing valve by reducing the rotation angle of the ring gear by the rotation of the temperature controller. You can do it very accurately.

1 is a plan view showing a state in which a cold and hot water faucet with a thermostatic function is installed according to a preferred embodiment of the present invention.
Figure 2 is a side cross-sectional view of the cold and hot water faucet shown in FIG.
Figure 3 is an exploded perspective view of the temperature setting unit, the bimetal and the mixing valve configured in the interior of the cylindrical chamber body shown in Figure 2 and a plan view of each configuration.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be noted that the embodiments of the present invention described below are intended to sufficiently convey the spirit of the present invention to those skilled in the art.

Referring to Figure 1, the cold and hot water faucet 1 according to an embodiment of the present invention is installed in the sink (2) by pulling the head lever 15 to the front by mixing cold water and hot water at a temperature set by the user Discharge. The user rotates the temperature controller 12 installed on the top of the head lever 15 to set the desired discharge temperature.

In addition, as can be seen from Figure 1, the cold and hot water faucet 1 according to an embodiment of the present invention by pulling the head lever 15 of the faucet forward water received in the sink 2, the head lever 15 It is possible to make the washbasin or the like with the closed position to eliminate the interference by the faucet and to make the use of the wash basin 2 provided with the faucet more convenient.

Referring to the configuration of the cold and hot water faucet (1) shown in Figure 1 in more detail with reference to Figures 2 and 3, the cold and hot water faucet (1) is a sink that combines the tap water (1) largely in the sink (2) The mixing unit 13, the mixing valve 20 for introducing cold water and hot water introduced from the outside, the temperature setting unit 30 for setting the temperature of the discharged water and the mixing amount of the cold water and hot water of the mixing valve 20 The bimetal 32 to be adjusted is integrally assembled to the cylindrical chamber body 10. The head lever 15 is coupled to the upper portion of the cylindrical chamber body 10.

The vanity coupling portion 13, as shown in Figure 2, the inner bottom of the cylindrical chamber body 10 is formed with an annular projection protruding in an annular, cold water inlet 23a and hot water inlet 23b The inlet disk 23 is fixedly coupled to the central portion and includes a flange sleeve 22 seated on the annular projection 19.

Between the annular projection 19 and the flange sleeve 22, a flange nut 24 having a flange 24a formed therein penetrating through the inside and touching the wash basin 2 on the outside is fitted, as shown in FIG. Screwed together. That is, the cylindrical chamber main body 10 having the annular protrusion 19 on the inner side in combination with the screw formed on the inner circumference of the flange nut 24 is coupled to the screw formed on the outer side of the flange sleeve 22. And rotatably coupled between and the flange nut 24.

At this time, it is preferable to install a bearing between the flange of the annular projection 19 and the flange sleeve 22 and the end of the flange nut 24 to smoothly rotate the cylindrical chamber body 10. As shown in FIG. 2, the flange nut 24 is fitted into the hole formed in the sink 2, and then is firmly coupled to the sink 2 by the fixing nut 27.

And the head lever 15 coupled to the upper end of the cylindrical chamber body 10 is a temperature controller 12 is coupled to one side, as shown in Figure 2, the other end of the main outlet 11 is formed have. The lower portion of the temperature controller 12 is coupled to the temperature setting axis 16.

Inside the cylindrical chamber body 10, the temperature setting unit 30 for setting the temperature of the discharged water by the temperature controller 12 provided on one side of the head lever 15, and the inflow amount of cold water and hot water at the set temperature The mixing valve 20 to adjust and the bimetal 32 for driving the mixing valve 20 to drive to the set temperature by sensing the temperature of the water filled in the interior of the cylindrical chamber body 10 is installed.

An inlet disk coupled to the cold water inlet 23a and the hot water inlet 23b respectively connected to the cold water inlet pipe and the hot water inlet pipe shown in FIGS. 2 and 3 at the center of the flange sleeve 22 of the vanity fixing part 13. 23 is fixed and seated, and the inflow and outflow disk 25 is fixedly installed at the lower end of the cylindrical chamber body 10. At this time, as shown in FIG. 3, the pair of hot water outlets and the cold water outlets are formed on the upper surface of the inflow and outflow disk 25, and the inlet of each cold and hot water is provided at the lower surface of the inflow disk 23. It is formed in the position which is inclined 90 degrees to the inlet port 23a and the hot water inlet port 23b. In FIG. 3, "H" refers to a hole through which hot water "C" flows in and out of cold water.

A rotary valve disc 26 having two mixing holes 26a and 26b drilled in an elliptical shape opposite to the outlet disk 25 is seated so that both cold water and hot water outlets can be opened at the same time. The other side is kept open while closing one of the cold water or hot water outlets, and at the same time, the mixing amount of the cold water and the hot water supplied into the cylindrical chamber body 10 is adjusted without the occurrence of water pressure loss due to opening and closing.

The temperature control rotary shaft 17 of the rotary valve disk 26 is the outer end to the pinhole 38 of the ring gear 34 in the temperature setting section 30 coupled to the upper portion of the cylindrical chamber body 10 as shown in FIG. It is driven by the stretching and contracting operation of the fixed bimetal 32.

The temperature setting part 30 includes a ring gear 34 seated between a pair of supports 37a and 37b fixed in the cylindrical chamber body 10 of FIG. 2. A tooth is formed on an inner circumferential surface of the ring gear 34, and a rotary gear 35 axially coupled to a temperature setting rotary shaft 16 that is rotated by the rotation of the temperature controller 12 is coupled to the center thereof. In addition, a reduction gear 36 having a larger diameter than the rotation gear 35 is coupled between the rotation gear 35 and the inner circumferential surface of the ring gear 36. At this time, the central axis of the rotary gear 35 and the reduction gear 35 is rotatably coupled to the shaft holes formed in the pair of supports (37a, 37b), one side of the edge of the ring gear 34 The pinhole 38 is formed.

An outer end is connected to the pinhole 38 of the ring gear 34 by the pin 39 at the lower portion of the support 37b, and the center thereof is a spiral bimetal 32 fixed to the temperature control rotation shaft 17. ) Is positioned, and the bimetal 32 is supported by a lower support 31 fixed inside the cylindrical chamber body 10 as shown in FIG. 3. The center of the bimetal 32 configured as described above is rotated in accordance with the positional change of the pinhole 38 formed at the edge of the ring gear 34 to set the initial position of the rotary valve disc 26.

Therefore, the bimetal 32 fixed to the cylindrical chamber body 10 at the end is contracted or stretched according to the temperature of the water filled in the cylindrical chamber body 10 so that its central axis is rotated. When the center of the spiral bimetal 32 is rotated, the temperature control rotary shaft 17 rotates to rotate the rotary valve disc 26. When the rotary valve disk 26 is rotated, the opening area of the two pairs of cold water discharge port and hot water discharge port formed in the upper portion of the outlet disk 25 is adjusted.

[Setting of Drainage Temperature of Cold and Hot Water Faucet (1)]

When the user rotates the temperature controller 12 to set the temperature of the water discharged from the head lever 15 of the faucet 1, the rotary gear 35 axially coupled to the temperature setting rotation shaft 16 is rotated. In addition, the reduction gear 36 larger than the diameter of the rotation gear 35 is coupled between the rotary gear 35 and the teeth formed around the inner circumferential surface of the ring gear 34. At this time, if the reduction ratio of the rotary gear 35 and the reduction gear 36 is 5: 1, and the reduction ratio of the reduction gear 36 and the ring gear 34 is 3: 1, the total reduction ratio is 15: 1. When the temperature controller 12 is rotated 15 °, the ring gear 34 is rotated by 1 °.

When the ring gear 34 is rotated about the temperature control rotation shaft 16 by the reduction gear 36, the helical bimetal 32 having an external end connected to the pin hole 38 formed at the edge thereof is connected to the pin 39. Is rotated. Therefore, when the user rotates the temperature controller 12 by about 15 °, the temperature regulating rotary shaft 17 connected to the center of the bimetal 32 is rotated by about 1 ° by the gear reduction of the temperature setting part 30 so that the flow-out disk ( 26) to finely control the inflow of cold water and hot water.

When the temperature control rotary shaft 17 is rotated, as shown in Fig. 2 and 3, the rotary valve disk 26 for adjusting the discharge end area of the two pairs of cold water outlet and hot water outlet alternately formed on the top of the inlet and outlet disk 25. By rotating the cold water and hot water flowing into the mixing chamber provided in the interior of the cylindrical chamber body 10 of the upper side from the lower side is set. That is, it is possible to finely set the temperature of the water to be discharged by adjusting the mixing amount of cold water and hot water.

[Automatic adjustment of drainage temperature of cold and hot water faucet (1)]

When the head lever 15 of the cold and hot water faucet 1 is pulled forward at the dotted line position of FIG. 1 to rotate the head lever 15, the cold water inlet and the hot water inlet formed on the bottom surface of the outflow disc 25 shown in FIG. The cold water and hot water introduced from the outside in accordance with the cold water inlet 23a and the hot water inlet 23b formed at the upper portion of the inlet disk 23 are two pairs of cold water outlets and hot water outlets formed on the top surface of the outlet disk 25. Is discharged.

At this time, since the rotary valve disk 26 having the configuration as shown in FIG. 3 is coupled to the upper portion of the outflow disk 25, the mixing holes 26a and 26b formed in the rotary valve disk 26 are positioned. Accordingly, cold water and hot water are introduced into the cylindrical chamber body 10.

Therefore, cold water and hot water are supplied and mixed into the cylindrical chamber body 10, and the temperature of the water due to the mixing of the cold water and the hot water is sensed by the spiral bimetal 32. That is, the spiral bimetal 32 is elongated or contracted according to the temperature of the water filled in the cylindrical chamber body 10. At this time, the outer end of the spiral bimetal 32 is connected to the pin hole 38 formed on the outer circumferential surface of the ring gear 34 as shown in FIG. It can be seen that it is rotated.

For example, when the temperature of the water is higher than the set temperature, it is extended to rotate the center thereof clockwise to reduce the amount of hot water flowing from the mixing holes 26a and 26b of the temperature control rotary valve disk 26. Contrary to the above, when the temperature of the water filled in the mixing chamber is lower than the set temperature, it contracts and rotates its center counterclockwise so that the amount of cold water flowing from the mixing holes 26a and 26b of the rotary valve disk 26 for temperature control is adjusted. Decreases.

As described above, the rotary valve disc 26 is fixed to the center of the spiral bimetal 32 whose end is fixed to a portion of the outer circumferential surface of the ring gear 34 and whose center is extended or contracted according to the temperature of the water filled in the chamber. It can be seen that the automatic control to follow the set temperature of the inlet flow rate of the cold water and hot water is supplied to the interior of the cylindrical chamber body 10 is rotated in accordance with the rotation of the temperature-controlled rotary shaft (17).

In the cold and hot water faucet having an automatic temperature control function according to an embodiment of the present invention, the outer end of the bimetal can be adjusted by a temperature controller, and the temperature can be easily set by adjusting the mixing of cold and hot water by driving a mixing valve around the center. In addition, according to the temperature detection of the bimetal, it is possible to easily configure the thermostatic water supply faucet by providing a valve driver for controlling the opening amount of the cold water inlet and the hot water inlet of the mixing valve.

Cold and hot water faucet according to an embodiment of the present invention can eliminate the unnecessary water discharge for controlling the temperature of the discharged water by quickly discharging the cold water and hot water at a temperature set by the user has the effect of saving water resources and energy.

1: cold and hot water faucet, 2: wash basin, 10: cylindrical chamber body, 11: main outlet, 12: temperature controller, 13: sink sink, 15: head lever, 16: temperature setting axis, 17: temperature Adjustable rotary shaft, 19: ring projection, 20: mixing valve, 22: flange sleeve, 23: inlet disk, 24: flange nut, 23a: cold water inlet, 23b: hot water inlet, 24a: flange, 25: outflow disk, 26: rotation Valve disc, 27: fixing nut, 30: temperature setting part, 31, 37a, 37b: support, 32: bimetal, 33 bimetal pinhole, 34: ring gear, 35: rotary gear, 36: reduction gear, 38: pinhole, 39 : Pin.

Claims (2)

In the cold and hot water faucet with the automatic temperature control function,
A cylindrical chamber main body having a head lever formed at an upper end thereof with a temperature regulator coupled to one side thereof, and a discharge port configured to discharge a fluid filled in the inner mixing chamber at the other side thereof;
A sink coupling part fixed to a sink having a cold water and a hot water inlet and coupled to an inner bottom of the cylindrical body such that the cylindrical body rotates from the top;
The cold water outlet by opening and closing the cold water and hot water inlet and discharged to at least one cold water outlet and hot water outlet formed in the upper portion, and the temperature control rotary shaft is installed on the top of the outlet disk and coupled to the upper portion And a mixing valve controlling an amount of mixing of cold water and hot water by adjusting an open cross-sectional area of the hot water outlet.
A tooth is formed on an inner circumferential surface thereof and is formed at a central portion of a ring gear installed to rotate at an inner upper end of the cylindrical chamber body. A temperature setting unit comprising a reduction gear coupled between the rotary gear and the inner circumferential surface of the ring gear;
It is wound in a spiral shape and positioned at the lower end of the temperature setting part, and the center thereof is fixed to the temperature adjusting rotation shaft, and an outer end thereof is connected to a temperature setting protrusion installed on the outer circumferential surface of the ring gear to contract according to the temperature in the cylindrical chamber body. A water faucet for cold and hot water having an automatic temperature control function, characterized in that it is extended and constitutes a bimetal driving the mixing valve.
The method of claim 1, wherein the vanity coupling portion is formed in the center of the inlet disk is formed in the cold water and hot water inlet, the flange sleeve seated in the annular protruding annular to the inner lower end of the cylindrical chamber body, the upper end of the lower projection Screwed to the flange sleeve in, the bottom is cold and hot water faucet with a thermostatic function, characterized in that consisting of a flange nut that is fixedly fitted into the coupling hole of the sink.

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