WO2009131399A2 - 온도조절이 용이한 혼합수 및 냉온수공급시스템 - Google Patents
온도조절이 용이한 혼합수 및 냉온수공급시스템 Download PDFInfo
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- WO2009131399A2 WO2009131399A2 PCT/KR2009/002140 KR2009002140W WO2009131399A2 WO 2009131399 A2 WO2009131399 A2 WO 2009131399A2 KR 2009002140 W KR2009002140 W KR 2009002140W WO 2009131399 A2 WO2009131399 A2 WO 2009131399A2
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- water
- hot water
- valve
- cold
- pipe
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 1229
- 238000005406 washing Methods 0.000 claims abstract description 19
- 238000004140 cleaning Methods 0.000 claims abstract description 18
- 239000007921 spray Substances 0.000 claims abstract description 15
- 230000001105 regulatory effect Effects 0.000 claims abstract description 14
- 238000009434 installation Methods 0.000 claims abstract description 13
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- 229910052751 metal Inorganic materials 0.000 claims abstract description 9
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- 230000000903 blocking effect Effects 0.000 claims description 29
- 238000000034 method Methods 0.000 claims description 28
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- 238000010438 heat treatment Methods 0.000 claims description 12
- 238000005086 pumping Methods 0.000 claims description 12
- 239000002699 waste material Substances 0.000 claims description 12
- 238000006243 chemical reaction Methods 0.000 claims description 11
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- 210000002700 urine Anatomy 0.000 claims description 7
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Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
- F24D19/10—Arrangement or mounting of control or safety devices
- F24D19/1006—Arrangement or mounting of control or safety devices for water heating systems
- F24D19/1051—Arrangement or mounting of control or safety devices for water heating systems for domestic hot water
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D17/00—Domestic hot-water supply systems
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D3/00—Hot-water central heating systems
- F24D3/10—Feed-line arrangements, e.g. providing for heat-accumulator tanks, expansion tanks ; Hydraulic components of a central heating system
- F24D3/1058—Feed-line arrangements, e.g. providing for heat-accumulator tanks, expansion tanks ; Hydraulic components of a central heating system disposition of pipes and pipe connections
- F24D3/1066—Distributors for heating liquids
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H15/00—Control of fluid heaters
- F24H15/20—Control of fluid heaters characterised by control inputs
- F24H15/212—Temperature of the water
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H15/00—Control of fluid heaters
- F24H15/20—Control of fluid heaters characterised by control inputs
- F24H15/238—Flow rate
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H15/00—Control of fluid heaters
- F24H15/20—Control of fluid heaters characterised by control inputs
- F24H15/242—Pressure
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H15/00—Control of fluid heaters
- F24H15/30—Control of fluid heaters characterised by control outputs; characterised by the components to be controlled
- F24H15/335—Control of pumps, e.g. on-off control
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H15/00—Control of fluid heaters
- F24H15/30—Control of fluid heaters characterised by control outputs; characterised by the components to be controlled
- F24H15/355—Control of heat-generating means in heaters
- F24H15/37—Control of heat-generating means in heaters of electric heaters
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/12—Arrangements for connecting heaters to circulation pipes
- F24H9/13—Arrangements for connecting heaters to circulation pipes for water heaters
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
- F24D19/0097—Casings or frame structures for hydraulic components
Definitions
- the present invention relates to a mixed water and cold and hot water supply system that is easy to control the temperature, and more particularly, in the hot and cold water supply system, such as apartments, officetels, hotels, residential houses, sauna facilities, washbasins of public toilets, bathroom entrance and soil
- the hot and cold water supply system such as apartments, officetels, hotels, residential houses, sauna facilities, washbasins of public toilets, bathroom entrance and soil
- the switch contact of the hot water boiler is attached and the circulating water pump of the hot water boiler is operated to circulate through the mixed water pipe and the circulating water pipe.
- the circulation of the water is carried out so that hot water at the temperature set by the temperature control switch is discharged immediately through the water discharge port installed in the common bathroom, kitchen, private bathroom, laundry room, and the like.
- the control lever of the cold / hot water integrated faucet up, down, left and right, To reduce the waste of water that is thrown away to discharge hot water with a temperature that meets the user's needs, and to receive hot water through a combination of cold and hot water in the household piping immediately in the conventional method of using hot water.
- the hot water boiler and the circulating water pump are operated 24 hours a day as the temperature sensor contacts and drops to match the top and bottom temperature of the temperature sensor, and the energy consumed during circulation of hot water. Consumption can be greatly reduced and hot water is discharged directly from the hot water boiler to the water discharge port due to inadequate operation of the control lever of the cold / hot water integrated faucet.
- thermostat valves are integrated into one valve to provide the mixed water according to the set temperature to the valve with the distribution function of each control zone.
- the user can supply the mixed water of the desired temperature to the multiple water discharge holes through the thermo valve, and when the cold water / mixed water conversion switch installed at one side of the water discharge port is pressed while the hot water / mixed water is used, each control zone has a distribution function valve.
- the cold water / mixed water switching valve of the vessel is immediately switched to the cold water side, so it is possible to select and use the cold water / mixed water according to the customer's needs all the time.
- Only one hot water / mixed water pipe or cold water pipe that supplies cold water or hot water / mixed water can be installed to install hot water / mixed water and cold water. As it can be supplied immediately, the number of strands of pipe can be reduced, so the stability of floor slab structure is secured.
- the distribution box, branching function and valve box for switching hot / mixed water and cold water are also provided. Regardless of, the pipes are connected to each other in a double pipe structure.
- a washing spray having a flow control lever and a metal hose to supply the mixed water set according to the user's desire from each valve box of the common and individual bathroom control zones, and to use the washing spray hanging on the washing spray hanger of the wall. After urine stool, it is useful not only for cleaning but also for cleaning the floor of the toilet.
- cold and hot water supply systems in apartments, officetels, hotels, residential houses, sauna facilities, etc. are heated by cold water and hot water boilers 11 directly supplied to each demand source, and the hot water supplied to each demand cold / hot water integrated faucet.
- Cold and hot water is mixed by the operation of the faucet handle of the structure is discharged through the water discharge port of the cold / hot water integrated faucet.
- the conventional structure installed as described above is provided with a separate faucet handle or a manual control valve for controlling the temperature and quantity of the mixed water discharged through the water discharge port of the cold / hot water integrated faucet, the user supplied cold water and hot water
- the faucet handle or the manual control valve was manually operated to achieve an arbitrary temperature such that the mixed water mixed with cold and hot water was discharged through the water discharge port of the faucet formed integrally with the cold and hot water mixing faucet.
- the discharge of the mixed water by the manually operated faucet handle or the manual control valve is different from the discharge water discharged according to the user, which makes it difficult to adjust the proper temperature. Since hot water of temperature and cold water of cold water pipe are mixed and discharged, the temperature of discharged water is changed during use, which makes it inconvenient to readjust the faucet handle in order to adjust the proper temperature. When operating in the direction, there was a drawback that the hot hot water or cold cold water is discharged and the user is burned or surprised.
- Embodiment 1 is a block diagram schematically showing a cold / hot water supply system of Embodiment 1 according to the present invention
- Figure 2 is a schematic diagram showing the overall configuration of the cold and hot water supply system of Example 1 according to the present invention.
- Figure 3 is an enlarged view showing the cyclic forward pumping distribution control zone of Example 1 of the present invention.
- Figure 4 is an enlarged view of a part showing the summer valve of Example 1 of the present invention.
- Figure 5 is an enlarged perspective view showing a branch flow channel installed inside the valve box of the kitchen control zone of the first embodiment of the present invention.
- Figure 6 is an enlarged perspective view showing a branch flow channel installed inside the valve box of the common bathroom control zone of the first embodiment of the present invention.
- Figure 7 is an enlarged view showing the laundry room valve box of the first embodiment of the present invention.
- Embodiment 8 is a schematic block diagram for controlling a cold / hot water supply system by the main control zone of Embodiment 1 of the present invention.
- FIG. 9 is a schematic view showing the overall configuration of a cold and hot water supply system of a modification according to the present invention.
- Figure 10 is a schematic diagram showing the overall configuration of the hot water supply system of Example 2 according to the present invention.
- Figure 11 is an enlarged view showing the hot water boiler zone of Example 2 according to the present invention.
- Example 12 is a circuit diagram showing the connection of the circulating water pump operating switch of Example 2 according to the present invention.
- Figure 13 is an enlarged view showing the distribution control control zone of Example 2 according to the present invention.
- Figure 14 is an enlarged view of a portion of the distribution control box is installed a summer valve of Example 2 according to the present invention.
- Fig. 15 is an exploded perspective view showing an example of a common bathroom control zone showing an example of each control zone in which pipes are distributed from a distribution control control zone of Embodiment 2 according to the present invention
- Figure 16 is a transfer state of the cold or mixed water passing through the inside of the shutoff valve in accordance with the switching of the shutoff lever of the second embodiment according to the present invention.
- FIG. 17 is an exploded perspective view of a kitchen control zone showing an example of each control zone in which pipes are distributed from a distribution control control zone of Embodiment 2 according to the present invention.
- FIG. 18 is a perspective view showing another embodiment of the distribution control box constituting the distribution control control zone of Embodiment 2 according to the present invention.
- FIG. 19 is an exploded perspective view showing another embodiment of a valve switching box constituting each control zone of Embodiment 2 according to the present invention.
- Example 20 is a schematic view showing the piping of the tandem structure of Example 2 according to the present invention.
- FIG. 21 is a schematic view of another piping embodiment of the tandem structure of Embodiment 2 according to the present invention.
- the present invention controls the start and stop of the hot water boiler and the circulating water pump 15 so that the mixed water of the user's set temperature is installed in each of the common bathroom, the kitchen, the private bathroom, and the laundry room.
- the mixed water of the set temperature immediately available through the water discharge port 30 of the, the change of the temperature and the discomfort of the temperature that occurs frequently changes in accordance with the change of the hot water heating temperature, and the hot hot water is discharged to burn It prevents and controls the operation of unnecessary circulation water pump to save water waste and energy, and the valve compartments formed in each control zone have wrinkles into which soft pipes such as cold water pipes, hot water pipes, mixed water pipes, and circulating water pipes are inserted.
- the double pipe structure is combined with pipes to allow the inlet and outlet through the inside of the valve box. It is easy and can block the cold and hot water / mixed water by each cold water / mixed water switching valve installed inside each valve box, so that the water discharge port breakdown of each water discharge part or each control zone (washer, toilet, bathtub, shower) , Sink faucet, washing faucet, hand washing faucet, etc.) It is easy to repair the installed plumbing and install only one hot water / mixed water pipe or cold water pipe to supply cold water or hot water / mixed water.
- the supply of mixed water and cold water can be supplied immediately, reducing the number of strands in the pipe, ensuring the stability of the bottom slab structure, and the left and right sides of the toilet without the need to install the existing integrated bidet separately installed on the toilet.
- Mixing is set according to the user's desire from each valve box 41 by installing a cleaning spray having a separate mixed water blocking and flow control lever 31 and a metal hose in any one place
- a supply receiving feces, and after the toilet of urine, using, as well as provide a toilet floor is easily mixed useful temperature control, which is also used for cleaning and washing in cold or hot water supply system for this purpose.
- the present invention has a 3-way valve 13, a pressure sensor 14, and a circulating water pump 15 exposed to a lower portion of the hot water boiler 11 for supplying cold water.
- Cold water distribution pipe (16) for distributing cold water and hot water distribution pipe (17) for distributing hot water are formed, one step motor (18a) and the summer start to the cold, hot water distribution pipe (16, 17)
- Circulation water pump operation switch of the hot water boiler 12 installed at one side of the bathroom inlet and the water discharge port 30, which is composed of a distribution control unit 11 is provided with a plurality of thermo valves 18 formed integrally with the valve 18b.
- a box 41 is formed, the temperature control for setting and switching the cold water / mixed water switching valve 43 to the cold water and mixed water side to one side of the valve box 41, and set the discharge temperature of the mixed water according to the user desire
- a control switch box (each control zone 40, 40a, 40b provided with a pump 19) in which a switch 22 and a movable switch 19 are formed and installed at a position suitable for a user's copper wire;
- Water discharge port 30 having a flow control lever 31 and a cold, hot water switching lever 32 for controlling and blocking the flow of cold and mixed water supplied and distributed from the control zones 40, 40a and 40b
- the main control zone 70 is provided with a controller 72 for connecting the water discharge port 30 electrically and electronically to control the operation of the hot water boiler 12 and the set temperature and flow rate of the mixed water when the hot water / mixed water is used.
- Cold water pipes 23 for supplying the cold water of each of the control zones 40, 40a, 40b, etc. are mutually coupled to each other in a loop (ROOF) manner so that each of the control zones 40, 40a, 40b is included. It is characterized by consisting of parallel pipes.
- the temperature and quantity of the water set by the user are automatically adjusted through the temperature control switch formed in each control zone, and immediately through each water discharge port installed in the common bathroom, the kitchen, the private bathroom, and the laundry room.
- each control zone is controlled by one main control zone to control a plurality of water jets installed in each control zone.
- the hot water boiler is switched on and the hot water boiler is operated and the set temperature of the summer valve installed in the multiple control zones of the household In order to circulate the hot water / mixed water at the temperature set from the mixing water pipe to the circulation water pipe If the hot water / mixed water comes out during opening, the contact of the pressure sensor is dropped and the operation of the circulating water pump is stopped and the circulation of the circulating water pipe is stopped, and when the mixed water is continuously used through the water discharge port, Operation continues, and the hot water boiler is shut down at the same time as the flow control lever of the water inlet is shut down, thereby reducing the waste of energy of electricity and fuel, and reducing the waste of water by not discarding the cold water flowing out before the mixed water comes out.
- FIG. 1 is a block diagram schematically showing the cold and hot water supply system of Example 1 according to the present invention
- Figure 2 shows a schematic diagram showing the overall configuration of the cold and hot water supply system of Example 1 according to the present invention.
- the present invention installs a hot water / circulating water pump 15 having a 3-way valve inside the hot water boiler 12 and the instantaneous water heater and installs a pressure sensor 14 in the pipe to operate the circulating water pump when using hot water.
- Pressing the switch 19 controls the circulation of hot water and circulating water, and operates hot water boiler and hot water / circulating water pump 15 only when hot water is used to supply hot water and immediately receive mixed water from the water discharge port 30.
- a circulating water pumping control zone 10 configured to save water waste and energy;
- a cold water distribution pipe 16 for distributing cold water supplied from the cold water pipe 23 and a hot water distribution pipe 17 for distributing hot water supplied from the hot water pipe 24 are formed, and one step motor 18a is provided.
- a distribution regulating control zone (11) having a distribution regulating box (11a) provided with a plurality of thermal valves (18) formed integrally with the summer start valve (18b);
- the temperature setting lever 82 and the set temperature connected to adjust the step motor 18a coupled to each of the summer valves 18 to adjust the set temperature of the mixed water supplied from the distribution control control zone 11.
- the valve switch box 41, 61, 81 which is integrally provided with a cold water / mixed water switching valve 43 for distributing the mixed water and cold water and a shutoff valve 43 'for blocking each discharged water
- the hot water boiler zone 10, the distribution control control zone 11 and each of the control zones 40, 60, 80 are electrically and electronically connected to operate the hot water boiler 12 when hot water / mixed water is used.
- Main control zone 70 is provided with a controller 71 for controlling the temperature of the mixed water; each control zone 40, 60, 80 is composed of parallel piping, the circulating water pump operation switch Pressing (19) opens the 3-way valve (13) to the circulating water pipe (21) and the hot water pipe (24), and activates the hot water boiler (12) and the circulating water pump (15).
- the heated hot water becomes hot water at a temperature set by the thermo valve 18 through the hot water pipe 24, and is repeatedly circulated into the hot water pipe 24 and the circulating water pipe 21 to discharge the water through the water discharge port 30.
- the hot water / mixed water set by the user can be supplied and used, and when the water discharge port 30 is opened, the pressure in the pipe drops and the pressure sensor 14
- the 3-way valve 13 closes the valve to the circulating water pipe 21 and the hot water pipe 24, and passes through the cold water pipe 23 and the hot water boiler 12 to the hot water heating coil.
- the valve 13 is opened to supply hot water / mixed water, and the flow control lever 31 formed at one side of the water discharge port 30 is locked, and the hot water boiler 12 is stopped and flows until the mixed water comes out. It is designed to reduce the waste of water by not discarding the cold water coming out.
- the circulating water pumping control zone 10 is a 3-way valve 13 and a pressure sensor 14 at the bottom of the hot water boiler 12 for heating the cold water supplied from the cold water pipe 23 as shown in FIG.
- the circulation water pump 15 are exposed pipes to form a cold water distribution pipe 16 for distributing cold water and a hot water distribution pipe 17 for distributing hot water heated by the hot water boiler 12.
- a plurality of thermal valves 18 are installed at the lower portions of the cold and hot water distribution pipes 16 and 17, and one step motor 18a and the summer start valve 18b are integrally formed as shown in FIGS. 3 and 4.
- the distribution control unit 11 is formed to supply the mixed water mixed with cold and hot water received from the cold, hot water distribution pipe (16, 17) to each control zone (40, 40a, 40b) is formed. .
- the summer valve 18 is a five-phase or multi-phase step motor 18a for adjusting the set temperature of the mixed water is integrally fixed by the thermostart valve 18b and the bracket 18c, the step motor 18
- the DC power is supplied to the controller 72 of the main control zone 70 and the electric wire 6 to the temperature control switch 22 formed in the control switch box 44 of each control zone 40, 40a, 40b. Is controlled by the controller 72 and each temperature control switch 22.
- the circulation water pump operation switch 19 and the flow control lever 31 formed at one side of the hot water boiler 12 and the water discharge port 30 installed at one side of each use or bathroom entrance and the water discharge port 30 are operated.
- the circulation water pump 15 of the hot water boiler 12 is activated to the circulation water through the mixed water pipe 20 and the circulation water pipe 21
- Circulation (circulation) is a common bathroom, kitchen, private bathroom in which the mixed water of the temperature set by the temperature control switch 22 forms the control zones 40, 40a, 40b through the summer valve 18
- By discharging the mixed water having a set temperature immediately available to each water discharge port 30 installed in the laundry room hot water is discharged to prevent burns, hot water boiler 12 to save unnecessary water waste and energy ).
- the circulating water pump operating switch 19 When the circulating water pump operation switch 19 is turned on, the circulating water pump operating switch 19 is automatically turned off after a certain time (for several minutes) elapses, and the discharged water (mixed water) is discharged to the water discharge port 30 after the use of hot water / mixed water. If it stops, even if the pressure in a pipe rises and the contact of the pressure sensor 14 adheres, the hot water boiler 12 and the circulation water pump 15 are prevented from continuing to operate.
- Cold water and mixed water supplied to the set temperature from the circulating water pumping control zone 10 is provided with a cold water / mixed water switching valve 43 installed into the valve box 41 constituting the kitchen control zone 40
- the valve box 41 is supplied to the branch channel pipe 42, and the hot water / mixed water branch channel 47 having a plurality of inlets and outlets 46 inside the valve box 41 is shown in FIG. 5.
- a cold water branch flow passage 48, and a branch flow passage 42 having a cold water / mixed water switching valve 43 having a motor 45 at a central portion thereof is formed inwardly of the valve box 41. Installation is fixed.
- the hot water / mixed water pipe 20, the sink return pipe 50, and the plurality of cold water pipes 23 are connected and connected by a connecting elbow 51.
- the main circulation water pipe 21 is connected to the hot water boiler 12 side to one side of the hot water / mixed water distillation flow passage 47 formed with the sink water return pipe 50 coupled thereto, and a return pipe connected to the common bathroom side and the private bathroom side (
- the circulating water confluence pipe 52 having a plurality of outlets 46a to which the 21 is coupled is connected to and connected by the connecting elbow 51.
- a backflow valve 53 is installed between the plurality of outlets 46a and the connection elbow 51 to which the plurality of circulation water pipes 21 are coupled to prevent the backflow of the circulation water.
- the mixed water and the cold water distributed and supplied from the cold water / mixed water switching valve 43 of the valve box 41 are supplied to the water discharge port 30 installed on the sink side.
- the water discharge port 30 is provided with a flow control lever 31 and the cold, hot water switching lever 32 to control and block the flow.
- the hot water / mixed water formed through the balcony hot water / mixed water supply pipe 49 which is formed in front of the hot water / mixed water branch flow passage 47 and is supplied to the water discharge port 30 installed to the laundry room side.
- the laundry compartment side water discharge port 30 is a cold water / mixed water to which a cold water pipe 23 and a mixed water pipe 20 are combined to supply and supply cold water / mixed water to the inside of the laundry room valve box 56.
- a switching valve 43 is installed, and the outer cover 57 is installed to be coupled to the water discharge port 30 to which the washing machine is connected to the front of the laundry room valve box 56.
- the inner cover 58a is formed to have a large working hole 58a so that a hand of a working tool or an operator can come and go when a repair is required, and a plurality of friction protrusions 58b are formed on an outer surface thereof to easily attach mortar or tiles. 58) are combined.
- one side of the laundry chamber valve box 56 is provided with a head 34 that is embedded in the wall is provided with a water discharge port 30 is provided with a water jet control handle for discharging the mixed water and cold water for hand washing.
- the control switch box 44 installed at one side of the valve box 41 is a position example suitable for the user's copper wire, and in the case of a kitchen, the control switch box 44 is installed at the upper wall side of the sink to set the discharge temperature of the mixed water according to the user's desire.
- the temperature control switch 22 and the movable switch 19 to be installed it is also possible to install a separate switch to add a plurality of functions as necessary.
- FIG. 7 shows an extraction of the branch flow channel pipe 42 installed inside the valve box 41 of the common bathroom control zone 40a, and is branched from the valve box 41 constituting the kitchen control zone 40.
- the cold water and the mixed water are supplied to the valve box 41 of the common bathroom control zone 40a.
- the inside of the valve box 41 constituting the common bathroom control zone 40a is the same as or similar to the branch flow channel 42 installed inside the valve box 41 constituting the kitchen control zone 40.
- a branch flow channel 42 having a function is provided, and as shown in FIG. 7, the hot water / mixed water branch flow passage 47 and the cold water branch flow passage 47 having a plurality of inlets and outlets 46 inside the valve box 41 ( 48 is formed, and consists of a branch flow channel 42 having a cold water / mixed water switching valve 43 having a motor 45 in the center portion is fixed to the inside of the valve box 41.
- Inlet and outlet 46 formed in front of the hot water / mixed water branch flow passage 47 on one side of the branch flow channel 42 is a hot water / mixed water pipe 20 connected to the hot water boiler 12 and a circulation water pipe through which hot water / mixed water circulates. (21) is coupled, the cold water pipe 23 is connected to the cold water and the kitchen side and the toilet bowl 65 side directly to the inlet and outlet 46 formed in front of the other side of the cold water branch flow path (48). ) Are respectively installed in combination.
- the lower portion of the branch flow channel pipe 42 is configured to combine the branch pipe 64 for distributing and supplying cold water or hot water / mixed water to the cleaning spray (60) side and the tub shower and wash basin side.
- the washing spray 60 is supplied to the toilet bowl main body to receive the mixed water set according to the user's needs without installing a separate toilet integral type washing bidet from the valve box 41, the pleats double pipe (1) 25)
- the separate mixed water blocking and the flow control lever 31 and the metal hose 62 are installed. It is used for cleaning after stool and urine, and it can be useful for cleaning the bathroom or toilet floor as needed.
- the washing spray 60 is provided with a flow control button 63, press the flow control button 63 to discharge the mixed water for cleaning or to clean the bathroom or toilet floor.
- the mixed water and the cold water supplied from the cold water / mixed water switching valve 43 of the valve box 41 formed as described above are branched by the branch pipe 64 and mixed to the cleaning spray 62, the tub shower, and the basin side.
- a head 34 installed with a flow control lever 31 for piping and blocking the flow of water and cold water is embedded in the wall, and the cold / mixed water is discharged to the basin or bathtub shower side in the embedded head 34.
- the water jetting device 30 is combined.
- control switch box 44 installed to one side of the valve box 41 is a position suitable for the user's copper wire, for example, in the case of a washbasin or bathtub installed in a copper wire where the user's hand or movement is not much,
- a temperature control switch 22 and a movable switch 19 for setting the discharge temperature of the mixed water according to the desire are provided, and a separate switch for adding a plurality of functions may be installed as necessary.
- connection state of the branch flow pipe 42 and the control switch box 44 and the water discharge port 30 connected to each part installed in the valve box 41 of the personal bathroom control zone 40b constituting the present invention and Piping is the same as the configuration and piping of the common bathroom control zone 40a, and a detailed description thereof will be omitted.
- FIG. 8 is a schematic block diagram of controlling a cold / hot water supply system by a main control zone of the present invention, and includes a step motor constituting a water meter box 1 and a thermovalve 18 to which a cold water pipe 23 is connected. 18a) and the three-way valve 13 and the temperature control switch 22, which are operated in conjunction with each of the control zones 40, 40a and 40b, are electrically and electronically connected to each other to operate the hot water boiler 12.
- the main control zone 70 is provided with a controller 72 for controlling the temperature setting and the quantity of the mixed water.
- the cold water pipes 23 of the respective control zones 40, 40a and 40b of the present invention are connected to each other in parallel to each other in a loop (ROOF) manner in the control zones 40, 40a and 40b.
- Cold water direct water
- the cold water pipe (23) of the main water pipe to the hot water boiler (12) and the shared bathroom control zone (40a) and the private bathroom control zone (40b) to at least two places in the first generation
- the cold water is supplied in two directions to minimize the change of the cold water flow rate.
- the cold and hot water supply system of the present invention configured as described above is automatically turned off when a certain time (for several minutes) elapses when the circulation water pump operation switch 19 installed in the control switch box 44 is turned ON.
- the discharged water mixed water
- the pressure in the pipe rises and the hot water boiler 12 and the circulating water pump ( 15) is prevented from running continuously
- a circulating water pump 15, a 3-way valve 13, and a pressure sensor 14 are separately provided to operate the circulating water pump operating switch 19 installed in the control switch box 44.
- the 3-way valve 13 opens the valves to the circulating water pipe 21 and the hot water pipe 24 to operate the hot water boiler 12 and the circulating water pump 14, and the hot water heating coil installed inside the hot water boiler 12.
- Hot water heated through (not shown) is repeatedly circulated through the hot water pipe 24 to the hot water pipe 51 and the circulating water pipe 21 at the temperature set in the summer valve 18.
- the hot water / mixed water set by the user can be supplied to the water discharge port 30 and used.
- valve box 41 of each of the control zones 40, 40a and 40b is buried in the wall, and in another embodiment, the valve box 41 is exposed to the ceiling slab of the bathroom and the cupboard or the closet of the dressing room.
- Various cabinets or closets are installed on the exposed and floor slabs of the lower wall of the cabinet.
- the valve box pipe connection installed as described above is connected to each other using a connector (not shown) in the structure of the pleat double pipe 25, and the soft tube (cold water, hot water / mixed water pipe, circulating water pipe) into the pleated double pipe 25. ) Is inserted into the pipe to draw out or reinsert the pipe through the inside of the valve box 41, and the valve box 41 is integrally assembled and operated by the motor 45 to selectively switch between cold water or hot water / mixed water.
- the cold water / mixed water switching valve 43 is installed, and the cold water and hot water / mixed water passing through the cold water / mixed water switching valve 43 are sent to each water discharge port 30, as well as being individually blocked.
- each control zone 40, 40a, 40b washer, toilet, bathtub, shower, sink faucet, washing faucet, hand wash faucet, etc.
- All the households by locking the inlet valve of the water meter box (1) Unlike the previous method, in which the tap water cannot be used in the sieve, each is used after the individual locking of the hot water / mixed water. 30) and branch distribution to the other control zone, and the function of interconnecting pipes in a loop.
- each valve box (41) by installing a separate mixed water blocking and flow control lever 31, a metal hose and a cleaning spray on one of the left and right sides of the toilet without installing the existing integrated bidet separately installed on both toilets.
- the present invention provides a cold water pipe 23 or a mixed water pipe for supplying each cold water or hot water / mixed water to a wall on which a faucet or a water discharge port 30 connected to each control zone 40, 40a, 40b in a household is installed. It is possible to supply hot water / mixed water and cold water immediately by installing only one hot water / mixed water pipe or cold water pipe without having to install each one, so that the number of strands of pipe can be reduced. The stability of the structure can be secured.
- FIG. 9 is a schematic view showing the overall configuration of a cold / hot water supply system according to another embodiment of the present invention, wherein a hot water boiler 12 for supplying hot water by heating cold water; Cold water distribution pipe 16 for distributing the cold water supplied from the cold water pipe 23 of the water pipe and a hot water distribution pipe 17 for distributing hot water heated and supplied from the hot water boiler 12 is formed, and is operated manually
- a distribution regulating control zone (11a) provided with a summer valve (18) for adjusting a set temperature; Mixed water is supplied from each of the summer valves 18 of the distribution control control zone 11a, and cold water is supplied from the cold water pipe 23 to distribute cold water and mixed water to the plurality of water discharge ports 30.
- each control zone 40, 40a, 40b is provided with a valve box 41, a water switching valve is installed.
- the cold and hot water supply system of another embodiment configured as described above is a manual method of adjusting the hot water temperature having a temperature according to the user's setting without the need for a power source for driving each of the summer valves 18, the hot water boiler 12
- By directly connecting only the cold water pipe 23 and the hot water pipe 24 to the lower portion by providing a cold and hot water supply system is very easy to install, the material saving of the pipe installation, as well as the work process is very easy and simple effect.
- Figure 10 shows a schematic view showing the overall configuration of the hot water supply system of Example 2 according to the present invention.
- FIG. 10 is a schematic view showing the overall configuration of a hot water supply system installed in a typical house or apartment.
- the circulating water pumping control zone 10 and the distribution control control zone 11 are connected to the cold water pipe 23, the hot water pipe 24, and the circulation water pipe 21.
- the cold water pipe 23, the mixed water pipe 20 and the circulating water pipe 21 are piped.
- the hot water boiler 12 of the circulating water pumping control zone 10 provided with pipes is heated by operation of the cold water pipe 23 and the hot water boiler 12 to which cold water is supplied.
- the hot water pipe 24 and the circulation water pipe 21 through which hot water is discharged are installed and connected to the distribution control control zone 11.
- a hot water boiler built-in temperature sensor 12a and an oil / water sensor 12b are installed and interlocked and connected to a temperature sensor contact 11a 'and a water sensor contact 11b'.
- (12) Detects the temperature and running water inside, puts the circulating water pump operation switch 19 near the bathroom entrance and the water discharge port 30, and presses the circulating water pump operation switch 19 to switch contact of the hot water boiler 12.
- the hot water boiler 12 is operated, and the mixing water pipe 20 is replaced with the circulating water pipe 21 in accordance with the set temperature of the summer valve 31a installed in the plurality of control zones 40, 40a, 40b of the generation.
- the pressure sensor contact 13a 'of the pressure sensor 14 is dropped and the hot water / circulating water pump 15 The operation is stopped and the circulation of the circulation water pipe 21 is stopped, but the mixed water through the water discharge port 30
- the hot water boiler 12 continues to operate and the hot water boiler inside or outside the hot water boiler in order to stop the operation of the hot water boiler 12 while locking the flow control lever 31 of the water discharge port 30.
- the pressure sensor 14 formed in the 24 is installed and interlocked and connected to the pressure sensor contact 13a 'to detect the pressure in the hot water pipe 24 according to the hot water flow to operate the hot water boiler and switch the circulating water pump. (7a) Turn on / off the contacts of (7b) and (7c).
- Each sensor 11a, 11b, 13a, each contact 11a ', 11b', 13a ', heating circulation pump 15a, hot water / circulating water pump 15 and a plurality of circulating water pumps are operated.
- the switch 19 is connected as shown in FIG. 3A, and the plurality of circulating water pump operating switches 19 are installed at one side of the bathroom door frame or at one side of the kitchen sink.
- the water flow sensor 12b in the hot water boiler 12 detects the flow rate flowing into the hot water boiler 12, and the water flow sensor contact 11b 'is attached to the hot water boiler 12 to ignite the hot water / circulating water pump ( At the same time as the 15 is operated, the heating circulation pump 15a is operated so that the hot water heated by the hot water boiler 12 is transferred to the distribution control control zone 11.
- the interlocking operation of the temperature sensor 12a and the temperature sensor contact 11a ', the water flow sensor 12b and the water flow sensor contact 11b', the pressure sensor 14 and the pressure sensor contact 13a ' By operating the hot water boiler 12 and the hot water / circulating water pump (15) by selectively supplying hot water and circulating water when using hot water so that the mixed water can be immediately supplied from the water discharge port (30) unnecessary waste circulation pump ( Control the operation of 15a) to save energy.
- Another embodiment is exposed to the ceiling slab of the bathroom (Slab) and installed in the exposed and floor slab (Slab) to the wall surface of the lower part of the cabinet where various cabinets or closets are installed, such as the closet of the sink or dressing room.
- the distribution control box (11a) is formed through a plurality of through holes to the upper, lower, left, right side, the pipe is installed in the distribution control box (11a) is a cold water pipe 23 and hot water pipe 24 and the circulation water pipe ( 21, the corrugated pipe-shaped double pipe 28 is fixed to the distribution control box (11a) by the connector.
- the cold water distribution pipe 16 and the hot water distribution pipe 17 and the circulating water distribution pipe 17a installed inwardly of the distribution control box 11a are respectively distributed to the control zones 40, 40a and 40b.
- the cold water pipe 23 and the mixed water pipe 20 and the circulating water pipe 21 is installed.
- the hot water supply system provided with the piping as described above is a plurality of control zones 40, 40a, 40b by each distribution pipe 22, 24, 26, each of the cold water pipe 23 and the mixed water pipe 20 ) And the circulation water pipe 21 is installed in a parallel structure to supply and distribute cold water and mixed water.
- a lower portion of the circulation water distribution pipe 17a is provided with a respective summer valve 18 for distributing / supplying mixed water in which cold water and hot water are mixed to each control zone 40, 40a, 40b.
- Each of the installed summer valves 18 is fitted into the inside of the summer valve body 18b and the summer valve body 18b in which the cold water inlet 33a, the hot water inlet 33b, and the mixed export water outlet 33c are formed.
- the thermostat valve 18b and the 5-phase or multiphase step motor 18a for adjusting the mixed water set temperature by the bracket 18c are integrally formed on one side of the thermostat valve 18b.
- the summer start valve 18b is formed through three directions to allow the cold and hot water to be introduced in any two directions on one side, and the cold and hot water are mixed in one of the other directions on the other side, and thus the mixed water is mixed.
- the mixed water use temperature is set and adjusted in the temperature setting lever 82 for adjusting the set temperature, the mixed water is used in accordance with the driving rotation of the valve body shaft 18g and the step motor 18a formed on one side of the summer start valve 18b. Set and adjust by varying the temperature.
- a backflow valve 18j is installed between the cold water distribution pipe 16 and the connection pipe 18h connected to the hot water distribution pipe 17 to prevent cold water and hot water from flowing back to each other.
- thermo valve 18 coupled as described above rotates the valve body shaft 18g fitted to the motor rotor 18i by the rotation of the step motor 18a set to rotate in multiple stages, thereby adjusting the operating temperature of the mixed water. .
- the cold water distribution pipe 16 is connected directly through the water pipe (2) 30, and is supplied to the hot water boiler 12 through the cold water distribution pipe 16 and at the same time control zone 20 ( 40) 40a, 40b and the cold water inlet 33a of the thermovalve 18 are supplied.
- the distribution control control zone (11) is configured by sealing the distribution control box (11a).
- the control box cover 11a ′′ fixedly coupled to the front portion of the distribution control box 11a has a long groove 11b at a position corresponding to the fixing hole 21 ′ formed at each corner of the distribution control box 11a. It is formed and fixed by the fixing member (11c), using the long groove (11b) to adjust the level of the adjuster cover (11a '') by moving up, down, left, right.
- Distribution control box (11a) is installed as described above is not only buried in the wall, it can be buried in the floor.
- each of the control zones 40, 40a, 40b such as a common bathroom, a kitchen, and a private bathroom, a cold water pipe 23, a mixed water pipe 20, and a circulation water pipe. 21 is distributed and the piping is installed.
- the hot water supply system of the present invention installed as described above has a plurality of control zones 40, 40a, 40b in one distribution control control zone 11, for example, a hot water supply installed in a common bathroom, a kitchen and a private bathroom.
- control zones 40, 40a, 40b of the common bathroom and the kitchen and private bathroom may be further installed in parallel as necessary control zones.
- FIG. 16 is an excerpt perspective view showing an example of each control zone in which pipes are distributed from a distribution control control zone according to the present invention and illustrate a common bathroom control zone 40a.
- the common bathroom control zone 40a is provided with a temperature setting lever 82 for adjusting a set temperature of the mixed water supplied from the distribution control control zone 11 and cold / mixed water which is distributed by receiving the set mixed water and cold water.
- a valve switching box 41 is provided in which a switching valve 43 and a shutoff valve 43 'for blocking each discharged water and a mixed water / return transfer pipe 52 are installed.
- valve switch box 41 One side of the valve switch box 41 is provided with a toilet bowl (65a) having a different installation height of the metal fittings, the cold water pipe 23 is piped to the toilet 42a having a different installation height of the metal fittings are embedded in the wall respectively .
- the valve switch box 41 and the toilet bowl (65a) is formed by a plurality of through holes to the upper, lower, left, right.
- the cold water pipe 23 and the mixed water pipe 20 and the circulating water pipe 21, which are installed as described above, are also formed as soft pipes and are protected by the corrugated pipe-shaped double pipe 28, and the corrugated pipe-shaped double pipe 28 is
- the connector is fixedly coupled to the valve switch box 41 and the toilet bowl (65a).
- the cold water inlet 43a, the mixed water inlet 43b, and the cold water / mixed water outlet 43c are formed at the circumference of the cold water / mixed water switching valve 43 so that the cold water inlet 43a side has a distribution control control zone ( 11) the cold water pipe 23 distributed and supplied to the toilet bowl 65a is pipe-coupled, and the mixed water pipe 20 distributed from the distribution control control zone 11 is pipe-coupled to the mixed water inlet 43b side, and the cold water is The cold water / mixed water intermediate transport pipe 43d to which the cold water or the mixed water drawn into the cold water inlet 43a or the mixed water inlet 43b is discharged and moved to the mixed water outlet 43c.
- the cold water pipe 23 that is jumped from the toilet bowl 65a having a different installation height is piped to the cold water inlet 43a of the cold water / mixed water conversion valve 43, and passes through the toilet bowl 65a.
- the pipe may be installed directly from the distribution regulating box 11a of the distribution regulating control zone 11.
- the cold water / mixed water inlet 43'a and the cold / mixed water inlet / outlet 43'b and 43'c are formed on both sides of the shutoff valve 43 'to form the cold water / mixed water inlet.
- (43'a) side is coupled to the cold water / mixed water intermediate transfer pipe (43d) that is the cold water or mixed water withdrawal by the switching of the cold water / mixed water switching valve 43, cold water / mixed export formed on both sides
- Cold water / mixed water transfer pipe for transferring cold water or mixed water to the tub or wash basin is piped to the water port 43'b, 43'c, and the flow rate control lever 31 for controlling and blocking the flow of the mixed water and cold water is piped.
- the installed head 4 is embedded in the wall, and the water discharge port 30 for discharging the mixed water to the tub or the basin side is coupled to the embedded head 4.
- one side of the cold water / mixed water switching valve 43 is a mixed water / return pipe (52) is installed is branched and coupled between the mixed water pipe 20 and the mixed water inlet (43b), On the other side, the circulating water pipe 21 is connected to the pipe and is installed with the same diameter.
- the circulating water pipe 21 may be installed as a circulating water pipe 21 having a diameter one step smaller than the diameter of the cold water pipe 23 or the mixed water pipe 20 to be installed.
- a valve rotating shaft 47 is formed in front of the cold water / mixed water switching valve 43 and the shutoff valve 43 '.
- the lever opening and closing plate 80 of the front of the valve switch box 41 is configured and coupled as described above, the temperature setting lever 82 and the cold water / mixed water switching lever 84 to the lever opening and closing plate 80 ) And the blocking lever 56 is installed and fixed.
- the temperature setting lever 82 is composed of a multi-contact switch to the inside is fixed to the lever opening and closing plate 80 is formed to draw the electric wire for DC (6), the cold water / mixed water switching lever 84 and shut off Lever 56 is fitted into the lever hole 87 formed in the lever opening and closing plate 80, respectively, the lever shaft bar (84a) (86a) formed in the rear of the cold water / mixed water conversion lever 84 and the blocking lever (56) ) Is fitted into the valve rotating shaft 47 formed in front of the cold water / mixed water switching valve 43 and the shut-off valve 43 '.
- Each of the temperature setting levers 82 set as described above is electrically connected to each of the summer valves 18 formed in the distribution control control zone 11 to adjust the distribution according to the set temperature of the temperature setting lever 82.
- the step motor 18a constituting each of the summer valves 18 installed in the distribution regulating box 11a of the control zone 11 is driven to rotate the valve body shaft 18g fitted to the motor rotor 18i. Adjust the temperature of hot water used in the summer valve 18 so that the mixing amount of cold water and hot water according to the temperature is supplied to a user set temperature.
- lever shaft rods 84a and 86a formed on the cold water / mixed water switching lever 84 are fitted into the switching valve rotation shaft formed on the cold water / mixed water switching valve 43 to connect the cold water / mixed water switching lever ( According to the left and right turns of 84), the cold water / mixed water switching valve 43 is opened and closed and the cold water or mixed water passes and is transferred.
- lever shaft rod (84a) (86a) formed in the blocking lever 56 is fitted into the valve rotation shaft 47 formed in the shutoff valve 43 'is coupled to the left and right rotation of the shutoff lever 56 43 'is opened and closed to select or block the discharge water discharged to the wash basin side or the bathtub side, and each mechanism when leaking or replacing the water discharge port 30 formed in each of the control zones 40, 40a and 40b. Since the discharged water can be blocked, the control zones 40, 40a and 40b and the respective water jetting holes 30 are individually blocked, not the flow rate of the previous generation.
- FIG. 17A illustrates a normal state in which cold water or mixed water passing through the inside of the shutoff valve 56 is completely transferred to the wash basin side and the tub side according to the switching of the shutoff lever 56.
- FIG. 17 (a) shows a state in which the cold water or mixed water passing through the inside of the shutoff valve 43 'according to the switching of the shutoff lever 56 is blocked from the tub side and transferred only to the basin side. In the tub side is individually blocked can repair and replace the tubing or water jets (5) on the tub side.
- 17 (c) shows a state in which the cold water or the mixed water passing through the inside of the shutoff valve 43 'according to the switching of the shutoff lever 56 is cut off on the wash basin side and transferred only to the tub side.
- the washbasin side is individually blocked to repair and replace the tubing or water jet (5) on the tub side.
- shutoff valve 43 ' which can be selectively or entirely blocked according to the left and right rotation of the shutoff lever 56 is leaked from the mixed water pipe 20 or each water discharge port 30 piped to the basin side or the tub side.
- FIG. 18 is an excerpt perspective view showing an example of each control zone in which pipes are distributed from a distribution control control zone according to the present invention, illustrating a kitchen control zone 40.
- the kitchen control zone 40 is a cold water / mixed water switching to be dispensed by receiving a set temperature and the set temperature and the mixed water and the cold water set to adjust the set temperature of the mixed water supplied from the distribution control control zone (11)
- the valve 43 and the valve switching box 41 which is integrally provided with the shut-off valve 43 'which blocks the discharge water are formed, and the valve switching box 41 and the shut-off of the common bathroom control zone 40a are formed. It is composed of the same structure as the valve 43 'and serves the same role.
- the valve switch box 41 and the laundry room control box forming the kitchen control zone 40 are also formed through a plurality of through-holes to the upper, lower, left, and right sides, and the cold water pipe 23 and the mixed water pipe 20 installed therein. ) And the circulating water pipe 21 is also formed as a soft pipe is protected by the pleated double pipe 25, the pleated double pipe 25 is fixed to the through hole and the laundry room control box of the valve switching box 61 by the connector.
- the cold water / mixed water switching valve 43 has the same structure as the cold water / mixed water switching valve 43 configured in the valve switch box 41 of the common bathroom control zone 40a, or the cold water inlet 43a or the mixed water inlet port.
- the cold water or the mixed water drawn into the (43b) side is discharged to the cold water / mixed water outlet 43c and serves the same role.
- the cold water or mixed water discharged to the cold water / mixed water extraction port 43c is transferred to the cold water / mixed water intermediate transport pipe 43d.
- Cold water / mixed water inlet 43'a and cold water / mixed water outlet 43'b, 43'c are formed around the shutoff valve 43 'to form the cold water / mixed water inlet 43'a.
- the cold water / mixed water intermediary pipe 43d in which cold water or mixed water is discharged by the switching of the cold water / mixed water switching valve 43, is piped to the c) side, and the cold water / mixed water export port 43 ' b) 43'c is a cold water / mixed water transfer pipe for transferring cold water or mixed water to the sink or laundry room control box, and the flow rate of the mixed water and cold water is adjusted to the end of the cold water / mixed water transport pipe that is installed to the sink side.
- a head 4 provided with a flow control lever 31 to block the pipe is embedded in the wall, and the water discharge port 30 for discharging the mixed and cold water to the sink side is coupled to the embedded head 4. .
- the head 4 with the flow rate control lever 31 piped to the laundry room control box is embedded in the wall, and the water discharge port 5 or hand for discharging the mixed water and cold water to the washing machine side in the embedded head 4.
- the water jetting port 5 in which the laundry mixed water and the cold water are discharged are combined.
- the water discharge port 5 installed for the above hand wash may be provided with a water discharge port 30 in which the water discharge control handle is installed in the water discharge port 5 itself.
- the lever opening and closing plate coupled to the temperature setting lever 82 and the cold water / mixed water switching lever 84 and the blocking lever 56 80 is fixedly coupled and functions the same structure and role as each of the levers 52, 54, 56 formed in front of the valve switching box 41 of the common bathroom control zone (40a).
- the lever opening plate 80 combined with the temperature setting lever 82, the cold water / mixed water conversion lever 84, and the blocking lever 56 is installed so that the lever opening and closing plate 80 protrudes from the top plate of the sink. By doing this, the user can also make it convenient to use.
- the temperature setting lever 82 installed in front of each valve switching box 41, 61, 81 of the present invention is capable of setting the temperature according to the installation conditions C (cold water), 30 °C, 35 °C, 40 °C, H (hot water) is preferably set to five stages, if necessary, the temperature setting range including the C (cold water) and H (hot water), the setting step is 5, 7, 8, 9, 10. You can also install and customize your own.
- temperature setting lever 82 is not only a manual switching to be switched in stages as described above, but also replaced with a digital switch (not shown) having an LCD display unit (not shown) as necessary to analogize. Temperature can also be set by digital method or digital number method.
- cold water / mixed water conversion lever 84 and the shut-off lever 56 is also configured to operate manually, but each of the valve 43, 44 that is manually operated to each valve rotation shaft 47
- the motor (not shown) may be installed to be opened and closed by driving the motor.
- the main control zone 70 of the present invention is the hot water boiler 12 and the electric opening and closing valve (15a ') and the hot water / circulating water pump 15, the distribution control control zone configured in the circulating water pumping control zone (10)
- the controller 71 controls the hot water supply system constituting the present invention, and is configured by the temperature setting lever 82 of each of the control zones 40, 40a and 40b. It is easy to use by allowing the mixed water to be discharged to each of the plurality of water discharge port 30 according to the set temperature and quantity on the fly.
- 19 is a perspective view showing another embodiment of the distribution control box constituting the distribution control control zone according to the present invention, the extension member 110 is coupled to the front of the distribution control box (11a) in accordance with the change in the thickness of the building finishing material. Is installed.
- the extension member 110 has a circumferential surface of the same size as the circumferential surface of the distribution control box (11a), the width is narrow and is integrally combined with the distribution control box (11a) by the fixing piece 101 to adjust the distribution. It is used as a member for adjusting the width of 11a.
- the piece fitting hole formed in the corner portion of the distribution control box (11a) is integrally coupled by the piece 101 to the extension member 110 side. (121) is adjusted when the holes do not coincide with each other when combined with the distribution control box (11a) or the extension member 110 or the distribution control box (11a) has been installed to be somewhat skewed on the wall cover (11a '')
- the groove of the fixing piece 101 of the adjusting cover 11a '' to be vertically moved by moving left and right is drilled in a long rectangle.
- FIG 20 is an exploded perspective view showing another embodiment of the valve switching box constituting each control zone according to the present invention, an extension member toward the front of the valve switching box 41 when the thickness of the finishing material becomes thick due to the change in the construction finishing thickness.
- the 110 is installed coupled with the inner cover (120).
- the extension member 110 has a circumferential surface the same size as the circumferential surface of the valve switch box 41, the width is narrow and is integrally combined with the valve switch box 41 by the fixing piece 101 to switch valves It is used as a member for adjusting the width of 41.
- the inner cover 120 is integrally coupled by the piece 101 to the extension member 110 when the extension member 110 is coupled to the front of the valve switching box 41 or the valve switching box 41.
- the piece fitting hole 121 formed at the corner portion of the inner cover 120 is disengaged when the holes 11a or valve switching 41 are coupled with each other when combined with the adjusting box 11a or the extension member 110.
- the inner piece 120 is bored in a long rectangular piece fitting hole 121 so as to be able to vertically move by moving the left and right.
- the inner cover 120 has a large work hole 122 is formed so that the work tool or the operator's hand can come and go when the repair is required due to leakage or the like after completion of the construction, the attachment of mortar or tile to the outer surface A plurality of friction protrusions 123 are formed to facilitate.
- the working hole 122 has a rim 124 protrudes to the front of a predetermined width (about the height of the mortar or tile covering), the lever opening and closing plate 80 of the present invention can be fastened by the piece 101.
- the fastening hole 125 is formed in three places so that one hole is drilled in the lower part, and the hole is drilled in two places on both sides of the upper part, so that the center of the lever opening and closing plate 80 is fastened with one hole formed in the lower part.
- valve switch box 41 is installed in the kitchen control zone 40 and the valve switch box 81 is installed in the private bathroom control zone 40b. , It can be installed by combining the additional extension member 110 or the inner cover 120.
- a cold water distribution pipe 16 for distributing cold water supplied from the cold water pipe 23 and a hot water distribution pipe 17 for distributing hot water supplied from the hot water pipe 24 are formed, and one step motor 18a is provided.
- a distribution regulating control zone (11) having a distribution regulating box (11a) provided with a summer valve (31a) formed integrally with the summer start valve (18b);
- the temperature setting lever 82 for adjusting the set temperature of the mixed water supplied from the distribution control control zone 11, the cold water / mixed water switching valve 43 for dispensing by receiving the set mixed water and cold water, and the respective discharges.
- a common bathroom control zone 40a in which a valve switching box 41 is formed in which a shutoff valve 43 'for blocking water is integrally installed;
- a temperature setting lever 82 for adjusting a set temperature of the mixed water supplied from the common bathroom control zone 40a, a cold water / mixed water switching valve 43 for distributing and receiving the set mixed water and cold water, and respective discharges A kitchen control zone 40 in which a valve switching box 41 is formed in which a shutoff valve 43 'for blocking water is integrally installed;
- the hot water boiler zone 10, the distribution control control zone 11 and each of the control zones 40, 40a and 40b are electrically and electronically connected so that the hot water boiler 12 can be operated and mixed when the mixed water is used.
- the main control zone 70 is provided with a controller 71 for controlling the temperature and quantity of the control zones 40, 40a, 40b, including a series pipe.
- the hot water supply system of the embodiment configured as a series piping as described above to supply the mixed water to each control zone 40, 40a, 40b to be installed as in the hot water supply system consisting of parallel piping of the present invention.
- Each of the thermo valves 31a installed for the purpose of the common bathroom control zone 40a in the distribution control 11a by installing only one summer valve 31a inside the distribution control box 11a without the need for installation.
- valve switching box 41 To valve switching box 41, the valve switching box 41 of the common bathroom control zone 40a to the valve switching box 61 of the kitchen control zone 40, the valve switching of the kitchen control zone 40 In (61), the piping is diverted to the valve switching box (81) of the private bathroom control zone (40b) in a branch pass, so that a plurality of control zones (40) (40a) and (40b) are used by using one summer valve (31a).
- Hot water supply system capable of supplying mixed water to each of the valve switching boxes 41, 61, 81 formed The.
- FIG. 21 is a schematic view of another piping embodiment of a series structure according to the present invention, in which a summer valve 31a for introducing cold water and hot water to discharge mixed water includes a cold water pipe 23 exposed to a lower portion of the hot water boiler 12; It is installed between the hot water pipe 24, the mixed water pipe 20 for supplying the mixed water discharged through the cold water pipe 23 and the thermo valve 31a, the common bathroom control zone (40a) or kitchen control zone (40)
- each of the valve switching boxes 41, 61, 81 is piped to one of the valve switching boxes 41, 61, and 81 of the individual bathroom control zone 40b, and a branch pass of each of the valve switching boxes 41, 61, 81 is connected in series.
- the step motor 18a of the thermovalve 31a installed inwardly of the distribution control box 11a and the step motor 18a of the thermovalve 31a installed exposed to the lower portion of the hot water boiler 12 are controlled.
- the mixed water corresponding to the temperature and quantity set at the moment is discharged to each of the plurality of water jetting holes 30 so as to simplify the use.
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Abstract
Description
Claims (23)
- 냉,온수관(23)(24)과 연결된 온수보일러 및 순간온수기의 온수공급시스템에 있어서,상기 온수보일러(12) 및 순간온수기의 내측으로 3-Way밸브를 갖는 온수/순환수펌프(15)를 설치하고 배관내 압력감지센서(14)를 설치하여 온수 사용시에 순환수펌프가동스위치(19)를 누르면 온수 및 순환수의 써큘레이션을 제어하며, 온수 사용시에만 온수보일러와 온수/순환수펌프(15)를 가동하여 온수를 공급하여 즉시 토수구(30)에서 혼합수를 공급받아 물의 사용낭비 및 에너지를 절약하도록 구성된 순환수펌핑제어존(10)과;상기 냉수관(23)으로부터 공급된 냉수를 분배하는 냉수분배관(16)과 상기 온수관(24)으로부터 공급된 온수를 분배하는 온수분배관(17)이 형성되며, 1개의 스텝모터(18a)와 서머스타트밸브(18b)가 일체로 형성된 다수의 서머밸브(18)가 설치된 분배조절함(11a)을 갖는 분배조절제어존(11)과;상기 분배조절제어존(11)으로부터 공급되는 혼합수의 설정온도를 조절하도록 상기 각각의 서머밸브(18)에 결합 형성된 스텝모터(18a)를 조절하도록 결선되는 온도설정레버(82)와 설정온도의 혼합수와 냉수를 공급받아 분배하는 냉수/혼합수전환밸브(43) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)(61)(81)이 형성된 각각의 제어존(40)(60)(80)과;상기 어느 하나의 제어존(40)(60)(80)으로부터 분배되어 공급되는 혼합수 및 냉수의 유량조절 및 차단을 하는 유량조절레버(31) 및 냉수/혼합수전환레버(64)를 갖는 각각의 토수구(30)와;상기 온수보일러존(10), 분배조절제어존(11) 및 각각의 제어존(40)(60)(80)이 전기 및 전자적으로 결선되어 온수/혼합수 사용시에 온수보일러(12)의 가동과 혼합수의 온도를 제어하는 컨트롤러(71)가 구비된 메인컨트롤존(70);을 포함하고 각각의 제어존(40)(60)(80)이 병렬배관으로 구성되어,상기 순환수펌프가동스위치(19)를 누르면 3-Way밸브(13)가 순환수관(21)과 온수관(24)측으로 밸브를 열어 온수보일러(12)와 순환수펌프(15)가 가동되고 온수보일러(12) 내부에서 가열된 온수가 온수관(24)을 통해 서머밸브(18)에서 설정된 온도의 온수가 되어 온수관(24)과 순환수관(21)으로 반복적인 써큘레이션(circulation)되어 토수구(30)를 통해 사용자가 설정한 온수/혼합수를 공급받아 사용할 수 있으며, 토수구(30) 개방시에는 배관내의 압력이 떨어져 압력감지센서(14)의 접점이 떨어져 3-Way밸브(13)가 순환수관(21)과 온수관(24)측으로 밸브를 닫고 냉수관(23)과 온수보일러(12) 온수가열코일을 거처 온수관(24)측으로 3-Way밸브(13)가 열려 온수/혼합수의 공급은 계속되고, 토수구(30)의 일측으로 형성된 유량조절레버(31)를 잠금과 동시에 온수보일러(12)의 가동이 중단되어 혼합수가 나오기 전까지 흘러나오는 냉수를 버리게 되는 일이 없어 물의 낭비를 줄일 수 있도록 한 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 각각의 제어존(40)(40a)(40b)은 1세대 내에 2개 이상의 제어존(40)(40a)(40b)으로 구성하여, 일측제어존(40)의 밸브함(41)의 내부로 설치된 서머밸브(18)를 통해 사용자 요구에 맞는 온도로 설정된 온수를 공급받아 사용중 타측제어존(40a)(40b)의 다른 사용자가 밸브함(41)의 서머밸브(18)로 50℃ 이상의 뜨거운 온수를 설정하여 사용시에 하나 이상의 순환수관(21)을 통해 순환수합류관(52)으로 합류시 타측제어존(40a)(40b)에서 사용되는 뜨거운 온수가 순환수관(21)을 통해 타측 제어존(40a)(40b)의 밸브함(41)으로 역류하여 사용자가 설정하지 않는 갑작스런 온수/혼합수 온도로 변화를 일으켜 공급되는 것을 방지하기 위하여 각 밸브함(41)에서 각각의 순환수관(21)을 통해 순환수합류관(52)으로 합류 전의 순환수합류관(52)의 각 출구(46a)에 역류밸브(53)를 설치하여, 온수/혼합수관(20)을 통해 타측의 밸브함(41)으로 각기 다른 온도의 온수/혼합수가 역류되는 것을 방지하는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 2 항에 있어서,상기 각각의 제어존(40)(40a)(40b)은,상기 분배조절제어존(11)으로부터 공급되는 혼합수의 설정온도를 조절하는 온도설정레버(82)와 설정된 혼합수와 냉수를 공급받아 분배가 되는 냉수/혼합수전환밸브(43) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)이 형성된 공동욕실제어존(40a)과;상기 공동욕실제어존(40a)으로부터 공급되는 혼합수의 설정온도를 조절하는 온도설정레버(50)와 설정된 혼합수와 냉수를 공급받아 분배가 되는 냉수/혼합수전환밸브(43) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)이 형성된 주방제어존(40)과;상기 주방제어존(40)으로부터 공급되는 혼합수의 설정온도를 조절하는 온도설정레버(50)와 설정된 혼합수와 냉수를 공급받아 분배가 되는 냉수/혼합수전환밸브(44) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)이 형성된 개인욕실제어존(40b);을 포함하는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 3 항에 있어서,상기 공동욕실제어존(40a)과 개인욕실제어존(40b)은 1세대 내에 사용자의 온수설정온도에 맞게 설정된 온수/혼합수를 밸브함(41)으로부터 공급받아 양변기 좌,우측 어느 한 곳에 주름이중관(25)구조의 배관방식으로 혼합수관을 벽체 매립 배관하고 건축 마감 후 마감된 벽체 표면측으로 별도의 혼합수 차단 및 유량조절용레버(32)와 메탈호스(62)로 연결시켜 대,소변을 본 후 세정을 하는 세정스프레이(60)가 설치되어 사용자가 온수/혼합수의 설정온도를 제어할 수 있도록 구성된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 순환수펌프가동스위치(19)를 ON으로 하면 타임스위치의 일정시간이 경과하면 자동으로 타임스위치의 접점이 OFF되어 순환수펌프(15)의 가동이 중단되어, 온수/혼합수 사용 후 토수구(30)를 잠그면 배관내의 압력이 상승하여 압력감지센서(14)의 접점이 붙어도 순환수펌프가동스위치(19)의 타임스위치의 접점이 OFF되어 있어 온수보일러(12)와 순환수펌프(15)가 계속적으로 써큘레이션(circulation)으로 가동되는 것을 방지하는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 각각의 제어존(40)(40a)(40b)은 밸브함(41)의 내부에 설치된 냉수/혼합수전환밸브(43)를 통과한 냉수, 온수/혼합수를 각각의 토수구(30)로 보냄은 물론 개별 차단하여 각 토수구(30)의 고장 또는 각 제어존(40)(40a)(40b)별로 설치된 배관의 누수시에 각 토수구(30) 또는 각 제어존(40)(40a)(40b)별로 개별 잠금하며 타측의 토수구(30) 또는 제어존(40)(40a)(40b)은 사용할 수 있는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,1세대 내의 각각의 제어존(40)(40a)(40b)과 연결된 수전 또는 토수구(30)가 설치된 벽체에 각각의 냉수 또는 온수/혼합수를 공급하는 냉수관(23) 또는 혼합수관(20)을 각각 설치할 필요 없이 단 하나의 온수/혼합수관 또는 냉수관을 1개의 배관라인을 설치하여 온수/혼합수 및 냉수를 즉시 공급받을 수 있어 벽체 및 바닥으로 매립 배관되는 배관의 가닥수를 줄일 수 있어 벽체 및 바닥 슬랩(Slab)구조의 안정성을 확보할 수 있는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 각각의 제어존(40)(40a)(40b)의 밸브함(41)에 연결 설치되는 각각의 냉수관(23), 온수/혼합수관(20), 순환수관(21) 및 토수구(30)는 주름이중관(25) 구조로 연결 결합되어 분기, 분배, 루프(Roof)방식으로 상호 연결 배관되는 분배기능이 있는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 각각의 제어존(40)(40a)(40b)은 밸브함(41)마다 서머밸브(18)를 각각 설치하되 온도설정을 수동으로 제어함으로, 1세대 내에 각 밸브함(41)에 배관 설치된 다수의 토수구(30)로 냉수, 온수/혼합수를 수동제어방식으로 공급할 수 있는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 냉수를 가열하여 온수를 공급하는 온수보일러(12)와;냉수관(23)으로부터 공급된 냉수를 분배하는 냉수분배관(16)과 상기 온수보일러(12)로부터 가열되어 공급된 온수를 분배하는 온수분배관(17)이 형성되며, 수동으로 작동되어 설정온도를 조절하는 서머밸브(18)가 설치된 분배조절제어존(11a)과;상기 분배조절제어존(11a)의 각 서머밸브(18)로부터 혼합수가 공급되며, 상기 냉수관(23)으로부터 냉수가 공급되어 다수의 토수구(30)로 냉수 및 혼합수를 분배하는 냉수/혼합수전환밸브(43)가 설치된 밸브함(41)이 설치된 각각의 제어존(40)(40a)(40b);을 포함하여 구성된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 각각의 제어존(40)(40a)(40b)의 밸브함(41) 내부에 설치된 분기유로관(42)은 일측으로 다수의 입출구(46)를 갖는 온수/혼합수분기유로(47)가 형성되고, 타측으로 2개 이상의 입출구(46)를 갖는 냉수분기유로(48)가 형성되며, 중앙부로 모터(45)를 구비한 냉수/혼합수전환밸브(43)를 형성하여 각 제어존(40)(40a)(40b)의 냉수관(23)을 상호 루프(ROOF)방식으로 병렬배관으로 구성함으로써, 1세대 내에서 2군데 이상의 토수구(30)를 통하여 냉수를 동시 사용할 경우 2방향에서 냉수가 공급되도록 하여 냉수유량의 변화를 최소화하는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 벽체에 매립 설치되어 이중관 구조의 배관과 결합되는 분배조절함(11a)의 내부로는 냉수관(23)으로부터 공급된 냉수를 분배하는 냉수분배관(16)과 상기 온수관(24)으로부터 공급된 온수를 분배하는 온수분배관(17) 및 순환수를 분배하는 순환수분배관(17a)이 형성되며, 1개의 스텝모터(18a)와 서머스타트밸브(18b)가 일체로 결합 조립된 다수의 서머밸브(18)가 설치되어 벽체에 매립 설치되는 분배조절함(11a)과 상기 분배조절함(11a)의 전면으로 조절함카바(21a)를 고정부재(11c)로서 결합 고정한 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 분배조절함(11a)은 전방으로 상기 분배조절함(11a)의 둘레면과 동일한 크기 및 일정한 폭으로 형성되며, 고정용 피스(101)에 의해 상기 분배조절함(11a)과 일체로 결합되어 상기 분배조절함(11a)의 폭을 조절하는 연장부재(110)가 결합 설치된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 분배조절함(11a)은 화장실천장에 매립 설치된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 분배조절함(11a)은 화장실천장의 슬랩(Slab)하부로 노출되어 설치된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 분배조절함(11a)은 씽크대, 붙박이장, 드레스룸, 신발장 중 어느 하나의 하부 바닥슬랩(Slab)에 매립 설치된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 밸브전환함(41)(61)(81)은 혼합수의 설정온도를 조절하는 온도설정레버(82)와 냉수/혼합수전환밸브(43) 및 각각의 토출수를 차단하는 차단밸브(43')가 형성된 레버개폐판(80)이 결합 설치되며, 상기 밸브전환함(41)(61)(81)은 화장실, 씽크대, 세탁실 등 수전이 설치되는 위치의 벽체에 매립 설치되며, 상기 이중관 구조의 배관과 결합되는 밸브전환함(41)(61)(81)은 각각마다 분배기능이 있어 다른측의 밸브전환함(41)(61)(81)으로 분기 패스기능이 있는 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 온도설정레버(82)는 수동전환으로 작동되거나 LCD표시부를 갖는 디지털스위치로 형성하여 아나로그방식 또는 디지털숫자방식이나 숫자입력방식으로 온도설정이 가능한 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 각 밸브전환함(41)(61)(81)의 전면으로 설치된 온도설정레버(82)는 설치 조건에 따라 온도설정이 가능하며, C(냉수), 30℃, 35℃, 40℃, H(급탕)의 5단계로 온도설정범위가 구성되거나 C(냉수)와 H(급탕)을 포함하여 설정단계를 5단계 이상의 6,7,8,9,10... 단계로 사용자 임의대로 세분화된 온도설정범위를 구성하여 설치할 수도 있도록 한 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항 또는 제 12 항에 있어서,상기 토수구(30)는 냉,온수혼합수전의 설치 위치에 설치되며 서머밸브(31a)와 일체로 결합되어 온도설정시 스텝모터(18a)의 구동으로 조절되어 공급되는 냉수 및 온수를 토출하며, 상기 토출되는 냉,온수의 유량조절 및 차단을 하는 유량조절레버(31)가 분리되어 별도로 벽체에 매립 설치되거나 일체로 결합되어 구성된 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 1 항에 있어서,상기 냉수/혼합수전환레버(84) 및 차단레버(56)의 회전에 따라 수동으로 작동되는 냉수/혼합수전환밸브(43) 및 차단밸브(43')는 각 밸브회전축(47)에 각각의 모터를 결합 설치하여 모터의 구동에 의해 개폐전환되도록 한 것을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 온수보일러(12)의 가열에 의해 온수를 공급하는 온수보일러존(10')과;상기 냉수관(23)으로부터 공급된 냉수를 분배하는 냉수분배관(16)과 상기 온수관(24)으로부터 공급된 온수를 분배하는 온수분배관(17) 및 순환수를 분배하는 순환수분배관(17a)이 형성되며, 1개의 스텝모터(18a)와 서머스타트밸브(18b)가 일체로 형성된 서머밸브(31a)가 설치된 분배조절함(11a)을 갖는 분배조절제어존(11)과;상기 분배조절제어존(11)으로부터 공급되는 혼합수의 설정온도를 조절하는 온도설정레버(82)와 설정된 혼합수와 냉수를 공급받아 분배가 되는 냉수/혼합수전환밸브(43) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)이 형성된 공동욕실제어존(40a)과;상기 공동욕실제어존(40a)으로부터 공급되는 혼합수의 설정온도를 조절하는 온도설정레버(50)와 설정된 혼합수와 냉수를 공급받아 분배가 되는 냉수/혼합수전환밸브(43) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)이 형성된 주방제어존(40)과;상기 주방제어존(40)으로부터 공급되는 혼합수의 설정온도를 조절하는 온도설정레버(50)와 설정된 혼합수와 냉수를 공급받아 분배가 되는 냉수/혼합수전환밸브(44) 및 각각의 토출수를 차단하는 차단밸브(43')가 일체로 내장 설치된 밸브전환함(41)이 형성된 개인욕실제어존(40b)과;상기 온수보일러존(10'), 분배조절제어존(11) 및 각 제어존(40)(60)(80)의 각 밸브전환함(41)이 전기 및 전자적으로 결선되어 혼합수 사용시에 온수보일러(12)의 가동과 혼합수의 온도 및 수량을 제어하는 컨트롤러(71)가 구비된 메인컨트롤존(70);을 포함하여 각각의 밸브전환함(41)이 직렬배관으로 분기 패스하여 설치됨을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
- 제 22 항에 있어서,상기 서머밸브(31a)는 온수보일러(12)의 하부로 노출된 냉수관(23)과 온수관(24)의 사이로 설치하여 상기 냉수관(23)과 서머밸브(31a)를 통해 출수되는 혼합수를 공급하는 혼합수관(20)을 공동욕실제어존(40a)이나 주방제어존(40)이나 개인욕실제어존(40b)의 어느 하나의 밸브전환함(41)으로 배관함과 동시에 상기 각각의 밸브전환함(41)을 직렬배관으로 분기 패스하여 설치됨을 특징으로 하는 온도조절이 용이한 온수보일러 및 순간온수기의 냉온수공급시스템.
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CN111928333B (zh) * | 2020-07-28 | 2021-09-10 | 烟台厚德瑞华节能科技有限公司 | 供热控制方法及系统 |
Also Published As
Publication number | Publication date |
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JP2011519011A (ja) | 2011-06-30 |
CN102066846A (zh) | 2011-05-18 |
US20110042468A1 (en) | 2011-02-24 |
EP2306099A2 (en) | 2011-04-06 |
WO2009131399A3 (ko) | 2010-06-24 |
AU2009238777A1 (en) | 2009-10-29 |
AU2009238777B2 (en) | 2013-12-19 |
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