KR100527228B1 - All round bottom flow heater - Google Patents

Abstract

Provides an omnidirectional bottom flow fan. This omnidirectional floor flow fan has an inlet and outlet to intake and discharge the air, and a hot air blower body that acts as a duct, and is installed inside the hot air blower body and sucks air through the inlet to forcibly discharge the air sucked through the outlet. The main unit includes a blower unit and a heater installed inside the hot air blower body and heating the air forcedly blown to the hot air blower body to a predetermined temperature, and the suction inlet is formed on the upper side of the hot air blower body, and the discharge port is located below the hot air blower body. Characterized in that formed.

Description

All-round bottom flow heater

The present invention relates to a warm air fan, and more particularly to an omni-directional floor flow fan to blow the warm air (Heating) through the floor in all directions.

In general, a hot air fan is a heating device for forcibly blowing warm wind, and a body having mostly an inlet and an outlet, a fan for forcibly drawing air and then discharging it through the body, and by such a fan It consists of a heater that heats forcedly sucked air, and is mainly used to raise the entire room temperature by a certain amount.

Most of these warmers are installed inside the building, and continue to blow the heated hot air to increase a certain part of the room temperature. At this time, the indoor temperature is radiated or convection of the warm air that is forcedly blown after being heated. It is heated as a whole.

Specifically, in the conventional hot air blower, the position of the discharge port through which the hot air is discharged is mostly located on the upper side of the hot air blower body, and the discharge direction of the hot air is also formed to face the front side from the upper side of the hot air blower body.

Therefore, in the case of the conventional hot air fan, the hot air is continuously discharged from the discharge port formed on the upper front side of the hot air blower body, and the indoor temperature of the building is increased by a predetermined portion by the heat transfer of the hot air continuously discharged as described above. That is, since the warm air continuously discharged from the outlet formed on the upper front side of the heater fan is reduced in density as it is heated, first, only the upper floor of the building is heated, thereby heating the upper floor of the room as a whole. Upon completion, the heated air is delivered to the lower floors of each room, increasing the overall room temperature of the building.

However, in the case of such a conventional hot air heater, since the upper part of the room is heated first and then transferred to the lower part of the room, it takes a lot of time to heat the entire interior of the building and there is a problem that a lot of heat loss occurs. .

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to place an air inlet on the upper side of the hot air blower body and an air outlet on the lower side of the body to reduce energy loss due to heat transfer of warm air. It is to provide an omnidirectional bottom flow fan.

In addition, another object of the present invention will become more apparent from the drawings and detailed description to be described later.

In order to achieve the above object, the omnidirectional bottom flow fan of the present invention has a hot air blower body having a suction hole and a discharge hole so that air is sucked in and discharged, and acts as a duct, and is installed inside the hot air blower body and receives air through the suction hole. A blowing unit (Unit) for inhaling and forcibly discharging the air sucked through the discharge port, and a heater installed in the inside of the hot air blower body and heating the air forced to the hot air blower body to a predetermined temperature,

The suction port is formed on the upper side of the warmer body, the outlet is characterized in that formed on the lower side of the warmer body.

At this time, the outlet is preferably formed in each of the front direction of 360 ° of the hot air blower body.

In addition, a safety grill may be installed on the inside of the intake port and the inside of the exhaust fan to prevent an object other than air from flowing into the inside of the heater fan.

In addition, it is preferable that at least three or more wheels are mounted below the warmer body.

On the other hand, the warmer body is formed in a conical shape of the upper guide plate, the lower guide plate spaced apart in the downward direction from the upper guide plate and formed similarly to the upper guide plate, and a support rod for fixing the upper guide plate and the lower guide plate at a predetermined interval (Rod And a guide tube which is formed on the upper surface of the upper guide plate and guides the external air to allow the external air to flow therein.

In addition, the interval between the upper guide plate and the lower guide plate is preferably formed in a narrower shape from the upper end to the lower end in order to maximize the flow rate of the air discharged to the outlet.

The blower unit includes an impeller for generating a predetermined blowing force and a predetermined centrifugal force to allow air to be vented into the warmer body, and a driving motor for generating a rotating force for rotating the impeller at a predetermined revolution (per revolution). (Motor), a rotating shaft for transmitting the rotational force of the drive motor to the impeller, and a cooling fan installed on the rotating shaft in close proximity to the drive motor to cool the drive motor.

Hereinafter, an embodiment of the omni-directional floor flow warmer 100 according to the present invention will be described in detail with reference to FIGS. 1 to 3.

As shown in the figure, the omni-directional floor flow fan 100 according to an embodiment of the present invention has a heater fan body 120 having a suction port 126 and the discharge port 127 to act as a duct so that the air is sucked and discharged; A blower unit 160 installed inside the body 120 and forcibly venting external air into the body 120; a heater 140 for heating the forced air to a predetermined temperature; It is configured to include a wheel 170 for allowing the invention warmer 100 to move in one direction in the front, rear, left and right directions, and is formed as a cross-flow blower type (Type) for flowing the air in an inclined form at a predetermined angle.

More specifically, the warmer body 120 is formed in a substantially hatched or conical shape having an air vent path of a predetermined size therein, and the upper guide plate 122 extending in the form of a cone and the upper guide plate ( The lower guide plate 124 spaced apart by a predetermined distance from the lower side 122 and formed similarly to the upper guide plate 122, and a support rod 123 for fixing the upper guide plate 122 and the lower guide plate 124 to be spaced a predetermined distance apart. The guide tube 128 is formed in the center of the upper surface of the upper guide plate 122 and guides the outside air so that the outside air can be introduced into the inside of the hot air blower body 120 by a tube type formed by extending a predetermined distance in an upward direction. Is positioned on the lower side of the lower guide plate 124, it is composed of a flat plate type support plate 125 for connecting the lower ends of the lower guide plate 124 and reinforcing the strength of the hot air blower body (120).

At this time, the warmer body 120 is a circular angle formed by the upper side of the guide tube 128 extending in the upper direction of the upper guide plate 122, the lower end of the upper guide plate 122 and the lower end of the lower guide plate 124. Sides are respectively opened, the upper side of the guide tube 128 serves as the inlet 126 through which the air is sucked in the present invention, each side formed by the upper guide plate 122 and the lower guide plate 124 is forced air The discharge port 127 is discharged. Therefore, hereinafter, each side surface formed by the upper side of the guide tube 128, the upper guide plate 122 and the lower guide plate 124 will be referred to as the inlet 126 and outlet 127, respectively.

On the other hand, the upper guide plate 122 and the lower guide plate 124 to perform the duct role by being spaced apart from each other by a predetermined distance from the upper end to the lower end is not continuously spaced at uniform intervals, but gradually from the upper end to the lower end. It is formed in a narrowing form. That is, the distance between the upper guide plate 122 and the lower guide plate 124 is formed in a trapezoidal type with a substantially longitudinal section.

Accordingly, the air blown through the path formed by the upper guide plate 122 and the lower guide plate 124 is not the same as the flow rate of the air blown from the upper portion and the flow rate of the air blown from the lower portion, but flows from the upper portion to the lower portion. This will be faster. The air sucked into the suction port 126 and discharged to the discharge port 127 is discharged at a very fast flow rate by the duct shape, and when the air is discharged by the same blowing force, the air is blown into the duct according to the present invention. Will be able to reach farther distances.

Here, the flow velocity relationship of the air according to the duct shape is based on the continuous equation as follows: 'The amount of fluid (air) passing through the cross section of the oil pipe during the unit time is constant' as shown in Equation (1).

Continuous equation Ｑ = A ₁ v ₁ = A ₂ v ₂ (where: Q = fluid volume, A ₁ , A ₂ = pipe cross-section, v ₁ , v ₂ = flow rate)

On the other hand, the blower unit 160 installed inside the hot air blower body 120 forcibly sucking external air and then forcibly discharging it again has an impeller 163 for generating a predetermined blowing force and a predetermined centrifugal force so that the outside air is ventilated again. ), A drive motor 161 for generating a rotational force so that the impeller 163 is rotated by a predetermined AlpM, a rotation shaft 162 for transmitting a rotational force of the drive motor 161 to the impeller 163, and a drive motor ( It is installed on the rotating shaft 162 close to the 161 and consists of a cooling fan 164 for cooling the motor so that the motor 161 is not heated over a predetermined temperature.

Specifically, the impeller 163 is formed to be rotatably installed in the duct formed by the upper guide plate 122 and the lower guide plate 124, and rotates in one direction through the axial suction port 126. It sucks the outside air and serves to discharge the sucked air through the outlet 127 inclined at a predetermined angle in the axial direction.

In addition, the driving motor 161 is installed in a predetermined space between the upper surface of the support plate 125, that is, the support plate 125 and the lower guide plate 124, and generates a predetermined rotational force to force the impeller 163 to blow air. Play a role.

In addition, one end of the rotating shaft 162 is mounted to the drive motor 161, the other end is mounted to the impeller 163, and serves to transmit the rotational force of the drive motor 161 to the impeller 163.

In addition, the cooling fan 164 is installed on the rotation shaft 162 close to the drive motor 161, that is, on the rotation shaft 162 between the support plate 125 and the lower guide plate 124 of the rotation shaft 162, While cooling the drive motor 161 is heated to a predetermined temperature or more, and serves to block the heat from being transmitted to the motor through the rotating shaft 162 to be described later in advance. do. Thus, the driving motor 161 according to the present invention is to solve the problems caused by overheating is to be able to significantly increase the durability compared to the prior art.

On the other hand, the heater 140 for heating the forced air to a predetermined temperature is installed on the inner circumferential surface of the guide tube 128 close to the inlet 126 of the warmer body 120, the air sucked from the outside immediately It will play the role of heating. At this time, the heater 140 according to the present invention may be used a heater 140 that is heated to a predetermined temperature by a hot wire, it is also possible to use a heater 140 that generates heat quickly by ceramic (Seramic).

In addition, the wheel 170 according to the present invention is mounted on the lower side of the support plate 125 of the hot air blower body 120, a plurality of the hot air blower 100 is always installed so as to maintain a horizontal state, as described above the present invention It serves to move the warm air fan 100 in one direction in the front, rear, left and right directions. Here, it is preferable that at least three wheels 170 according to the present invention are mounted.

On the other hand, the impeller 163 which is rotated by a predetermined AlpM is mounted inside the warmer fan body 120 as described above, and the safety accident caused by the impeller 163 is prevented in advance on the outer side of the warmer fan body 120 of the present invention. The safety grill (Grill) is installed to prevent the entry of other objects than the air into the inside of the heater body 120.

At this time, the safety grill is a suction grill 126 mounted on the hot air blower body 120 of the bar inlet 126, which is mounted on the inlet 126 and the outlet 127, respectively, and the hot air blower body adjacent to the outlet 127. Outlet 127 is mounted to the 120 is composed of a safety grill.

In the above description, reference numeral 121 illustrates a switch 121 that selectively turns on / off the present invention hot air heater 100.

Hereinafter, the operation and effects of the present invention omnidirectional floor flow warmer 100 configured as described above are as follows.

First, when the user wants to increase the indoor temperature of a building, the user places the present invention hot air heater 100 near the center of the room, and then switches the switch 121 on.

Thus, the drive motor 161 is rotated by a predetermined ALPM, and transmits this rotational force to the cooling fan 164 and the impeller 163 through the rotation shaft 162 at the same time.

Therefore, the cooling fan 164 and the impeller 163 are rotated by the predetermined AlpM in the adjacent position and the duct of the driving motor 161, respectively.

At this time, when the impeller 163 of the present invention is rotated by a predetermined AlpM, a predetermined blowing force and a predetermined centrifugal force are formed in the inside of the hot air blower body 120, and the outside air in the room may be a suction port of the hot air blower body 120. 126 is sucked into the inside of the hot air blower body 120 and then discharged to the outlet 127 of the hot air blower body 120.

Here, as the present invention drive motor 161 starts to rotate and at the same time the heater 140 of the present invention is also heated. As described above, the air sucked through the inlet 126 is provided by the heater 140 of the present invention. It is being heated. Therefore, the hot air heated to a predetermined temperature is quickly discharged from the outlet 127 of the warmer body 120 of the present invention, the temperature of the room is gradually increased.

At this time, the air duct path of the duct shape of the hot air blower body 120 according to the present invention, that is, the upper guide plate 122 and the lower guide plate 124 of the hot air blower body 120 of the present invention is gradually increasing from the upper end to the lower end. As it is formed in a narrowing form, the air discharged as described above is discharged not only at a very high flow rate but also at a very far distance. Therefore, using the warmer 100 according to the present invention, it is possible to heat all very large indoors with only the warmer 100.

And, since the exhaust fan body 127 according to the present invention is formed on each side of the discharge port 127, the air is discharged to the suction port 126, the air heated to a predetermined temperature is each side of the circle All are discharged to the front port in the 360 ° direction along the outlet 127 formed as a. Therefore, using the warmer 100 according to the present invention, it is possible to heat all parts of the room with only the warmer 100.

In addition, the hot air blower body 120 according to the present invention, the outlet 127 is installed on the upper side of the hot air blower body 120, the inlet 126 is installed on the lower side of the hot air blower body 120, the heating to a predetermined temperature Since the warm air is blown along the bottom surface, natural heat transfer is achieved, thereby minimizing heat loss in heating the room to a predetermined temperature.

That is, the hot air heater 100 heats the temperature of the room by heat transfer by convection rather than heat radiation in nature, and such convection is “when the gas or liquid is partially heated, the heated portion expands and becomes dense and rises upwards. The part with a high density comes down, which is a principle that the entire gas or liquid is heated evenly as this process is repeated, since the hot air heater 100 according to the present invention has been invented according to the convective property of the fluid. This will minimize the heat loss to heat the same room.

On the other hand, the present invention omni-directional floor flow warmer 100 is not only used when performing indoor heating as described in the present invention, but also very useful for cleaning the floor or drying the carpet laid on the floor. It will be able to be applied and used in various other fields, which will all fall within the scope of the present invention.

As described above, the air blowing path of the duct shape of the hot air blower body according to the present invention, that is, the upper guide plate and the lower guide plate of the hot air blower body of the present invention is formed in the form of becoming narrower gradually from the upper end to the lower end. As a result, the exhausted air is discharged not only at a very high flow rate but also at a very far distance. Therefore, using the warm air fan according to the present invention, it is possible to heat all very large indoors with only one warm air fan.

And, since the hot air blower body according to the present invention is formed in each side of the discharge port for the air discharged to the suction inlet and heated to a predetermined temperature, the air in the 360 ° direction along the outlet formed in each side of the circle All are discharged to the front port. Therefore, using the warm air fan according to the present invention, it is possible to heat all parts of the room with only one warm air fan.

In addition, the hot air blower body according to the present invention is a discharge port is installed on the upper side of the hot air blower body, the suction inlet is installed on the lower side of the hot air blower body, the hot air heated to a predetermined temperature is blown along the floor surface, so that natural heat transfer is made It is possible to minimize the heat loss of heating the room to a predetermined temperature.

1 is a perspective view showing an embodiment of a warm air fan according to the present invention.

FIG. 2 is a cross-sectional view illustrating a portion II of FIG. 1. FIG.

3 is a plan view of the warm air fan shown in FIG.

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

100: hot air fan 120: hot air fan body

121: switch 122: the upper guide plate

124: lower guide plate 125: support plate

126: inlet 127: outlet

140: heater 160: blowing unit

164 cooling fan 170 wheels

Claims (7)

(delete) (delete) (delete) (delete) A hot air blower body having a suction port and a discharge port so that air is sucked and discharged and acts as a duct; A blower unit installed inside the hot air blower body and forcibly discharging the air sucked through the discharge hole by sucking the air through the suction hole; A heater installed inside the hot air blower body and heating the air forced to the hot air blower body to a predetermined temperature, wherein the suction port is formed above the hot air blower body, and the discharge port is located below the hot air blower body. In the omnidirectional bottom flow fan, The hot air blower body has an upper guide plate formed in a conical shape, a lower spaced apart from the upper guide plate by a predetermined distance in a downward direction, and formed similarly to the upper guide plate, and supporting the upper guide plate and the lower guide plate to be fixed at predetermined intervals. The floor and the front flow fan, characterized in that it comprises a guide tube which is formed on the upper surface of the upper guide plate and guides the outside air so that the outside air can be introduced. The front floor according to claim 5, wherein an interval between the upper guide plate and the lower guide plate is formed in a narrower shape from the upper end to the lower end so as to maximize the flow velocity of air discharged to the outlet. Flow warmer. According to claim 5, The blowing unit is an impeller for generating a predetermined blowing force and a predetermined centrifugal force so that the air is ventilated into the inside of the hot air blower body, and a drive motor for generating a rotational force to rotate the impeller to a predetermined Alp; An omnidirectional floor flow warmer comprising: a rotation shaft for transmitting the rotational force of the drive motor to the impeller; and a cooling fan installed on the rotation shaft adjacent to the drive motor to cool the drive motor.