KR100764212B1 - The istantaneous water heater which the second safety device have - Google Patents

Abstract

An instantaneous water heater is provided to secondly heat water introduced into a housing of the water heater by a ceramic heater, so water with a constant temperature is supplied to users, by arranging first and second sensing units outside the housing. An instantaneous water heater(100) includes a housing(4) having an inside with first and second packing members and a ceramic heater and an outside with a fuse(F), a first sensing unit(7) coupled to the housing and equipped with a flow sensor and a first temperature sensor(6) connected to the flow sensor, and a second sensing unit(11) coupled to the housing and equipped with a second temperature sensor(9) having a connection pipe and an automatic temperature controller(10) connected to the second temperature sensor. The instantaneous water heater further includes a first cap(20), a second cap(30), and a control unit(40). The first cap is coupled to one side of the housing, and has an inside with a third packing and one end with a connection hose and a connection part(23) connected to the connection pipe of the second sensing unit. The second cap is coupled to the other side of the housing, and has an inside with a fourth packing and one end with a third temperature sensor(32) and an outlet pipe(33). The control unit controls the ceramic heater, the first sensing unit, the second sensing unit, and the third temperature sensor of the second cap. The control unit includes a micro computer, a breaker, and a triac.

Description

The istantaneous water heater which the second safety device have}

1 is a front view showing a conventional instant water heater.

Figure 2 is a cross-sectional view showing a conventional instant water heater.

Figure 3 is a front view showing the instant water heater of the present invention.

Figure 4 is a plan view showing the instant water heater of the present invention.

5 is a sectional view showing an instant water heater of the present invention.

6 is a simplified diagram showing a control unit of the present invention.

Figure 7 is a front view showing a pressure reducing valve in the primary adjustment detection unit of the present invention.

* Description of the symbols for the main parts of the drawings *

1: First Packing 2: 2nd Packing

3: ceramic heater 4: housing

5: flow sensor 6: primary temperature sensor

7: primary control detection unit 8: connector

9: secondary temperature sensor 10: automatic temperature controller

11: secondary control detecting unit 20: the first cap

21: 3rd packing 22: connection hose

23: connecting portion 30: second cap

31: 4th packing 32: discharge pipe

40: control unit 41: microcomputer

42: Breaker 43: Triac

100: Instantaneous water heater with secondary safety device

The present invention relates to an instantaneous water heater equipped with a secondary safety device, and more specifically, to form a primary and secondary control sensing unit on the outside of the housing and the water introduced into and discharged from the housing by a hollow ceramic heater. It is heated to a secondary temperature and raised to a constant temperature so that a user can use it easily. The instantaneous water heater is provided with a secondary stabilizer which can prevent the ceramic heater from being overheated and damaged by a controller.

In general, the instantaneous hot water heater is heated secondly by the ceramic heater 3 through which the water flowing into the inside of the housing 4 is introduced through the inlet pipe connected to the housing 4, as described in the applicant's patent registration Nos. 10 to 713257. After that, it is discharged through the discharge pipe, which is heated by the ceramic heater and discharged into the discharge pipe flows to the discharge pipe past the place where the external water is introduced into the housing (4) through the inlet pipe.

Thus, the temperature of the water discharged to the discharge pipe is lower than the temperature of the water heated by the ceramic heater 3 is affected by the temperature of the water flowing into the housing from the outside, the third temperature sensor formed in the discharge pipe It is detected as a temperature lower than the temperature of the water that can be easily used to cause the ceramic heater 3 to heat the heat for a long time to damage the ceramic heater is overheated, or to raise the temperature of the water discharged to the discharge pipe to burn the user There was a problem.

In addition, the control unit is provided with only one control device for controlling the ceramic heater (3), there is a problem that the ceramic heater is overheated uncontrolled and the ceramic heater is broken when the control device is broken or inoperative.

The present invention for solving the problems described above is the first heating while the water flowing into the housing from the outside through the primary control sensing unit is heated to the primary and the temperature of the water heated primarily by the secondary control sensing unit is sensed After forming, the water flowing into the housing from the outside meets the first heated water before flowing back into the inside of the ceramic heater, and flows into the inside of the ceramic heater and is discharged through the discharge pipe formed in the second cap. Since the water used does not meet the water flowing to the housing through the primary ultra-low sensing unit from outside, the temperature of the water discharged through the discharge pipe does not change, and the user can use it directly, so that the ceramic heater does not have to operate for a long time. It prevents breakage by operating for a long time and, therefore, uses ceramic heater. Its purpose is to provide an instantaneous water heater equipped with a secondary safety device that does not require maintenance, thereby reducing maintenance costs and preventing overheating of the ceramic heater so as not to burn the user.

In addition, by forming a control unit, and further comprises a circuit breaker for controlling the operation of the ceramic heater in addition to the triac to control the operation of the primary heater, so that the breaker to control the ceramic heater secondary even if the triac is damaged, the ceramic heater is overheated The purpose is to provide an instantaneous water heater equipped with a secondary safety device that can prevent damage.

Looking at the configuration of the instantaneous water heater equipped with a secondary safety device of the present invention for achieving the above object is as follows.

Hereinafter, the configuration of the instantaneous water heater equipped with a secondary safety device of the present invention with reference to the accompanying drawings.

3 to 7, the instantaneous water heater 100 includes a housing 4, a primary adjustment sensing unit 7, a secondary regulation sensing unit 11, a first cap 20, and a first cap 20. It consists of two caps 30 and the control unit 40.

First, as shown in FIGS. 1 to 5, the housing 4 forms the first and second packings 1 and 2 and the hollow ceramic heater 3 inward, and the fuse F to the outside. Configure.

Here, the fuse (F) formed in the housing 4 is generally similar to the fuse used in electronic products, and serves to cut off the power when the ceramic heater 3 is overheated.

In addition, the primary adjustment detecting unit 7 is composed of a flow sensor 5 coupled to the housing 4 and the primary temperature sensor 6 connected to the flow sensor 5 and the cold water flows.

Here, the primary control detecting unit 7 is preferably formed to further include a pressure reducing valve (V) for maintaining a constant pressure of the water flowing into the housing from the outside.

In addition, the secondary control detection unit 11 is coupled to the housing 4 and the thermostat connected to the secondary temperature sensor 9 and the secondary temperature sensor 9, which forms a connection pipe 8 ( 10) constitute.

Here, the thermostat 10 formed in the secondary control sensing unit 11 is preferably formed of bimetal.

Meanwhile, as shown in FIGS. 3 to 5, the first cap 20 is coupled to one side of the housing 4, and the third packing 21 is positioned inward, and the second control sensing unit 11 is located on the other side. It is composed of a connecting hose 22 and a connecting portion 23 connected to the formed connecting pipe (8).

In addition, the second cap 30 is coupled to the other side of the housing 4, the fourth packing 31 is located inward, and the other side is composed of a third temperature sensor 32 and the discharge pipe (33).

In addition, as shown in FIG. 3 or FIG. 6, the control unit 40 includes a tertiary temperature sensor 32 of the ceramic heater 3, the first and second control detection units 7 and 11, and the second cap 30. ) And consists of a microcomputer (41), a circuit breaker (42) and a triac (43).

Here, the triac 43 primarily controls the operation of the ceramic heater 3, and the breaker 42 does not break the triac 43, and the breaker 42 does not operate when the triac 43 is normally operated. In the case where the lightning or ceramic heater 3 is overheated and the triac 43 is broken, the ceramic heater 3 is secondarily controlled.

In addition, the breaker 42 is preferably made of an electrically operated relay or electric fuse.

Here, the circuit breaker 42 detects an overcurrent flowing in the ceramic heater 3 and prevents the ceramic heater 3 from being damaged.

In addition, the controller 40 may be integrally formed with the housing 4 under the housing 4, or may be connected by a wire (not shown).

Looking at the operation according to the configuration of the instant water heater of the present invention having the configuration as described above are as follows.

First, after the user installs the water heater in the bidet or water softener, and connects one side of the connection tool (not shown in the drawing) generally used for water supply or water pipes, and the other side of the connection tool It is connected to the flow sensor 5 formed in the saving branch (7).

Then, when the user applies power to use the instantaneous water heater, the water from the water supply device or the water pipe through the flow sensor 5 and the primary temperature sensor 6 formed in the primary control sensor 7 and the housing 4 Will flow into the inside.

Here, as shown in FIG. 7, the primary control detecting unit 5 further includes a pressure reducing valve V, and is formed in the housing 4 through the flow sensor 5 in the water pipe or the water supply device. The pressure of the incoming water is kept constant at 1.5 ~ 2㎏ / ㎠.

In detail, since the pressure of the water flowing into the housing 4 from the water pipe or the water supply device is not constant and irregularly flows into the housing 4, the water flows into the housing 4 so that the user can easily use it. This is to make the pressure of water become constant.

Here, the pressure, flow rate, temperature, etc. of the water flowing into the housing 4 from the water pipe or the water supply device is sensed by the detection operation of the flow sensor 5 and the primary temperature sensor 6 to be introduced into the housing.

As described above, water introduced into the housing 4 through the primary adjustment sensing unit 7 flows to the outside of the ceramic heater 3 formed in the housing 4. After the temperature of the water sensed by the controller 40 is grasped, the operation of the ceramic heater 3 is controlled by the triac 43 formed in the controller 40 to raise the temperature to a constant temperature which is easy for a user to use.

In addition, the fuse F formed on the outer side of the housing 4 is a general fuse used in electronic products, and when an overcurrent flows in the ceramic heater 3, the power to the ceramic heater 3 is cut off to cut off the ceramic. It is used to prevent the heater 3 from breaking.

In addition, the water flowing into the housing 4 flows to the outside of the ceramic heater 3 and simultaneously flows to the secondary control detecting unit 11 while being primarily heated by the heating operation of the ceramic heater 3. do.

Here, when the instantaneous water heater is installed for the first time or not used for a long time, air flows into the flow sensor 5 formed in the primary adjustment detection unit 7, in which case, the housing is passed through the primary adjustment detection unit 7. The flow sensor 5 recognizes the air flowing into (4) and operates the ceramic heater 3 to raise the temperature of the air.

Then, the air whose temperature rises by the ceramic heater 3 stops the operation of the ceramic heater 3 by detecting the temperature of the air by the secondary temperature sensor 9 formed in the secondary control detecting unit 11.

This, the flow sensor 5 formed in the primary control detection unit 7 detects only water in the water and air introduced from the outside, and heat the water according to the temperature and flow rate of the water, the flow sensor 5 is external It detects both the water and air flowing in to heat the ceramic heater (3) according to the amount and temperature, at this time, by heating the ceramic heater (3) to a higher temperature than the temperature at which only water should be heated, This is to prevent 3) from being damaged by overheating.

In addition, when water flows into the inside of the housing 4, as described above, the primary control sensing unit 7 senses the temperature of the water and operates the ceramic heater 3 to heat the water introduced into the housing 4. , To flow water to the secondary control detection unit (11).

Then, after the secondary temperature sensor 9 and the thermostat 10 formed in the secondary control detecting unit 11 are operated, the temperature of the water heated by the ceramic heater 3 is primarily sensed, and then the connection tube Along the connection hose 22 formed in the first cap 20 through (8) it flows to the inside of the first cap 20 through the connecting portion 23 connected to the connection hose 22.

On the other hand, the heater is primarily heated by the ceramic heater (3), is detected by the secondary control detecting unit 11, the water flowing into the inside of the first cap 20 is the ceramic heater (3) formed in the housing (4) ) Flows into the inside of the ceramic heater (3), the water flowing into the ceramic heater (3) is formed in the control unit 40 when the temperature of the water detected by the secondary control detecting unit 11 is a temperature suitable for the user The operation of the liquid 43 stops the operation of the ceramic heater 3 and flows the water flowing into the ceramic heater 3 to the second cap 30 without heating the secondary control detecting unit 11. When the temperature of the water sensed at) is low for the user to use, the triac 43 formed in the control unit 40 operates the ceramic heater 3 to continuously generate heat to the inside of the ceramic heater 3. Increase the temperature of the running water to a user-friendly temperature Let's do it.

The water discharged from the ceramic heater 3 to the second cap 30 is discharged while the temperature of the water is sensed by the tertiary temperature sensor 32 before being discharged to the discharge pipe 33.

At this time, when the temperature of the water discharged to the discharge pipe 33 by the detection of the third temperature sensor 32 is low, the triac 43 formed in the control unit 40 operates the ceramic heater 3 to operate the ceramic heater 3 ) And the water discharged to the discharge pipe 33 at a temperature easy to be used by the user, and when the temperature of the water discharged to the discharge pipe 33 is high, the triac 43 is formed in the ceramic heater 3. Stop operation.

Here, the control unit 40 is further provided with a circuit breaker 42 for controlling the ceramic heater 3 in addition to the triac 43 for controlling the ceramic heater 3, so that the triac 43 is not damaged. While the circuit breaker 42 does not operate while it is not, the triac 43 may serve as the triac 43 when lightning or overheat occurs, thereby controlling the ceramic heater 3 secondary.

In addition, the circuit breaker 42 may be manufactured by sensing the temperature of the ceramic heater 3, but the ceramic heater to detect and control the ceramic heater 3 more sensitively than to sense the temperature of the ceramic heater 3. By producing a relay or an electric fuse capable of detecting an overcurrent flowing in (3), damage to the ceramic heater 3 can be prevented in advance.

The controller 40 controls the ceramic heater 3 by operating the triac 43 while the microcomputer 41 is operating when the temperature of the ceramic heater 3 rises or an overcurrent flows.

For this reason, by controlling the ceramic heater 3 secondaryly, it is possible to prevent the triac 43 from being broken and the ceramic heater 3 being overheated so that the temperature of the water rises to a degree that burns the user.

In addition, the user is to use the water heated to a suitable temperature so that the user can easily use through the discharge pipe 33 of the second cap (30).

Although the above-described embodiments have been described with respect to the most preferred examples of the present invention, it is not limited to the above embodiments, and various modifications are possible within the scope without departing from the technical spirit of the present invention. It is evident to those who have knowledge of.

As described above, the instantaneous water heater equipped with the secondary safety device of the present invention is first heated while the water flowing into the housing from the outside through the primary adjustment sensor is moved to the outside of the ceramic heater, and the primary water heater is 1 After the temperature of the water heated by the car is sensed, the water flowing into the ceramic heater from the outside meets the first heated water before flowing back into the ceramic heater, thereby flowing into the ceramic heater and formed in the second cap. The water discharged through the discharge pipe does not meet the water flowing to the housing through the primary super-sensor detection unit from the outside, so that the temperature of the water discharged through the discharge pipe does not change, and the user can use it directly, so that the ceramic heater is used for a long time. It doesn't have to work to prevent the ceramic heater from being damaged by operating for a long time, Therefore, there is no need to maintain the ceramic heater, thereby reducing the maintenance cost, there is an advantage to prevent overheating operation of the ceramic heater so as not to burn the user.

Further, by forming a control unit and further comprising a circuit breaker in addition to the triac to control the operation of the ceramic heater, even if the triac is broken, the circuit breaker to control the ceramic heater secondary to prevent the phenomenon that the ceramic heater is overheated and damaged. It is a useful invention with the advantages that it can be.

Claims (5)

A housing (4) mounted on a water softener or bidet to supply hot water, the first and second packings (1 and 2) and the hollow ceramic heater (3) formed therein, and a fuse (F) formed outside; Coupled to and coupled to the housing (4) and the primary control sensor (7) comprising a flow sensor (5) and a primary temperature sensor (6) connected to the flow sensor (5) to which cold water is introduced. The secondary safety device comprising a secondary temperature sensor (9) forming a tube (8) and a secondary control sensor (11) comprising a thermostat (10) connected to the secondary temperature sensor (9) In the equipped instant water heater, It is coupled to one side of the housing (4), the inner side of the third packing 21 is connected to the connecting hose 22 and the connecting portion (8) which is connected to the connecting pipe (8) formed in the secondary control detecting unit (11) A first cap 20 constituting 23; A second cap 30 coupled to the other side of the housing 4 and having a fourth packing 31 disposed at an inner side thereof and constituting a third temperature sensor 32 and a discharge pipe 33 at the other side thereof; The third temperature sensor 32 of the ceramic heater 3, the primary control sensor 7, the secondary control sensor 11 and the second cap 30 is controlled, the microcomputer 41 and the circuit breaker 42 And instantaneous water heater equipped with a secondary safety device, characterized in that consisting of the control unit 40 comprising a triac (43). 2. The instantaneous water heater according to claim 1, wherein the primary control detection unit (7) further includes a pressure reducing valve (V). The instantaneous water heater according to claim 1, wherein the thermostat (10) formed in the secondary control detecting unit (11) is made of bimetal. The instantaneous water heater according to claim 1, wherein the circuit breaker (42) formed in the control unit (40) is made of a relay. The instantaneous water heater according to claim 1, wherein the circuit breaker (42) formed in the controller (40) is made of an electric fuse.

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