KR20170003216U - Immersion heater - Google Patents

Abstract

The present invention relates to an underwater heater, and more particularly, it relates to an underwater heater capable of preventing the installation member from being damaged by blocking the temperature of a heating tube directly transmitted to an installation member through a separation plate provided on an outer surface of the heating tube, A plurality of body members having a plurality of heating tubes are provided, and the body members can be installed in water through a mounting plate capable of detachably connecting the body members, The heat pipe is provided with an indirect heating pipe which encloses the outer surface of the heat pipe so as to prevent a safety accident by cutting off the power applied to the heat pipe when a short circuit occurs, It is indirectly heated through the above-mentioned heat conductor not to come into direct contact with the oil, thereby preventing foreign matter adhering to the outer surface of the heating tube Thereby preventing a safety accident such as a fire or the like and allowing the operator to grasp easily regardless of the size or the weight of the underwater heater through the gripping member so that the contact portion between the cable and the heat- The present invention relates to an indirect heating type submerged heater capable of blocking the cause of breakage.
For this, an indirect heating type submerged heater according to the present invention is formed in a tubular shape, the silicon is cured therein, a lower body is formed with a cable for generating a heat generating tube by a power source applied to the lower part, The heat conduction member is detachably connected to the body by a predetermined distance so as to form a space for accommodating the heat conductor in the form of liquid or powder on the outside of the heat generating tube. And an indirect heating tube which receives the heat and discharges it to the outside.

Description

Indirect heating type water heater [Immersion heater]

The present invention relates to an underwater heater, and more particularly, it relates to an underwater heater capable of preventing the installation member from being damaged by blocking the temperature of a heating tube directly transmitted to an installation member through a separation plate provided on an outer surface of the heating tube, A plurality of body members having a plurality of heating tubes are provided, and the body members can be installed in water through a mounting plate capable of detachably connecting the body members, The heat pipe is provided with an indirect heating pipe which encloses the outer surface of the heat pipe so as to prevent a safety accident by cutting off the power applied to the heat pipe when a short circuit occurs, It is indirectly heated through the above-mentioned heat conductor not to come into direct contact with the oil, thereby preventing the foreign matter sticking to the outer surface of the heat generating tube Thereby preventing a safety accident such as a fire or the like and allowing the operator to grasp easily regardless of the size or the weight of the underwater heater through the gripping member so that the contact portion between the cable and the heat- The present invention relates to an indirect heating type submerged heater capable of blocking the cause of breakage.

In general, an underwater heater is used to keep water temperature of aquarium water accommodated in a water tank or water temperature of oil (such as cutting oil or hydraulic oil) in a factory for industrial purposes. As shown in FIG. 1, in particular, a fitting member 200, for example, a water tank, in which water is contained to enable living fish to live temporarily, is used as a water tank, And it is practically impossible to maintain the water temperature at a constant level. Therefore, an underwater heater is provided to keep the water in the water tank at a set temperature range.

A general structure of the above-mentioned underwater heater will be briefly described. The heat pipe includes a heat generating tube 130 for generating heat and a control unit for controlling the operation of the heat generating tube. And is connected to the control unit. In the vicinity of the heating tube, a sensor for sensing the temperature of the water or the temperature of the heating tube is provided. A rod 140 is installed.

A power line and a sensor line for current and signal transmission are connected to the heat generating tube 130 and the sensor rod 140. Water is introduced through a portion where the power line and the sensor line are inserted, . Therefore, in the conventional underwater heater, the portion where the power supply line and the sensor line are inserted must be located above the water surface, which has a disadvantage in that there is a limit in utilization. In order to solve such a problem, there has been proposed a method of sealing a portion where a power line and a sensor line are inserted by using a silicone or a packing. However, in the proposed sealing method, It is difficult to completely prevent the heat generated by the heater and the silicon which is hardened to cover the cable portion connected to the heating tube and the sensor rod, as in the prior art, which is the 'underwater heater and its manufacturing method' of Korean Patent No. 10-1508724 So that the problem of water inflow is solved.

However, in a conventional underwater heater equipped with silicone so as to be cured with a time difference, the outer surface of the heat generating tube having a predetermined length is inclined by the center of gravity when installed in the water tank so as to maintain the water temperature, There is a problem that cracks are applied to the water tank due to heat and safety accidents occur (refer to FIG. 2).

Further, when a large number of submerged heaters are installed in the water tank, there is no separate fixing structure, so that the heat pipes can come into contact with each other due to the movement of the water tank or the water flow in the water tank, There was a problem that a safety accident could occur.

In addition, the underwater heater which maintains the temperature of water or oil has direct contact with the heating tube at the time of use, so that oil or foreign matter adheres to the outer surface of the heating tube at the time of use for a long period of time.

In addition, when the underwater heater in use is drawn out from the water tank, there is no separate holding structure, so that a cable for applying power to the heating tube is temporarily taken out and moved so that the contact between the heating tube and the cable Causing breakdown and causing breakdown.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to prevent occurrence of a safety accident by preventing contact between a heating tube and an installation member when an underwater heater is installed in an installation member such as a water tank.

Another object of the present invention is to prevent the occurrence of safety accidents by preventing the heating tubes provided in the respective submerged heaters from touching each other and colliding with each other when a plurality of submerged heaters are installed in the installation member.

Another object of the present invention is to prevent a safety accident by allowing the water or oil to be heated to be maintained at a temperature by not directly contacting the heating tube, thereby preventing a safety accident.

Another object of the present invention is to provide an underwater heater which can be easily grasped and moved by a worker without failure of an underwater heater.

According to an aspect of the present invention, there is provided an indirect heating type submerged heater according to the present invention, the submerged heating submerged type submerged heater having a tubular shape, The heat generating apparatus according to claim 1 or 2, wherein the heat generating tube has a tubular shape in which an upper portion is closed and a lower portion is opened. The heat generating tube is disposed adjacent to the heat generating tube at a predetermined distance to form a space portion for accommodating a liquid or powder- And an indirect heating tube that receives heat of the heat conductor heated by the tube and discharges the heat to the outside.

The body member may further include a gripping member, the gripping member may include a fixed body detachably and fixedly coupled to the body, a wire formed to have a predetermined length below the fixed body, And the wire is provided so as to be wrapped in a coating excellent in heat durability.

The body member may include a mounting plate on which at least two bodies are installed. The mounting plate may be formed in a circular plate shape having a square or a predetermined diameter, and may be detachably attached to the body or the indirect heating tube It is preferable that a coupling hole is formed.

According to the present invention, it is possible to prevent the installation member from being damaged by interrupting the temperature of the heat generating tube which is directly transmitted to the installation member through the separating plate provided on the outer surface of the heat generating tube, differently from the conventional one.

The present invention also has the effect that the body member can be installed in the water through a mounting plate capable of detachably connecting the body members when a plurality of body members having a plurality of heating tubes are provided in the mounting member differently from conventional ones.

Also, it has an effect of preventing a safety accident by cutting off the power applied to the heat-generating tube when the heat-generating tube is overheated or a short circuit occurs in the water through a temperature sensor or a fuse differently from the conventional case.

In addition, in order to form a space for accommodating the heat conductor differently from the conventional one, an indirect heating tube provided to surround the outer surface of the exothermic tube is provided so as not to directly contact the water or oil to be heated, Indirect heat is applied to prevent foreign matter from sticking to the outer surface of the heat generating tube, thereby preventing safety accidents such as fire.

In addition, it is possible to easily grasp the operator regardless of the size or the weight of the underwater heater through the gripping member, which is different from the conventional one, so that the cause of breaking the contact portion between the cable and the heat- Effect.

1 is a view showing a conventional underwater heater.
Fig. 2 is a use state of an underwater heater according to Fig. 1. Fig.
Fig. 3 is a perspective view showing an indirect heating type submerged heater according to the present invention; Fig.
4 is a perspective view showing a body member of an indirect heating type submerged heater according to the present invention;
5 is a cross-sectional view of a body member of an indirect heating type submerged heater according to the present invention.
6 is a perspective view showing a separating plate of an indirect heating type submerged heater according to the present invention.
Fig. 7 is a view showing the state of use of the separator plate in Fig.
8 is a view showing an installation plate of an indirect heating type submerged heater according to the present invention.
Fig. 9 is a view showing a use state of an indirect heating type submerged heater according to the present invention; Fig.
10 is a block diagram showing a means for controlling an indirect heating type submerged heater according to the present invention.
Fig. 11 and Fig. 12 are views showing the use state of the indirect heating type submerged heater according to the present invention. Fig.
13 is a perspective view showing a state of use between the body member and the control means without using the installation plate of the indirect heating type water heater according to the present invention.
14 is a view showing a holding member of an indirect heating type submerged heater according to the present invention.
15 is a view showing a state in which an indirect heating tube is coupled to a body member of an indirect heating type submerged heater according to the present invention.
Fig. 16 is a view showing the use state of Fig. 14; Fig.

Hereinafter, an indirect heating type submerged heater (hereinafter simply referred to as an 'underwater heater') according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Prior to the description, the silicon (S), the heat generating tube 130, and the sensor rod 140 described in the present invention are not significantly different from the prior art in their technical differences. Therefore, in order to avoid the gist of the present invention, 10-1508724 " Submerged Heater and Manufacturing Method Thereof ".

As shown in FIG. 3, the underwater heater 100 capable of preventing a safety accident according to the present invention includes a body member 110, a body member 110, And a control unit 120. The control unit 120 includes a heating unit 130 and a heating unit 130. The heating unit 130 includes a heating unit 130,

More specifically, the body member 110 includes silicon (S) that is cured into a plurality of layers, and at least one heat generating tube 130 is connected to the control means 120 A separating plate 113, a mounting plate 116, a holding member 150, and an indirect heating pipe 120. The body 110 is provided with a body 111, a separating plate 113, a mounting plate 116, (See Figs. 4, 14 and 15).

As shown in FIG. 5, the body 111 is formed to have a cylindrical shape with an open top / bottom. The silicon (S) is filled in the body 111 such that it can be cured into a plurality of layers by a time difference. A part of the lower part of the heat generating tube 130 or the sensor rod 140 is opened to the silicon And the cable is inserted so that the heating tube 130 or the sensor rod 140 can be electrically connected to the control means 120 through the opened lower portion. At this time, the body 111 is formed so that the upper and lower portions have different outer diameters so that the step 112 can be formed on the outer surface, so that the body 111 serves as a stopper when the body 111 is inserted into a mounting plate 116 It is preferable to facilitate bonding.

In addition, the body 111 coupled with the mounting plate 116 may be screwed to facilitate attachment and detachment, but it may be fixed by welding or the like if necessary. The open upper or lower portion of the body 111 may be a separate Cap to prevent it from entering the hardened silicon.

6, the separating plate 113 is formed to have a rectangular or circular plate shape as a whole and is inserted through the outer surface of the heat generating tube 130 so that the mounting member 200 is directly connected to the heat generating tube 130 .

That is, the object of installation of the underwater heater 100 according to the present invention is that the water temperature of the water accommodated in the installation member 200 forming the limited space such as an aquarium or a fish tank is controlled by the control unit 120, ), And the exothermic temperature is controlled by controlling the water temperature by heating to a high temperature of several tens to hundreds of degrees Celsius depending on the case. The installation member 200 and the heat generating tube 130 are prevented from being in direct contact with each other by the area of the separating plate 113 inserted through the outer surface of the exothermic heating tube 130, (See Fig. 11)

The through hole 114 formed in the separating plate 113 is generally inserted with the heat generating tube 130. When the sensor rod 140 is provided, the sensor rod 140 may be inserted into the through hole 114 (See FIG. 7).

Furthermore, the separating plate 113 may be further formed with an auxiliary through hole 115 through which the temperature sensor 122 is inserted. At this time, the auxiliary through hole 115 is formed at the outer surface of the exothermic tube 130 so that the temperature sensor 122 senses the exothermic temperature of the exothermic tube 130 and transmits the sensed value to the control means 120 And a plurality of heat generating tubes 130 are provided on the body 111 so as to correspond to the number of the heat generating tubes 130. The plurality of heat generating tubes 130 are connected to the heat generating tubes 130, It is preferable to be able to detect the temperature at which heat is generated.

8, the mounting plate 116 is formed so as to be coupled through a coupling hole 117 to which a plurality of bodies 111 equipped with a heat generating tube 130 are detachably and screwably engaged, The number of the heat generating tubes 130 can be increased according to the amount of water stored in the member 200 so that the water temperature can be increased rapidly. At this time, a preferable shape of the mounting plate 116 is formed in a rectangular shape so as to prevent the movement of the water heater 100 when the water flow of the mounting member 200 is strong. In the case where there is no flow of water, Is preferably formed in a shape.

The plurality of bodies 111 provided with the heat generating tubes 130 may be installed so as to be electrically connected to the control means 120 without using the installation plate 116 It is possible to prevent the case where the heat generating tubes 130 provided in the respective bodies 111 are collided with each other due to the flow of the water accommodated in the mounting member 200 and the heat generating tubes 130 are brought into contact with each other, So as to be accommodated in the mounting member 200. The mounting member 116 is provided with a mounting plate 116,

When the plurality of bodies 111 are coupled through the mounting plate 116, the spacing plate 113 is disposed adjacent to the upper end of the heating tube 130, Thereby preventing the upper portion from directly contacting the mounting member 200 (see Fig. 12).

That is, when a plurality of bodies 111 equipped with the heat generating tube 130 are installed in the water by being coupled to the mounting plate 116, the center of gravity of the heat generating tube 130 is biased to one side according to the length of the heat generating tube 130, Since the upper end of the heating plate 130 can directly contact the mounting member 200, the separating plate 113 for preventing this is located at the upper end of the heating tube 130, Thereby preventing the tube 130 from coming into contact with the mounting member 200.

The gripping member 150 includes a fixing body 151 and a wire 153 for easily grasping and moving the underwater heater 100 being used in the mounting member 200.

The fixing body 151 is formed to have a columnar shape as a whole and is inserted into a fastening hole 111a formed in the lower part of the body 111 on the outer surface thereof and can be detachably attached to the fastening hole 111a through threads formed on the outer surface, And is fixed to the body 111 by welding or the like (see FIG. 14).

The wire 153 is formed to have a predetermined length, and the upper portion of the wire 153 is fixed to the lower surface of the fixing member 151 by welding or the like. At this time, it is preferable that the wire 153 is bundled by a band or a tie and is fixed to the cable C while the outer surface is formed so as to enclose a coating having excellent thermal durability so that damage is not caused even if the wire 153 is accommodated in the mounting member 200.

The length of the wire 153 is at least as long as the wire 153 is exposed to the outside of the mounting member 200 when the heater 100 is installed in the mounting member 200 so that the operator can easily grasp the wire 153 And if necessary, the upper portion may be directly connected to the lower surface of the body 111 by welding or the like.

Furthermore wire (Not shown) The wire 153  A synthetic resin material such as silicone is wrapped around the outer surface in the longitudinal direction Mounting member Lt; RTI ID = 0.0 > 200 & Receptacle By The wire 153  To prevent damage.

The operator grasps the gripping member 150 to allow the underwater heater 100 in use to be taken out of the mounting member 200 so that the contact point between the heat generating tube 130 and the cable C is connected to the underwater heater 100 can be prevented from being cut off.

In addition, the indirect heating tube 119 is formed in a tubular shape with its top closed and its bottom opened. The inner surface of the indirect heating tube 119 is adjacent to the outside of the heating tube 130 by a predetermined distance, In a detachable manner. At this time, heat of the heating tube 130 is transmitted to the indirect heating tube 119 to accommodate the heat conductor M which is magnesium oxide so that the water contained in the installation member 200 can be heated, The heat conductor M is preferably contained in powder or liquid form (see Figs. 15 and 16)

The inner surface of the indirect heating tube 119 is formed to have the same space as the outer surface of the heat generating tube 130 so that the entire temperature can be transferred to the indirect heating tube 119.

The indirect heating tube 119 is installed such that the outer surface of the indirect heating tube 119 is screwed to the coupling hole 117 when the body 111 is engaged with the mounting plate 116. If necessary, It should be noted that the spacing plate 113 can be omitted but it can be used to easily form the space 119a having the same interval between the outer surface of the heat generating tube 130 and the inner surface of the indirect heating tube 119. [

So that the indirect heating tube 119 is prevented from direct contact with the heating tube 130 in accordance with the material accommodated in the mounting member 200 so that the foreign matter is adhered to the outer surface of the heating tube 130, Can be prevented from occurring.

As shown in FIG. 10, the control unit 120 may measure the temperature of the water generated by the heat generated by the heat generating tube 130, detect whether the heat generating tube 130 is overheated, A temperature sensor 122, and a fuse 123, as shown in FIG.

The control unit 121 is provided outside the installation member 200 so that the operator can visually recognize the control unit 121. The control unit 121 is connected to the temperature sensor 122 and the sensor rod 140, . At this time, a cable applied from any one of the heating tube 130, the temperature sensor 122, and the sensor rod 140 electrically connected to the controller 121 is fixed to the silicon (S) hardened inside the body 111 (See Fig. 5).

The external power source applied through the control unit 121 allows only the power applied to the heat generating tube 130 to be cut off due to the disconnection of the fuse 123 to be described later and the external temperature sensor 122, Power is also applied to the disconnection of the fuse 123 to at least one of the operation light L1 and the warning light L2 so that the worker can visually confirm the work status with the naked eye.

The temperature sensor 122 is inserted into the auxiliary through hole 115 and is formed in a columnar shape so as to be able to sense a heat generation temperature of the heating tube 130. The temperature sensor 122 transmits a detection value to the controller 121 through a cable When the sensed value is detected to be equal to or greater than a reference value for determining whether the sensed temperature is overheated, the power applied to the exothermic tube 130 is shut off to prevent the exothermic tube 130 from being overheated. At this time, the temperature sensor 122 is shown as being provided in each of the heat generating tubes 130 provided in the body 111, but this is only one embodiment, So that it is preferable to detect the exothermic temperature as a whole.

The control unit 121 allows the operator to visually recognize the overheat of the heat generating tube 130 by a warning light L2 that can be emitted by the temperature sensor 122. The control unit 121 may control the operation of the control unit 121, Is electrically connected to the warning light L2 so that the fuse 123 can be disconnected at the time of light emission, thereby preventing a safety accident due to overheating or the like.

The fuse 123 is installed to shut off only the power applied to the heat generating tube 130 through the control unit 121 and cut off the power applied when the short circuit is generated in the heat generating tube 130 installed in the water, Prevent accidents. In this case, when a plurality of heat generating tubes 130 are provided between the fuse 123 and the heat generating tube 130 through the switch S / W that can be electrically turned on and off, Each of the switches S / W is turned on / off by the operation light L1 provided on the control unit 121, (S / W) is turned on or off by the naked eye.

The fuse 123 may be installed to block the power applied to the respective heat generating tubes 130 when a plurality of heat generating tubes 130 are installed on the body 111. For safety reasons, 130 are installed to be able to shut off the power applied to the plurality of heating tubes 130 when a short circuit occurs.

The underwater heater 100 according to the present invention constructed as described above is different from the conventional one in that a heat generating tube 130 that is directly transmitted to the mounting member 200 through a separating plate 113 provided on the outer surface of the heat generating tube 130 It is possible to prevent the mounting member 200 from being damaged or the like.

A plurality of body members 110 provided with a plurality of heating tubes 130 in a mounting member 200 different from a conventional one can be detachably attached to each of the body members 110, It is possible to install it in water through the heat exchanger 116.

Also, it is possible to prevent a safety accident by interrupting the power supplied to the heat generating tube 130 when the heat generating tube 130 is overheated or a short circuit occurs in the water through the temperature sensor 122 or the fuse 123, Effect.

The heating tube 130 is heated through the indirect heating tube 119 enclosing the outer surface of the heating tube 130 so that the space 119a for accommodating the heat conductor M can be formed differently from the conventional one. It is possible to prevent foreign matter such as fire from being prevented by directly contacting the water or oil to be heated and indirectly heating it through the heat conductor M to prevent foreign matter sticking to the outer surface of the heat generating tube 130 .

Also, the operator can easily grip the underwater heater through the grip member 150 regardless of the size or the weight of the underwater heater. Thus, the contact portion between the cable and the heating tube 130 electrically connected to each other is cut off It is possible to block the cause of the loss.

The scope of protection of the present invention is not limited to the embodiments described above. Any person skilled in the art will be able to variously modify or change the present invention without departing from the spirit and scope of the present invention. It can be understood that it is possible.

100: indirectly heated underwater heater according to the present invention
110: body member 111: body
112: step 113:
114: through hole 115: auxiliary through hole
116: mounting plate 117: engaging hole
119: Indirect heating tube 119a:
120: Control means 121:
122: temperature sensor 123: fuse
130: heating tube 140: sensor rod
150: grip member 151: fixed member
153: wire S: silicone

Claims (3)

A silicon body S is filled with a plurality of layers so as to be cured in a plurality of layers with a time difference within the body member 110 and a silicon body S is inserted into the body member 110 to have a vertical length, S, and the water temperature of the water contained in the installation member 200 is controlled,
The body member 110 includes a body 111 having a tubular shape in which the silicone S is cured and a cable C for generating heat of the heat generating tube 130 is formed by a power source applied to a lower portion of the body member 110; And
And is formed to have a tubular shape in which the upper part is closed but the lower part is opened, and is provided adjacent to a predetermined distance so as to form a housing space 119a for accommodating the heat conductor M in the form of liquid or powder outside the heat generating tube 130, And an indirect heating tube (119) detachably coupled to the body (111) to receive heat of the heat conductor heated by the heating tube (130) and discharge the heat to the outside. .
The method according to claim 1,
The body member (110) further includes a gripping member (150), wherein the gripping member (150)
A fixture 151 detachably fixed to the body 111 and a wire 153 fixed to the cable C and having a predetermined length below the fixture 151 and fixed to the fixture 151, Wherein the wire (153) is provided so as to surround a coating excellent in heat durability.
2. The apparatus of claim 1, wherein the body member (110)
And a mounting plate (116) on which at least two bodies (111) are installed,
The mounting plate 116 is formed in a circular plate shape having a square or a predetermined diameter and is formed with a hole 117 through which the body 111 or the indirect heating tube 119 is detachably screwed The underwater heater which can prevent safety accident which is characterized.

Images