JP7270173B1 - Oil heater heat exchange vertical device - Google Patents

Abstract

[Problem] An oil heater requires a long time to start heating, and the temperature difference between the ceiling and the floor surface is large, and the heating effect is low at around 21°C, and a large amount of electric power is required. . [Solution] Both sides of the operation panel are heating surfaces, but one side is closed to narrow the heat exchange path, converge all heat energy on the heating side, cut off heat loss due to open heat radiation from the rear, and aluminum with heat exchange function A rear cover is attached, the open part of the bottom is closed by installing a heat exchange reflector, and the heat exchange efficiency is improved by expanding the heat transfer area. The radiator is placed between the radiator fins and used as a vertical radiator. The main airflow generated by the fan of the heat exchange cover is divided into two after hitting the upper oil pipe and drawn into the heating side and the rear side, which is strong in the lower oil pipe. To provide an oil heater vertical device with amazing heat exchange effect by contact phenomenon. [Selection drawing] Fig. 1

Description

The present invention has devised a radiator that improves the heat exchange efficiency of the oil heater and rapidly increases the heating effect. Although the entire circumference including the radiator floor is an open structure, it is a narrow space composed of sheet metal parts and has a digital wave shape. A vertical radiator made of aluminum sheet metal with a cross section is placed between all the radiator fins, the radiator is covered with a heat exchange cover, and the fan motor increases the heat exchange efficiency and realizes a rapid rise in room temperature. .

The area is expanded by deforming the radiator fins.
Conventionally, radiators have been added and the heat dissipation area has been expanded.

JP-A-2016-125806

For this reason, there are the following problems.
(b) The heat generated by the shielded heater causes the filled oil to convect in the oil pipe and radiator. is the slowest among heating appliances, requiring more than an hour. When the outside air temperature is 10°C or less, even if the maximum electric power is used, auxiliary heating is mainly performed at around 20°C, and the room temperature does not rise even if energy saving is performed by timer control, resulting in high power operation.
(b) The generated heat and radiant heat are also low, especially the floor surface is in a low temperature state for a long time, and the power consumption is the largest compared to other heaters, and the purpose of the heating effect is lost.
(c) Compared to electric heating appliances such as electric heaters, the efficiency of power conversion is the lowest due to the thermal characteristics of oil.
(d) The equipment configuration is made of iron, and the expansion of the heat dissipation area of the radiator requires welding work, heat distortion correction processing, and hand-made work that requires assembly work. A large effect cannot be expected from an increase in
(e) Due to the structure of the radiator, the radiant surfaces face each other in the non-heating direction, and the radiant heat effect cannot directly contribute to the heating effect.
Heating is unique with both sides, but from the advantage, the heat energy in the non-heating direction should be converged in the heating direction and the room temperature should rise rapidly.
(f) Home appliance manufacturers have promoted research and development of hardware such as heaters with built-in oil pipes, but technical literature suggests how difficult it is to raise the room temperature by 1°C.
(g) The oil heater does not have the ability to convey the warm air of the air conditioner.
(h) Restoration of warm air lost by opening and closing doors and windows takes time because the temperature is low.
(i) Sealed heaters, filled oil pipes, and radiator temperatures of around 70°C have no room for improvement with kerosene heaters and electric heaters, and cannot be compared.
(J) It is completely useless in buildings with high ceilings and atrium structures.
(k) There are almost no options for improvement if there is no wind.
(e) Devise and implement a method to increase heat exchange efficiency, reduce power consumption, and obtain the maximum room temperature rise heating effect with minimum power for a decarbonized society.
(W) Placing one side of the heater on the window side, wall surface, or the like does not directly contribute to the heating effect, resulting in heat loss.

The oil heater has an oil pipe with a built-in heater, a heat-generating part of the radiator, and the entire outer periphery of the floor surface directly below, which dissipates unnecessary heating energy for direct warm air generation. To solve the problem, two fan motors are required, the heat exchange section is narrowed, and a large-area radiator is arranged. Specifically, a heat exchange cover equipped with two fan motors covers the radiator fins from the front row to the last row of the operation panel, and the upper oil pipe. Although it was in an appropriate position, there are restrictions on the opening surface of radiant heat and hot air. Since the descending airflow generated by the fan is diverted to the left and right after hitting the pipe, scattering is unavoidable to some extent. It is a specification that does not change to cover up to the bottom of the side of the pipe part. As a result of the experiment, when this position is set, an amazing convergence effect is found. Even if a sheet metal radiator is loaded between the radiator fins, the effect is reproduced and verified. is drawn in and its state converges on the lower oil pipe and reaches the heating direction rapidly after colliding with the reflector. The airflow after splitting into two is divided into the heating side and the rear cover, but just below the upper oil pipe, the heat dissipation circulation path is connected to the upper and lower oil pipes on both sides of the center of the radiator fins, reaching a high temperature of 90 ° C or more. The intention of the radiator placement is the most appropriate, and the vertical radiator is arranged between the radiators to transfer heat to the heating side and the rear cover side, promoting heat exchange in the high temperature area in the center. The rectangular wave shape of the heat transfer direction is changed 90 degrees to both sides, and on the heating side, the gaps between the radiator rows and the vertical sheet metal side are aligned, allowing the radiant heat to reach the heating area directly. It heats the point at high speed and the distance that warm air reaches is the shortest, making it possible to heat immediately without waste. In this way, the effect of the warm air flow is the greatest effect of the problem together with the narrowing of the heating space.
After loading the heat exchange vertical radiator, the operation panel surface that covers the upper part is installed. Heat exchange cover equipped with fans on both sides is aluminum rear cover on one side of the rear side, and a heat exchange reflector is placed between the lower oil pipe floor casters to reflect. The plate reflects the heat generated by the lower oil pipe of the floor and obtains heat exchange airflow and radiant heat. Radiator fins and heat exchange vertical radiators are sheet-metalized to visualize digital signal waveforms. If the cross section is rectangular wave shape and placed horizontally on the floor, there is little resistance to the air flow generated by the heat generated by the heater, and it becomes a descending air flow, and the heat exchange speed is obtained. The side surface of the heat source matches the heating surface, and the heat from the center of the fins is diverted 90 degrees to both sides to direct the radiant heat to the heating area. The main airflow direction is the vertical direction and the fan motor is installed.
The heat exchange airflow that has passed through the narrow gap of the vertical radiator is sent directly to the heating point. The radiator fin row between the casters of the aluminum sheet metal reflector that serves as the warm air sending opening. and fixed. The heating side of the sheet metal is designed so that it does not interfere with the casters, and the front of the heating side is made of aluminum with a thickness of about 1 mm. Considering the depth of the rear cover, it is bent upwards to a height where the cover does not come off, and is placed on caster pedestals on both sides. The wind deflector is the best option, but we will not propose it for the popular type due to safety, damage service, and cost.

The direct radiation effect by devising a heat exchange vertical radiator works on the heating side and the rear side, and rapid temperature rise is obtained by heat exchange. The opening of the heat exchange cover is the size of two fan motors, and the cross-sectional shape that visualizes the rectangular wave digital signal waveform is made of 0.3 mm aluminum sheet metal on the radiator fin row directly below, and the fan high-speed heat is generated with the cross section horizontal to the floor. It has an excellent exchange function and has a heat exchange function even in the gap between the radiator fins at low speed and when sleeping, and it is a vertical device equipped with a fan that can send out warm air in the horizontal heating direction. Due to the amazing convergence effect of the impinging airflow generated by the fan, even with a wide opening, it converges on the lower radiator pipe, improving the heat exchange efficiency and succeeding in rapidly raising the temperature of the nearest heating point. It has made it possible to speed up the most recent spot heating, which was impossible in the past, which was mainly due to hot air currents and rising air currents, which are major drawbacks. The narrowing of the open space minimizes heat loss from the fan to the reflector plate, and when the temperature is high, the heat exchange function is demonstrated. The heat exchanger has a wide area and functions as a silencer, so it is quiet. At low speeds, the fan airflow is small and the heat exchange function is reduced, but the radiant heat effect is the largest function of a large area radiator. The oil heater reaches 21°C in 10 minutes, requiring less than half the power required. Under an ideal heat exchange environment with little heat loss, rapid heating is achieved by promoting more rapid heat exchange, and the outside air temperature is 10°C. 25°C in 30 minutes. 17°C is the environmental standard value of the Building Ring Law, and if it is not uncomfortable, set any temperature below the standard value.

1 is a perspective view of a vertical apparatus of the present invention; FIG. Diagrams representing the principle of operation of the present invention (a) main airflow convergence phenomenon, (b) main airflow convergence effect FIG. 1 is a perspective view of the configuration of a vertical device of the present invention; Perspective view with wind direction plate of vertical device of the present invention A diagram showing the arrangement specifications of the device configuration radiator and heat exchange cover of the present invention. Diagram showing the specifications of the vertical heat sink of the present invention (a) main body, parts diagram (b) assembly diagram Specifications of reflector and wind direction plate of the present invention (a) Reflector, (b) wind direction plate option The figure which shows another method when the vertical radiator of this invention cannot be directly fixed to a lower pipe. Assembly drawing of the rear cover, heat exchange cover, and reflector part of the present invention Performance test method of the present invention Test result table of the present invention Test result graph display of the present invention

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below.
A vertical radiator (12) is hung between the adjacent radiator (1) on the operation panel side of the oil heater and the rearmost radiator. To fix it, the upper and lower L-angles (13) are screwed into a cartridge shape, the upper angle is drilled for U-bolts, the lower L-angle is similarly screwed to the heat sink, and the heat transfer holder is rivet (23) in the center. ), and fix both sides of the radiator directly with the lower oil pipe at the appropriate position by the spring side pressure of the heat transfer holder (14). Two fan motors (6), a start/stop temperature controller (8), and a fan motor speed controller (7) are attached to the heat exchange cover (5) where the fan motor (6) is attached. ), pass the upper oil pipe (2) through the cover mounting hole and fasten with a nut at the top. Next, the reflector (15) and the rear cover (18) constitute a narrow section. Install the reflector in step 16), pass it under the radiator caster base, sandwich it with a U bolt from above the pipe, and fix the lower part of the reflector with a nut. Since the rear cover is placed on the rear part, it is bent upward by 10 mm and placed on both caster bases, and the heat exchange cover and the connecting plate (19) are fixed at two upper parts with screws. The reflector heating side section protects the foot, and the L angle (17) is fixed with rivets (23) at two points on the front edge. Opening and closing the ventilation door does not increase the room temperature, and the ventilation effect provides a cool breeze for comfort.
When the present invention is used in the above configuration, the start/stop temperature adjuster (8) can be set to 17°C to prevent cold air from being sent, although it is optional. Other than automatically starting and stopping for protection, the fan speed adjustment (7) is the same as the oil heater, and there are no restrictions. The fan speed is maximized at the time of startup, and when the proper temperature is reached, the power and fan speed are set appropriately to save energy. The great effect of the vertical heat sink is that the blowing distance is large when the fan is at maximum speed, noise is suppressed, and the heat exchange at low fan speed is effective over a wide area.

1 radiator 2 upper oil pipe 3 lower oil pipe 4 caster 5 heat exchange cover 6 fan motor 7 fan speed regulator 8 starting temperature regulator 9 fan indicator light 10 filter 11 fan case 12 vertical radiator 13 L angle 14 heat transfer holder 15 Reflector 16 U bolt 17 Protection L angle 18 Rear cover 19 Connecting plate 20 Fan case L angle 21 Wind direction plate 22 Rivet

Claims (1)

An oil heater heat exchange vertical device comprising an oil heater, an operation panel, an upper U-shaped heat exchange cover, and two lower caster pedestals,
The oil heater has a plurality of vertical radiators including a radiator adjacent to the operation panel, an upper oil pipe, a lower oil pipe and a 0.3 mm thick vertical radiator made of aluminum with a rectangular corrugated horizontal cross section. In preparation, all between each radiator is loaded with a narrow gap with the vertical radiator, the vertical radiator is hung on the upper oil pipe with U bolts, the heat exchange cover is equipped with a fan on the top, and the heat exchange cover The lower end is the length that covers the lower end of the upper oil pipe,
The rear part of the oil heater on one side of the operation panel is closed with a rear cover made of aluminum sheet metal, and the front part has an open structure as a warm air outlet,
Place a reflector on the lower side between the two caster pedestals, fix the reflector to the lower side of the lower oil pipe with two U-bolts, and place the rear cover on the rear side of the reflector between the caster pedestals. It is a structure in which the rear cover is placed on the reflector, and the upper side of the rear cover is connected to the rear part of the heat exchange cover with a connecting metal fitting. , It is pulled into the lower end of the heat exchange cover, hits and contacts the lower oil pipe, then hits the reflector plate and changes the wind direction by 90 degrees in the horizontal direction parallel to the floor, hot air from the front warm air outlet sent out as a stream,
Oil heater heat exchange vertical device.

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