KR102560040B1 - Immersion heaters having fuse - Google Patents

Abstract

An underwater heater with a fuse according to the disclosed subject matter of the present invention includes a heating pipe having a heating wire embedded therein, a sensing pipe equipped with a sensor to sense heat therein, and a main body connected to ends of the heating pipe and the sensing pipe. As an underwater heater composed of, the fuse unit is located inside the closing pipe divided under the sensing pipe; and an airtightness maintaining unit for maintaining airtightness by connecting adjacent surfaces of the sensing pipe and the finishing pipe to each other.
According to the present invention, the sensing pipe and the finishing pipe are connected by an airtight maintaining part in a state in which the finishing pipe in which the fuse unit is embedded in the sensing pipe is placed adjacent to each other, so that the fuse unit can be easily replaced when the fuse unit is disconnected, thereby providing an economical effect.

Description

Immersion heater with fuse {IMMERSION HEATERS HAVING FUSE}

The present invention relates to an immersive heater equipped with a fuse, and more particularly, to an immersed heater equipped to replace a fuse.

In general, submersible heaters are used to easily heat an object to be heated such as a large amount of water or liquid chemicals or aqueous solutions contained in a bucket, container, or water tank such as a basin to a predetermined temperature.

At this time, the conventional submersible heater spirally winds the lower part of the heating tube in which the heating element for dissipating heat energy is built in according to power supply, and the both ends are coupled through an insertion part formed on the lower surface of the control box to be connected to the power terminal. In addition, a temperature control unit for adjusting the temperature of the object to be heated is provided on the upper surface of the control box, a lamp is provided to indicate whether the heating element is operating, and a water temperature sensor for controlling the operation of the heating element by detecting the temperature of the object to be heated is provided between both ends of the heating tube so as not to come into contact with each other in a state of equilibrium with the heating tube.

A technology related to such an underwater heater is disclosed in Korean Patent Registration No. 1233284.

Patent Document 1 has a problem in that the entire heating tube must be replaced when the fuse is disconnected by heat.

Korean Patent Registration No. 1233284 (2013.02.07)

The present invention has been made in view of the above points, and an object of the present invention is to provide an underwater heater having a fuse that is provided inside a sensing pipe so that the fuse can be easily replaced when disconnected.

An underwater heater having a fuse according to the present invention for achieving the above object is a heating pipe having a heating wire embedded therein, a sensing pipe equipped with a sensor to detect heat therein, and a main body connected to ends of the heating pipe and the sensing pipe. As an underwater heater composed of, the fuse unit is located inside the closing pipe divided under the sensing pipe; and an airtightness maintaining unit connecting adjacent surfaces of the sensing pipe and the finishing pipe to each other to maintain airtightness.

An insertion hole formed to insert the fuse unit into the closing pipe, and a fuse cap having a terminal location groove formed at one side of the insertion hole to position a terminal of the fuse unit.

A bending part fixing both ends of the airtightness maintaining part to neighboring surfaces of the sensing pipe and the finishing pipe may be further included.

The confidentiality unit may be made of a heat-resistant material.
An underwater heater having a fuse according to the present invention includes a heating pipe 120 having a hot wire 122 therein; a sensing pipe 130 equipped with a sensor to sense heat therein; a body part 110 connected to ends of the heating pipe 120 and the sensing pipe 130; and a finishing pipe 132 formed detachably under the sensing pipe 130, wherein a fuse unit 134 is provided inside the finishing pipe 132, and the sensing pipe 130 and the finishing pipe 132 have the same outer diameter, and a confidentiality unit 138 surrounds and fixes each end of the sensing pipe 130 and the finishing pipe 132, wherein The overlapping portion of the confidentiality portion 138 and the sensing pipe 130 and the overlapping portion of the confidentiality portion 138 and the finishing pipe 132 are fixed by a bending portion 140 coupled in a form surrounding the confidentiality portion 138, the fuse portion 134 is inserted into the fuse cap 136, and the fuse cap 136 into which the fuse portion 134 is inserted is inserted into the closing pipe 132. and fixed, and a terminal location groove 1362 is formed in the fuse cap 136 so that the terminal 1340 provided in the fuse unit 134 can be fixed, and the length of the finishing pipe 132 can be adjusted. It is possible to adjust the length of 132, and the finishing pipe 132 can prevent the loosening of the length adjusting part 1323 by being tightly fastened to the upper and lower surfaces of the length adjusting part 1323, respectively. It is characterized in that the first anti-loosening part 1324 and the second anti-loosening part 1325 are respectively provided with spirals in opposite directions.

According to the present invention, the sensing pipe and the finishing pipe are connected by an airtight maintaining part in a state in which the finishing pipe in which the fuse unit is embedded in the sensing pipe is placed adjacent to each other, so that the fuse unit can be easily replaced when the fuse unit is disconnected, thereby providing an economical effect.

1 is a perspective view showing the overall configuration of an immersed heater having a fuse according to the present invention.
2 is an exploded perspective view showing a sensing pipe in an underwater heater having a fuse according to the present invention.
3 is a cross-sectional view showing an underwater heater having a fuse according to the present invention.
4 is a bottom view illustrating a state in which the fuse unit 134 is inserted into the fuse cap 136 according to the present invention.
5 is a cross-sectional view showing a state in which the length of the finished pipe can be adjusted in the immersed heater having a fuse according to the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, an immersed heater having a fuse according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the overall configuration of an immersion heater having a fuse according to the present invention, FIG. 2 is an exploded perspective view showing a sensing pipe in an immersion heater having a fuse according to the present invention, FIG. 3 is a cross-sectional view showing an immersion heater having a fuse according to the present invention, and FIG. 4 is a bottom view showing a state in which a fuse unit 134 is inserted into a fuse cap 136 according to the present invention. It is a cross-sectional view showing a state in which the length of the finished pipe can be adjusted in the equipped submersible heater.

1 to 5, the immersed heater 100 with a fuse of the present invention includes a main body 110, a heating pipe 120 and a sensing pipe 130.

As shown in FIG. 1, the body part 110 has ends of the heating pipe 120 and the sensing pipe 130 respectively fixed to the lower part, a PCB board (not shown) is provided therein, and a plug (not shown) for supplying power to the PCB board is electrically connected.

In addition, the main body 110 is provided with power terminal rods (not shown in the drawing) electrically connected to both ends of the heating pipe 120 while being located inside the heating pipe 120 .

That is, the upper end of the power terminal rod is fixed to the inside through the bottom surface of the body portion 110 and the lower end is connected to both ends of the hot wire 122 rising to a range of 190 to 195 ° C.

The PCB board is integrally composed of a temperature control unit (not shown) to simplify the structure, delays power cutoff for a set time even if a conductor or the like touches the surface of the heating pipe 120, and cuts off the power when the set time is exceeded. It includes a control unit. In addition, values for each temperature are displayed along the periphery of the lever protruding from the temperature control unit, and the temperature is output through an upper display window (not shown).

As shown in FIG. 1 , the heating pipe 120 is formed in the form of a hollow metal tube, and a coil-shaped heating wire 122 is embedded therein.

In this case, the heating pipe 120 is preferably formed of a metal material such as titanium, iron, tantalum, zirconium, or stainless steel having low weight, excellent corrosion resistance, thermal conductivity, corrosion resistance, and chemical resistance.

In addition, the heating pipe 120 is filled with a filler such as magnesium oxide (Mgo), which has excellent thermal conductivity and insulation, so as to surround the heating wire 122, thereby increasing thermal efficiency according to the conversion of electrical energy to thermal energy.

Further, the heating pipe 120 is formed by bending an end submerged in water into a U-shape or a ring shape.

The heating wire 122 is installed inside the heating pipe 120 and has a heating structure that generates heat by receiving power, and is provided with one of heating elements such as nichrome wire, carbon heating element, ceramic heating element, and tungsten wire.

In addition, the temperature of the hot wire 122 is set by the fuse unit 134 provided inside the sensing pipe 130 so that the function can be lost when the temperature of the malfunction is exceeded (100° C. to 190° C.), and the fuse unit 134 is disconnected at the malfunction temperature.

As shown in FIG. 1, the sensing pipe 130 has an upper portion fixed to a lower portion of the main body portion 110, and a thermal sensor (not shown in the drawing) connected to the PCB board by wires is embedded therein.

In addition, the temperature can be sensed by a thermal sensor built into the sensing pipe 130 .

In addition, the sensing pipe 130 has an open bottom, and a closed end pipe 132 is divided and formed at the top while the bottom is closed. At this time, it is preferable that the outer diameters of the sensing pipe 130 and the finishing pipe 132 are the same.

Meanwhile, the sensing pipe 130 is provided with connectors 1346 connected by wires to electrically connect to both terminals 1340 of the fuse unit 134 therein.

Also, a fuse unit 134 is positioned inside the closing pipe 132 .

Further, the fuse unit 134 is coupled to the inside of the closing pipe 132 while being inserted into the inside of the fuse cap 136, and the terminal 1340 is extended so that electricity can flow to both sides.

Here, the fuse cap 136 has an insertion hole 1360 into which the fuse unit 134 is inserted, and a terminal location groove 1362 formed on one side of the insertion hole 1360 so that the terminal 1340 of the fuse unit 134 is positioned.

Moreover, the insertion hole 1360 has an inclined chin formed thereon to prevent the fuse unit 134 from moving.

At this time, in the fuse unit 134, the terminal 1340 connected to one end extends in a vertical direction, and the terminal 1340 connected to the other side extends in parallel while being bent vertically, horizontally, and vertically, so that the end of the terminal 1340 is exposed to the outside of the closing pipe 132.

In addition, a cylindrical airtightness maintaining part 138 connecting the adjacent surfaces of the sensing pipe 130 and the finishing pipe 132 to maintain airtightness is provided.

At this time, the confidentiality unit 138 is provided with a heat-resistant material such as silicon.

And both ends of the sealing part 138 are adjacent to the sensing pipe 130 and the finishing pipe 132 so that the sealing part 138 is not separated from the neighboring surfaces of the sensing pipe 130 and the finishing pipe 132. It includes a bending part 140 for fixing.

Here, the bending part 140 is provided in a form in which a concavo-convex structure is engaged at both ends of the incision, and an elastic body or a metal material is provided therein to press both ends of the airtight maintaining part 138.

Referring to FIG. 5 , the length of the finishing pipe 132 is adjustable. To this end, in a state where the finishing pipe 132 is divided up and down into an upper pipe 1321 and a lower pipe 1322, screw protrusions having opposite spiral directions are formed on the lower part of the upper pipe 1321 and the upper part of the lower pipe 1322 adjacent to each other, and the screw protrusions of the upper pipe 1321 and the lower pipe 1322 are screwed into the screw protrusions, and the length adjusting part l323 is provided with spiral holes formed at both ends of the inner circumference. It becomes.

Therefore, when the length adjusting part l323 is rotated in either direction, the distance between the upper pipe 1321 and the lower pipe 1322 screwed to both ends of the length adjusting part l323 is reduced or widened, and the end of the lower pipe 1322 can be moved in the direction of the heating pipe 120 to sense the temperature of the heating pipe 120.

In addition, the upper pipe 1321 and the lower pipe 1322 are tightly coupled to the upper and lower surfaces of the length adjusting portion l323 to prevent loosening while the opposite ends are screwed to the length adjusting portion l323. First and second loosening prevention portions 1324 and 1325 are provided.

At this time, the first and second anti-loosening parts 1324 and 1325 are formed in a nut shape with spiral holes, respectively, and the spiral direction is reversed, so that the screw protrusion of the upper pipe 1321 is fixed to the upper surface of the length adjusting unit l323, and the screw protrusion of the lower pipe 1322 is fixed to the lower surface of the length adjusting unit l323.

In this way, the process of replacing the fuse unit 134 in the submersible heater 100 having a fuse of the present invention will be described as follows.

First, in the underwater heater 100 having a fuse of the present invention, the power terminal rod embedded in the heating pipe 120 inserted into the upper part of the body part 110 is electrically connected to the plug through the PCB board, so that heating and temperature sensing are possible according to power supply. While heating the water in the container to obtain hot water, and at the same time when the temperature of the water becomes higher than the appropriate temperature and becomes high, the automatic power is cut off so that the heating can be stopped to prevent safety accidents and fires.

At this time, when the temperature of the hot wire 122 exceeds 190 to 195° C., the fuse unit 134 is disconnected for safety, and replacement of the fuse unit 134 is required.

This separates both ends of the sealing part 138 and the bending part 140 fixing the neighboring surfaces of the sensing pipe 130 and the finishing pipe 132, respectively, and then the sealing part 138 to which the finishing pipe 132 is connected is separated from the end of the sensing pipe 130.

Then, the airtight maintaining part 138 is separated from the closing pipe 132, and the fuse cap 136 in which the fuse unit 134 is embedded is separated from the closing pipe 132.

Thereafter, the fuse unit 134 is separated from the fuse cap 136, replaced with a new fuse unit 134, and coupled in the reverse order of separation.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

100: Submersible heater with fuse 110: Main body
120: heating pipe 122: heating wire
130: sensing pipe 132: finishing pipe
134: fuse unit 136: fuse cap
138: confidentiality unit 140: bending unit

Claims (4)

A heating pipe 120 having a hot wire 122 therein; a sensing pipe 130 equipped with a sensor to detect heat therein; a body part 110 connected to ends of the heating pipe 120 and the sensing pipe 130; And a closing pipe 132 formed to be detachably divided under the sensing pipe 130; As an underwater heater comprising a,
A fuse unit 134 is provided inside the closing pipe 132,
The sensing pipe 130 and the finishing pipe 132 have the same outer diameter, and the sealing part 138 surrounds and fixes each end of the sensing pipe 130 and the finishing pipe 132,
The overlapping portion of the confidentiality portion 138 and the sensing pipe 130 and the overlapping portion of the confidentiality portion 138 and the finishing pipe 132 are coupled in a form surrounding the confidentiality portion 138, respectively. Fixed by the bending portion 140,
The fuse unit 134 is inserted into the fuse cap 136, and the fuse cap 136 into which the fuse unit 134 is inserted is inserted into the closing pipe 132 and fixed.
A terminal location groove 1362 is formed in the fuse cap 136 so that the terminal 1340 provided in the fuse unit 134 can be fixed.
The length of the finishing pipe 132 is adjustable,
The finishing pipe 132 is composed of an upper pipe 1321 and a lower pipe 1322 connected by a length adjusting part 1323, and the length of the finishing pipe 132 can be adjusted by one-way rotation of the length adjusting part 1323,
The finishing pipe 132 can prevent the loosening of the length adjusting part 1323 by being tightly fastened to the upper and lower surfaces of the length adjusting part 1323, and the first anti-loosening part 1324 and the second anti-loosening part 1325 are respectively provided. Water heater with a fuse, characterized in that.
delete delete According to claim 1,
An underwater heater with a fuse, characterized in that the airtight holding part is provided with a heat-resistant material.

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