KR100743939B1 - electric hot air generator - Google Patents

Abstract

The present invention relates to an electric hot air blower having a structure capable of discharging hot air to the upper or lower portion as needed; Upper and lower air outlets are formed on the upper and lower sides of the front, respectively, and air inlets are formed in the rear side, and the air inlets are formed to allow external air. An inlet hole is formed at the rear of the center so that the air is transferred, and upper and lower discharge holes are formed at upper and lower ends through which the air introduced through the inlet hole can be discharged to the upper and lower air outlets; Upper / lower heaters provided at the lower side and converting electrical energy applied through an electric wire into thermal energy, and provided at the rear side of the support duct to forcibly blow external air introduced through the air inlet into the support duct. Air provided between the blower and the upper / lower heaters inside the support duct is introduced into the air by the operation of the blower It characterized by consisting of a wind direction switching member for selectively switching the direction so as to be released to any one of the upper / lower discharge hole.

The electric hot air blower according to the present invention has an effect that the user can selectively discharge the hot air to the upper side or the lower side by providing a wind direction switching member inside the support duct.

Electric, Heater, Heater, Wind Direction

Description

Electric hot air generator

1 is a view showing a conventional general electric warmer.

Figure 2 is a perspective view of the electric warmer according to the present invention.

3 is a view showing a cross section of the electric warmer according to the present invention.

4 is a view showing the operating state of the main portion of the electric warmer according to the present invention.

5 is a control circuit block diagram of the electric warmer according to the present invention.

6 is a cross-sectional view of an electric warmer according to another embodiment of the present invention.

7 is a control circuit block diagram of the electric warmer according to FIG. 6;

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

10: electric heater 20: housing

21: upper air outlet 22: lower air outlet

30: support duct 40: upper heater

40a: second switch 41: lower heater

41a: first switch 50: blower

54: control panel 60: wind direction conversion member

70: rotation means 71: knob

77: wireless receiver 80: remote control

The present invention relates to an electric hot air blower, and more particularly, to an electric hot air blower having a structure capable of discharging hot air to the upper or lower portion as needed.

In general, a cold winter is used to maintain a constant temperature in the room. In particular, general offices have been using oil boilers, but recently, due to a surge in oil prices, electric hot air heaters that convert electrical energy into thermal energy and heat them have been widely used.

Such a conventional electric warmer has a housing 3 having an air inlet 1 through which hot air is discharged, and an air inlet 2 through which external air can be introduced. A support duct 4 is formed in the housing 3 to guide air to move from bottom to top, and is provided at an upper end of the support duct 4 to guide internal air to the air outlet 1. An exhaust duct 5, a heater 6 provided inside the support duct and converting electrical energy applied through an electric wire into thermal energy, and a lower portion of the heater 6 are provided in the air inlet 2. It consists of a blower (7) for forcibly blowing the outside air introduced through the heater (6).

However, according to such a structure, the external air forced into the air inlet 2 by the blower 7 is heated by the heater 6 and guided through the exhaust duct 5 in a state of warm air. It had a structure that is discharged to the air discharge port (1) provided on the upper front side of the housing 3 had a disadvantage that the warm air is discharged only to the upper portion.

On the other hand, when hot air is discharged to the upper part, the hot air is moved to the upper part of the room and the cold air moves to the lower part of the room. Had

In particular, in the case of the conventional electric hot air blower due to such a structure, the installation area is large and when the partition (partion) is installed for personal privacy, there is no choice but to use a configuration discharged only in the upward direction, 5 ~ 10 pyeong In narrow places, the waste of energy is rather severe and the heating efficiency is lowered.

In addition, the air outlet (1) is provided only on the upper side of the housing (3) to discharge the warm air for a long time, causing problems such as headache (두통) or respiratory failure of the indoor occupants, and the warm air on the lower side of the body There is also a problem that can not be delivered smoothly because blood circulation is not smooth to accumulate fatigue.

Accordingly, an object of the present invention is to provide an electric hot air blower having a structure capable of changing the discharge direction of hot air according to an indoor installation area or a space arrangement structure.

Another object of the present invention is to provide an electric warmer having a structure that can be expected to save energy by selectively turning on and off the heater that heats the warm air to the upper or lower when discharged.

Another object of the present invention is to enable the residents living in the room for a long time to control the warm air to warm the lower body of the blood circulation smoothly by using a remote control on / off and the discharge direction of the warm air electric heater It is to provide an electric warmer having a structure that can adjust.

The present invention relates to an electric warmer; Upper and lower air outlets are formed at the upper and lower sides of the front, respectively, and the air inlets are formed at the rear thereof to allow external air to flow therein, and the inside of the housing is introduced from the air inlets. An inlet hole is formed at the rear of the center so that the air is transferred, and upper and lower discharge holes are formed at upper and lower ends through which the air introduced through the inlet hole can be discharged to the upper and lower air outlets; Upper / lower heaters provided at the lower side and converting electrical energy applied through an electric wire into thermal energy, and provided at the rear side of the support duct to forcibly blow external air introduced through the air inlet into the support duct. Air provided between the blower and the inner upper / lower heater of the support duct is introduced into the air by the operation of the blower It characterized in that the wind direction conversion member for changing the direction to be selectively discharged to any one of the upper / lower discharge holes.

With reference to the accompanying drawings, an electric warmer according to the present invention will be understood by the embodiments described in detail below.

Figure 2 is a perspective view showing an electric warmer according to the present invention, Figure 3 is a view showing a cross section of the electric warmer according to the present invention, Figure 4 is a view showing the operating state of the main portion of the electric warmer according to the present invention. 5 is a block diagram of a control circuit of an electric warmer according to the present invention, FIG. 6 is a cross-sectional view of the electric warmer according to another embodiment of the present invention, and FIG. 7 is a control of the electric warmer according to FIG. 6. A circuit block diagram.

2 and 4, the electric warmer 10 according to the present invention is formed with upper and lower air outlets 21 and 22 through which hot air is discharged, respectively, on the upper side and the lower side of the front side, and the outside air at the rear side. The housing 20 in which the air inlet 23 which can be introduced is formed, and the inlet hole 31 is formed in the center rear side so that the air which flows in from the air inlet 23 can be transferred inside the housing 20. Upper and lower discharge holes 32 and 33 through which the air introduced through the inlet hole 31 can be discharged are formed at upper and lower ends, and are formed at upper and lower ends of the support duct 30. Upper and lower flow paths 34 and 35 for guiding the internal air to the upper and lower air outlets 21 and 22, and upper and lower sides of the support duct 30. And upper and lower heaters 40 and 41 for converting electrical energy applied through the thermal energy into thermal energy, and the rear side of the support duct 30. For example, a blower 50 for forcibly blowing external air introduced through the air inlet 23 into the support duct 30, and provided in the support duct 30 to operate the blower 50. It consists of a wind direction conversion member 602 for switching so as to selectively discharge the air flowing from the outside toward the upper passage 34 or the lower passage (35).

Hereinafter, each component constituting the electric warmer 10 according to the present invention will be described in detail.

The housing 20 is formed in a substantially rectangular shape, and an upper air outlet 21 is formed at the upper side of the front to discharge the warm air in an upward direction of the room, and a lower side of the front side is configured to discharge the warm air in the bottom side of the room. The lower air outlet 22 is formed therebetween, and between the display means 52 for displaying the current state of the hot air or the control state, and an operation panel 53 for turning the power on and off. . Meanwhile, an air inlet 23 through which external air is introduced is formed at the rear side of the housing 20, and inside the air inlet 23, a contaminant such as dust penetrates into the housing 20. In order to prevent this, the filter 23a for filtration is provided.

At this time, the display means 52 is configured using an LCD or a plurality of LEDs, the air is.

On the other hand, the control panel 55 for the comprehensive monitoring and control of the electric warmer is provided in a predetermined space inside the housing 20.

Next, the support duct 30 is formed in a substantially rectangular shape, and upper and lower discharge holes 32 and 33 are formed at upper and lower ends thereof, and an air inlet 23 of the housing 20 is formed at the center rear side thereof. Inlet 31 is formed through which the air introduced through the () can be introduced.

At this time, the inlet hole of the support duct 30 and the air inlet 23 of the housing 20 are spaced apart a predetermined distance is formed a constant space portion 27, between the inlet through the air inlet 23 The blower 50 is provided with a blowing fan 50a for forcibly blowing the external air to be smoothly moved into the support duct 30.

In addition, an upper heater 40 and a lower heater 41 for heating the outside air introduced through the inlet hole 31 are respectively installed above and below the inner space portion of the support duct 30. At this time, the upper and lower heaters 40 and 41 are preferably constituted by PTC heaters.

Therefore, the user operates only the upper heater 40 when heating and discharging the external air introduced by performing a key / button operation of the operation panel 53, and only the lower heater 41 when discharging downward. Operation and discharge. Of course, the operation of the upper and lower heaters 40 and 41 is naturally heated only when power is applied through the wire.

On the other hand, the inner direction of the support duct 30 is provided with a wind direction switching member 60, the wind direction switching member 60 is formed by a plurality of support pieces 63 on the inner side of the round blocking plate 61. It consists of a rotating shaft 64 spaced apart.

At this time, the rotation shaft 64 is pivotally arranged in the horizontal direction inside the support duct 30, it is preferable that a bearing is provided to enable a smooth rotation.

In addition, one end of the rotation shaft 64 is provided with a rotation means 70, which is installed to penetrate one side of the support duct 30 and one side of the housing and manually changing the wind direction conversion member 60 at the end thereof. ) Is made with a knob 71 to allow a smooth rotation.

On the other hand, the upper and lower latches 31a and 31b are provided at upper and lower ends of the inlet hole 31 inside the support duct 30 to prevent the wind direction switching member 60 from rotating indefinitely. Therefore, when the external air is introduced into the support duct 30 by the operation of the blower 50, when the knob 71 is rotated in one direction, the wind direction switching member 60 rotates so that one end of the blocking plate 61 is rotated. When the inlet air is brought into contact with the upper catching hole 31a, the inlet air moves to the lower outlet hole 33, and when the knob 71 is rotated in the other direction, the wind direction changing member 60 rotates so that the other end of the blocking plate 61 is rotated. When it comes in contact with the lower locking hole 31b, the inlet air moves to the upper outlet hole 32.

In addition, one side of the upper latch 31a is provided with a first switch 41a for turning on / off the power supplied to the lower heater 41, and one side of the lower latch 31b has an upper heater ( A second switch 40a is provided for turning on / off the power supplied to 40. In this case, the first and second switches 40a and 41a may be various types such as general switches or micro switches.

In addition, first and second temperature sensors 34a and 35a are provided at one side of the upper flow path 34 and the lower flow path 35 of the housing 20 to monitor the temperature of the warm air discharged. By such a configuration, it is possible to control the temperature of the warm air by inducing simple on / off of the heaters 40 and 41 by using the set temperature.

Meanwhile, an upper flow path 34 for guiding to the upper air discharge port 21 is formed in the upper discharge hole 32 of the support duct 30, and the lower air discharge port 22 is formed in the lower discharge hole 33. A lower flow path 35 for guiding is formed, and the upper and lower flow paths 34 and 35 are preferably configured by a duct of a predetermined size.

In addition, the lower portion of the housing 20 is provided with a caster 29 is easy to move.

Hereinafter, an operation process of the electric warmer according to the present invention will be described in detail with reference to FIGS. 2 to 5.

When the power switch 53a of the operation panel 53 is turned on, power is supplied to the control panel 55 through the power plug 36 and the transformer rectifying unit 37 to be initialized, and the first and second temperature sensing sensors ( The sensing signals of 34a and 35a are applied to display the current temperature on the display means 52.

When the blower button 38 is pressed in such a state, the blower 50 is operated to rotate the blower fan, and external air introduced through the air inlet 23 of the housing is introduced through the filter filter 23a to support the duct ( 30).

On the other hand, before operating the blow button 38, the knob 71 of the wind direction switching member 60 is operated to switch whether to move the outside air toward the upper flow path 34 or the lower flow path (35).

That is, for example, when the knob 71 is rotated in one direction so that the warm air can be discharged downward, the wind direction switching member 60 rotates about the rotation shaft 64 so that the wind direction switching member 60 is rotated. One end of the blocking plate 61 is in contact with the upper locking hole (31a) to block the air movement to the upper side, and the first switch (41a) is also pressed to the state that the lower heater 41 can be operated.

When the blower button 38 is pressed in the state where the lower heater 41 can be driven as described above, the blower 50 operates and power is also supplied to the lower heater 41 so that the heater is heated so that the inlet air flows into the lower flow path. While moving toward 35, the lower heater 41 is heated by warm air at a constant temperature and discharged through the lower air outlet 22 of the housing 20.

On the other hand, when the knob 71 is rotated to the other side to allow the warm air to be discharged upward, the wind direction switching member 60 is rotated about the rotation axis so that the other end of the blocking plate 61 is lowered by the lower latch 31b. ) To block air movement to the lower side, and the first switch 41a is turned off and the second switch 40a is turned on, so that the upper heater 40 can be operated.

When the blower button 38 is pressed in the state in which the upper heater 40 can be driven as described above, the blower 50 is operated and power is also supplied to the upper heater 40 so that the heater is heated so that the inflow air is connected to the upper flow path ( While moving toward 34, the upper heater 40 is heated with warm air at a constant temperature and discharged through the upper air outlet 21 of the housing 20.

On the other hand, Figures 6 and 7 is a view showing another embodiment of the present invention, according to which the rotation means 70 at one end of the rotating shaft 64 of the wind direction switching member 60 as in the above example Without applying the knob 71, the driven pulley 72 is provided at one end of the rotating shaft 64, and the motor 73 is provided at a predetermined distance and the driving pulley 74 is provided on the drive shaft 73a of the motor 73. ), The belt 75 is fastened to the driving pulley 74 and the driven pulley 75.

On the other hand, the operation panel 53 is further provided with a wind direction switching switch 76.

By operating the wind direction switching switch 76 by such a configuration, the control panel 55 reversely rotates the motor 73 to rotate the wind direction switching member 60 about the rotation shaft 64 to switch the flow of warm air. Done.

In addition, one side of the operation panel 53 is further provided with a wireless receiving unit 77 for receiving a wireless signal to the control panel 55, and has a separate remote control (80).

At this time, the remote controller 80, when the microcomputer 82, which is supplied with the power of the battery 81, receives a signal from the keypad 83, converts it into a wireless signal through the wireless transmitter 84 and transmits the electric heater. Received by the wireless receiving unit 77 of 10 and input to the control panel 55 to control the operation of the blower 50, the motor 73 and the heater (40, 41).

Here, the wireless transmitter 84 and the wireless receiver 77 may be configured using an infrared transmission / reception module or an RF transmission / reception module.

As described above, embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to the embodiments of the present invention.

As described above, the electric hot air blower according to the present invention has an effect that the user can selectively discharge the hot air upward or downward by providing the wind direction switching member 60 inside the support duct.

In addition, the heater is provided in the support duct, but divided into the upper heater 40 and the lower heater 41 is installed and the upper heater 40 and the lower heater 41 selectively according to the wind direction change of the wind direction switching member 60 It is driven or shut off to minimize power consumption and increase efficiency.

In addition, the remote controller 80 is provided separately so that the user can conveniently control the electric heater without directly operating a button or a switch of the operation panel 53 of the electric heater 10.

Claims (7)

Upper and lower air outlets 21 and 22 through which hot air is discharged are formed on the upper and lower sides of the front, respectively, and a housing 20 having an air inlet 23 through which external air can be introduced; An inlet hole 31 is formed at the rear of the center so that the air introduced from the air inlet 23 is transferred into the housing 20, and the air introduced through the inlet hole 31 is the upper / lower air outlet. Support duct 30 is formed in the upper and lower discharge holes 32, 33 which can be discharged to the (21, 22), the upper and lower ends, Upper and lower heaters 40 and 41 provided at upper and lower sides of the support duct 30 to convert electrical energy applied through an electric wire into thermal energy; A blower 50 provided at a rear side of the support duct 30 to forcibly blow external air introduced through the air inlet 23 into the support duct 30; Between the upper and lower heaters 40 and 41 of the support duct 30 is provided between the upper and lower discharge holes (32, 33) of the air introduced from the outside by the operation of the blower (50) An electric warmer, characterized in that the wind direction conversion member 60 for changing the direction so as to selectively discharge to one. The method of claim 1, The wind direction conversion member 60 is formed by fixing the rotation shaft 64 integrally with the plurality of support pieces 63 inside the round blocking plate 61 and rotates in the horizontal direction inside the support duct 30. Possibly to be constructed, One end of the rotary shaft (64) is an electric warmer, characterized in that it is further provided with a rotating means (70) for rotating the rotary shaft (64). The method of claim 2, wherein the rotation means (70); One end of the rotating shaft (64) is provided with a knob (71) to pass through one side of the housing (20) and protrude outward at the end thereof. The method of claim 2, wherein the rotation means (70); A driven pulley 72 is provided at one end of the rotating shaft 64 and the motor 73 is spaced apart by a predetermined distance, and a drive pulley 74 is provided at the drive shaft 73a of the motor 73. It is made by fastening the drive pulley (74) and the driven pulley (72). The method of claim 2, When the rotary shaft 64 is rotated in one direction, the upper end of the inlet hole 31 is formed in the upper end of the support duct 30 so that one end of the blocking plate 61 is in contact with the rotary shaft 64, and the rotary shaft ( The lower end of the inlet hole (31) is further provided so that the other end portion of the blocking plate (61) when the 64 is rotated in the other direction is provided with an electric warmer. The method of claim 1, Inside the support duct 30, the direction switching member 60 is supplied to the first switch 41a and the upper heater 40 for turning on / off the power supplied to the lower heater 41 at the time of rotation. An electric warmer, characterized in that it is further provided with a second switch (40a) for the on / off of the power supply. The method of claim 1, The housing 20 is further provided with a wireless receiving unit 77 for applying a sensed radio signal to the control panel 54 for controlling the operation of the upper and lower heaters 40 and 41 and the blower 50, An electric warmer characterized by further comprising a remote control unit (80) having a radio transmitter (84) for transmitting a radio signal to the radio receiver (77).

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