KR200378526Y1 - Hotwater supplier - Google Patents

Abstract

The present invention relates to a water heater for a water heater, to enable the rapid heating of the heater by direct water to prevent the breeding of bacteria due to preheating the water supply of the water heater.

That is, the present invention constitutes a heating unit in which the heater is directly immersed in the heating chamber, and has an insulated channel portion formed with a long channel for preventing electric shock between the inlet pipe and the outlet pipe.

Therefore, the present invention prevents the growth of germs due to heating by storing the water by heating it directly and supplying it directly, and heating is maximized by heating the heater directly to the water supply. Therefore, the electric shock due to leakage current due to the direct water of the heater is very useful.

Description

Water heater for water heaters {Hotwater supplier}

The present invention relates to a water heater for water heaters, and more particularly, in the construction of a heater for water heaters, a heater part is directly immersed in the heating chamber, and a water channel is formed long to prevent electric shock between the inlet pipe and the outlet pipe. The purpose of the present invention is to provide an insulated waterway unit so that the hot water can be heated quickly and quickly and prevent electric shock.

Another object of the present invention is to form a plurality of heating chambers in which a plurality of heaters are independently stored in the heating unit so that the heating of the water supply can be made quickly and easily.

In general, a water heater is used to supply warm water when a user showers or washes by heating and supplying water to be supplied.

On the other hand, the water heater as described above is composed of a heating vessel of a predetermined capacity, a heater provided in the heating cylinder, and a reservoir for keeping warm the hot water heated in the heating cylinder.

However, the conventional water heater as described above has a problem such that the water in the reservoir, which is heated in advance, is easily contaminated by bacteria.

Therefore, the present invention is to enable rapid heating supply of the heater by direct water heating so as to prevent propagation of bacteria due to preheating the water supply as described above.

That is, the present invention constitutes a heating unit in which the heater is directly immersed in the heating chamber, and has an insulated channel portion formed with a long channel for preventing electric shock between the inlet pipe and the outlet pipe.

In another embodiment of the present invention, the heating unit is formed of a plurality of heating chambers in which a plurality of heaters are independently stored.

Therefore, the present invention prevents the growth of bacteria caused by heating and supplying water by supplying it by heating it immediately and supplying it directly, and heating is maximized by heating the heater directly to the water supply, thereby maximizing heating efficiency. By forming the electric shock is to be prevented.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention prevents the propagation of bacteria due to heating and storage by allowing water to be directly supplied by instant heating and by forming an insulating channel to prevent electric shock by direct heating of the heater for instant heating. The heater 100 is a heater tube is directly directed to water without the insulation coating on one side with a long formed tubular body, and the water inlet pipe 410 and the water outlet pipe 420 provided on both sides of the heating part 100. It is provided with an insulating channel 200 formed a long channel to prevent electric shock between.

Here, the insulating channel 200 is composed of an insulated channel 211 formed of a tubular body, and the pipe channel screw 212 is coupled to the watertight to be maintained in the insulating channel 211 to form a spiral pipe line, the The insulating channel 211 constituting the insulating channel 200 is formed of an insulating material and formed of a tapered tube inwardly, and inserted into the insulating channel 211 to be coupled to the spiral channel 212 to form a spiral pipe. ) Is made of a heat transfer material is tapered toward the inner side so as to maintain the watertight between the insulating channel 211 is configured to reduce the outer diameter.

In addition, the outlet portion of the heating unit 100 may be provided with a flow rate sensor 310 to detect the amount of water in order to control the operation of the heater 110.

In addition, the heating unit 100 forms a heater storage chamber 120 made of a tubular body so that the four heaters 110 can be independently stored and heated, and the heater storage chamber 120 is divided into four heating chambers. It is provided with a heating splitter 130 formed to radially form the four partition plate 131, it is composed of a heater 110 that is housed in a heating chamber divided by the heating splitter 130 is heated directly The four heaters 110 are wired in series so that the voltage dropped to the insulation channel 140 is applied, and heaters 2 and 3 are positioned in the inlet and outlet side heating chambers, respectively. And the power is configured to be applied to the end of the fourth heater.

On the other hand, in the embodiment of the present invention, the inlet pipe 410 and the outlet pipe 420 communicating with the insulated waterway part 200 can be grounded the electricity leaked to the insulated waterway part 200 to ensure an electrical stable state. It is provided with a grounding hole 320 which is submerged and grounded.

As described above, the heater 100 is directly heated to the water without the insulation coating on one side with a long tubular body, and the water inlet pipe 410 and the water outlet pipe provided on both sides of the heating part 100. The present invention constituted with an insulated waterway part 200 formed with a long waterway to prevent electric shock between the 420 is heated when the water supply side is opened in the use of hot water and the inlet side is heated. Since the flow sensor 310 provided at the outlet side of the 100 detects this and inputs it to a controller (not shown), the controller receiving the input supplies power by controlling the heater 110 of the heating unit 100 so that water supply is quick. Is heated.

On the other hand, when the heating water is heated and supplied from the heating unit 100 as described above is mixed with each other while flowing through the pipe screw 212 of the insulating channel 200 provided on the discharge pipe side to maintain a uniform temperature The spiral conduit formed by the conduit screw 212 is formed long and the resistance value is increased by proportional to the length of the resistance value according to the Ohm law, thereby preventing electric conduction, thereby preventing electric shock.

Therefore, the present invention prevents the growth of germs due to heating by storing the water by heating it directly and supplying it directly, and heating is maximized by heating the heater directly to the water supply. Therefore, the electric shock due to leakage current due to the direct water of the heater is very useful.

Therefore, the present invention constitutes a heating part in which the heater is directly immersed, and has an insulated channel part formed with a long channel for preventing electric shock between the water inlet pipe and the water outlet pipe, so that the hot water is heated rapidly and quickly, and the water is stored by the water after heating. Direct supply, rather than supply, prevents the growth of bacteria and prevents electric shock due to leakage current due to the insulation channel.

In addition, by forming a plurality of heating chambers in which a plurality of heaters are independently stored in the heating portion, the heating of the water supply is quick and easy.

In addition, the flow sensor is provided at the outlet of the heating chamber is very useful to prevent the damage of the heater due to the water supply cutoff.

1 is an exploded perspective view showing an embodiment of the present invention.

Figure 2 is a perspective view showing an embodiment according to the present invention.

Figure 3 is a cross-sectional perspective view showing an embodiment according to the present invention.

Figure 4 is a plan sectional view showing an embodiment according to the present invention.

Figure 5 is a side cross-sectional view showing an embodiment according to the present invention.

Figure 6 is a perspective view of the heating splitter showing an embodiment according to the present invention.

7 is a wiring diagram of a heater according to the present invention

<Description of the symbols for the main parts of the drawings>

100: heating unit 110: heater

120: heater storage room

130: heating split 131: partition plate

200: insulated channel part

211: insulation channel 212: pipe screw

310: flow sensor 320: ground hole

410: water pipe 420: water pipe

Claims (3)

The heating unit 100 is formed by a long tubular body and the heater wire is not directly coated with water on one side, and between the water inlet pipe 410 and the water outlet pipe 420 provided on both sides of the heating unit 100. Is provided with an insulated waterway 200 formed a long channel to prevent electric shock, The insulated waterway part 200 is composed of an insulated waterway chamber 211 formed of a tubular body and a conduit screw 212 which is inserted into the insulated waterway chamber 211 so as to maintain watertightness to form a spiral pipe line. The insulating channel 211 constituting the water channel 200 is formed of an insulating material and formed into a tapered inner tube, and is inserted into the insulating channel 211 to be coupled to form a spiral pipe line. The water heater is made of a heat transfer material and tapered toward the inner side so as to keep the watertight between the insulated channel chamber 211, the outer diameter of the water heater is configured to be smaller. The method of claim 1; On the outlet side of the heating unit 100 is provided with a flow rate sensor 310 to control the operation of the heater 110 by sensing the water intake amount, The heating unit 100 forms a heater storage chamber 120 made of a tubular body so that the four heaters 110 can be independently stored and heated, and the heater storage chamber 120 can be divided into four heating chambers. And a heater splitter 130 having four split plates 131 formed in a radial shape, which is housed in a heating chamber divided by the heat splitter 130 and heated directly. The four heaters 110 are wired in series so that the voltage dropped to the insulation channel 140 is applied, and the heaters 2 and 3 are located in the inlet and outlet side heating chambers, respectively. Water supply heater for a water heater, characterized in that the power is applied to the end of the burner heater. The method according to any one of claims 1 to 2; A grounding hole that is inundated and grounded to secure an electrical stable state by grounding the electricity leaked to the insulated waterway part 200 to the inlet pipe 410 and the outlet pipe 420 communicating with the insulated waterway part 200. Water supply heater for a water heater, characterized by having a (320).