ES2381290A1 - Electric water heater with solenoid and serpentin (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

The electric water heater with solenoid and coil, is a very fast system to heat the water for the shower, because the thick cable solenoid (4) creates a great temperature in its hollow when an electric current crosses its turns. In this way, if you put a tube in the form of a coil (7) in that hole, the water that passes through it is heated immediately, and thus, do not have to wait longer as it happens in an electric heater. The acquaintances. (Machine-translation by Google Translate, not legally binding)

Description

Electric water heater with solenoid and coil.

Object of the invention

The objective of the present invention is to create an electric heater that is very fast in your task of heat the water for the shower, for the kitchen, for a pool, etc...

Background of the invention

Among the known antecedents of the present invention is the typical electric heater that takes more than one hour to heat the water because the system you use is the one that puts a resistance in the water, and, little by little, it warms up the water around it. This presents some problems. How is it that when the water is spent, nobody can take a shower plus. Also, you have to have it plugged in all day so that you always have hot water, which means a much higher energy expenditure to the heater model presented today, the one that is only going to need to be plugged in while using. This is what is happening also in the well-known butane gas heater, in which water heats up as it passes through a coil-shaped tube that find above a good number of lighters that light with Butane The problem with this heater is that, the gas, It ends once in a while, it's dangerous, and sometimes it goes out, leaving the one who showers in the middle of his homework. With heater electric solenoid and coil present today, all this does not no problem because the heater only works while one showers, or, while washing the dishes. We must never look a match to light it, -the ones that end too-; It is not dangerous, it never goes out unless they cut the light from the central, produces very hot water and do not wait for the Water is hot.

Description of the invention

The electric water heater with solenoid and coil , is a simple system to heat the shower and kitchen water, which is formed by a few elements such as a thick wire solenoid (4), which is crossed a coil (7) that will lead the water to the exit, in the shower faucet or in the tap where it is needed.

The main water pipe (5) forks in two tubes using a known piece that plumbers call a "T", (6). One of the tubes, (8), will carry the cold water through the outside of solenoid (4). The other of the tubes (7) will be extended into the solenoid (4) forming a coil that, or either it will come out on the other side of the solenoid, or it will bend before, going back the way back, and, it will twist then, again, towards the exit, to take advantage of the space of the hollow solenoid. This will allow the water that flows through it. After that, this hot water will come out the outlet tube and will go to the tap (9), where may join the cold water of the other tube (8), that is, where the user must mix the water from the two tubes to choose the temperature you need. This heater would be optimal also for heat large bodies of water, such as those in a pool, by example. As you can see, the cost of the operation of heat the pool water, with this heater, -or, with one a little bigger-, it can be very small, because, besides being very fast, the solenoid does not spend too much energy as it can be add, previously, a Transformer that elevates the Voltage, so the Solenoid will spend less energy and will will heat even more. Either way, this Transformer is optional and serves to choose the voltage you want to reach the solenoid. Date of the invention: (13.08.10).

Description of the figures

Figure 1: Front view of the heater water with its main components: be the main tube of the water (5) that connects to a "T" plumbing (6) where the tube forks in two: on the one hand (8) the cold water follows, and, for the other, the water continues to a coil (7) that crosses a thick wire solenoid (4) that is connected to a switch (1), which, in turn, is connected to the network. The coil tube (7), when leaving the solenoid, continue towards the element (9), which relates again to cold water (8), be the shower faucet, or, the kitchen faucet, where the cold water and the Hot water.

Figure 1:

one)

Switch.

2)

Right cable.

3)

Left cable.

4)

Solenoid.

5)

Main water pipe.

6)

A "T" plumber.

7)

Coil tube.

8)

Cold water tube.

9)

A "T" plumber or a tap.

10)

Water tap or telephone tube shower.

Description of a preferred embodiment

The electric water heater with solenoid and coil , is characterized by being a system of very few elements, and, very fast, to heat the shower or kitchen water, a pool, etc ... It is formed by the main water pipe (5), which forks into two tubes when it reaches a "T" of those used by plumbers (6). One of them, the tube (8), keeps the water cold and goes directly to the tap (9). The other tube, (7), forms a coil, which is inserted inside a solenoid (4), thick cable, which is connected to a switch (1), which, in turn, is connected to the alternating current network. The coil tube (7), when leaving the solenoid (4), is directed towards a tap (9) where the hot water can be mixed with the cold water of the tube (8) that is also connected to this tap (9 ). A reducing transformer is added to the output cable (3) of the solenoid so that it returns to the network the same voltage that has entered its turns.

Claims (1)

1. Electric water heater with solenoid and coil, characterized by being a system of very few elements, and, very fast, to heat the shower or kitchen water, that of a pool, etc ... It is formed by the main water tube (5), which forks into two tubes, into a "T" of which the plumbers (6) use. One of them, the tube (8), keeps the water cold and goes directly to the tap (9). The other tube, (7), forms a coil that is inserted into a solenoid (4), -thick-wire, which is connected to a switch (1), which, in turn, is connected to AC network. The coil tube (7), when leaving the solenoid (4), is directed towards a tap (9) in which the cold water tube (8) also flows. A reducing transformer is added to the output cable (3) of the solenoid.