KR200440348Y1 - Dehumidifier for a glass window - Google Patents

Abstract

Disclosed is a design for a dehumidifying apparatus for building windows. The disclosed building dehumidification apparatus for a glass window comprises: a case having an inlet and an outlet and forming an outer appearance, a blower fan installed inside the case to introduce air through the inlet and to discharge air through the outlet, and the blowing fan A blowing member having a blowing motor for driving a fan, a heater member installed inside the case for heating the air blown by the blowing member, and a guide piece for guiding discharge of the air heated by the heater member. And a control member controlling the operation of the heater member and the blower member in order to adjust the heating degree of the air emitted through the diffusion part and the diffusion part mounted below the discharge port.

Heater element, blower element, control element, glass window, diffusion part

Description

Dehumidifier for a glass window {Dehumidifier for a glass window}

1 is an exploded perspective view of a dehumidifying device for a building window according to an embodiment of the present invention.

FIG. 2 is a perspective view illustrating a state in which a diffusion part is separated in a state in which a moisture removing device for building windows shown in FIG. 1 is coupled.

3 is a perspective view illustrating in detail the first heater shown in FIG. 1.

4 is a perspective view illustrating in detail the second heater illustrated in FIG. 1.

FIG. 5 is a side cross-sectional view of the dehumidifying apparatus for the building window shown in FIG. 2.

6 is an enlarged view illustrating a state in which a second heater according to another embodiment of the present invention is installed in a moisture removing device for a building window.

FIG. 7 is a side cross-sectional view illustrating a state in which the second heater and the reflector shown in FIG. 6 are installed.

FIG. 8 is a view illustrating a state in which the moisture removing device shown in FIG. 2 is protruded on the side of the glass window.

9 is a side view of FIG. 8.

FIG. 10 is a side view illustrating a state in which the moisture removing device shown in FIG. 2 is embedded in a side of a glass window.

FIG. 11 is a block diagram illustrating that a plurality of moisture removing devices for building windows shown in FIG. 2 are provided and controlled by a central control panel.

FIG. 12 is a block diagram showing that a plurality of dehumidifying devices for a building window according to another embodiment of the present invention are provided and controlled by a central control panel.

<Description of Major Symbols in Drawing>

1: Dehumidifier 2: Case

3: inlet port 5: outlet port

7: suction grill 10: first heater

12: heater bracket 15: heater tube

17: heat sink 19: insulator

20,80: Second heater 22: Fixed bracket

23: input terminal 24: support bar

26: heat pipe 28: heat exchange plate

30: blowing member 32: blowing motor

34: blower fan 36: motor bracket

40: air guide 50: base member

52: guide plate 54: inner side

60: control member 62: louver

64: fixed panel 70: reflecting plate

82: heating tube 84: round plate

90: first sensor 92: second sensor

94: dew point humidity sensor 96: remote control receiver

98: remote control 100: central control panel

102: control member 104: control panel

110: diffuser 112: upper panel

114: lower panel 116: side panel

118: straight guide piece 119: curved guide piece

120: soundproof pad 130: glass window

140: first wall 150: second wall

160: Timer

The present invention relates to a moisture removing device, and more particularly, in a building with a large glass window including a columnar composite building, the hot air is discharged to prevent the formation of water droplets on the surface of the glass window to remove moisture and at the same time above the dew point. The present invention relates to a dehumidifying device for building windows that prevents condensation by raising the temperature.

In general, when the temperature difference between the outside temperature and the inside temperature is severe, such as winter, the moisture in the room condenses on the glass window to form water droplets.

As described above, when the condensation is intensified on the glass window, water drops flow downward, causing water to accumulate on the bottom surface, and mold and the like on the walls and the bottom surface.

In recent years, as more buildings use large glass windows without a separate ventilation window, condensation as described above frequently occurs. Therefore, there is a need for improvement.

The present invention is created by the necessity as described above, the water droplets are formed on the glass window due to the temperature difference between the inside and outside, so that the mold can be generated due to the water pooling or to prevent the occurrence of safety accidents due to short circuits The object is to provide a device.

Dehumidifying device for a building glass window according to the present invention comprises: a case having an inlet and a discharge port to form an outer appearance, and a blower fan installed inside the case to introduce air through the suction port and discharge the air through the discharge port; And a blower member having a blower motor for driving the blower fan, a heater member installed inside the case to heat the air blown by the blower member, and guiding discharge of air heated by the heater member. And a control member installed inside the case to control an operation of the heater member and the blower member to adjust the heating degree of the air exiting through the diffuser and the diffuser mounted below the discharge port. do.

Preferably, the heater member comprises a first heater installed between the suction port and the blowing fan.

The first heater is configured to include a heater tube heated by electricity supply and a heat sink mounted on an outer circumferential surface of the heater tube.

The heater member includes a second heater disposed between the discharge port and the blower fan.

A reflection plate is provided on an inner surface of the case adjacent to the second heater and an inner surface of the base member facing the second heater.

And, the second heater is composed of two heaters, are installed so as not to overlap at different heights.

And, it further comprises a central control panel provided with a control member for remote control of the control member.

In addition, one side of the case is provided with a first sensor for measuring the dry bulb temperature and a second sensor for measuring the wet bulb temperature, the first sensor and the second sensor is connected to the control member.

And, one side of the case is provided with a dew point humidity sensor for measuring the dew point temperature, the dew point humidity sensor is connected to the control member.

The guide piece includes a straight guide piece for guiding the air flow path in a straight direction, and a curved guide piece for guiding the air flow path in a curved direction.

And, one side of the case is provided with a timer for the operation of the blower member for a set time, the timer is connected to the control member.

The soundproof pad is mounted on the side surface of the blower member.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment and another embodiment of the dehumidifying device for a building window according to the present invention. For convenience of explanation, it will be described taking as an example a dehumidifying device for building windows which is mounted on the side of the glass window to remove moisture. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

Figure 1 is an exploded perspective view of a building window dehumidification device for building windows according to a preferred embodiment of the present invention, Figure 2 shows a state in which the diffusion portion is separated in the combined state of the building window dehumidification device shown in FIG. 3 is a perspective view showing in detail the first heater shown in FIG. 1, FIG. 4 is a detailed perspective view showing the second heater shown in FIG. 1, and FIG. 5 is for the building glass window shown in FIG. Figure 6 is a side cross-sectional view of the moisture removing device, Figure 6 is an enlarged view showing a state in which the second heater according to another embodiment of the present invention is installed in the moisture removing device for the building glass window, Figure 7 is a second heater shown in FIG. 8 is a side cross-sectional view illustrating a state where a reflector is installed, and FIG. 8 is a view illustrating a state in which the moisture removing device illustrated in FIG. 2 is protruded on the side of the glass window, and FIG. 9 is a side view of FIG. 8, and FIG. Dehumidifier shown in Figure 2 Figure 11 is a side view showing a state installed in a buried type on the side of the window, Figure 11 is a block diagram showing a plurality of dehumidification device for the building glass window shown in Figure 2 is controlled by a central control panel, Figure 12 is the subject innovation According to another embodiment of the building window is a block diagram showing a plurality of dehumidification apparatus is provided by a central control panel.

As shown in Figures 1 to 5, the moisture removal device 1 for the building glass window according to an embodiment of the present invention is provided with a suction port (3) and the discharge port (5) to form a case (2) Is provided.

The suction grill 7 is mounted to the front of the suction port 3 so that the inside of the case 2 is not visible from the outside along with a function for air suction to provide an aesthetic sense.

Blowing fan 34 for introducing air through the inlet (3) and discharge the air through the discharge port (5) inside the case (2), and blower motor (32) for driving the blower fan (34). Blowing member 30 having a) is installed.

The blower motor 32 is fixed between the case 2 and the base member 50 coupled to the rear side of the case 2 by the motor bracket 36.

In addition, the blower fan 34 mounted on both sides of the blower motor 32 has a bearing mounted at both ends thereof and is installed in a rotatable state at both ends of the base member 50.

In order to reduce the noise generated by the blowing member 30, the base member 50 or the case 2 is installed divided into the soundproof pad 120 is set.

The soundproof pad 120 is provided with a plurality of protrusions for noise reduction, and the noise generated by the blower member 30 is absorbed and reflected by the protrusions to reduce noise.

The soundproof pad 120 is preferably formed of a heat resistant and flame resistant material resistant to heat so as to be less affected by the heater member.

The heater member for heating the air blown to the target space for removing moisture by the blower member 30 is installed inside the case (2).

The heater member includes a first heater 10 installed between the suction port 3 and the blower fan 34, and a second heater 20 installed between the discharge port 5 and the blower fan 34. It is configured to include.

The heater member is also included in the embodiment of the present invention is composed of only the first heater 10 or only the second heater 20.

As shown in FIG. 3, the first heater 10 includes a heater tube 15 heated by electricity supply and a heat sink 17 mounted on an outer circumferential surface of the heater tube 15.

The heater tube 15 is formed in a rectangular panel shape, the heat sink 17 is made of a metal material with a zigzag plate between the heater tube 15.

The assembly of the heater tube 15 and the heat dissipation plate 17 as described above has a square panel shape, and four corners thereof are supported by the heater bracket 12, and an assembly unit consisting of the heater tube 15 and the heat dissipation plate 17. Are spaced apart from each other by an insulator (19).

On the other hand, one end of the heater tube 15 is provided with a power terminal is a passage for receiving external power.

As shown in Fig. 1 and 4, the second heater 20 installed at the inlet through the wind is a heating tube 26 that generates heat by the supply of power, and a panel mounted around the heating tube 26 And a heat exchange plate 28 in shape.

Support bars 24 are provided at both ends of the heating tube 26 to maintain the heating tube 26 in a fixed state, and the support bars 24 are connected to each other by the fixing bracket 22. .

The fixing bracket 22 is provided with an input terminal 23 connected to the heating tube 26 to serve as a passage for supplying power to the heating tube 26.

As shown in FIG. 1 and FIG. 5, a reflecting plate 70 is provided on the inner surface of the case 2 and the inner surface 54 of the base member 50 facing the second heater 20.

The reflector 70 may be made of various materials and shapes within the technical concept for heating the air by reflecting again the heat generated by the second heater 20 and flowing to the side including the aluminum material.

As the second heater 20 as described above, various kinds of heaters may be used, and as shown in FIGS. 1 to 5, in one embodiment of the present invention, a PTC heater is used.

6 and 7, according to another embodiment of the present invention, a heating tube 82 which is a heating element and a plurality of circular plates 84 are mounted on the heating tube 82 to perform heat exchange. The pipe heater may be used as the second heater 80.

The second heater 80 is composed of two heaters, and is installed so as not to overlap at different heights to ensure heat exchange as possible while ensuring the movement path of the air.

Reflecting plate 70 is installed on the inner surface of the case 2 and the inner surface 54 of the base member 50 facing the second heaters 20 and 80 so that the second heaters 20 and 80 are side surfaces. Heat is emitted back to reflect the direction of movement of air again to further improve the heating capacity.

On the other hand, as shown in Figure 1 and 2, the side of the blowing fan 34 is bent air guide 40 is installed, the suction into the suction port (3) in accordance with the rotation of the blowing fan 34 It serves to guide the discharged air through the discharge port (5).

The base member 50 mounted on the rear side of the case 2 has the base member adjacent to the blower motor 32 such that the air flow generated by the blower fan 34 is not affected by the blower motor 32. The guide plate 52 is vertically installed in the 50.

And, in order to control the operation of the heater member and the blowing member 30, the control member 60 is installed inside the case (2).

The left and right sides of the control member 60 are mounted in a rotatable state to adjust the wind direction, and the fixed panel 64 is mounted to the rear side of the base member 50.

And, as shown in Figure 1, one side of the case 2 is provided with a first sensor 90 for measuring the dry bulb temperature and a second sensor 92 for measuring the wet bulb temperature, the first The sensor 90 and the second sensor 92 are connected to the control member 60.

The dew point is determined by the amount of water vapor in the air irrespective of the temperature of the air. The dew point is high when the amount of water vapor contained in the air is large, and the dew point is low when the amount is small.

The dew point temperature may be calculated based on the stored value after measuring the dry bulb temperature and the wet bulb temperature using the first sensor 90 and the second sensor 92.

The first sensor 90 and the second sensor 92 are used to check the moisture in the vicinity of the glass window 130 to supply the heated warm air to prevent condensation on the glass window 130.

The first sensor 90 and the second sensor 92 are necessary sensors for calculating the dew point temperature, and in another embodiment of the present invention, the dew point humidity sensor 94 is replaced.

As shown in FIG. 1, the dew point humidity sensor 94 is also installed at one side of the case 2 to measure the dew point temperature, and the dew point humidity sensor 94 is connected to the control member 60. .

The dew point humidity sensor 94 refers to a dew point hygrometer, and is a device for measuring humidity in the air by measuring the dew point.

The dew point humidity sensor 94 is a cooling device that condenses water vapor in the air to form dew, and measures a temperature at which the condensation takes place.

In addition, a remote control receiver 96 is provided outside the case 2, and the remote control receiver 96 is connected to the control member 60 so that the heater member and the blower member 30 are remote control 98. To make it work.

As illustrated in FIGS. 11 and 12, the dehumidifying apparatus 1 for the building glass window having the above configuration is provided in plural, and the dehumidifying apparatus 1 is controlled by the central control panel 100. Is done.

The central control panel 100 is provided with a control member 102 connected to the control member 60 to remotely control the control member 60.

In addition, an operation unit 104 is provided outside the central control panel 100 to allow a user to directly control the device.

On the other hand, as shown in Figure 1 and 2, the diffusion section 110 provided with a guide piece to guide the discharge of the air heated by the heater member is provided below the discharge port (5).

The diffusion part 110 forms a passage of air so that the air coming out toward the discharge port 5 is uniformly spread over a large area of the glass window 130 as shown in FIG. 8.

The diffusion unit 110 forms an inner space by the upper panel 112 and the lower panel 114 and side panels 116 installed on both left and right sides, and a through hole communicating with the discharge port 5 is formed inside. do.

A guide piece is provided inside the diffusion part 110 to guide the discharge of air, and the guide piece has a straight guide piece 118 having a straight plate shape to guide the air flow path in a straight direction, and in a curved direction. It is configured to include a curved guide piece 119 having a plate shape bent in an arc shape to guide the air flow path.

That is, a straight guide piece 118 is installed at the center of the diffusion part 110, and a curved guide piece 119 having a bend from the center to the outside is provided at left and right sides of the diffusion part 110.

Since the guide piece is mounted as described above, the discharged wind may not be directed to one side and may be uniformly spread over a large area of the glass window 130.

In addition, the side panel 116 also has a curved shape that is bent outward from the center so that the air exiting through the discharge port 5 is spread more uniformly and smoothly over a large area.

The upper panel 112 is installed to be inclined in the direction in which the glass window 130 is installed, as shown in Figures 5, 9 and 10, guides the wind from the discharge port 5 to the glass window 130, dehumidification effect To maximize.

As shown in FIG. 8 and FIG. 9, the case 2 of the moisture removing device 1 having the blower member 30 and the heater member is formed of the window 130. It is installed on the upper side in an exposed type.

The moisture removing device 1 is installed in an exposed type, which is a method used when the first wall 140 provided on the upper side of the glass window 130 has sufficient strength. As shown in FIG. 10, the first wall is provided. When the strength is not sufficient at 140, the moisture removing device 1 is installed at the second wall 150 located above the first wall 140.

As shown in FIG. 10, the moisture removing device 1 may be installed in a buried type, and may be installed in various ways such as spraying air from the lower side to the upper side of the glass window 130 and spraying air from the side of the glass window 130. The moisture removing device 1 may be installed around the glass window 130.

As shown in FIG. 10, in the case of the buried type, only the discharge port 5 is exposed to the lower side of the first wall 140.

In addition, the space to be installed may be installed in various places such as a corridor of a parking lot or an underground space and an indoor space, including the glass window 130.

On the other hand, one side of the case 2 is provided with a timer 160 for the operation of the blowing member 30 for a set time, the timer 160 is connected to the control member 60.

In addition, the heater member is equipped with an overheat prevention sensor, the heating operation is stopped when the overheating over a predetermined temperature.

In addition, the heater member generates various types of heaters such as a PTC heater which generates heat by itself but does not catch fire on another member adjacent thereto, a pipe heater in which a heating wire is inserted inside the pipeline, and a heating heater in which a heating wire is wound. May optionally be used.

A remote control 98 is provided to operate the heater member and the blower member 30, but a manual operating unit capable of manually operating the device in case the remote control 98 is not operated is the control member. 60 is provided on one side.

The moisture removing device 1 has a square shape, but it is possible to change a variety of appearances, including a rounded shape of the lower side of the front surface.

It will be described the operating state of the building glass window dehumidification device according to an embodiment of the present invention having the configuration as described above.

Dehumidifying device (1) for the building glass window according to the present invention can be installed only one or a plurality of two or more in the target space.

When a plurality of dehumidifying apparatuses 1 for building windows are installed, as illustrated in FIG. 11, the control member 60 of the central control panel 100 controls each control member 60.

The control member 102 is operated by the operation unit 104, and when a device operation signal is input to the operation unit 104, it is transmitted to each control member 60 through the control member 102.

As a result, the heater member and the blowing member 30 are operated to provide warm air to the inner surface and the target space of the glass window 130.

On the other hand, the timer 160 is connected to the control member 60, the heater member is operated for a set time to supply the warm air to stop for a set time to prevent overheating, and this operation is repeated.

And, the remote control 98 can be used to individually operate the moisture removal device 1 for the building glass window.

In addition, the dew point is sensed during operation by using the first sensor 90 and the second sensor 92 or the dew point humidity sensor 94 shown in FIG. When the temperature is below the dew point temperature, the hot air is operated in a strong mode, and when the temperature is above the dew point temperature, the hot air is operated in a mode that is weak.

The heater member may be installed and operated by the first heater 10 or the second heater 20 only in the moisture removal device 1 for the building glass window, and the first heater 10 and the second heater 20 are different. Even if it is installed, only one side may be selectively operated or the first heater 10 and the second heater 20 may be operated at the same time.

On the other hand, as shown in Figure 8, the air coming out through the discharge port 5 by the diffusion portion 110 according to the present invention to the linear guide piece 118, the curved guide piece 119 and the side panel 116 It is guided by the uniformly diffused on the front of the glass window 130, and as shown in FIG. Concentration will maximize the dehumidification effect.

Condensation is generated on the inner surface of the glass window 130 by blowing air heated to the surface of the glass window 130 by the operation state as described above, and water condensation is prevented. It can prevent the occurrence of safety accidents due to mold and leakage.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. I will understand.

Therefore, the true technical protection scope of the present invention should be determined by the utility model registration claims below.

As described above, the dehumidifying device for a building glass window according to the present invention, unlike the conventional design, provides hot air to the inner surface of a glass window of a large building, to prevent condensation, or to evaporate it even when condensation occurs, thereby preventing water accumulation. It can prevent the occurrence of mold and prevent the occurrence of safety accidents due to short circuit.

Claims (12)

A case having an inlet and an outlet to form an outer shape; A blowing member installed inside the case and having a blowing fan for introducing air through the suction port and discharging the air through the discharge port, and a blowing motor for driving the blowing fan; A heater member installed inside the case to heat the air blown by the blowing member; A diffusion part provided at a lower side of the discharge port to guide the discharge of the air heated by the heater member; A control member for controlling the operation of the heater member and the blower member to adjust the degree of heating of the air exiting the diffusion unit; And It is configured to include a central control panel provided with a control member for remote control of the control member, The guide piece includes a straight guide piece for guiding the air flow path in a straight direction, and a curved guide piece for guiding the air flow path in a curved direction, The blower motor is fixed between the case and the base member coupled to the case back by the motor bracket while the blower fan is mounted on both sides, And a guide plate is installed on the base member adjacent to the blower motor so that the air flow generated by the blower fan is not affected by the blower motor. The method of claim 1, And the heater member comprises a first heater installed between the suction port and the blower fan. The method of claim 2, The first heater is a moisture removal device for a building glass window, characterized in that it comprises a heater tube heated by electricity supply and a heat sink mounted on the outer circumferential surface of the heater tube. The method according to claim 1 or 2, And the heater member comprises a second heater installed between the discharge port and the blower fan. The method of claim 4, wherein And a reflection plate is provided on an inner side surface of the case adjacent to the second heater and an inner side surface of the base member facing the second heater. The method of claim 4, wherein The second heater is composed of two heaters, dehumidifying device for a building glass window, characterized in that the installation does not overlap at different heights. delete The method of claim 1, One side of the case is provided with a first sensor for measuring the dry bulb temperature and a second sensor for measuring the wet bulb temperature, the first sensor and the second sensor moisture for the building glass, characterized in that connected to the control member Removal device. The method of claim 1, One side of the case is provided with a dew point humidity sensor for measuring the dew point temperature, the dew point humidity sensor for building glass window, characterized in that connected to the control member. delete The method of claim 1, One side of the case is provided with a timer for the operation of the blower member for a predetermined time is provided, the timer is dehumidifying device for a building glass window, characterized in that connected to the control member. The method of claim 1, Dehumidifying device for a building glass window, characterized in that the soundproof pad is mounted on the side of the blowing member.

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