KR200476273Y1 - Heater module for water purifier - Google Patents

Abstract

The present invention aims at preventing water from being blown out during the outflow by forming a water vapor space inside the upper part of the housing and preventing the noise due to high heat at the time of heading, and detecting the water level at the upper part of the ceramic heater It is also possible to prevent damage to the heater even when the water level is low by installing a water level sensor capable of detecting the water level in the tank through the sensor, In order to prevent noise and water from being blown out by bubbles, one or more ceramic heaters are installed vertically so that the inlet position of the housing is positioned at the center between the heaters at the lower end of the ceramic heater, In addition, the inlet port is formed to be smaller than the outlet port, so that the flow velocity is increased and the pressure inside the container is lowered It relates to a heater module for the water purifier so.
According to an aspect of the present invention, there is provided a heater module in which an inlet and an outlet are formed, a ceramic heater is installed therein, and inflow water flowing through a flow path formed in the housing is heated by a ceramic heater. A buffer space 150 is formed at an inner upper end of the housing 100 and a lower end of the buffer space 150 is provided with one or more ceramic heaters for heating inflow water And a buffer space 150 formed at an upper end of the housing 100. The buffer space 150 is formed at a lower end of the ceramic heater 200 in the housing 100, A water outlet 120 is formed at the lower end of the housing 100 to heat the inflow water and discharge the inflow water to the outside. The upper part of the heater 200 above the housing 100 senses the water level inside the housing 100 And a water level sensor 160 for preventing breakage of the heater 200 is provided.

Description

Heater module for water purifier

The present invention relates to a heater module for a water purifier, and more particularly, to a water heater module for a water purifier, which comprises a water outlet space at the upper end of the housing and a water vapor space inside the upper part, And a water level sensor capable of detecting the water level can be installed at the upper part of the ceramic heater to prevent damage to the heater even when the water level is low. In addition, the heater is operated in the state where the water level is detected through the sensor And one or more ceramic heaters are vertically installed in the housing without a separate flow path structure so as to prevent noise and water from being blown out by the bubbles. It is located at the center between the heaters to smooth the flow of the water received, Formed by the flow rate will rapidly about a water purifier heater module to lower the pressure in the vessel.

Generally, a water purifier is used to receive bottled water through a water tank containing a certain amount of bottled water. In such a water purifier, a heater is installed to continuously supply hot water.

There are three types of hot water systems of the water purifier such as low temperature, continuous hot water and instantaneous hot water. Among them, low temperature and continuous hot water have a disadvantage that they are contaminated by foreign matter or water in the tank due to the characteristics of the product , There is a disadvantage that the desired water temperature is lowered when a certain amount of hot water is used, and the power consumption is large.

For this instantaneous hot water system, the instant hot water system has been proposed as a utility model registration No. 370868.

According to such a line regeneration utility model, an inlet for supplying inflow water to the lower end of one side and an outlet for discharging the inflow water to the outside by heating the inflow water are formed, and the inflow water flowing into the inlet and the other side of the outlet is heated The ceramic heater is formed by two upper and lower stages. The inflow water flowing through the 'C' shaped flow path formed inside the main body is heated by the ceramic heater. By using various sensors, the user can directly receive the desired temperature. Since the inflow water is directly received and used, contamination of the effluent water can be prevented.

However, according to the above-mentioned line registration utility model, since there is no proper means for discharging the steam generated when heating the influent water through the ceramic heater, the internal pressure is increased, and in severe cases, the heater and the housing are broken .

In addition, although the effect of increasing the flow velocity by installing the heater in a horizontal state, there is a phenomenon in which noise and water are blown off when blown out by bubbles, and the structure of the housing in which the heater is installed has a flow path structure As the outlet port is located at the lower end of the housing, noise and water are blown out by the air bubbles. In addition, noise due to high heat generation occurs at the time of going out.

Further, since the inlet port position of the housing is provided at the lower end of one side of the housing, a phenomenon that the flow of the received water becomes unstable occurs.

Accordingly, the present invention has been conceived to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a water purifier for a water purifier in which a water outlet is located at an upper end of a housing, And to provide a heater module for a water purifier that prevents noise due to high heat generation at the time of heating.

Another object of the present invention is to provide a water level sensor capable of detecting the water level on the upper part of the ceramic heater to prevent the heater from being damaged when the water level is low, And to provide a heater module for a water purifier in which a heater is operated.

Another object of the present invention is to provide a housing in which one or more ceramic heaters are installed in a vertically standing state without a separate flow path structure so as to prevent noise from being generated due to bubbles during take- Is located at the center between the heaters at the lower end of the ceramic heater so as to smooth the flow of the water received and to make the hole of the inlet port smaller than the outlet port so that the flow rate becomes faster and the pressure inside the container is lowered, Module.

According to an aspect of the present invention,

A ceramic heater according to any one of claims 1 to 3, wherein the ceramic heater is disposed in the inlet port and the outlet port, and the inflow water flowing through the flow path formed in the housing is heated by the ceramic heater.

The housing is vertically formed in the longitudinal direction,

A buffer space is formed in an inner upper end of the housing and one or more ceramic heaters for heating the inflow water flowing into the buffer space are inserted into the lower end of the buffer space and the inflow water is supplied to the lower central portion of the ceramic heater in the housing A water inlet is formed in the lower portion of the buffer space formed at the upper end of the housing and a water outlet for discharging the inflow water to the outside is formed at the lower end portion of the buffer space formed at the upper end of the housing, A water level sensor is installed.

At this time, a safety valve is installed on the side surface of the housing to discharge the steam inside the housing while opening and closing the pressure inside the housing, in which the heater is installed, according to the set pressure (1.2 kgf / cm 2).

The inlet port is formed with a diameter smaller than the diameter of the outlet port so as to lower the pressure inside the container by increasing the flow rate of the inflow water flowing into the inlet port.

When the present invention as described above is applied, the following effects are produced.

First, a water outlet space is formed in the upper end of the housing, and water is prevented from being blown out during the water outflow, and noise due to high heat generation during the water outflow can be prevented.

Second, by installing a water level sensor that can detect the water level on the upper part of the ceramic heater, it is possible to prevent damage to the heater even when the water level is low, and also to operate the heater while sensing the water level in the tank through the detection sensor There is an effect that can be.

Third, since one or more ceramic heaters are installed in a vertically standing state in the housing without a separate flow path structure, noises are generated by the bubbles at the time of taking out, thereby preventing the water from being cut off. The heater is located at the center between the heaters at the lower end of the heater to smooth the flow of the water, and the hole of the inlet is formed to be smaller than the outlet so that the flow velocity is increased and the pressure inside the container can be lowered.

1 is a side view of a heater module for a water purifier according to the present invention in accordance with the present invention.
2 is an exploded perspective view of a heater module for a purifier according to the present invention;
Fig. 3 is a longitudinal sectional view of Fig. 1; Fig.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 to 3 show a heater module of a water purifier according to the present invention,

First, a housing 100 is formed in a vertical direction so as to stand upright vertically. A buffer space 150 is formed at an inner upper end of the housing 100 so that water vapor generated through heating can stay therein. The lower end of the buffer space 150 is provided with a ceramic heater 200 capable of heating inflow water flowing therein.

At this time, an inlet 110 for supplying inflow water is formed at the lower center portion of the ceramic heater 200 installed in the housing 100.

In addition, a lower portion of the buffer space 150 formed at the upper end of the housing 100 forms a water outlet 120 for heating the inflow water to be discharged to the outside.

A water level sensor 160 is installed on the upper portion of the housing 100 to detect the water level inside the housing 100 from the upper part of the ceramic heater 200 and to prevent damage to the heater 200.

When the pressure inside the housing 100 exceeds the set pressure (1.2 kgf / cm 2), the safety valve 300 is automatically operated and the safety valve 300 is opened The steam is discharged to the outside so as to prevent the breakdown due to the internal pressure and to confirm the immediate reaction.

In addition, the diameter of the inlet 110 is set to be smaller than the diameter of the outlet 120 so as to reduce the pressure inside the container by increasing the flow rate of the inflow water.

According to the heater module for a water purifier having such a constitution,

And is formed vertically in the vertical direction and has an inlet 110 for supplying inflow water to the lower end and an upper end thereof and a discharge port 120 for discharging the inflowed inflow water to the outside, When the ceramic heater (200) is installed and the inflow water is supplied through the inlet (110), the ceramic heater (200) heats the inflow water.

If the inlet 110 for supplying the inflow water is formed at the lower end of the housing 100, that is, at the center of the lower end of the ceramic heater 200, the flow of the received water can be smoothly performed, 200 can be installed in the housing 100 without having a flow path structure, it is possible to prevent the generation of noise and the break of the flow of water caused by bubbles when the flow path structure is formed.

The heating operation of the ceramic heater 200 is performed by the water level sensor 160 installed above the heater 200 in the upper portion of the housing 100 and the water level of the inflow water flowing into the housing 100 through the inlet 110 So that the ceramic heater 200 is operated, thereby preventing damage to the heater 200 when the water level is low.

The water vapor generated when heating the inflow water through the ceramic heater 200 is allowed to stay in the buffer space 150 formed at the upper end of the ceramic heater 200 on the upper portion of the housing 100, Shape can be prevented, and noise due to high heat generation at the time of heading can be minimized.

When the inflow water flowing through the ceramic heater 200 is heated to a pressure (1.2 kgf / cm 2) of the set pressure in the housing 100 as described above, the inflow water is installed on the side of the housing 100 The safety valve 300 is automatically opened to discharge the steam to the outside, thereby preventing breakage due to the internal pressure and confirming the immediate reaction.

Meanwhile, the diameter of the inlet 110 into which the influent water flows is made smaller than the diameter of the outlet 120, so that the flow rate of the influent water can be increased to lower the pressure inside the container.

100; A housing 110; Inlet
120; Outlets 150; Buffer space
160; A water level sensor 200; Ceramic Heaters
300; Safety valve

Claims (2)

A ceramic heater for heating the inflow water introduced through the inlet is provided in the inlet and outlet ports for heating and discharging the inflow water to the outside by heating the inlet and the inflow water to be supplied to the housing, A heater module for a water purifier in which influent water is heated by a ceramic heater,
The housing 100 is vertically formed in the vertical direction,
A buffer space 150 is formed at an inner upper end of the housing 100 and one or more ceramic heaters 200 for heating inflow water flowing into the buffer space 150 are inserted into the buffer space 150, The inlet port 110 for supplying inflow water to the lower center portion of the ceramic heater 200 is formed at the lower end of the buffer space 150 formed at the upper end of the housing 100 and the inflow water is heated A water level sensor 160 for sensing the level of the inside of the housing 100 and preventing breakage of the heater 200 is provided on the upper portion of the heater 200 above the housing 100, And a safety valve 300 for opening and closing the inside of the housing 100 when the pressure inside the housing 100 exceeds a set pressure (1.2 Kgf / cm 2) Is provided on the upper surface Appointed heater module. delete

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