KR101193048B1 - A heating of device of fan heater. - Google Patents

Abstract

The present invention relates to a heating hot air fan for heating indoor air.

The present invention is to install a separate heating medium in the air transfer passage in the hot air generator, but by installing one or more heaters in the heating medium so that the heating medium is heated by the heater so that the air is in contact with the heating medium as long as possible to perfect the air It is to be heated.

 The structure is simple and easy to manufacture, and by installing a heating medium heated by a heater, the air can be heated to a high temperature by heating the air in contact with the heating unit for a long time.

In addition, the present invention is configured by using a red-head nozzle to the air injection nozzle to increase the pressure inside the air by reducing the conveying speed of the air at the same time to make the air to stay in the heating unit for a long time to heat the air.

Hot air blower, heater Air intake, Air passage, Redhead nozzle, Heating medium, Heater.

Description

A heating of device of fan heater.

The present invention relates to a heating hot air fan for heating indoor air.

In general, a hot air fan is used to heat indoor air.

The hot air fan used in the related art is composed of an air suction unit for sucking external air, and a heating device for heating the sucked air, and a discharge device for discharging the heated air.

The conventional hot air blower is heated in an instant while the sucked air passes through the heater, and the heated air is continuously pushed out by the hot air introduced by the cold air and heated by the heater.

As described above, the hot air blower used in the related art needs to have a large amount of air sucked in order to increase the capacity, and for this purpose, a large amount of air is heated by passing through a large heater using a large capacity fan. .

In addition, the conventional blower is a high speed of the air sucked by using a large capacity fan, so the speed of passing through the heater is also fast, so that only 8-12% of the air sucked through the heater is heated while passing through the heater It is heated.

Therefore, a high capacity heater must be used to obtain the desired room temperature, and a large capacity fan has to be used contradictoryly to obtain a large amount of hot air in a short time.

As described above, there is a disadvantage in that the installation place must also be wide because the volume is large by using a fan and a heater having a large capacity in order to obtain a high temperature hot air.

As such, the method used in the conventional hot air blower does not sufficiently heat the air because the whole is installed with a heater at the outlet of the blower fan to heat the cold air that is strongly transferred by the fan. The method used has a disadvantage that it cannot be used for heating because it does not heat the air in the room at a fast time.

In order to solve the above problems, the present applicant has applied for a heating method and apparatus thereof (patent application No. 095676 in 2008) and a heating apparatus (patent application No. 096738 in 2008).

Looking at the former invention is as follows.

An air suction step of cooling the motor and sucking the outside air by the cooling fan and the suction fan rotated by the motor,

A preheating step of preheating the air sucked from the outside by installing an air intake unit on the outside of the discharge pipe from which the air heated by the heater is discharged.

Filtration step to filter foreign matter while preheated air is transferred by the transfer pipe.

A heating step in which the preheated and filtered air is moved to the heating unit by a fan and heated in multiple stages by a heater installed in multiple stages,

A discharge step of exhausting the heated air,

In the fan for air suction to suck the outside air, and the hot air fan in which the air sucked by the air suction fan is heated and discharged by the heater,

An air intake unit comprising a cooling fan for rotating the hot air fan by a motor and cooling the motor and a suction fan for sucking air;

A preheating unit for preheating the air sucked by the temperature of the discharge pipe while the outside air is sucked to the upper side of the discharge pipe for discharging the heated air,

Filter pre-installed in the interior of the conveying pipe to filter foreign matter while the air preheated by the preheating unit is transferred through the conveying pipe by the suction fan installed in the air intake,

Install a discharge pipe on one side of the suction fan, but install a heater that heats the air in multiple stages at regular intervals inside the discharge pipe to be spaced apart at regular intervals so that the air preheated by the primary is heated second and third. It is a configuration.

That is, the above invention is to install the heater to heat the air in several places in multiple stages so that the cold air is evenly heated as a whole over the heater.

However, the above invention has a disadvantage in that the air to be transferred to the central portion in the conveying passage is not able to heat the air in a short time because the heater is simply installed in the passage through which the cold wind is supplied.

That is, when the heater is installed in the transfer passage, the heater is usually configured in the form of a coil, so the air moved through the portion close to the coil is heated, but the air transferred through the center of the transfer passage is far from the heater and moves at a high speed. As a result, it is difficult to heat the air to a high temperature, and there is a problem that wastes expensive energy.

On the other hand, the latter invention is as follows.

In the fan for air suction to suck the outside air, and the hot air fan in which the air sucked by the air suction fan is heated and discharged by the heater,

An air intake unit comprising a cooling fan for rotating the hot air fan by a motor and cooling the motor and a suction fan for sucking air;

A heating pipe installed at an upper side of the suction fan, but having a primary heater installed at an outer side of the middle portion of the discharge pipe, and a secondary and tertiary heater installed at the upper and lower sides of the discharge pipe;

A preheating unit which installs an outer cylinder to the outside of the discharge pipe so that the air is sucked upward by an air suction fan so that cold air is preheated by waste heat generated from the discharge pipe;

On the upper side of the preheating unit is to install a filter for filtering various foreign substances and reducing noise,

Air intake pipe is installed at the center of the hot air to allow air to be introduced by the air intake fan, and a filter is installed at the upper side of the air intake pipe to filter foreign matters.

Install secondary and tertiary heaters on the upper and lower sides of the air intake pipe, install a discharge pipe on the outside of the air intake pipe, and install a guide plate on the air intake pipe at the upper position of the discharge pipe to heat the surrounding air. Consisting of a heating unit to be sprayed,

In order to evenly heat the air passing through the heater of the heater, the heater is arranged in a spiral so that the inside is narrow and wide to the outside so that all air passing through the heater passes in a state close to the heater so that the air is heated evenly as a whole.

In the above invention, in order to completely heat the air by simply heating the air using a heater installed in the transport passage, the heater is used to be spiraled to the center of the air transfer passage, but the air passing at high speed is heated while passing through the heater. Due to the short time it takes to draw the air can not be completely heated.

The present invention has been invented to solve the above problems, the heater is installed in the passage through which the air is transferred, but the heating unit of the air transfer passage by the heater and the heat transfer medium by installing a separate heat transfer medium in the heating unit The purpose is to ensure that the air passing through is completely heated.

Another additional object of the present invention is to enable the air to be completely heated by making the air contact the heater as much as possible in the heating unit installed in the transfer passage.

As a means for solving the above problems, the present invention is to install a separate heating medium in the air transfer passage in the hot air generator, but by installing one or more heaters in the heating medium to heat the heating medium by the heater to heat the heating medium This can be eliminated by ensuring that the air is heated completely by keeping it as long as possible.

As a means for solving the above additional problem, by providing a separate heating medium which is heated by the heater in the passage through which the air is transported, it can be solved by lengthening the heating section.

The present invention relates to a hot air fan for heating air in a room. The heating medium is provided with a heating medium installed in a heating unit provided with a heater for heating the air so that the air takes a long time to pass through the heating unit by allowing the air to take a long time. It can be heated by heating, and the structure is simple and easy to manufacture. By installing a heating medium heated by the heater, the air can be heated to a high temperature by heating the air to be in contact with the heating part for a long time. .

In addition, the present invention is configured by using a red-headed nozzle to the air injection nozzle to increase the pressure inside the air by reducing the feed rate of the air at the same time to make the air to stay in the heating unit for a long time to heat the air.

The present invention has the effect of reducing the waste of energy by installing a heater in a multi-stage heating medium to achieve the same heating effect with only one heater after the heating medium is sufficiently heated.

In the hot air in which the air is heated by the suction unit in which the air is sucked by the fan, the heating unit is installed,

The hot air fan 1 is rotated by the motor 2 and constitutes an air intake part 5 consisting of a cooling fan 3 for cooling the motor 2 and a suction fan 4 for sucking air.

An air conveyance passage 9 is provided on one side of the suction fan 4 installed in the air intake portion 5, and the inclined protrusion 10 is formed in the inner middle portion of the air conveyance passage 9 to narrow the passage. Red-headed nozzle (6),

The heating part is provided with the heating medium 8 which is heated by the heaters 7 and 7 'at both sides of the red-head type nozzle 6.

First Embodiment

In the red-head type nozzle 6 installed in the air conveying passage 9 as shown in FIGS. 3 and 4, the heaters 7 and 7 ′ are installed at both sides at regular intervals. The blade 15 may be formed to maximize the contact area of air.

Second Embodiment

In the red-head type nozzle 6 installed in the air conveying passage 9 as shown in FIGS. 5 and 6, the heater 27 is connected to the heating medium 8 through the blades to the heating medium 8 having the wings. It is also preferable to install at.

Third Embodiment

In the red-head type nozzle 6 installed in the air conveying passage 9 as shown in FIGS. 7 and 8, the heater 37 is long and folded in a zigzag manner in the transverse direction instead of the heating medium to replace the heating medium. It is also preferable to install.

Referring to the operation of the present invention as described above is as follows.

As shown in FIGS. 1 and 2, when power is supplied to the hot air fan, the suction fan 4 is rotated by the motor 2, whereby external air is sucked into the air suction unit 5.

As described above, the air sucked into the air suction unit 5 is transferred along the transfer passage 9, and the air is transferred to the transfer passage 9 by an inclined protrusion 10 formed at an intermediate portion of the transfer passage 9. Is delayed.

That is, since the inclined protrusion part 10 is formed in the conveying passage 9 through which air is conveyed, and the red-headed nozzle 6 is formed to narrow the conveying passage 9, the air is inclined by the inclined protrusion 10 of the conveying passage 9. Will reduce the feed rate and increase the internal pressure.

As described above, the air is delayed by the inclined protrusion 10, and the heating medium 8 installed at both sides of the inclined protrusion 10 is heated by the heaters 7 and 7 ′, and the heated air is injected.

When the air intake part 5 or the motor 2 is heated while the preheated air is introduced, the motor 2 is prevented from being heated by being cooled by the cooling fan 3 installed above the motor 2. There is a number.

In more detail, when the air sucked by the air suction fan 4 reaches the heating part along the conveying passage 9, the air is slowed by the inclined protrusion 10, and at the same time, the heater ( 7) The air is heated while being in contact with the heating medium 8 heated by 7 'and the slowed air.

When the heating medium 8 is heated in the above, even if one of the heaters 7 and 7 'on both sides of the heating medium 8 is turned off, the other heater can still obtain the same effect by heating the heating medium 8. Energy waste can be reduced.

 Meanwhile, as shown in FIGS. 3 and 4, when air is sucked into the air suction unit 5 by the air suction fan 4, vanes 15 are installed at regular intervals on the heating medium 8 installed in the heating unit. Since the heaters 7 and 7 'are provided at both sides, the heating medium 8 heated by the heater heats the air while contacting the air.

At this time, since the vanes 15 formed in the heating medium 8 are installed in the air conveyance passage 9 in a state in which the vanes 15 formed by the heaters 7 and 7 'are heated, the air is provided in the vanes 15 of the heating medium 8. Since the time is discharged through the air is in contact with the heated wing 15 is long, it can be heated to a high temperature.

That is, when the air conveying passage 9 in which air is conveyed is circular, the vanes 15 of the heating medium 8 are fastened to the inside of the conveying passage 9, so that the vanes 15 are spread over the entire air conveying passage 9. Since the air conveyed along the air transfer passage 9 is in contact with the wing 15 of the heating medium 8, the entire air can be evenly heated to obtain a high temperature.

Meanwhile, in the red-head type nozzle 6 installed in the air conveying passage 9 as shown in FIGS. 5 and 6, the heater 27 is connected to the heating medium 8 through the blades to the heating medium 8 having the blades formed thereon. Since the air is conveyed along the air conveying passage 9, the air is brought into contact with the heater 27 provided between the wings, and at the same time, the blades of the heating medium 8 heated by the heater 27 The air can be heated to high temperature.

On the other hand, as shown in Figs. 7 and 8, since the heater 37 is folded several times in a zigzag manner in the lateral direction instead of the heating medium installed in the red-head type nozzle 6 of the air transfer passage 9, air Since the air conveyed along the conveying passage 9 is heated while passing through the heater 37, the same effect as the present invention can be obtained.

1 is a schematic perspective view showing the whole of the present invention

Figure 2 is a schematic perspective view of the main part incision showing the heating apparatus of the present invention

3 is a partial cutaway front view of the heating apparatus of the present invention.

Figure 4 is a schematic perspective view of the main incision showing the first embodiment of the present invention

5 is a front view of the main incision for the embodiment of the present invention

Figure 6 is a schematic perspective view of the main incision showing a second embodiment of the present invention

Figure 7 is a front view of the main incision for the second embodiment of the present invention

8 is a perspective view schematically showing the dissection of the third embodiment of the present invention

9 is a front view of the main part incision for the third embodiment of the present invention

                 ** Description of symbols for the main parts of the drawing **

1. hot air heater 2. motor

3. Cooling fan 4. Suction fan

5. Air intake 6. Redhead nozzle

7. 7 '. 27. 37. Heater 8. Heating medium

9. Feed passage 10. Inclined protrusion

15. Wings

Claims (4)

An air inlet part 9 is provided on one side of the inlet part through which the air is sucked by the fan and the intake fan 4 installed in the air inlet part 5, and the inner middle part of the air inlet part 9 is provided. In the heating apparatus of the hot air fan in which the inclined protrusion part 10 is formed and the passage | path narrowed and the air is heated by the heating part provided with the heater, The front side of the motor is rotated by the motor (2), and a cooling fan (3) for cooling the motor (2) and a suction fan (4) for sucking air are sucked in to draw the outside air and the air transfer passage ( An air intake part 5 capable of cooling the motor at the same time as being sent to 9); The heating medium (8) is installed on both sides of the ledge nozzle (6) installed in the air transfer passage (9) of the air intake (5), but the wings (15) are formed at regular intervals on the outside of the heating medium (8). To maximize the contact area of air and wind the heaters 7 and 7 'between the blades 15 and the blades formed on the heating medium 8 so that the entire heating medium 8 is heated. Heating device of the hot air blower. delete delete delete

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