KR101128952B1 - Hot water circulation apparatus - Google Patents

Abstract

An object of the present invention is to provide a hot water circulation device that can easily discharge the air collected in the check valve, to prevent the water in the water tank overflows, and to prevent the occurrence of fire due to short circuit due to the overflow of water. It is.

Description

Hot water circulator {HOT WATER CIRCULATION APPARATUS}

The present invention relates to a hot water circulation system, in particular, it is possible to easily discharge the air collected in the check valve, to prevent the water flowing in the water tank overflow, and to prevent the occurrence of fire due to leakage of the water overflow To a hot water circulator.

The circulation pump for hot water boilers, which are widely used in the related art, is a small centrifugal pump that burns gas or oil in a boiler to heat water, and there is a problem that noise is generated by forced circulation of the heated water by driving a motor. In addition, there is a problem that the motor is frequently damaged by being heated by the temperature of the heated water.

In addition, in the conventional hot water circulation system, when the hot water pipe disposed in the hot water mat is bent or clogged with foreign substances, the heated air is not heated in the hot water pipe as the heated hot water in the hot water pipe flows back into the check valve. As the water is continuously supplied to the hot water pipe, the hot water pipe is filled with heated air, and as the water in the hot water pipe is discharged into the water tank, the water tank overflows and the water overflows into the room. There was a problem that a fire caused by a short circuit occurs as the water overflows the room.

The present invention has been made to solve various problems of the prior art as described above, an object of the present invention to provide a hot water circulation device that can easily discharge the air collected in the check valve.

Another object of the present invention is to provide a hot water circulation device that can prevent the water in the water tank from overflowing, and can prevent the occurrence of a fire due to a short circuit caused by the overflow of water.

The present invention has been made to achieve the above object, the hot water circulation device of the present invention is installed in the space formed by the lower housing and the upper housing coupled to the upper portion of the lower housing is formed with a plurality of vents formed in the upper housing A water tank receiving water injected through the first water inlet through the second water inlet and storing water, and watertightly disposed through the elastic bodies inside the first and second water outlets of the water tank, respectively; First and second check valves intermittently intermittently discharge water in the water tank when the pressure in the water tank is high, and first and second water outlets respectively formed at the front lower portion of the water tank to connect the first and second check valves. When the check valve is opened and receives water introduced from the water tank and is heated to a predetermined temperature, the third and First and second heater units respectively discharging hot water to the first and second hot water pipes through the third and fourth hot water discharge ports and the first connection pipes respectively formed in the fourth silicon packing, and the first and second heaters. An inlet of the first connection pipe is connected to the third and fourth hot water outlets of the third and fourth silicon packings of the unit, respectively, and an outlet of the first connection pipe is connected to the inlet of the first and second hot water pipes. The hot water of constant temperature discharged from the first and second heater units respectively connected to each other is supplied to the first and second hot water pipes, respectively, and an introduction port of the second connection pipe is connected to the first and second hot water pipes. A pair of joints respectively connected to the outlets of the first and second hoses connected to the first and second inlets formed on the front upper portion of the water tank, and stored in the water tank. Water level sensor to detect the level of water A first heater disposed adjacent to the first and second heater units or the first and second hot water pipes to detect and output a temperature of the first and second heater units or the first and second hot water pipes to the microprocessor; And a second temperature detection sensor and a control unit for controlling the operation,

The first and second check valves are formed with a plurality of protrusions formed with threaded holes at predetermined intervals on the outer circumferential surface of the opening and penetrate the bottom surface to discharge water introduced from the water tank to the first and second heater units. The first and second heater units are formed when the pressure in the water tank is higher than the pressure in the first and second heater units because one side is fixed to the cylindrical body having a hole and the bottom surface of the cylinder by a screw. Is opened to discharge water into the water tank to discharge the water in the water tank through the through hole and to be closed when the pressure in the water tank is lower than the pressure in the first and second heater units to block the water tank through the through hole. It is provided through a valve body for blocking the discharge of water inside and a through hole formed in the middle of the outer circumferential surface of the cylindrical body. The air is characterized in that further comprising an air discharge unit for discharging into said water tank.

According to the hot water circulator of the present invention, it is possible to easily discharge the air collected in the check valve, to prevent the water in the water tank from overflowing, and to prevent the occurrence of fire due to the short circuit caused by the overflow of water. have.

1 is a perspective view schematically showing a hot water circulation device according to an embodiment of the present invention.
FIG. 2 is a perspective view of an inverted hot water circulation system of FIG. 1.
3 is an exploded perspective view of FIG. 1.
Figure 4 is a longitudinal sectional view schematically showing a state in which the check valve and the water level sensor is installed in the water tank in the hot water circulation system according to an embodiment of the present invention.
5 is a perspective view illustrating a connection relationship between a heater unit and a hot water pipe applied to a hot water circulation system according to an embodiment of the present invention.
6 is a block diagram of a control unit of the hot water circulation system according to an embodiment of the present invention.

With reference to the accompanying drawings, a hot water circulation system according to a preferred embodiment of the present invention will be described in detail.

1 to 6, the hot water circulator according to an embodiment of the present invention has a lower housing 10 having a plurality of ventilation holes 11 and an upper housing coupled to an upper portion of the lower housing 10. The water tank 30 is installed in the space formed by the 20 and receives the water injected through the first water inlet 21 formed in the upper housing 20 through the second water inlet 31a to store water. And, through the elastic bodies 160 and 162 (for example, an o-ring made of Teflon, aster or silicon) inside the first and second water outlets 32a and 32b of the water tank 30, respectively. When the pressure in the water tank 30 is high, the first and second check valves (40, 50) for intermittently discharging the water in the water tank 30, respectively, in the lower front of the water tank (30) The first and second check valves 40 and 50 are connected to the first and second water outlets 32a and 32b respectively formed. Third and fourth hot water outlets 65a respectively formed in the third and fourth silicon packings 65 and 75 when the water is introduced from the water tank 30 at the time of opening and heated to a predetermined temperature to be above a predetermined pressure. And first and second heater units 60 and 70 for discharging hot water to the first and second hot water pipes 90 and 100 through the 75a and the first connection pipe 81, respectively, and the first and second heaters. Inlets 81a of the first connection pipes 81 are connected to third and fourth hot water outlets 65a and 75a of the third and fourth silicon packings 65 and 75 of the units 60 and 70, respectively. The outlet 81b of the first connecting pipe 81 is connected to the inlets 90a and 100a of the first and second hot water pipes 90 and 100, respectively, so that the first and second heater units 60 and 70 are connected. At the same time, the hot water discharged from the predetermined temperature is supplied to the first and second hot water pipes 90 and 100, respectively, and the introduction port 82a of the second connection pipe 82 is connected to the first and second hot water pipes ( 90, 100 outlets (90b, 100b) A pair connected to each other and one side connected to the other side of the first and second hoses 95 and 96 respectively connected to the first and second inlets 33a and 33b formed at the front upper portion of the water tank 30. Joint 80, the level sensor 110 for detecting the level of water stored in the water tank 30, the first and second heater units (60, 70) or the first and second First to be installed adjacent to the hot water pipe (90,100) detects the temperature of the first and second heater unit (60, 70) or the first and second hot water pipe (90,100) and outputs to the microprocessor (131) And a second temperature detection sensor (120, 122) and a control unit (130) for controlling the operation.

The lower housing 10 is coupled to a plurality of ventilation holes 11 formed to discharge heat generated therein to the outside and a screw hole (not shown) formed in the upper housing 20 by bolts (not shown). It is detachably installed on the plurality of posts 12 having the through holes 12a formed therein to couple the upper housing 20 and the protrusions 13a installed in the recessed grooves 13 formed at the bottom of the bottom surface. If not, the hot water is blocked in the first and second hot water pipes 90 and 100 through the introduction port 81a of the first connecting pipe 81 constituting the joint 80 and the joint ( A pair of hot water supply blocks the discharge of the water discharged from the first and second hot water pipes (90,100) to the water tank (30) through the discharge port (82b) of the second connecting pipe (82) constituting the 80 / Water discharge blocking member (14).

The upper housing 20 has a first water inlet 21 formed to inject water into the water tank 30 through a second water inlet 31a formed in the water tank 30, and at the buzzer 112. A sound outlet 22 formed to output the alarm sound output, and an air outlet 23a is formed to discharge the air (air) collected in the water tank 30 to the outside, the first water inlet 21 A cap (lid) 23 covering to close the cover, a through hole 25a formed to insert a power switch SW1 made of a magnet switch, a through hole 25b formed to insert a first thermal switch SW2, A through hole 25c formed to insert the second thermal switch SW3, a through hole 25d formed to insert the temperature increase button 135a of the temperature increase / decrease adjustment means 135, and the temperature increase / decrease adjustment means 135 Through-hole 25e formed to insert the temperature reduction button 135b of < RTI ID = 0.0 >), < / RTI > switching of the power switch SW1. A through hole 25f formed to insert the first light emitting diode LED1 that emits light when turned on, and a through hole formed to insert the second light emitting diode LED2 that emits light when the first thermal switch SW2 is switched on ( 25g), a through hole 25h formed to insert the third light emitting diode LED3 that emits light when the second thermal switch SW3 is switched on, and a through hole 25i formed to insert the first timer 152. ), A through hole (25j) formed to insert the second timer 154, and the light emitted when the water stored in the water tank 30 detected by the water level sensor 110 is below a predetermined level 4 through-hole 25k formed to insert the light emitting diode LED6, a temperature increase knob 25m fitted on the temperature increase button 135a of the temperature increase and decrease control means 135, and the temperature increase and decrease control means ( And a temperature decrease knob 25n fitted on the temperature decrease button 135a of 135. The.

The water tank 30 has a second water inlet 31a formed at an upper portion thereof to receive water injected through the first water inlet 21 formed in the upper housing 20, and has an upper opening 30a formed therein. An upper cover 31 covering the lower cover and a lower portion which discharges water to the first and second heater units 60 and 70 when the first and second check valves 40 and 50 are opened. The low temperature water discharged from the first and second water outlets 32a and 32b and the outlet port 82b of the second connection pipe 82 of the joint 80 may include the first and second hoses 95 and 96. Consists of the first and second inlet 33a, 33b integrally formed in the front upper portion of the water tank 30 to be introduced through.

The first and second check valves 40 and 50 have a plurality of protrusions 41a and 51a each having a threaded hole (not shown) at a predetermined interval (or a predetermined angle; for example, 90 degrees) on the outer circumferential surface of the opening. Cylinders 41 and 51 having through holes 41b and 51b formed on the bottom thereof so as to protrude and discharge water introduced from the water tank 30 to the first and second heater units 60 and 70. And one side is fixed to the bottom surfaces of the cylindrical bodies 41 and 51 by screws 42 and 52 so that the water tank 30 is higher than the pressure in the first and second heater units 60 and 70. When the pressure inside is high, the water is opened to discharge water into the first and second heater units 60 and 70 to discharge water in the water tank 30 through the through holes 41b and 51b. And when the pressure in the water tank 30 is lower than the pressure in the second heater units 60 and 70, it is clogged to pass through the through holes 41b and 51b. The cylindrical body 41 is provided through the valve bodies 43 and 53 for blocking the discharge of water in the water tank 30 and through holes 46a and 56a formed in the middle of the outer circumferential surfaces of the cylindrical bodies 41 and 51. Air discharge units (170, 180) for discharging the air (air) collected in the 51 into the water tank (30).

The air discharge units 170 and 180 are provided with a pair of flanges 171a and 171b with a predetermined gap on the outer circumferential surface of the opening so that the air discharge units 170 and 180 can be fixedly installed inside and outside the through holes 46a and 56a formed in the cylindrical bodies 41 and 51 ( 181a and 181b are formed, respectively, through the pair of housings 171 and 181 having air discharge holes 171c and 181c formed in the upper center thereof, and the cone 172a through the air discharge holes 171c and 181c of the housings 171 and 181, respectively. When the 182a is fitted, the upper sides of the connecting rods 172b and 182b are integrally coupled to the cones 172a and 182a, and the weights 172c and 182c integrally formed at the lower sides of the connecting rods 172b and 182b. Consists of

The first and second heater units 60 and 70 are formed with first and second through holes 61a and 71a along the longitudinal direction, respectively, to allow water introduced from the water tank 30 to pass therethrough. Flat surfaces 61b and 71b are formed at an upper portion thereof, and first and second inlets 61c and 71c for introducing water introduced from the first and second check valves 40 and 50 are integrated at one side thereof. And first and second aluminum pipes 61 and 71 formed integrally with the first and second hot water discharge ports 61d and 71d so as to discharge the heated water on the other side, respectively. 2, respectively, provided in the flat surfaces 61b and 71b of the aluminum tubes 61 and 71 to heat the water introduced into the first and second through holes 61a and 71a to a predetermined temperature, respectively. Installed in the middle of the siege heaters 62 and 72 and the first and second siege heaters 62 and 72, respectively, so that the temperature of the first and second aluminum tubes 61 and 71 is higher than or equal to the set temperature. Heated The first and second bimetals 63 and 73 which are opened (opened), respectively, and the first and second inlets 61c and 71c integrally formed in the first and second aluminum tubes 61 and 71, respectively. First and second silicon packings 64 and 74 of cylindrical tube shapes coupled to the outer circumferential surfaces of the first and second clampers 64a and 74a, respectively, and the first and second aluminum pipes 61, Are coupled to the outer circumferential surfaces of the first and second hot water discharge ports 61d and 71d integrally formed at 71, respectively, and at the outer circumferential surfaces of the inlet 81a of the first connecting pipe 81 of the joint 80, respectively. It is composed of cylindrical tube-shaped third and fourth silicon packings 65 and 75 that are coupled to and fixed by third and fourth clampers 65b and 75b, respectively.

The control unit 130 receives the AC power from the AC power source 132 at the time of switching on the microprocessor 131 for controlling the operation and the power switch SW1 composed of the magnet switch and down to the AC power of a predetermined level. A transformer 133, a DC power supply unit 134 which receives AC power from the down transformer 133, converts it into DC power, and supplies operating power to the microprocessor 131, and DC power to the microprocessor 131. The first and second check valves 40 and 50 when operating power is supplied to the microprocessor 131 from the first light emitting diode LED1 and the DC power supply unit 134. ) Is a temperature increasing tank for setting the heating temperature to heat the water supplied into the first and second through holes 61a and 71a of the first and second heater units 60 and 70, respectively, to a constant temperature. The heating means set at the time of setting the heating temperature of the water by the cutting means 135 and the temperature increasing / decreasing adjusting means 135, and the heating of the water detected by the first and second temperature detecting sensors 120 and 122 Display means 138 for respectively displaying the set temperatures and displaying the operating time counted by the first and second timers 152 and 154, and the first heater unit at the time of switching on the first thermal switch SW2. The second light emitting diode LED2 indicating that the heating unit 60 is heating, and a thermal control signal output from the microprocessor 131 when the first thermal switch SW2 is switched on are operated to operate the AC power supply unit ( A first switching circuit 142 for applying AC power to the first size heater 62 of the first heater unit 60 and the second heater at the time of switching on the second thermal switch SW3. A third light emitting diode (LED3) indicating that the unit 70 is heating, The second size heater of the second heater unit 70 is operated from the AC power source 132 by being operated by a thermal control signal output from the microprocessor 131 when the second thermal switch SW3 is switched on. A second switching circuit 144 for applying an AC power source to the 72; first and second timers 152 and 154 for counting a predetermined time (120 hours) from the start time of operation and inputting the same to the microprocessor 131; When the water stored in the water tank 30 detected by the water level sensor 110 is below a predetermined level, a fourth light emitting diode LED4 that emits light by an emission control signal output from the microprocessor 131. ) And a buzzer 156 that outputs an alarm sound when the water level in the water tank 30 is lower than a predetermined level by the water level sensor 110.

The temperature increase and decrease control means 135 is composed of a temperature increase button 135a for increasing the heating temperature of water by 5 ° C, and a temperature decrease button 135b for decreasing the heating temperature of water by 5 ° C.

The first switching circuit 142 may include a first photo triac PT1 switched on by a thermal control signal output from the microprocessor 131 when the first thermal switch SW2 is switched on, and the first phototriac PT1 is switched on. The first photo triac PT1 is configured to receive a trigger signal from the first photo triac PT1 and to be switched on when the first photo triac PT1 is switched on. Light emitted from the fifth light emitting diode LED5 to conduct the fifth light emitting diode LED5 emitted by the thermal control signal output from the microprocessor 131 and the first triac T1 is conducted. And a diak T142 that is switched on and outputs a trigger signal to the first triac T1.

The second switching circuit 144 may include a second photo triac PT2 switched on by a thermal control signal output from the microprocessor 131 when the second thermal switch SW3 is switched on, and the second switching circuit 144 may be switched on. The second photo triac PT2 is configured to receive a trigger signal from the second photo triac PT2 and to be switched on when the second photo triac PT2 is switched on. The light emitted from the sixth light emitting diode LED6 is configured to conduct the sixth light emitting diode LED6 emitted by the thermal control signal output from the microprocessor 131 and the second triac T2. And a diac T144 that is switched on and outputs a trigger signal to the second triac T2.

In the drawing, reference numeral 10a is an elastic pedestal disposed under the lower housing 10 to elastically support the lower housing 10, and 14a is formed below the bottom surface of the lower housing 10. A through hole formed in the hot water supply / water discharge blocking member 14 into which the projection 13a protruding downward in the recess 13 is inserted, and 15 is a recess formed in the bottom surface of the lower housing 10. A support clamp for supporting the reinforcing bracket 16 integrally formed in the upper portion of the groove 13, 17 is a support bracket for supporting the joint 80, 62a, 62b is the first and second size heater Lead wire for supplying power to 62.72, 120a and 120b are lead wires for supplying power to the first and second temperature detection sensors 120 and 122, and 110b for the water level when the water level is below a certain level. Magnet built in the plotter 110a of the sensor 110 (Fig. Is a proximity switch conducted by a magnetic field line radiated from the magnetic force line, 158 is a remote control signal receiving sensor for receiving a signal transmitted from a remote controller to enable remote control, and L is the first and second check valves 40 and 50. When air is collected in the cylindrical bodies 41 and 51, the first and second heater units 60 are pushed upward by pushing the weights 172c and 182c of the discharge units 170 and 180 by the force of the collected air. 70) is an air discharge prevention line to prevent the air is discharged into.

R1 to R6 are current limiting resistors.

Next, the operation of the hot water circulation system of the present invention made as described above will be described.

First, the method of installing the first and second check valves 40 and 50 in the water tank 30 will be described. The cylindrical bodies 41 and 51 of the first and second check valves 40 and 50 will be described. A pair of valve bodies 43 and 53 are installed inside the through holes 41b and 51b formed in the inner side of the through holes 41b and 51b by using screws 42 and 52, and a lower portion of the outer peripheral surface of the housings 171 and 181 of the air discharge units 170 and 180 is provided. Between the flanges 171a, 171b (181a, 181b), the inside of the through holes 46a, 56a formed in the outer circumferential surfaces of the cylindrical bodies 41, 51 of the first and second check valves 40, 50 are respectively inserted. After the air discharge units 170 and 180 are installed in the cylinders 41 and 51 of the first and second check valves 40 and 50, respectively, the projections 41a of the cylinders 41 and 51 are shown in FIG. The fifth and sixth silicon packings 48 and 49 are disposed between the 51a and the inner edges of the first and second water outlets 32a and 32b formed in the water tank 30 and then the water tank 30. Outside the first and second water outlets 32a and 32b formed in the The first and second check valves 40 and 50 are tightened by tightening the bolts 47a and 47b and bolting to bolt holes (not shown) formed in the projections 41a and 51a of the cylindrical bodies 41 and 51. ) Cylindrical bodies 41, 51 are tightly installed inside the water tank 30.

Thereafter, one side of the first and second silicon packings 64 and 74 is inserted into and fixed to the outer circumferential surfaces of the first and second inlets 61c and 71c of the first and second heater units 60 and 70, The other sides of the first and second silicon packings 64 and 74 are inserted into and fixed to the outer peripheral surfaces of the first and second water outlets 32a and 32b formed in the water tank 30, and then the first and second clampers 64a Clamp at 74a).

 Next, on the outer circumferential surfaces of the first and second hot water discharge ports 61d and 71d of the first and second heater units 60 and 70, the third and the second and the third heater units 60 and 70 of the first and second heater units 60 and 70, respectively. Four silicon packings 65 and 75 are respectively bonded and fixed, and a pair of joints 80 are formed in the third and fourth hot water discharge ports 65a and 75a formed in the third and fourth silicon packings 65 and 75, respectively. After the inlets 81a respectively formed in the first connection tube 81 are connected to each other, they are clamped with the third and fourth clampers 65b and 75b, and the outlets of the first connection tubes 81 of the joint 80 Inlets 90a and 100a of the first and second hot water pipes 90 and 100 are respectively connected to the outer circumferential surface of 81b).

The outlets 90b and 100b of the first and second hot water pipes 90 and 100 are coupled to the outer circumferential surface of the inlet port 82a of the second connection pipe 82 of the joint 80, respectively. After connecting one side of the second hose (95, 96) to the outlet (82b) of the second connecting pipe 82, respectively, the other side of the first and second hose (95, 96) the water tank (30) It is coupled to the first and second inlet 33a, 33b integrally formed in the front upper portion of the respectively.

Next, the caps of the upper housing 20 with the other sides of the first and second hoses 95 and 96 connected to the first and second inlets 33a and 33b of the water tank 30, respectively. The water tank 30 is opened through the first water inlet 21 formed in the upper housing 20 and the second water inlet 31a formed in the upper cover 31 of the water tank 30. After the cap 23 is closed after the water is injected, the valve bodies 43 and 53 of the first and second check valves 40 and 50 are opened by the pressure of the water in the water tank 30. Water in the water tank 30 is supplied into the cylindrical bodies 41 and 51 of the first and second check valves 40 and 50 through the through holes 41b and 51b, respectively. The water supplied into the cylindrical bodies 41 and 51 of the second check valves 40 and 50 respectively passes through the first and second water outlets 32a and 33a formed in the cylindrical bodies 41 and 51. Balls in the first and second through holes 61a and 71a of the second heater units 60 and 70 It is urgent.

When supplying hot water to the first hot water pipe (90)

In this way, the power switch SW1 including the magnet switch of the control unit 130 is supplied with water supplied to the first and second through holes 61a and 71a of the first and second heater units 60 and 70. When switching on, the first light emitting diode LED1 emits light as the light emitting control signal (direct current) is output to the first light emitting diode LED1 through the current limiting resistor R1 in the microprocessor 131. While indicating that the power switch SW1 is switched on, the AC power is applied from the AC power supply unit 132 to the down transformer 133 and down from the down transformer 133 to a predetermined level of AC power supply to the DC power supply unit 134. In operation, the DC power supply unit 134 converts the DC power to a predetermined level to supply the operating power to the microprocessor 131.

Next, using the temperature increase button 135a or the temperature decrease button 135b of the temperature increase / decrease control means 135 of the control unit 130, the temperature is increased or decreased by 5 ° C. to set the temperature at which the water is heated. Then, the set temperature is displayed on the display means 138.

Next, when the first thermal switch SW2 is switched on, a light emission control signal (for example, a DC power supply) is output from the microprocessor 131 through the first thermal switch SW2, and the second light emitting diode ( LED2) emits light to indicate that the first thermal switch SW2 is switched on, and at the same time, the microprocessor 131 configures the first phototriac PT1 of the first switching circuit 142. Since a direct current flows through the current limiting resistor R5 to the light emitting diode LED5, the diak T142 is turned on as the fifth light emitting diode LED5 emits light, and thus, the first triac T1. The trigger signal is input to the gate terminal of the first triac T1 to conduct the AC power from the AC power supply unit 132 to the first size heater 62 of the first heater unit 60 to supply the AC power. 1 The first through hole of the first heater unit 60 from the check valve 40 ( The water supplied in 61a) starts to heat and is heated to the heating temperature set by the temperature increase button 135a or the temperature decrease button 135b of the temperature increase and decrease control means 135. At this time, the heating temperature set by the temperature increase button 135a or the temperature decrease button 135b of the temperature increase / decrease adjustment means 135 is displayed on the display means 138.

When the water supplied in the first through hole 61a of the first heater unit 60 is heated to a preset temperature by the temperature increase / decrease adjustment means 135, the first check valve 40 is controlled by the pressure of the heated water. Valve body 43 closes the through hole 41b formed in the bottom surface of the cylindrical body 41 of the first check valve 40, and at the same time, the first heater unit 60 is supplied to the first hot water pipe 90 through the first hot water discharge port 61d, the third silicon packing 65, and the first connection pipe 81 of the one joint 80, and the first hot water The water whose temperature has fallen while circulating the pipe 90 is discharged from the outlet 90b of the first hot water pipe 90 so that the second connection pipe 82 and the first hose 95 of one of the joints 80 may be discharged. And return to the water tank 30 through the first inlet 33a of the water tank 30.

In other words, the inlet port 82a of the second connection pipe 82 of one of the joints 80 is connected to the outlet port 90b of the first hot water pipe 90. The outlet 82b of the second connecting pipe 82 is connected to one side of the first hose 95, and the other side of the first hose 95 is the first inlet 33a of the water tank 30. Since the temperature is lowered while circulating the first hot water pipe (90), the water is discharged from the outlet (90b) of the first hot water pipe (90), the second connection pipe of one of the joints (80) 82, the first hose 95 and the first introduction port 33a of the water tank 30 return to the water tank 30.

On the other hand, when the water level of the water in the water tank 30 by the water level sensor 110 is below a certain level, as the plotter 110a is lowered, the water level detection by a magnetic force line radiated from the magnet installed in the plotter 110a As the proximity switch 110b built in the sensor 110 is operated to input a water shortage signal to the microprocessor 131 of the control unit 130, the water tank 30 is operated by the water level sensor 110. When the level inside is below a certain level, the buzzer 112 outputs an alarm sound by the alarm control signal output from the microprocessor 131 and the fourth light emission control signal is output by the microprocessor 131. When the light emitting diode LED4 emits light to indicate that water is insufficient, and when a predetermined time (120 hours) has elapsed from the operation start time counted by the first timer 152, the magnet switch is turned on. The microprocessor 131 outputs a control signal to the power switch SW1 to turn off the power switch SW1, and simultaneously turns off the fourth light emitting diode LED4 to operate the hot water circulation device of the present invention. Indicates that it has been stopped.

In the above description, when the air (or air bubbles) generated as the water is heated by the heating of the first size heater 62 of the first heater unit 60 becomes a predetermined pressure or more, the first check valve The weight 172c of the air discharge unit 170 installed on the outer circumferential surface of the cylindrical body 41 rises upwards and is discharged into the water tank 30 through the through-hole 170c to the water tank 30. Since the water is discharged to the outside through the second water inlet 31a formed in the upper cover 31 and the air outlet 23a formed in the cap 23 of the upper housing 20, the hot water is first heated in the first heater unit 60. Not only does not flow back into the water tank 30 through the cylindrical body 41 of the check valve 40, the air discharge unit 170 through the second inlet (61c) of the water tank 30 Since water does not overflow from), the occurrence of fire due to a short circuit can be prevented.

The display means 138 is connected to the first size heater 62 by a first temperature detection sensor 120 provided adjacent to the first size heater 62 of the first heater unit 60. A heat generating temperature of the first size heater 62 by receiving a heat signal output from the microprocessor 131 as the heat generating temperature is detected and input to the microprocessor 131 of the control unit 130. 138, when the heat generation temperature of the first size heater 62 becomes equal to or higher than the temperature set by the temperature increase / decrease adjustment means 135, the first series connected to the first size heater 62 in series. The bimetal 63 is turned off to prevent the occurrence of fire.

When supplying hot water to the second hot water pipe 100

As described above, a power switch consisting of a magnet switch of the control unit 130 in a state in which water is supplied into the first and second through holes 61a and 71a of the first and second heater units 60 and 70. When SW1 is switched on, the first light emitting diode LED1 is output as the light emission control signal (direct current) is output to the first light emitting diode LED1 through the current limiting resistor R1 in the microprocessor 131. A light is emitted to indicate that the power switch SW1 is switched on, and at the same time, AC power is applied from the AC power supply unit 132 to the down transformer 133, and down from the down transformer 133 to a predetermined level of AC power to direct current. As supplied to the power supply unit 134, the DC power supply unit 134 converts the DC power to a predetermined level to supply operating power to the microprocessor 131.

Next, using the temperature increase button 135a or the temperature decrease button 135b of the temperature increase / decrease control means 135 of the control unit 130, the temperature is increased or decreased by 5 ° C. to set the temperature at which the water is heated. Then, the set temperature is displayed on the display means 138.

Next, when the second thermal switch SW3 is switched on, a light emission control signal (for example, a direct current power source) is output from the microprocessor 131 through the second thermal switch SW3 to generate a third light emitting diode LED3. ) Emits light to indicate that the second thermal switch SW3 is switched on, and at the same time, a sixth light emission constituting the second phototriac PT2 of the second switching circuit 144 in the microprocessor 131. Since a direct current flows through the current limiting resistor R6 to the diode LED6, the diac T144 conducts as the sixth light emitting diode LED6 emits light, and thus the gate of the second triac T2 is connected. A trigger signal is input to a terminal to conduct the second triac T2 so that AC power is applied from the AC power supply 132 to the second size heater 72 of the second heater unit 70, thereby providing the second power. Second through hole of the second heater unit 70 from the check valve 50 The water supplied in the 71a starts to heat and is heated to the heating temperature set by the temperature increase button 135a or the temperature decrease button 135b of the temperature increase and decrease control means 135. At this time, the heating temperature set by the temperature increase button 135a or the temperature decrease button 135b of the temperature increase / decrease adjustment means 135 is displayed on the display means 138.

When the water supplied in the second through hole 71a of the second heater unit 70 is heated to a preset temperature by the temperature increase / decrease adjustment means 135, the second check valve 50 is controlled by the pressure of the heated water. Valve body 53 closes the through hole 51b formed in the bottom surface of the cylindrical body 51 of the second check valve 50, and at the same time, the second heater unit 70 is supplied to the second hot water pipe 100 through the first hot water outlet 71d, the fourth silicon packing 75, and the first connection pipe 81 of the other joint 80, and the second The water whose temperature drops while circulating the hot water pipe 100 is discharged from the outlet 100b of the second hot water pipe 100 so that the second connection pipe 82 and the second hose of the other joint 80 are separated. 96 and the first introduction port 33b of the water tank 30 to return to the water tank 30.

In other words, the inlet 82a of the second connection pipe 82 of the other joint 80 is connected to the outlet 100b of the second hot water pipe 100, and the other joint 80 The discharge port 82b of the second connecting pipe 82 of () is connected to one side of the second hose 96, and the other side of the second hose 96 is the second inlet of the water tank 30. Since the temperature is reduced while circulating the second hot water pipe 100, the water is discharged from the outlet 100b of the second hot water pipe 100 so as to be connected to the second joint 80. It returns to the water tank 30 through the 2nd connection pipe 82, the 2nd hose 96, and the 2nd introduction port 33b of the said water tank 30. As shown in FIG.

On the other hand, when the water level of the water in the water tank 30 by the water level sensor 110 is below a certain level, as the plotter 110a is lowered, the water level detection by a magnetic force line radiated from the magnet installed in the plotter 110a As the proximity switch 110b built in the sensor 110 is operated to input a water shortage signal to the microprocessor 131 of the control unit 130, the water tank 30 is operated by the water level sensor 110. When the level inside is below a certain level, the buzzer 112 outputs an alarm sound by the alarm control signal output from the microprocessor 131 and the fourth light emission control signal is output by the microprocessor 131. When the light emitting diode LED4 emits light to indicate that water is insufficient, and when a predetermined time (120 hours) elapses from the operation start time counted by the second timer 154, the magnet switch is switched. The microprocessor 131 outputs a control signal to the power switch SW1 to turn off the power switch SW1, and simultaneously turns off the fourth light emitting diode LED4 to operate the hot water circulation device of the present invention. Indicates that it has been stopped.

In the above description, when the air (or bubbles) generated as the water is heated by the heating of the second size heater 72 of the second heater unit 70 becomes equal to or greater than a predetermined pressure, the second check valve As the weight 182c of the second air discharge unit 180 installed on the outer circumferential surface of the cylindrical body 51 rises upward, the water is discharged into the water tank 30 through the through-hole 180c and the water is discharged. Since the water is discharged to the outside through the second water inlet 31a formed in the upper cover 31 of the tank 30 and the air outlet 23a formed in the cap 23 of the upper housing 20, hot water is discharged to the second heater. The water is not flowed back into the water tank 30 through the cylindrical body 51 of the check valve 50 and the air discharge unit 180 through the second inlet 71c of the unit 70. Since water does not overflow from the tank 30, it is possible to prevent the occurrence of fire due to a short circuit.

The display means 138 is connected to the second size heater 72 by a first temperature detection sensor 120 provided adjacent to the second size heater 72 of the second heater unit 70. The heat generating temperature of the second size heater 72 is detected by receiving the heat generating signal output from the microprocessor 131 as the heat generating temperature of the control unit 130 is detected and input to the microprocessor 131 of the control unit 130. 138, when the heat generation temperature of the second size heater 72 becomes equal to or higher than the temperature set by the temperature increase / decrease adjustment means 135, the second series connected to the second size heater 72 in series. Since the bimetal 73 is turned off and the power is cut off, the occurrence of a fire is prevented.

The hot water circulator of the present invention can easily discharge the air collected in the check valve, prevent the water in the water tank from overflowing, prevent the occurrence of fire due to the short circuit caused by the overflow of water, and noise It does not occur, and because it does not use a motor to circulate the water, does not generate noise, circulate the hot water by the pressure of the hot water, the operation is simple, easy to use in one-touch method, one circulation line or It can be used as a two-circulation line, and when the water is insufficient during use, a warning sound can be made and at the same time, the lamp can be flickered to inform the lack of water, and the operation can be stopped automatically after a certain time. Since hot water flows in the first and second hot water pipes 90 and 100, electromagnetic waves are not generated from the first and second hot water pipes 90 and 100.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, various design changes are included in the scope of the present invention.

10: lower housing 10a: elastic support
11: vent 12: holding
12a: Through-hole 13: recessed groove
13a: protrusion 14: hot water supply / water discharge blocking member
14a: Through hole 15: Support clamp
16: Reinforcement bracket 20: Upper housing
21: first water inlet 22: acoustic outlet
23: cap (lid) 23a: air outlet
25a: Through Hole 25b: Through Hole
25c: Through Hole 25d: Through Hole
25e: Through Hole 25f: Through Hole
25g: Through Hole 25h: Through Hole
25i: Through Hole 25j: Through Hole
25k: Through hole 25m: Temperature increase knob
25n: Temperature decrease knob 30: Water tank
30a: upper opening 31: upper cover
31a: 2nd water inlet 32a: 1st water outlet
32b: second water outlet 33a: first inlet
33b: 2nd inlet 40: 1st check valve
41: cylindrical body 41a: protrusion
41b: Through hole 42: Screw
43: valve body 46a: through hole
47a, 47b: Bolt 48: Fifth silicone packing
49: 6th silicon packing 50: 2nd check valve
51: cylindrical body 51a: protrusion
51b: Through hole 52: Screw
53: valve body 56a: through hole
60: first heater unit 61: first aluminum tube
61a: first through hole 61b: flat surface
61c: first inlet 61d: first hot water outlet
62: first size heater 62a, 62b: lead wire
63: first bimetal 64: first silicon packing
64a: first clamper 65: third silicone packing
65a: third hot water outlet 65b: third clamper
70: 2nd heater unit 71: 2nd aluminum tube
71a: second through hole 71b: flat surface
71c: second inlet 71d: second hot water outlet
72: first siege heater 73: second bimetal
74: second silicon packing 74a: second clamper
75: fourth silicon packing 75a: fourth hot water outlet
75b: fourth clamper 80: joint
81: first connecting pipe 81a: inlet
81b: outlet 82: second connector
82a: Inlet 82b: Outlet
90: first hot water pipe 90a: inlet
90b: outlet 95: first hose
96: second hose 100: second hot water pipe
100a: Inlet 100b: Outlet
110: water level sensor 110a: plotter
110b: Proximity switch 112: Buzzer
120: first temperature detection sensor 120a, 120b: lead wire
122: second temperature detection sensor 130: control unit
131: microprocessor 132: AC power supply
133: down transformer 134: DC power supply
135: temperature increase and decrease control means 135a: temperature increase button
135b: temperature decrease button 138: display means
142: first switching circuit 144: second switching circuit
152: first timer 154: second timer
156: buzzer 158: remote control signal receiving sensor
160: elastic body 162: elastic body
170: exhaust unit 171: housing
171a, 171b: flange 171c: discharge hole
172a: cone 172b: connecting rod
172c: weight 180: discharge unit
181: housing 181a, 181b: flange
181c: discharge hole 182a: cone
182b: Connecting rod 182c: Weight

Claims (5)

The first water inlet is formed in the space formed by the lower housing 10 having a plurality of ventilation holes 11 and the upper housing 20 coupled to the upper portion of the lower housing 10 and formed in the upper housing 20. Water tank 30 for receiving water injected through the 21 through the second water inlet 31a and storing water, and inside the first and second water outlets 32a and 32b of the water tank 30. First and second check valves 40 and 50 that are arranged in a watertight manner through the elastic bodies 160 and 162, and intermittently discharge the water in the water tank 30 when the pressure in the water tank 30 is high. And the first and second water outlets 32a and 32b formed at the front lower portion of the water tank 30, respectively, to open the first and second check valves 40 and 50, respectively. 30 and the third and fourth silicon packing (6) when the water introduced from 30 is heated to a predetermined temperature and is above a predetermined pressure. First and second to discharge hot water to the first and second hot water pipes (90,100), respectively, through the third and fourth hot water discharge ports (65a, 75a) and the first connecting pipe 81 formed in the 5,75, respectively. And the third and fourth hot water outlets 65a and 75a of the heater units 60 and 70 and the third and fourth silicon packings 65 and 75 of the first and second heater units 60 and 70. Inlet ports 81a of the first connection pipe 81 are connected to each other, and outlets 81b of the first connection pipe 81 are introduced to the introduction ports 90a and 100a of the first and second hot water pipes 90 and 100, respectively. The second connection pipe 82 and the second hot water pipe 90 and 100 respectively supply hot water at a predetermined temperature and respectively discharged from the first and second heater units 60 and 70 to the first and second hot water pipes 90 and 100, respectively. The inlet (82a) of the first and second hot water pipes (90,100) are connected to the outlet (90b, 100b), respectively, one side of the first and second inlet formed in the upper front of the water tank (30) The other side of the first and second hoses 95 and 96 connected to the 33a and 33b, respectively. A pair of joints 80, a level sensor 110 for detecting the level of water stored in the water tank 30, and the first and second heater units 60 and 70 or the first and Installed adjacent to the second hot water pipe (90,100) to detect the temperature of the first and second heater unit (60,70) or the first and second hot water pipe (90,100) and output to the microprocessor (131) First and second temperature detection sensors (120, 122) and the control unit 130 for controlling the operation,
The first and second check valves 40 and 50 are formed with a plurality of protrusions 41a and 51a having screw holes formed at predetermined intervals on the outer circumferential surface of the opening, and the water introduced from the water tank 30 is formed. Cylindrical bodies 41 and 51 having through-holes 41b and 51b formed at the bottom thereof to be discharged to the first and second heater units 60 and 70, and screws 42 at the bottom surfaces of the cylindrical bodies 41 and 51. FIG. One side is fixedly installed by the first and second heater units 60 and 70 when the pressure in the water tank 30 is higher than the pressure in the first and second heater units 60 and 70. The water tank 30 is opened to discharge water into the water tank, and the water in the water tank 30 is discharged through the through holes 41b and 51b, and the pressure in the water tank 30 is greater than the pressure in the first and second heater units 60 and 70. Valve body 43 and 53 which are closed when the pressure in the cylinder is low to block the discharge of water in the water tank 30 through the through holes 41b and 51b; An air discharge unit installed through the through holes 46a and 56a formed in the middle of the outer circumferential surface of the cylinders 41 and 51 and discharging the air collected in the cylinders 41 and 51 into the water tank 30. Hot water circulation system characterized in that it further comprises (170,180).
The pair of flanges of claim 1, wherein the air discharge units (170, 180) have a predetermined gap on the outer circumferential surface of the opening so that the air discharge units (170, 180) can be fixed to the inside and outside of the through holes (46a, 56a) formed in the cylindrical bodies (41, 51). (171a, 171b) (181a, 181b) are formed respectively, a pair of housings (171, 181) having air discharge holes (171c, 181c) formed in the upper center, respectively, and air discharge holes (171c, 181c) of the housing (171, 181). When the cones 172a and 182a are fitted through the upper side of the connecting rods 172b and 182b to the cone bodies 172a and 182a, the weight is formed integrally under the connecting rods 172b and 182b. Hot water circulation system, characterized in that consisting of weights (172c, 182c).
According to claim 1, The water tank 30 has a second water inlet 31a is formed in the upper portion to receive the water injected through the first water inlet 21 formed in the upper housing 20, An upper cover 31 covering the upper opening 30a and a lower portion formed in front of the upper opening 30a to discharge water when the first and second check valves 40 and 50 are opened; The first and second water outlets 32a and 32b respectively discharged to the first and second water outlets 32a and 32b and the low temperature water discharged from the outlet port 82b of the second connection pipe 82 of the joint 80 are respectively. Hot water circulator comprising a first and a second inlet (33a, 33b) integrally formed in the front upper portion of the water tank (30) so as to be introduced through the hose (95, 96).
According to claim 1, The lower housing 10 is a plurality of ventilation holes 11 formed to discharge the heat generated therein and the screw holes formed in the upper housing 20 by a bolt is screwed to the upper It is detachably installed in a plurality of struts 12 having a through hole 12a formed therein to couple the housing 20 and a protrusion 13a installed in the recess 13 formed at the bottom of the bottom surface. The introduction 80 of the first connection pipe 81 constituting the joint 80 to the first and second hot water pipes (90, 100) to prevent the introduction of hot water and at the same time, the joint 80 A pair of hot water supply / water that blocks the discharge of the water discharged from the first and second hot water pipes 90 and 100 to the water tank 30 through the discharge port 82b of the second connection pipe 82. Hot water circulation device, characterized in that consisting of the discharge blocking member (14).
The hot water circulation system according to claim 1, further comprising a remote control signal reception sensor (158) for receiving a signal transmitted from a remote control to enable remote control.

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