JP3210700U - Oil heater - Google Patents

Abstract

Provided is an oil heater that can be reduced in size and cost, and that allows diffusion of heated air in all directions, thereby obtaining an expected high-speed heating effect. An oil heater includes a main body part and a control panel for operating the main body part. The main body 2 includes a lower tank 4, an upper tank 5, a plurality of radiator plates 6 that communicate with these tanks 4, 5, and a fan box 7, and has a cylindrical shape as a whole. The lower tank 4 has an electric heater, and the upper tank 5 has a vent hole. Each heat radiating plate 6 has a flow passage, and the plurality of heat radiating plates 6 are arranged radially around the central portion of the upper tank 5. The fan box 7 includes an electric motor 70 and a fan 71 attached to the rotating shaft of the electric motor 70. [Selection] Figure 1

Description

  The present invention relates to an oil heater that convects incombustible oil heated by an electric heater and dissipates heat of the incombustible oil from a heat radiating plate.

Conventionally, this type of oil heater includes a vertically long heat radiating plate having an oil flow passage therein, pipes attached to the top and bottom of the heat radiating plate, and an electric heater for heating nonflammable oil. .
Specifically, a plurality of heat radiating plates are arranged in a horizontal row at regular intervals, one tube body is horizontally connected to the upper side of the plurality of heat radiating plates, and the other tube body containing an electric heater inside, It is connected horizontally to the lower side of a plurality of heat sinks (see, for example, Patent Document 1).
With this configuration, the oil in the lower pipe body is heated by the electric heater, so that the heated oil reaches the upper pipe body from the lower pipe body through the oil flow passage in the heat radiating plate. Return to the lower tube through the oil flow passage in the heat sink. In other words, the heated oil circulates in the upper and lower tube bodies and the plurality of heat radiating plates, whereby the heat of the oil is radiated to the outside of the oil heater through the heat radiating plates, and the external space is warmed.

However, in the oil heater described above, high-speed indoor heating is difficult.
That is, in the oil heater described above, the air heated by the heat radiating plate only rises and does not diffuse laterally or downward, so it takes a long time to warm the room in which the oil heater is placed. Also, only the vicinity of the oil heater is warm, and if it is a little away from the oil heater, a sufficient heating effect cannot be obtained. In particular, since the temperature difference between the upper and lower chambers is large and the floor surface temperature is low, even if the oil heater is operated for a long time, the temperature on the floor side hardly increases.

  Therefore, a motor-driven fan is installed above the heat sinks, and the air from the fans is blown from the top to the bottom of the heat sinks, so that the air heated by the heat sinks is moved laterally or downward in the oil heater. An oil heater that can be diffused has been proposed (see, for example, Patent Document 2).

JP 2008-267626 A JP 2011-027384 A

However, the oil heater with a fan described above has the following problems.
That is, since the oil heater described above has a configuration in which a plurality of heat radiating plates are arranged in a horizontal row at regular intervals, the entire oil heater is long in the direction in which the heat radiating plates are arranged (hereinafter referred to as “front-rear direction”). . Therefore, sufficient wind power cannot be obtained simply by mounting one fan above the heat sink. For this reason, it is necessary to arrange a plurality of fans along the front-rear direction of the plurality of heat radiating plates, which increases the product cost. Moreover, the problem of noise also arises by using a plurality of fans.
Moreover, the heated air diffused by the fan flows below and to the side of the oil heater, and does not flow directly in the front-rear direction. That is, since it is difficult to diffuse the air in all directions, the expected high-speed heating effect cannot be obtained.
Furthermore, since this oil heater has a configuration in which a plurality of heat radiating plates are arranged in a horizontal row at regular intervals, the entire oil heater tends to become longer in the front-rear direction and larger. For this reason, when an oil heater is arranged or stored, a large space is required, which is inconvenient.

  This invention has been made to solve the above-described problems, and can be reduced in size and cost, and can also diffuse heated air in all directions, thereby obtaining an expected high-speed heating effect. An object of the present invention is to provide an oil heater that can be used.

In order to solve the above-mentioned problems, the first device is that an upper tank is disposed directly above a lower tank having an electric heater, a lower opening communicates with the interior of the lower tank, and an upper opening is disposed inside the upper tank. Multiple heat sinks with a flow passage communicating with the lower tank and the upper tank are inserted between the lower tank and the upper tank, and incombustible oil fills the lower tank, the upper tank, and the flow passages of the multiple heat sinks A plurality of heat radiating plates are arranged radially around the central portion of the lower surface of the upper tank at regular angular intervals, and the lower tank and the upper tank are circular or polygonal in plan view. The outer shape of the entire main body is formed in a columnar shape or a polygonal column shape.
With this configuration, when the electric heater heats the oil in the lower tank, the heated oil heats the entire lower tank and heats the heat sink through the flow path of the heat sink and then flows into the upper tank. To do. And after heating the whole upper tank, it returns in the lower tank through the flow path of a heat sink. Thus, the heated oil circulates between the lower tank, the radiator plate, and the upper tank, and heat is dissipated from the lower tank surface, the radiator plate surface, and the upper tank surface, and the surrounding air is warmed.
At this time, since the electric heater is provided in the lower tank, efficient oil circulation is performed, and the temperature of the entire oil can be rapidly increased.
In addition, since the plurality of heat radiating plates are arranged radially, not only the air above and below the oil heater but also the air around 360 ° is heated. That is, by using the oil heater of the present invention, air can be heated in all directions.
Furthermore, in this oil heater, a plurality of heat radiating plates are arranged radially rather than side by side, and the outer shape of the entire main body is formed in a columnar shape or a polygonal column shape, so that the design can be improved. Not only can the size of the oil heater be reduced. As a result, the cost of the product can be reduced. Further, it is possible to save the space for arranging and storing the oil heater.

The second device is an oil heater according to the first device, wherein a vent hole penetrating from the upper surface to the lower surface of the upper tank is provided in the central portion of the upper tank, and is rotated by an electric motor to send the wind downward. The fan is arranged either directly above or inside the ventilation port.
With this configuration, when the fan is rotated by the electric motor, the wind is sent downward and flows out to the plurality of heat radiating plates through the ventilation openings in the center of the upper tank.
At this time, since the plurality of heat radiating plates are arranged radially around the central portion of the lower surface of the upper tank at a constant angular interval, the plurality of heat radiating plates in which the wind that has flowed downward from the ventilation openings is arranged radially. Sprayed on the board. As a result, the air heated in the plurality of heat radiating plates and the upper and lower tanks becomes hot air and is rapidly diffused radially from the lower side of the oil heater. As a result, the heated air is not biased near the oil heater, but diffuses throughout the room, and rapid convection of the heated air occurs in the room, so that the whole room is rapidly warmed.
That is, according to this oil heater, not only heating in all directions is possible, but the entire room can be heated rapidly.
Furthermore, since the plurality of heat radiating plates are arranged radially rather than side by side, and the outer shape of the entire body of the oil heater is formed in a columnar shape or a polygonal column shape, all the heat is radiated by only one fan. Can be sprayed against the board. Therefore, it is not necessary to attach a plurality of fans as in the conventional oil heater described above, and the product can be reduced in size and cost.

  According to a third aspect, in the oil heater according to the second aspect, the fan is detachably provided on the main body.

  According to a fourth aspect of the present invention, in the oil heater according to any one of the first to third aspects, the upper surface of the lower tank is formed in a shape inclined downward from the center in the radial direction.

  A fifth device is an oil heater according to any one of the first to fourth devices, wherein a strip-shaped heat sink separate from the plurality of heat sinks is disposed at regular intervals around the plurality of heat sinks. It was set as the structure wound in multiple numbers.

  According to a sixth aspect, in the oil heater according to any one of the first to fifth aspects, an electric heater separate from the electric heater included in the lower tank is provided in the upper tank.

  As explained in detail above, according to the oil heater of the present invention, there is an excellent effect that heating air can be diffused in all directions to perform heating in all directions. In addition, it is possible to reduce the size of the entire oil heater. As a result, it is possible to reduce the cost of the product and to save space for the location and storage location of the oil heater.

  In particular, according to the oil heater according to the second device, there is an excellent effect that not only the heating in all directions but also the whole room can be rapidly heated. In addition, since the object can be achieved with only one fan, the product can be reduced in size and cost from this point of view.

1 is a perspective view showing an oil heater according to a first embodiment of the present invention. It is a disassembled perspective view of an oil heater. It is sectional drawing of an oil heater. It is the arrangement drawing of the heat sink seen from the lower part of an oil heater. It is a fragmentary sectional view which shows the state which removed the fan box from the main-body part. It is sectional drawing for demonstrating the heating state of oil. It is a schematic sectional drawing for demonstrating the flow of warm air. It is the schematic which shows the omnidirectional diffusion state of warm air. It is a perspective view which shows the oil heater which concerns on 2nd Example of this invention. It is a perspective view which shows the oil heater which concerns on 3rd Example of this invention. It is a fragmentary sectional view which shows the principal part of the oil heater which concerns on 4th Example of this invention. It is the schematic which shows the attachment state of an electric heater. It is the schematic which shows the modification of the arrangement | positioning state of a heat sink. It is the schematic which shows the modification of a flow path, (a) of FIG. 14 shows a 1st modification, (b) of FIG. 14 shows a 2nd modification. It is a perspective view which shows the modification of an oil heater. It is sectional drawing which shows the modification of the arrangement | positioning state of a fan.

  Hereinafter, the best mode of the present invention will be described with reference to the drawings.

Example 1
1 is a perspective view showing an oil heater according to a first embodiment of the present invention, FIG. 2 is an exploded perspective view of the oil heater, and FIG. 3 is a sectional view of the oil heater.
As shown in FIG. 1, the oil heater 1-1 according to this embodiment includes a main body 2 and a control panel 3 for operating the main body 2.

  The main body 2 includes a lower tank 4, an upper tank 5 disposed immediately above the lower tank 4, a plurality of radiator plates 6 interposed between the lower tank 4 and the upper tank 5, and a fan box 7. It consists of and.

As shown in FIG. 2, the lower tank 4 is disposed at the lowermost part of the main body 2, and four casters 40 are attached to the lower surface 4 a of the lower tank 4. The outer shape of the lower tank 4 is set in a substantially cylindrical shape, and the upper surface 4b is formed in a shape inclined downward from the center portion 4c in the radial direction. That is, the upper surface 4b has a substantially conical shape with a slight height h.
An electric heater 41 is attached inside the lower tank 4 as shown in FIG. In this embodiment, the electric heater 41 is illustrated as having an exothermic bar 41a as shown in the figure. However, as the electric heater, various heaters that are heated by energization can be applied, and the electric heater is not limited to the electric heater 41 having the heating rod 41a.

  As shown in FIG. 2, the upper tank 5 is disposed directly above the lower tank 4 and has a cylindrical shape that is substantially the same shape as the lower tank 4. A vent hole 50 penetrating from the upper surface 5 a to the lower surface 5 b is formed in the central portion of the upper tank 5.

FIG. 4 is a layout view of the heat sink as seen from below the oil heater.
As shown in FIG. 2, each heat radiating plate 6 is a vertically long panel as a whole. In this embodiment, the heat radiating plate 6 has three circular flow passages 60 opened at the top and bottom of the heat radiating plate 6.
As shown in FIG. 3, the flow path 60 of each heat sink 6 is a path for communicating the inside of the lower tank 4 and the inside of the upper tank 5, and the lower opening 60a of each flow path 60 is a lower tank. The upper opening 60 b communicates with the lower surface hole 51 of the upper tank 5.
The number of the heat sinks 6 used is arbitrary as long as it is three or more. In this example, 12 heat sinks 6 were used.
Specifically, as shown in FIG. 4, twelve heat radiating plates 6 are arranged radially around the central portion of the lower surface 5 b of the upper tank 5 at a central angle of 30 °, and the lower openings 60 a of the respective flow passages 60. The upper opening 60b is connected to the upper surface hole 45 of the lower tank 4 and the lower surface hole 51 of the upper tank 5 (see FIG. 3).
The outer end 6a of the heat radiating plate 6 is set so as to substantially coincide with the outer end 5c of the upper tank 5, and the inner end 6b is set so as to be positioned in the vicinity of the end of the ventilation port 50 of the upper tank 5. ing.

  As described above, the inside of the lower tank 4, the inside of the upper tank 5, and the flow passage 60 of the heat sink 6 are spatially connected. As shown in FIG. 3, these spaces, that is, the inside of the lower tank 4, the inside of the upper tank 5, and the flow path 60 of the heat radiating plate 6 are filled with nonflammable oil A.

The fan box 7 is for blowing the air sucked from the air holes 7 a and sending it out toward the ventilation port 50 of the upper tank 5. Specifically, the electric motor 70 is attached to the central portion of the upper inner surface 7 b of the fan box 7, and the fan 71 is attached to the rotating shaft of the electric motor 70.
The electric motor 70 is a DC drive motor, and is connected to an AC / DC converter 35 of the control panel 3 described later through connectors 73 and 36. The fan 71 is located immediately above the ventilation port 50 of the upper tank 5, and sends wind into the lower ventilation port 50 by driving the electric motor 70.

FIG. 5 is a partial cross-sectional view showing a state where the fan box 7 is removed from the main body 2.
As shown in FIG. 2, the fan box 7 is formed in a box shape having substantially the same diameter as the upper tank 5. As shown in FIG. 5, the fan box 7 is detachably mounted on the upper tank 5.
That is, the fan box 7 can be removed from the main body 2 by lifting the entire fan box 7 upward in a state where the connectors 73 and 36 are disconnected. The fan box 7 can be attached to the main body 2 by placing the fan box 7 on the upper tank 5 and connecting the connectors 73 and 36.
The electric motor 70 of the fan box 7 often fails when used for a long time. For this reason, as described above, maintenance is improved by making the fan box 7 replaceable.

As shown in FIG. 1, the lower tank 4, the upper tank 5, the fan box 7, and the twelve radiator plates 6 are set to have a substantially circular shape in plan view, and the outer shape of the main body 2 of the oil heater 1-1. However, it has a cylindrical shape.
Thus, by forming the outer shape of the main body 2 in a columnar shape, not only the design of the oil heater 1-1 is improved, but the size of the oil heater 1-1 is reduced.
As a result, it is possible to reduce the product cost of the oil heater 1-1 and to save the space for arranging and storing the oil heater 1-1.

The control panel 3 is a panel for operating the main body 2 and includes a temperature adjustment unit 31, a timer setting unit 32, and a fan adjustment unit 33.
As shown in FIG. 3, the oil heater 1-1 of this embodiment connects the plug 37 to an outlet (not shown) of a commercial AC power supply and supplies a power supply voltage to the electric heater 41, whereby the electric heater 41 It is structured to heat.
The temperature adjustment unit 31 has a function of turning on or off the supply of commercial AC power to the electric heater 41 and a function of raising and lowering the heating temperature of the electric heater 41. That is, when the knob of the temperature adjusting unit 31 is rotated in one direction and the power is turned on, the LED lamp 30 is turned on and power is supplied to the electric heater 41. By further rotating the knob, the power supply voltage to the electric heater 41 is increased, and the heating temperature of the electric heater 41 is increased. Then, by rotating the knob in the reverse direction, the heating temperature of the electric heater 41 can be lowered and the supply of the commercial AC power supply can be turned off.
The timer setting unit 32 can set the supply time of the power source to the electric heater 41, and the fan adjustment unit 33 has a function and a power source for turning on or off the supply of commercial AC power to the AC / DC converter 35. It has a function to increase and decrease the voltage. That is, when the knob of the fan adjustment unit 33 is rotated and AC power is supplied to the AC / DC converter 35, a DC voltage is output from the AC / DC converter 35. Then, this DC voltage is supplied to the electric motor 70 of the fan box 7 through the connectors 73 and 36, and the fan 71 rotates. Thereafter, the number of rotations of the fan 71 can be increased and decreased by rotating the knob forward and backward.

Next, the operation and effect of the oil heater 1-1 of this embodiment will be described.
FIG. 6 is a cross-sectional view for explaining the heating state of oil, FIG. 7 is a schematic cross-sectional view for explaining the flow of hot air, and FIG. 8 shows the omnidirectional diffusion state of hot air. FIG.

In FIG. 6, after the plug 37 is connected to a commercial AC power outlet (not shown) and then the oil heater 1-1 is turned on using the temperature adjustment unit 31 of the control panel 3, the LED lamp 30 is turned on. And the electric heater 41 is heated.
Then, the oil A in the lower tank 4 is heated by the electric heater 41, and the heated oil A flows from the lower tank 4 into the flow passage 60 of the heat radiating plate 6 as indicated by an arrow. The heated oil A rises in the flow path 60 while heating the heat radiating plate 6 and flows into the upper tank 5. And after heating the upper tank 5, it returns to the inside of the lower tank 4 through the flow path 60 of the heat sink 6. FIG.
That is, the oil A heated by the electric heater 41 circulates between the lower tank 4, the heat radiating plate 6, and the upper tank 5 to heat the entire lower tank 4, the entire heat radiating plate 6, and the entire upper tank 5. .
As a result, high-temperature heat is dissipated from the surface of the lower tank 4, the surface of the heat sink 6 and the surface of the upper tank 5, and the air near the lower tank 4, the heat sink 6 and the upper tank 5 is heated.

When the fan adjustment unit 33 of the control panel 3 is turned on, the electric motor 70 in the fan box 7 is driven and the fan 71 rotates.
Accordingly, as shown in FIG. 7, the wind W is ejected from the ventilation port 50 of the upper tank 5 toward the heat radiating plate 6 and the lower tank 4.
Then, the air heated by the upper tank 5, the heat radiating plate 6, and the lower tank 4 becomes warm air W and diffuses around the oil heater 1-1.
At this time, as shown in FIG. 8, the 12 heat sinks 6 are arranged radially at intervals of the central angle of 30 °, so the warm air W is omnidirectionally 360 ° around the oil heater 1-1. Diffuses radially.
That is, according to the oil heater 1-1 of this embodiment, as shown in FIG. 7, the hot air W is blown in all directions around the oil heater 1-1 by rotating only one fan 71. can do. Thereby, the whole room | chamber interior can be heated at high speed by arrange | positioning and driving the oil heater 1-1 in the center part of a room | chamber interior, for example.

By the way, when the oil heater 1-1 is used, the surface of the lower tank 4 may reach a high temperature of 100 ° C. Therefore, when the oil heater 1-1 is used for a long time, there is a risk that dust or dirt accumulated on the upper surface 4b of the lower tank 4 may ignite.
However, in the oil heater 1-1 according to this embodiment, the upper surface 4b of the lower tank 4 is formed in a shape that is inclined downward by a height h in the radial direction from the central portion 4c. Naturally slides down from the upper surface 4b of the. Moreover, even when dust or dirt accumulates on the upper surface 4b, the dust or dust is easily blown off from the upper surface 4b by the warm air W generated when the oil heater 1-1 is driven.

  Then, after indoor heating, the temperature adjustment unit 31 is turned off, or when the time set by the timer setting unit 32 elapses, the driving of the oil heater 1-1 is stopped.

(Example 2)
Next, a second embodiment of the invention will be described.
FIG. 9 is a perspective view showing an oil heater according to a second embodiment of the present invention.

As shown in FIG. 9, the oil heater 1-2 of this embodiment also includes a main body 2 and a control panel 3 in the same manner as the oil heater 1-1 of the first embodiment.
However, unlike the first embodiment, the main body 2 in this embodiment has a structure excluding the fan box 7, thereby reducing the weight and cost of the oil heater 1-2.
For this reason, the control panel 3 does not have the fan adjustment portion 33, and the upper surface 5 a of the upper tank 5 has a planar shape without the ventilation port 50.
In the oil heater 1-2 of this embodiment, the water pool 8 is detachably attached to the upper surface 5a of the upper tank 5.
The water pool 8 is a humidifying device having a mesh 80 and can store water therein. Thereby, the water inside the water pool 8 can be evaporated by the heat released from the upper surface 5a of the upper tank 5, and the dried room can be humidified.
In the oil heater 1-1 of the first embodiment, the water pool 8 may be detachably mounted on the fan box 7.
Since other configurations, operations, and effects are the same as those in the first embodiment, description thereof is omitted.

(Example 3)
Next, a third embodiment of the invention will be described.
FIG. 10 is a perspective view showing an oil heater according to a third embodiment of the present invention.

As shown in FIG. 10, the oil heater 1-3 of this embodiment has a main body portion 2 and a control panel 3 in the same manner as the oil heater 1-1 of the first embodiment. A tank 4, an upper tank 5, twelve radiator plates 6 and a fan box 7 are provided.
However, in the oil heater 1-3 of this embodiment, a heat radiating plate 6 ′ separate from the heat radiating plate 6 is added.
The heat radiating plate 6 ′ is a belt-like panel having no flow path, and is wound around and fixed to twelve heat radiating plates 6 as shown in the drawing.
Although the number of the heat radiating plates 6 ′ is arbitrary, in this embodiment, three heat radiating plates 6 ′ are wound.

With this configuration, the heat dissipating area of the oil heater 1-3 is expanded by the heat dissipating area of the three heat dissipating plates 6 ′ compared to the heat dissipating areas of the oil heaters 1-1 and 1-2. As a result, the heating effect can be further enhanced.
Further, since the heated air located inside the heat radiating plate 6 ′ is blown off by the wind from the fan 71, it does not stay inside the heat radiating plate 6 ′.
Since other configurations, operations, and effects are the same as those in the first embodiment, description thereof is omitted.

Example 4
Next, a fourth embodiment of the invention will be described.
FIG. 11 is a partial cross-sectional view showing an essential part of an oil heater according to a fourth embodiment of the present invention, and FIG. 12 is a schematic view showing an attachment state of the electric heater.

As shown in FIG. 11, the oil heater 1-4 of this embodiment has an electric heater 42 not only in the lower tank 4 but also in the upper tank 5.
Specifically, as shown in FIG. 12, the electric heater 42 has a heating rod 42 a having a shape corresponding to the internal shape of the upper tank 5, and is turned on or off by the temperature adjustment unit 31 of the control panel 3. The temperature can be adjusted.
In this embodiment, as shown in the figure, an electric heater 42 having a heating rod 42a is illustrated as an electric heater. However, as the electric heater provided in the upper tank 5, various heaters heated by energization are used. However, the present invention is not limited to the electric heater 42.

As shown in FIG. 11, in the oil heater 1-4 of this embodiment, not only the electric heater 41 of the lower tank 4 but also the electric heater 42 is provided in the upper tank 5. The temperature of the oil A in the upper tank 5 can be further raised above the temperature in the upper tank 5 in the oil heaters of the first to third embodiments. For this reason, the temperature of the air staying in the fan box 7 can be raised to a high temperature. Then, the hot air in the fan box 7 is blown out from the ventilation port 50 to the heat radiating plate 6 side by the fan 71, so that the hot air W around the hot air W is higher than that in the case of only the electric heater 41 of the lower tank 4. Can be erupted. As a result, by using the oil heater of this embodiment, it is possible to obtain an effect that heating can be performed at a higher speed than the oil heaters of the first to third embodiments.
Since other configurations, operations, and effects are the same as those in the first and third embodiments, description thereof is omitted.

The present invention is not limited to the above-described embodiments, and various modifications and changes can be made within the scope of the gist of the invention.
For example, in the above embodiment, as shown in FIG. 4, the outer end 6 a of the heat radiating plate 6 is set so as to substantially coincide with the outer end 5 c of the upper tank 5, and the inner end 6 b is the vent 50 of the upper tank 5. However, the present invention is not limited to this. That is, the outer end 6a of the heat radiating plate 6 is set so as to extend from the outer end 5c of the upper tank 5, or the inner end 6b of the heat radiating plate 6 is connected to the vent 50 as shown in FIG. It can also be set to be located in the center.

  Moreover, in the said Example, although the heat sink 6 which has the three flow paths 60 was illustrated, the number and cross-sectional shape of the flow paths 60 are arbitrary. That is, an oil heater provided with the heat radiating plate 6 having the number of flow passages 60 other than three is also within the scope of the present invention. Furthermore, as shown in FIGS. 14A and 14B, an oil heater including a heat radiating plate 6 having a plurality of or one flow passage 60 having a rectangular cross-sectional shape is also within the scope of the present invention.

  Moreover, in the said Example, although the external shape of the main-body part 2 whole illustrated the cylinder-shaped oil heater, the external shape of an oil heater is not limited to this. For example, as shown in FIG. 15, the outer shapes of the lower tank 4, the upper tank 5, and the fan box 7 are formed so that the entire outer shape of the main body 2 is a polygonal column, and the plurality of heat sinks 6 are formed in these shapes. Oil heaters arranged corresponding to the above are also within the scope of this invention.

  Furthermore, in the said 1st and 3rd Example, although the fan 71 of the fan box 7 illustrated the oil heater located right above the ventilation port 50 of the upper tank 5, the position of the fan 71 is limited to this. For example, as shown in FIG. 16, the fan 71 may be disposed inside the ventilation port 50 of the upper tank 5.

  1-1 to 1-4 ... oil heater, 2 ... main body, 3 ... control panel, 4 ... lower tank, 4a, 5b ... lower surface, 4b, 5a ... upper surface, 4c ... central part, 5 ... upper tank, 5c, 6a ... Outer end, 6, 6 '... Heat sink, 6b ... Inner end, 7 ... Fan box, 7a ... Air hole, 7b ... Upper inner surface, 8 ... Water pool, 30 ... LED lamp, 31 ... Temperature adjustment part, 32 ... Timer setting unit, 33 ... Fan adjustment unit, 35 ... AC / DC converter, 36,73 ... Connector, 37 ... Plug, 40 ... Caster, 41,42 ... Electric heater, 41a, 42a ... Heat bar, 45 ... Top hole 50 ... Ventilation opening, 51 ... Bottom hole, 60 ... Flow passage, 60a ... Lower opening, 60b ... Upper opening, 70 ... Electric motor, 71 ... Fan, 80 ... Mesh, A oil, ... warm air, h ... height.

Claims (6)

An upper tank is disposed directly above a lower tank having an electric heater, and a radiator plate having a flow passage in which a lower opening communicates with the interior of the lower tank and an upper opening communicates with the interior of the upper tank. A plurality of oil heaters interposed between the lower tank and the upper tank and filled with nonflammable oil in the lower tank, the upper tank, and the flow paths of the plurality of radiator plates,
The plurality of heat radiating plates are arranged radially at regular angular intervals around the center of the lower surface of the upper tank,
And the lower tank and the upper tank are formed in a circular shape or a polygonal shape in plan view, and the outer shape of the entire main body is formed in a cylindrical shape or a polygonal columnar shape,
An oil heater characterized by that. The oil heater according to claim 1,
A vent hole penetrating from the upper surface to the lower surface of the upper tank is provided in the central portion of the upper tank, and a fan that rotates by an electric motor and sends wind downward is either directly above or inside the vent port. Arranged in the
An oil heater characterized by that. In the oil heater according to claim 2,
The fan is detachably provided on the upper tank.
An oil heater characterized by that. In the oil heater according to any one of claims 1 to 3,
The upper surface of the lower tank is formed in a shape that is inclined downward in the radial direction from the center,
An oil heater characterized by that. The oil heater according to any one of claims 1 to 4,
A plurality of heat sinks separate from the plurality of heat sinks are wound at regular intervals around the plurality of heat sinks.
An oil heater characterized by that. In the oil heater according to any one of claims 1 to 5,
An electric heater separate from the electric heater of the lower tank is also provided in the upper tank.
An oil heater characterized by that.

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