KR200471341Y1 - The Louver With Auto control Function of Lamella Angle - Google Patents

Abstract

The present invention is a louver provided with a lamellar automatic adjustment function to prevent the inflow of rain is provided at the end of the air inlet or outlet of the ventilation facility,
A rainwater detection sensor installed at a predetermined position outside the louver for detecting rainwater, a controller for comparing the data detected by the rainwater detection sensor with preset data and outputting a corresponding control signal, and a control signal from the controller And a louver driver for switching the lamella angle of the louver according to the level, and a lamella for changing the direction upward, horizontally, and downward according to the operation of the louver driver. The louver driving unit connects a plurality of lamellas to interlock with each other, a link having a rack gear, an actuator for driving the link according to the signal level of the controller, and a reduction gear and pinion gear for transmitting the driving force of the actuator to the link. Characterized in that it comprises a.
Accordingly, according to the louver equipped with the automatic lamellar angle adjustment function according to the embodiment of the present invention, the louver, which is always fixed at about 45 degrees downward, is usually used to improve the air flow by adjusting the lamella at an angle favorable to the air flow. Reduce the pressure loss and increase the efficiency of the equipment.
In addition, by configuring the lamella of the louver for the ventilation hole by the rain sensor and the controller, the actuator and the link to provide the effect of preventing rain water from entering the room by automatically adjusting the lamella in rainy weather.

Description

The Louver With Auto Control Function of Lamella Angle}

The present invention relates to a louver provided at an end of a vent such as an air inlet or an outlet to prevent rainwater from entering. More specifically, the lamella of the louver is configured to interoperate with a rainwater sensor to detect rainwater. By automatically adjusting the angle of the lamellae, the air flow can be improved by placing it horizontally or upwardly at 45 degrees in normal times, and automatically changing the angle of lamellas to prevent rainwater from changing to 45 degrees automatically in rainy weather. A louver having a function is provided.

Generally, louvers are used for the purpose of lighting, sunshine adjustment, ventilation, ventilation, and air volume control while reducing external visual exposure. The louvers are arranged horizontally at regular intervals by narrow plates, that is, louver lamellas. In general, the inside of the structure is ventilated and ventilated to block noise from the outside from entering the room, and is configured to prevent outside polluted air from flowing back or rainwater from entering the room.

When the louver is applied to the end of the inlet or outlet of the ventilation system as described above, Lamella is always tilted downward at an angle of 45 degrees or an angle to prevent rainwater from entering the room through the inlet or outlet. As such, the fixed lamella of the louver opened at a constant angle causes noise and pressure loss according to the air flow.

Recently, a technique for adjusting the opening and closing direction of the louver indoors by a motor and a controller has been implemented to improve this problem. However, in the prior art, a mechanical structure is complicated, and thus, a failure occurs frequently and a semi-automatic form is used. If it is not operated, there is a problem that rain water flows into the room through the vents.

Republic of Korea Patent No. 10-0929813 (Name of invention: louver and its opening and closing structure)

The problem to be solved in the present invention is to configure the lamella of the louver installed in the ventilation opening to be interlocked by the rain sensor, the controller, the actuator, the link and the gear so that the opening and closing direction of the lamella by the rainwater detection can be automatically adjusted. By using horizontal or upward 45 degrees to improve the flow of air in normal times, and in rainy weather to automatically change to a 45 degrees downward structure to prevent rainwater from entering the room to automatically adjust the lamella angle It is an object to provide a provided louver.

The present invention proposed under the object as described above, is provided at the end of the air inlet or outlet of the ventilation facility with a louver with automatic lamellar angle adjustment function to prevent the inflow of rain water,

A rainwater detection sensor installed at a predetermined position outside the louver for detecting rainwater, a controller for comparing the data detected by the rainwater detection sensor with preset data and outputting a corresponding control signal, and a control signal from the controller And a louver driver for switching the lamellar angle of the louver according to the level, and a lamella for changing the direction upward, horizontally and downward according to the operation of the louver driver.

In the present invention, the louver driving unit for switching the lamella angle of the louver according to the control signal level from the controller, the link is connected to a plurality of lamellae interlocked with each other and provided with a rack gear, the link according to the signal level of the controller An actuator for driving the drive, and a reduction gear and pinion gear for transmitting the driving force of the actuator to the link.

According to the louver equipped with the automatic lamellar angle adjustment function according to the embodiment of the present invention, the louver, which is always fixed at about 45 degrees downward, is usually used to improve the air flow to reduce noise by adjusting the lamella to an angle favorable to the air flow. Therefore, the pressure loss can be increased to increase the efficiency of the equipment.

In addition, the lamella of the louver is configured to be interlocked by the rainwater sensor and the controller, the actuator and the link provides an effect of preventing rainwater from entering the room by automatically adjusting the angle of the lamella in rainy weather.

1 is a view schematically illustrating a configuration state of a louver having an automatic lamellar angle adjustment function according to the present invention
Figure 2 is a conceptual diagram of the components of the louver with a lamellar angle automatic adjustment function according to the present invention
3 is a view illustrating a louver driving unit which is a main component of a louver having an automatic lamellar angle adjustment function according to the present invention;
Figure 4 is a schematic diagram illustrating the operating state of the louver with automatic lamellar angle adjustment function according to the present invention

With reference to the accompanying drawings, a preferred embodiment of the louver having a lamellar angle automatic adjustment function according to the present invention as described above will be described in detail.

1 is a view schematically illustrating a configuration state of a louver having an automatic lamellar angle adjustment function according to the present invention, and FIG. 2 is a conceptual diagram of blocking components of the louver having an automatic lamellar angle adjustment function according to the present invention. to be.

The present invention is a louver provided with a lamella angle automatic adjustment function is provided at the end of the air inlet or outlet of the ventilation facility to prevent the inflow of rain water,

The rainwater detection sensor 20 installed at a predetermined position outside the louver 10 detects rainwater, and compares the data detected by the rainwater detection sensor 20 with preset data to output a corresponding control signal. The controller 30 and the louver driver 40 for switching the lamella 11 angle of the louver according to the control signal level from the controller 30 and upward, horizontally, and downwardly according to the operation of the louver driver 40. It is comprised including the lamella 11 which changes a direction.

In this case, the rainwater detection sensor 20 operates by detecting a change in resistance between the infrared method and the sensor, which emits infrared rays from the light emitting diodes in the sensor and receives the amount of light returned by being refracted by water or raindrops. Resistor system, etc. can be applied, and one or two or more can be installed at a suitable position outside the louver.

In addition, the controller 30 compares the data sensed by the rainwater sensor 20 with the preset data, and outputs a corresponding control signal to drive the actuator 41. The controller 30 At a predetermined position of the actuator is provided with an actuator drive button 31 for driving the actuator 41 to manually switch the angle of the lamella 11 of the louver 10 upward, horizontal or downward.

3 is a view illustrating a louver driving unit which is a main component of a louver having an automatic lamellar angle adjustment function according to the present invention.

The louver driver 40 for switching the angle of the lamellas 11 of the louvers 10 according to the control signal level from the controller 30 is connected to the plurality of lamellas 11 so as to interlock with each other and the rack gear at a predetermined position. A link 42 having 42b), an actuator 41 for driving the link 42 according to the signal level of the controller 30, and a driving force for transmitting the driving force of the actuator 41 to the link 42. And a reduction gear 43 and a pinion gear 43a.

In this case, the link 42 performs a function of connecting the plurality of lamellas 11 to interlock with each other. The link 42 is formed in the form of a rod having a circular or polygonal cross section and considering a durability to apply a metal material. Preferably, the link 42 is connected to each other by a plurality of lamellas 11 rear ends configured to be rotatable with respect to the hinge axis 11a by a connecting ring 42a so that the entire lamellas 11 are linked to each other. ) Can be linked to the operation.

The actuator 41 driving the link 42 according to the signal level of the controller 30 may be a step motor.

The actuator 41 driving the link 42 according to the signal level of the controller 30 may be selected from prime movers using electric, hydraulic or compressed air.

Here, in the embodiment of the present invention, the driving force of the actuator 41 is transferred to the lamella 11 by a link 42 having a plurality of reduction gears 43, pinion gears 43a, and rack gears 42b. Although illustrated as a transmission configuration, it is not limited to such a configuration, and when the direction change is necessary according to the arrangement position of the actuator and the link, the bevel gear is applied to the shaft gear and the reduction gear by applying the bevel gear. It can be applied to change the configuration to transmit the driving force to the actuator.

The operation of the louver with the lamellar angle automatic adjustment function according to the present invention configured as described above and the effects thereof will be described.

Figure 4 is a schematic diagram illustrating an operating state of the louver having a lamellar angle automatic adjustment function according to the present invention.

Generally, in the prior art, the lamella 11 of the louver is always set to have a downward 45 degree direction, but in the present invention, the lamella 11 usually has a horizontal or upward 45 degree angle to improve the air flow to reduce noise. Reduce the pressure loss and increase the efficiency of the equipment.

When it rains in the above state, the rainwater detection sensor 20 installed in a predetermined position outside the louver 10 detects the rainwater, and outputs the detected data value to the controller 30.

Therefore, the controller 30 recognizes this and outputs a control signal to drive the actuator 41. At this time, if the data sensed by the rainwater sensor 20 is equal to the reference value preset in the controller 30, the lamella 11 is used. Outputs a control signal to form a horizontal angle, and if the data detected by the rainwater sensor 20 is greater than or equal to the reference value, the lamella 11 outputs a control signal to have a downward 45 degree inclination.

Accordingly, the actuator 41 is driven according to the control signal of the controller 30, and the driving force of the actuator 41 is linked by the reduction gear 43, the pinion gear 43a and the rack gear 42b as a medium. The lamella 11, which is transmitted to the 42 and thus interlocks with the link 42, maintains an inclination angle of 45 degrees downward to prevent rainwater from entering the room. Thus, the lamella 11 has a downward angle of 45 degrees. When the rain stops while maintaining the inclination, the data value sensed by the rainwater sensor 20 is output to the controller 30, and the actuator 41 is driven in accordance with the control signal of the controller 30 to make the lamella. (11) is to return to the set value of 45 degrees or the horizontal state to improve the air flow to reduce the noise, reduce the pressure loss to increase the efficiency of the equipment.

And, in the present invention, if you want to arbitrarily adjust the lamella of the louver as needed in usual times by driving the actuator 41 by the actuator drive button 31 provided at a certain position of the controller 30, the louver manually It is to be able to switch the lamellar (11) angle of (10) to the upward, horizontal or downward.

According to the louver equipped with the automatic lamellar angle adjustment function according to the embodiment of the present invention as described above, the louver, which is always fixed at about 45 degrees downward, is usually improved by adjusting the lamella at an angle favorable to air flow, thereby improving noise. Reduce the pressure loss and increase the efficiency of the equipment.

In addition, by configuring the lamella of the louver for the ventilation hole by the rain sensor and the controller, the actuator and the link to provide the effect of preventing rain water from entering the room by automatically adjusting the lamella in rainy weather.

So far, embodiments have been described with respect to a louver equipped with a lamellar angle automatic adjustment function according to the present invention. In the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms are used, these are merely used in a general sense to easily explain the technical contents of the present invention and to help understanding of the present invention. It is not intended to limit the scope. In addition to the embodiments disclosed herein, it can be said to those skilled in the art that various substitutions and modifications are possible within the scope without departing from the technical spirit of the present invention.

For example, in the above-described embodiment, the driving force of the actuator is exemplified as a configuration in which the driving force of the actuator is transmitted to the lamella by a link having a plurality of reduction gears, pinion gears, and rack gears. If it is necessary to change the direction according to the bevel gear by applying the bevel gear to the shaft gear and the reduction gear may be applied to the configuration to transfer the driving force to the actuator via the bevel gear as a medium.

10: damper 11: blade
20: rainwater sensor 30: controller
31: Actuator drive button 40: Louver drive part
41: Actuator 42: Link
42a: Hook 42b: Rack gear
43: reduction gear 43a: pinion gear

Claims (3)

Louver with automatic lamellar angle adjustment function to prevent rain water from entering the air inlet or outlet of the ventilation facility.
A rainwater detection sensor installed at a predetermined position outside the louver for detecting rainwater, a controller for comparing the data detected by the rainwater detection sensor with preset data and outputting a corresponding control signal, and a control signal from the controller A louver driver for switching the lamella angle of the louver according to the level, and a lamella for changing the direction upward, horizontally and downwardly according to the operation of the louver driver,
The louver driving unit connects a plurality of lamellas to interlock with each other, a link having a rack gear, an actuator for driving the link according to the signal level of the controller, and a reduction gear and pinion gear for transmitting the driving force of the actuator to the link. Louver with automatic lamellar angle adjustment function comprising a.
delete The method according to claim 1,
The controller for comparing the data sensed by the rain sensor and the predetermined data and outputting a corresponding control signal is further provided with an actuator drive button for manually driving the lamella of the louver.

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