KR102219522B1 - A Quartz Pipe Heater - Google Patents

Abstract

The present invention relates to a quartz tube heater that heats water using a quartz tube, and more particularly, a quartz tube is provided as a double quartz tube composed of an inner quartz tube and an outer quartz tube, but external pressure is provided between the inner and outer quartz tube. By maintaining a lower pressure state and installing electrodes that provide electricity to both outer ends of the inner quartz tube, but applying a heating resistor to connect between these electrodes, water is supplied to the inside of the inner quartz tube and The present invention relates to a quartz tube heater for hot water heating in which the construction is simple and the installation cost is inexpensive, and thus economical efficiency and efficiency are remarkably improved by allowing the radiant heat of the heating resistor generated through the provided electrode to heat water.

Description

Double quartz tube heater and quartz tube heater for hot water heating including the same {A Quartz Pipe Heater}

The present invention relates to a quartz tube heater that heats water using a double quartz tube, and more particularly, a quartz tube is provided as a double quartz tube composed of an inner quartz tube and an outer quartz tube, but between the inner and outer quartz tubes. By maintaining a low pressure state lower than the atmospheric pressure, and installing electrodes that provide electricity to both outer ends of the inner quartz tube, but applying a heating resistor to connect between these electrodes, water is supplied to the inside of the inner quartz tube and the outer side The present invention relates to a quartz tube heater for hot water heating in which the construction is simple and the installation cost is low, so that the radiant heat of the heating resistor generated through the electrode provided in the heater heats the water.

Recently, hot water supply devices tend to pursue miniaturization and weight reduction of products, so that a water storage tank having a relatively small capacity and a quick heat response as possible is used, and a hot water device that instantaneously heats by installing a heater inside the hot water device is used.

Heaters used in conventional water heaters use a heater in which a powder alloy material of tungsten or molybdenum is applied by screen printing as a resistance heating element on a ceramic substrate, or silver, platinum, silver-palladium, silver-platinum powder as a resistance heating element. A method is mainly used in which a pigment and a binder are mixed and heated by submerging it in a storage tank using a heater applied on a ceramic or insulating layer substrate.

These conventional heaters are small and thin, and are used as instantaneous hot water heating heaters, and are excellent in heat exchange efficiency, but the manufacturing process is complex and the manufacturing cost is high. When scale occurs, the withstand voltage characteristics are deteriorated, and when energized while not in contact with water, the ceramic substrate is instantaneously damaged by thermal shock, or local heating occurs when the application of a heating resistor is not uniform. There is a difficult drawback to how to use it.

In addition, a hot water device for instantaneous heating by installing a heater inside the conventional storage tank (reservoir tank) has a problem of severe electricity waste because the heater is continuously turned on to continuously heat the water filled in the water tank.

In addition, there is a problem that is harmful to the human body of hot water users because hot water in which various harmful bacteria are propagated in a water tank is supplied as it is to a hot water heater.

Recently, a water heater using a quartz tube heater has been disclosed. The'hot water direct water heating medium' of Korean Patent Publication No. 10-2017-0045511 is known for a water heater using a stone heat pipe heater.

In a conventional heater using a quartz tube, a heating wire is installed inside the quartz tube and the water flowing out of the quartz tube is instantaneously heated by the heating of the heating wire. Such a water heater directly contacts the quartz tube when the heater is replaced. There is a risk of burns.

In addition, since the water inlet and the outlet must be provided in the outer quartz tube, there is a problem in that manufacturing is difficult and cost is also high.

In addition, a conventional water heater using a quartz tube heater has a disadvantage in that it is difficult to expand and use the capacity according to the installation environment because the amount of hot water (capacity) is determined.

KR 10-2017-0045511 (Publication number) 2017.04.27. KR 10-2006-0053452 (Publication number) 2006.05.22. KR 20-0439282 (registration number) 2008.03.25.

Accordingly, the present invention was devised to solve the conventional problem as described above,

The quartz tube is provided as a double quartz tube consisting of an inner and outer quartz tube, but maintains a low pressure between the inner and outer quartz tubes at a lower pressure than the external pressure, and installs electrodes that provide electricity to both outer ends of the inner quartz tube. However, through a configuration in which a heating resistor is connected between these electrodes, water is supplied to the inside of the inner quartz tube and the water is heated by the radiant heat of the heating resistor generated through the electrode, so that the composition is simple and the installation cost is low. An object thereof is to provide a quartz tube heater for heating.

Another object of the present invention is to provide a safe heater that prevents burn accidents in advance because it is not hot even if it contacts the outside of the heater by providing an insulator on the outer quartz tube surface of the double quartz tube so that the heater is not directly exposed to the outside. .

Another object of the present invention is to increase the expandability of a quartz tube heater for hot water heating by allowing the number of installations to be easily added or reduced according to the large and small capacity of hot water provided through a double quartz tube.

The present invention for achieving the above object is a hollow inner quartz tube 111 of which both ends are opened; The outer quartz tube 112 that is coupled to the outside of the inner quartz tube 111 is used as a double tube, but the inner quartz tube 111 and the outer quartz tube 112 forming the double tube are formed of the same material; Both ends of the outer quartz tube 112 are sealed so that both ends of the inner quartz tube 111 are provided with protrusions 111a protruding outward in the longitudinal direction thereof; Between the inner quartz tube 111 and the outer quartz tube 112 there is provided a space (112a) in which a low pressure lower than the external atmospheric pressure is formed; Electrodes 113 for supplying electricity are provided at the upper and lower portions of the inner quartz tube 111 at a portion positioned in the space 112a to be connected to the power source through the outer quartz tube 112; A heating resistor that generates heat by power supplied to the electrode 113 while being connected to the electrode 113 on the outer surface of the inner quartz tube 111 at a portion located in the space 112a ( 114 is adhesively connected to the electrode 113 by a conductive adhesive 115; An insulator is applied to the outer surface of the outer quartz tube 112 so that high temperatures generated in the inner quartz tube 111 are not transmitted to the outside; Water flowing into the inner quartz tube 111 is discharged while being heated to hot water by the heat generated by the heating resistor 114.

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In addition, in the outer quartz tube 112 of the present invention, the space part 112a formed between the inner quartz tube 111 and the outer quartz tube 112 has a lower pressure lower than the external atmospheric pressure. An air outlet 112b is provided.

In addition, the present invention is provided with an upper block 120 for fixing the upper side and a lower block 130 for fixing the lower side by inserting and installing a plurality of the double quartz tube heaters side by side, respectively, the upper block 120 An upper inner block 121 having a plurality of upper mounting holes 121a so that the protrusion 111a formed at one end of the inner quartz tube 111 is inserted, and an outer surface of the upper inner block 121 It is provided on the upper outer block 122 in which the upper water flow space 122a is formed to allow the water provided to the inner quartz tube 111 to flow, and the outer surface of the upper outer block 122 While being composed of the upper inner block 121 and the upper support block 123 for fixing the upper outer block 122, the lower block 130 is formed at the other end of the inner quartz tube 111 A lower inner block 131 having a plurality of lower mounting holes 131a formed therein so that the protrusion 111a is inserted, and the inner quartz tube 111 while being provided on the outer surface of the lower inner block 131 The water supply port 132a, the water outlet 132b through which water is discharged, and a lower outer block 132 in which a lower water flow space part 132c for allowing water to flow is formed, and the lower outer block 132 ) Is provided on the outer surface of the lower inner block 131 and the lower support block 133 for fixing and installing the lower outer block 132.

In addition, the upper block 120 and the lower block 130 of the present invention are provided with a double quartz tube heater 110a for water supply to which cold water is first supplied to one side between them, and the heated water is discharged to the other side. A double quartz tube heater 110b for discharging water is installed, while water flows upward or downward between the double quartz tube heater 110a for water supply and the double quartz tube heater 110b for water discharge. Multiple heated double quartz tube heaters are installed.

The quartz tube heater for hot water heating according to the present invention includes a quartz tube as a double quartz tube consisting of an inner quartz tube and an outer quartz tube, and water is supplied as radiant heat of a heating resistor generated through an electrode by supplying water to the inside of the inner quartz tube. By heating, the configuration is simple and installation cost can be reduced, thereby improving economy and effectiveness.

In addition, the present invention has the advantage of preventing burn accidents because it is not hot even if the heater is in contact with the outside by providing an insulator on the outer quartz tube surface of the double quartz tube so that the heater is not directly exposed to the outside.

In addition, the present invention has the advantage of increasing the expandability of the quartz tube heater for hot water heating because it is possible to easily add or reduce the number of installations of the double quartz tube heater according to the amount of hot water provided through the double quartz tube.

1 is a schematic cross-sectional view of a state in which a plurality of double quartz tube heaters provided in a quartz tube heater for hot water heating according to the present invention are installed in parallel,
2 is a schematic state diagram of a case in which a quartz tube heater for hot water heating according to the present invention is embedded,
3 is a schematic perspective view and a cross-sectional view of a double quartz tube heater provided in the quartz tube heater for hot water heating according to the present invention,
4 is a view showing a state of use in which heated hot water is discharged after being heated while water is supplied to the quartz tube heater for hot water heating according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described so that those of ordinary skill in the art can easily implement them with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the quartz tube heater 100 for hot water heating that heats the incoming water (or fluid) according to the present invention and heats it with warm hot water,

A double tube is formed with a hollow inner quartz tube 111 through which water flows in and out of both ends and an outer quartz tube 112 coupled to the outside of the inner quartz tube 111,

Both ends of the outer quartz tube 112 are sealed so that both ends of the inner quartz tube 111 are provided with protrusions 111a protruding outward in the longitudinal direction thereof,

The outer quartz tube 112 has an air outlet 112b for draining the bet so that the space 112a formed between the inner quartz tube 111 and the outer quartz tube 112 is formed at a low pressure lower than the external atmospheric pressure. Equipped,

Electrodes 113 for supplying electricity are installed and provided in the upper and lower portions of the inner quartz tube 111 located in the space 112a so that they can be connected to power, respectively,

Heat generated by the power supplied to the electrode 113 while being connected to the electrode 113 on the outer surface of the inner quartz tube 111 at a portion located in the space 112a The resistor 114 is applied,

It consists of a double quartz tube heater 110 that allows water flowing into the inner quartz tube 111 to flow out while being heated to hot water by radiant heat generated from the heating resistor 114.

A wire L is connected to the electrode (also referred to as “electrode terminal”, 113) to supply power.

Here, the electrode 113 has one end connected to the heating resistor 114 applied to the outer surface of the inner quartz tube 111, and the other end penetrates the outer quartz tube 112 and protrudes outwardly, Connected. The electrode 113 provided on the upper side and the lower side of the inner quartz tube 111 is made of a cathode and the other side of the anode.

Therefore, when power is applied to the electrode 113, heat (radiative heat) is generated in the heating resistor 114.

At this time, water is supplied into the inner quartz tube 111 and heated.

As shown in FIG. 3, the electrode 113 is adhesively connected to the heating resistor 114 using a conductive adhesive 115.

In addition, an insulator (not shown) is applied to the outer surface of the outer quartz tube 112 of the present invention to prevent the high temperature generated from the inner quartz tube 111 from being transmitted to the outside and to reflect heat to the inner quartz tube. Has been.

Therefore, the insulator prevents the temperature of the hot water heated in the inner quartz tube 111 from being transmitted to the outside of the outer quartz tube 112, so that even if the user's skin comes into contact, there is little risk of burns, so it can be managed very safely. It is possible to prevent the electrode from being exposed to the outside, so that it is not disconnected from the heating resistor.

In addition, the quartz tube heater 100 for hot water heating according to the present invention is provided with an upper block 120 and a lower block 130 respectively inserting and installing a plurality of the double quartz tube heaters 110 side by side,

The upper block 120 includes an upper inner block 121 having a plurality of upper mounting holes 121a so that the protrusion 111a formed at one end of the inner quartz tube 111 is inserted, and the upper inner An upper outer block 122 provided on the outer surface of the block 121 and having an upper water flow space portion 122a for allowing water provided to the inner quartz tube 111 to flow, and the upper outer block ( It is provided on the outer surface of 122 and is composed of an upper support block 123 that fixes the upper inner block 121 and the upper outer block 122.

In addition, the lower block 130 includes a lower inner block 131 having a plurality of lower mounting holes 131a formed therein so that the protrusion 111a formed at the other end of the inner quartz tube 111 is inserted, and the lower A water supply port 132a through which water is supplied to the inner quartz tube 111 while being provided on the outer surface of the inner block 131, a water outlet port 132b through which water is discharged, and a lower water flow space part to allow water to flow A lower outer block 132 on which 132c is formed, and a lower support block provided on an outer surface of the lower outer block 132 and fixing the lower inner block 131 and the lower outer block 132 ( 133).

The quartz tube heater 100 for hot water heating of the present invention is provided with a double quartz tube heater 110a for water supply to which cold water is first supplied to one side between the upper block 120 and the lower block 130, and , A water discharge double quartz tube heater 110b for discharging the water heated to the other side is installed, and water is provided between the double quartz tube heater 110a for water supply and the double quartz tube heater 110b for water discharge. A plurality of double quartz tube heaters 110n heated while flowing are installed.

A water supply cock 140 is connected to the lower block 130 to supply cold water to the water supply port 132a, and a hot water discharge cock 150 to discharge hot water heated to the water discharge port 132b. Is equipped with a connection.

In an embodiment of the present invention, a total of four double quartz tube heaters in which a double quartz tube heater 110a for water supply, a double quartz tube heater 110b for water discharge, and two double quartz tube heaters 110 are installed between them. The configuration in which (110) is installed will be described as an example.

However, depending on the installation environment, two or more double quartz tube heaters 110 are added between the water supply double quartz tube heater 110a and the water discharge double quartz tube heater 110b to increase the capacity of the heater. You can, and you can reduce them to make the capacity smaller. It is preferable that the number of expansion of the double quartz tube heater 110 including the double quartz tube heater 110a for water supply and the double quartz tube heater 110b for water discharge is an even number.

Here, the electrodes 113 connected to the four double quartz tube heaters 110 may be connected in series or may be connected in parallel.

The upper support block 123 and the lower support block 133 are provided with locking fixtures 123a and 133a, respectively, to be hung and fixed inside a wall or case.

In addition, the quartz tube heater 100 for hot water heating of the present invention is further provided with a case 101 that accommodates it therein to facilitate movement and installation, as shown in FIG. 2.

Accordingly, the quartz tube heater 100 for hot water heating according to the present invention can be accommodated and fixed to the case 101 and then installed on a wall or used when moving.

Here, it is preferable to install the case 101 so that the water supply cock 140 and the hot water discharge cock 150 are exposed to the outside thereof.

In addition, when the pressure of the heated hot water rises above a certain pressure in the water discharge cock 150, the hot water is discharged to the outside through the bypass port 161, so that the quartz tube heater 100 for hot water heating is caused by high temperature or A hot water pressure control device 160 is installed to protect the flowing water from being damaged by high pressure generated when the device is clogged due to a device failure.

The hot water pressure regulating device 160 is provided with a spring (not shown) that is compressed when the hot water pressure rises above a predetermined pressure to open the bypass port 161. Therefore, when the heated hot water pressure becomes higher than the set pressure, the bypass port 161 is opened to discharge hot water, and when the hot water pressure decreases, the bypass port 161 is closed again.

In addition, the water discharge cock 150 is provided with a sensor 170 that senses the pressure or temperature of the discharged hot water and provides it to a control unit (not shown).

Therefore, by providing the temperature of hot water to the control unit through the sensor 170, the user can properly control the temperature of hot water desired by the user, and the pressure of the hot water allows the control unit to control the hot water pressure control device 160. .

In addition, the upper mounting hole 121a formed in the upper inner block 121 of the upper block 120 and the lower mounting hole 131a formed in the lower inner block 131 of the lower block 130 A packing 180 is installed to prevent leakage of water flowing in the inner quartz tube 111.

Therefore, the water flowing in the inner quartz tube 111 is completely sealed so as not to leak into the inner side of the upper block 120 and the lower block 130 by the packing 180.

An operation procedure of heating and discharging hot water introduced through the quartz tube heater 100 for hot water heating of the present invention configured as described above will be described.

Cold water through the control unit (not shown) through the water supply cock 140 through the water supply port (132a) formed in the lower outer block 132, the inner quartz of the water supply double quartz tube heater (110a) When supplied to the tube 111, the heating resistor 114 generates heat by the electrode 113, thereby heating water.

The water heated in this way is provided to the second double quartz tube heater through the upper water flow space 122a formed in the upper outer block 132, and the water flowing in the same manner here is heated and then the lower outer side The third double quartz tube heater is provided again through the lower water flow space part 132c formed in the block 132, and then again through the upper water flow space part 122a formed in the upper outer block 132. It is supplied to the inner quartz tube 111 of the double quartz tube heater 110b for discharging water.

Then, the hot water finally heated in the inner quartz tube 111 of the double quartz tube heater 110b for discharging water is the water outlet 132b formed in the lower outer block 132 and the hot water discharge cock 150 ) Through discharge.

As described above, since the present invention is configured to be installed by adding or subtracting double quartz tube heaters, the expandability of the capacity of the water heater is very good.

As described above, the quartz tube hearter of the present invention includes a quartz tube as a double quartz tube made of an inner and outer quartz tube, but maintains a low pressure state lower than the external pressure between the inner and outer quartz tube, and Through a configuration in which electrodes that provide electricity are installed at both ends of the outside, but the heating resistor is connected between these electrodes, water is supplied to the inside of the inner quartz tube and radiant heat of the heating resistor generated through the electrodes provided on the outside is prevented. By heating the water, the construction is simple and the installation cost is inexpensive, thereby improving the economy and efficiency.

100: quartz tube heater for hot water heating 101: case
110: double quartz tube heater
110a: double quartz tube heater for water supply 110b: double quartz tube heater for water discharge
111: inner quartz hall 111a: protrusion
112: outer quartz hall 112a: space 112b: air outlet
113: electrode 114: heating resistor 115: conductive adhesive
120: upper block
121: upper inner block 121a: upper mounting hole 122: upper outer block
122a: upper water flow space 123: upper support block 123a: hanger
130: lower block
131: lower inner block 131a: lower mounting hole 132: lower outer block
132a: water supply port 132b: water outlet 132c: lower water flow space
133: lower support block 133a: hanger
140: water supply cock 150: hot water discharge cock
160: hot water pressure regulating device 161: bypass port
170: sensor 180: packing

Claims (5)

A hollow inner quartz tube 111 in which both ends are opened;
The outer quartz tube 112 that is coupled to the outside of the inner quartz tube 111 is used as a double tube, but the inner quartz tube 111 and the outer quartz tube 112 forming the double tube are formed of the same material;
Both ends of the outer quartz tube 112 are sealed so that both ends of the inner quartz tube 111 are provided with protrusions 111a protruding outward in the longitudinal direction thereof;
Between the inner quartz tube 111 and the outer quartz tube 112 there is provided a space (112a) in which a low pressure lower than the external atmospheric pressure is formed;
Electrodes 113 for supplying electricity are provided at the upper and lower portions of the inner quartz tube 111 at a portion positioned in the space 112a to be connected to the power source through the outer quartz tube 112;
A heating resistor that generates heat by power supplied to the electrode 113 while being connected to the electrode 113 on the outer surface of the inner quartz tube 111 at a portion located in the space 112a ( 114 is adhesively connected to the electrode 113 by a conductive adhesive 115;
An insulator is applied to the outer surface of the outer quartz tube 112 so that high temperatures generated in the inner quartz tube 111 are not transmitted to the outside;
A double quartz tube heater that allows water flowing into the inner quartz tube 111 to flow out while being heated to hot water by heat generated from the heating resistor 114.
delete The method of claim 1,
In the outer quartz tube 112, an air outlet 112b for removing the inner air to the outside so that the space part 112a formed between the inner quartz tube 111 and the outer quartz tube 112 has a low pressure lower than the external atmospheric pressure. ) Is equipped with a double quartz tube heater.
In the quartz tube heater for hot water heating manufactured using the double quartz tube heater of claim 1 or 3,
An upper block 120 for fixing the upper side and a lower block 130 for fixing the lower side are provided by inserting and installing a plurality of the double quartz tube heaters side by side, respectively,
The upper block 120 includes an upper inner block 121 having a plurality of upper mounting holes 121a so that the protrusion 111a formed at one end of the inner quartz tube 111 is inserted, and the upper inner An upper outer block 122 provided on the outer surface of the block 121 and having an upper water flow space portion 122a for allowing water provided to the inner quartz tube 111 to flow, and the upper outer block ( 122, while being provided on the outer surface of the upper inner block 121 and the upper outer block 122 is configured to be fixed to the upper support block 123,
In addition, the lower block 130 includes a lower inner block 131 having a plurality of lower mounting holes 131a formed therein so that the protrusion 111a formed at the other end of the inner quartz tube 111 is inserted, and the lower A water supply port 132a through which water is supplied to the inner quartz tube 111 while being provided on the outer surface of the inner block 131, a water outlet port 132b through which water is discharged, and a lower water flow space part to allow water to flow A lower outer block 132 on which 132c is formed, and a lower support block provided on an outer surface of the lower outer block 132 and fixing the lower inner block 131 and the lower outer block 132 ( Quartz tube heater for hot water heating consisting of 133).
The method of claim 4,
The upper block 120 and the lower block 130 are provided with a double quartz tube heater 110a for water supply to which cold water is first supplied to one side between them, and for discharging water from which heated water is discharged to the other side. Double quartz tube heater (110b) is installed,
Quartz for hot water heating in which a plurality of double quartz tube heaters are installed between the double quartz tube heater 110a for water supply and the double quartz tube heater 110b for discharging water. Tubular heater.

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