KR20200130559A - Elevator display system - Google Patents

Abstract

An objective of the present invention is to provide an elevator display system which does not disturb people. According to the present invention, the elevator display system comprises: an elevator shaft wherein one or more surfaces thereof are transparent, and one or more PDLC films are provided on the transparent surfaces; an elevator car wherein at least a portion thereof is transparent to secure a view toward the transparent surface of the elevator shaft, and an identification sign is displayed on one side of the outside thereof; a plurality of camera sensors for collecting coordinate information from the identification sign toward the one side of the elevator car to transmit the coordinate information to a tracking unit; a projector for scanning an image onto the transparent surface of the elevator shaft; and a control module including the tracking unit to determine the location (L) of the elevator car from the collected coordinate information of the identification sign and a voltage control unit to control voltage applied to the plurality of PDLC films in accordance with the location of the elevator car.

Description

Elevator display system {ELEVATOR DISPLAY SYSTEM}

The present invention relates to an elevator display system.

Recently, display devices that display various information and advertisements in various places are widely used, but as it is widely known, it is not easy to attract the attention of viewers, and the light generated from it is treated as pollution to unwanted people. .

In order to increase the information transmission effect and advertisement effect, many researches have been conducted on a display method that attracts people's attention, but it is difficult to attract people's attention unless it is a new concept method.

Accordingly, there is a need for a new display system that can draw people's attention while preventing them from being disturbed.

An object of the present invention is to provide an elevator display system capable of attracting people's attention.

Another object of the present invention is to provide an elevator display system that does not interfere with people.

An object of the present invention is to provide an elevator display system that does not pose any problem to the safety of an elevator.

All of the above and other objects of the present invention can be achieved by the present invention described below.

One aspect of the present invention relates to an elevator display system.

According to one embodiment, the elevator display system includes an elevator shaft having at least one transparent surface and at least one PDLC film provided on the transparent surface; An elevator car that is more than a partial area transparent so that a view in the direction of a transparent surface of the elevator shaft is secured, and an identification mark is displayed on one side of the outside; A plurality of camera sensors collecting coordinate information from the identification mark in the one direction of the elevator car and transmitting it to a tracking unit; A projector that scans an image on a transparent surface of the elevator shaft; And a tracking unit for determining the position (L) of the elevator car from the collected coordinate information of the identification mark, and a voltage control unit for controlling voltages applied to the plurality of PDLC films according to the position of the elevator car. Includes.

The PDLC film is provided with a certain height (H) standard, and may be repeatedly arranged in the direction of the movement path of the elevator car.

The PDLC film may further include a reflective film stacked in the elevator shaft direction.

The control module may further include an image control unit for controlling an image scanned by the projector, and the image control unit may be configured to dark-process a region corresponding to the position L of the elevator car among the scanned images.

The voltage control unit applies a voltage to the PDLC film in an area corresponding to the position (L) of the elevator car, and does not apply a voltage to the PDLC film in an area other than the area corresponding to the position (L) of the elevator car. I can.

The tracking unit may calculate one or more of an elevator speed (V) and a moving direction (D) from coordinate information of the collected identification mark.

The position (L) of the elevator car may be corrected by adding the position (L) in the moving direction (D) in proportion to the speed (V) calculated by the tracking unit.

The correction may be the addition of a correction value M calculated by Equation 1 below in the moving direction D.

[Equation 1]

M = V × G

(In Equation 1, the correction value M is the corrected distance (cm), V is the elevator speed (cm/s) calculated by the tracking unit, and G is the correction factor (s))

In another embodiment, the identification mark may include two or more different identification marks at the top and bottom of one side of the elevator car.

The average of the elevator car positions determined from each of the two or more identification marks may be estimated as the position (L) of the elevator car.

It is possible to estimate the position (L) of the elevator car between the upper identification mark and the lower identification mark.

In another embodiment, the elevator car further includes at least one of a human body detection sensor and an impact detection sensor that can check the presence or absence of occupants in the elevator car, and the human body detection sensor or the impact detection sensor determines that there is a passenger in the elevator car. In this case, the voltage control unit applies a voltage to the PDLC film in the region corresponding to the position (L) of the elevator car, and does not apply the voltage to the PDLC film in the region other than the region corresponding to the position (L) of the elevator car. In addition, the image control unit darkens the area corresponding to the position (L) of the elevator car among the scanned images, and when it is determined that there is no occupant in the elevator car from the human body detection sensor or the impact detection sensor, the voltage control unit Does not apply voltage to all PDLC films, and the image controller may not darken the scanned image.

The present invention has the effect of providing an elevator display system that can draw people's attention, does not interfere with people, and does not have problems with elevator safety.

1 is a simplified illustration of an elevator display system according to an embodiment of the present invention.
2 is a simplified diagram illustrating an image implementation method of an elevator display system according to an embodiment of the present invention.
3 is a block diagram showing the functional blocks of the elevator display system control module according to an embodiment of the present invention.
4 is a simplified diagram of an elevator display system according to another embodiment of the present invention.
5 is a simplified illustration of an elevator display system according to another embodiment of the present invention.

Hereinafter, specific examples of the present application will be described in more detail with reference to the accompanying drawings. However, the technology disclosed in the present application is not limited to the specific examples described herein and may be embodied in other forms.

However, the embodiments introduced herein are provided so that the disclosed content may be thorough and complete, and the spirit of the present application may be sufficiently conveyed to those skilled in the art. In the drawings, in order to clearly express the constituent elements of each device, the size of the constituent elements, such as width or thickness, is slightly enlarged. In addition, although only some of the components are shown for convenience of description, those skilled in the art will be able to easily grasp the remaining parts of the components.

When it is described as a whole from the observer's point of view when describing the drawings, and when one element is referred to as being positioned above or below another element, this means that the element is positioned directly above or below another element, or an additional element between those elements. It includes all meanings that can be intervened. In addition, those of ordinary skill in the relevant field will be able to implement the spirit of the present application in various other forms without departing from the technical spirit of the present application. In addition, the same reference numerals in the plurality of drawings refer to substantially the same elements.

Meanwhile, the singular expression described in the present application should be understood as including a plurality of expressions, unless the context clearly indicates otherwise, and terms such as'include' or'have' are described features, numbers, steps, To designate presence in an action, component, part, or combination thereof, but precludes the possibility of the presence or addition of one or more other features, numbers, steps, actions, components, parts, or combinations thereof. It should be understood as not.

In the present specification, the term "unit" includes a unit realized by hardware, a unit realized by software, and a unit realized using both. Further, one unit may be realized using two or more hardware, or two or more units may be realized using one hardware. Meanwhile,'~ unit' is not meant to be limited to software or hardware, and'~ unit' may be configured to be in an addressable storage medium, or may be configured to reproduce one or more processors. Therefore, as an example,'~unit' refers to components such as software components, object-oriented software components, class components and task components, processes, functions, properties, and procedures. , Subroutines, segments of program code, drivers, firmware, microcode, circuits, data, databases, data structures, tables, arrays and variables. The functions provided in the components and'~units' may be combined into a smaller number of components and'~units', or may be further separated into additional components and'~units'. In addition, components and'~ units' may be implemented to play one or more CPUs in a device or a secure multimedia card.

In addition, in this specification,'X to Y'indicating a range means'X or more and Y or less'.

Elevator display system

An elevator display system according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 3. 1 is a simplified illustration of an elevator display system according to an embodiment of the present invention, Figure 2 is a simple illustration of an image implementation method of the elevator display system according to an embodiment of the present invention, Figure 3 is It is a block diagram showing the functional blocks of the elevator display system control module according to an embodiment.

1 to 3, the elevator display system 10 according to an exemplary embodiment of the present invention is an elevator shaft 100 in which at least one surface is transparent and at least one PDLC film 110 is provided on the transparent surface. ; An elevator car 200 that is transparent over a portion of the area so that a view in the direction of the transparent surface of the elevator shaft 100 is secured and an identification mark 210 is displayed on one side of the outside; A plurality of camera sensors 300 for collecting coordinate information from the identification sign 210 in the one direction of the elevator car 200 and transmitting it to the tracking unit 510; A projector 400 for scanning an image on a transparent surface of the elevator shaft 100; And controlling the voltage applied to the plurality of PDLC films 110 according to the location (L) of the elevator car and the tracking unit 510 for determining the position (L) of the elevator car from the collected coordinate information of the identification mark. It includes; a control module 500 including a voltage control unit 550 to be.

In the elevator display system of the present invention, the elevator shaft 100 is a moving path space of the elevator car 200, and at least one surface is transparent for securing visibility and interior effect of the elevator occupant. In an embodiment, it is obvious that the elevator shaft 100 may be transparent on all four sides.

The elevator shaft 100 includes one or more PDLC films 110 (on the transparent surface) on the transparent surface. The PDLC film is a polymer dispersed liquid crystal (PDLC), and may have a structure in which a fine liquid crystal (LC) in a polymer matrix is dispersed by injecting a polymer dispersed liquid crystal between a pair of substrates. The PDLC film reacts to a voltage applied from the outside by fine liquid crystal molecules in a matrix of a polymer material. When a voltage is applied to the PDLC film, the liquid crystal is aligned according to the applied electric field direction and coincides with the direction of the transmitted light, so that the light is transmitted. However, when no voltage is applied to the PDLC film, the liquid crystals are arranged irregularly and vertically with respect to the traveling direction of the transmitted light to scatter light. Depending on the type of PDLC, light may be transmitted when no voltage is applied.

The PDLC film is provided with a certain height (H) standard, and may be repeatedly arranged in the direction of the movement path of the elevator car. The height (H) of the PDLC film may be 10 cm to 60 cm, specifically 15 cm to 50 cm, and more specifically 20 cm to 40 cm. In the above height range, there is an advantage that the reaction speed of the PDLC film is sufficient to drive the elevator display system, and a finer dark treatment area can be set. 1 illustrates that PDLC films are provided in one row, but may be provided in two or more rows in one group in consideration of the width of the elevator shaft 100, the size of the PDLC film to be produced, and the applied contact pressure and interval. In this case, the PDLC film at the same height may be implemented so that transparent and opaque are operated equally.

The PDLC film may further include a reflective film stacked in the elevator shaft direction. In this case, the PDLC film has an advantage of improving visibility in the scanning direction of the projector 400 in a front manner. Specifically, the reflective film may be a film having a transmittance of 18% to 21% and a reflectance of 53% to 55%. In this case, there is an advantage in that the image scanned from the projector 400 is visible and the transparency of the elevator shaft 100 is also excellent. For example, it may be composed of white polyethylene terephthalate (PET) or Ag film.

The elevator car 200 enables the passengers to move between floors while moving (eg, moving up and down) the inside of the elevator shaft 100 to a space where an elevator occupant rides. The elevator car 200 is transparent in more than a part of the area so that a view in the direction of a transparent surface of the elevator shaft 100 is secured. Specifically, a surface of the elevator shaft 100 in the direction of a transparent surface may be transparent, and when all four sides of the elevator shaft 100 are transparent, all four sides of the elevator car 200 may also be transparent. . The transparent area may have a transparent structure on the entire surface, and in some cases, only a part of the surface of the elevator occupant may be visible so that a part of the body (eg, upper body) can be seen.

An identification mark 210 may be displayed on one side of the elevator car 200. The identification mark 210 may be a unique identification mark of the elevator car 200. The identification mark 210 may be recognized by the camera sensor 300 to be described later, from which the position L of the elevator car 200 may be determined.

The camera sensor 300 may be provided in plural, and in one direction of the elevator car 200 (for example, the direction in which the identification mark is displayed, the identification mark in FIG. 1 is displayed in the x direction of the elevator car, The camera sensor is also provided in the x direction) to recognize the identification mark, collect coordinate information therefrom, and transmit it to a tracking unit 510 to be described later.

The camera sensor 300 may capture and recognize the identification mark 210 at a specific time interval to collect coordinate information, and the tracking unit 510 to be described later is an elevator considering the size of the elevator car 200 The position (L) of the car 200, the moving distance per hour, the moving direction, and the speed can be calculated. The calculation may be calculated in consideration of the distance between the camera sensor 300 and the elevator car 200.

The camera sensor 300 may be separately provided and transmit coordinate information to the tracking unit 510 of the control module 500 using a communication network, or may be transmitted by wire. In this case, the camera sensor may have a separate power supply.

Alternatively, the camera sensor 300 is provided on the voltage control unit 550 to receive power from the power supply unit 570, and transmits the coordinate information to the tracking unit 510 by a circuit formed on the voltage control unit 550. I can. Such a structure is not particularly limited as long as it is easy for those skilled in the art.

The projector 400 may scan an image on the transparent surface of the elevator shaft 100. The video can be applied in various ways, such as information provision and advertisement. The projector 400 may be supplied with power from the power supply unit 570 of the control module 500 to be described later, or may have a separate power supply. The projector 400 may be connected to the image control unit 530 by wireless or wired connection using a communication network to receive a scanned image. The projector 400 may include two or more projectors, and in this case, the upper and lower regions of the elevator shaft 100 may be divided and scanned. Alternatively, the same area may be scanned twice to improve visibility.

The control module 500 includes a tracking unit 510 for determining the position (L) of the elevator car from the coordinate information of the identification mark 210 collected from the camera sensor 300 and the position of the elevator car 200 ( According to L), a voltage control unit 550 for controlling voltages applied to the plurality of PDLC films may be included.

The tracking unit 510 is the position (L) of the elevator car 200 in consideration of the size of the elevator car 200 from the coordinate information of the identification mark 210 collected from the camera sensor 300, the movement distance per hour, and the movement Direction (D) and speed (V) can be calculated. The calculation may be calculated in consideration of the distance between the camera sensor 300 and the elevator car 200.

In addition, the tracking unit 510 may transmit the calculated position L of the elevator car 200 to the voltage control unit 550 and the image control unit 530.

The voltage control unit 550 applies a voltage to the PDLC film 110 in the region corresponding to the position L of the elevator car 200 transmitted from the tracking unit 510 to make the PDLC film transparent, and the elevator By not applying a voltage to the PDLC film 110 in a region other than the region corresponding to the position L of the car 200, the PDLC film can be controlled to be opaque. If the voltage control unit 550 is a configuration that controls the application of voltage to the PDLC film, it may be easily configured for those skilled in the art, and specifically, may include a PCB including an SSR relay (or converter), but is limited thereto. It doesn't work.

2 shows that the voltage control unit 550 controls the voltage, so that the image scanned from the projector 400 is formed in an opaque area (an area where the elevator car is not located) so that visibility is possible, but the elevator occupant still secures a transparent view. It is a simple illustration of a specific example of the elevator display system of the present invention that can be.

The control module 500 may further include an image control unit 530 that controls an image scanned by the projector.

And, the image control unit 530 may receive the position (L) of the elevator car from the tracking unit 510, the image corresponding to the position (L) of the elevator car among the images scanned by the projector 400 The area may be darkened (MASK, shaded, blacked). In this case, it is possible to prevent an elevator occupant from generating glare by an image scanned from the projector 400. The cancer treatment can be performed by a method known to those skilled in the art.

The control module 500 may further include a power supply unit 570. The power supply unit 570 may supply power to the tracking unit 510, the image control unit 530, and the voltage control unit 550, and may selectively supply power to the camera sensor 300 and the projector 400. The power supply unit 570 is not particularly limited as long as it is configured to supply power, and may include an AC/AC transformer and DC power, but is not limited thereto.

In the elevator display system of the present invention, each of the components may communicate by wire or wirelessly using a communication network, which may be appropriately performed in consideration of the environment, economy, purpose, etc. in which the elevator display system is used.

In a specific example, the position (L) of the elevator car 200 may be corrected by adding the position (L) in the moving direction (D) in proportion to the speed (V) calculated by the tracking unit 510. This may result in a communication time between each component of the elevator display system, a voltage application interval of the voltage controller 550, etc. In this case, when the speed of the elevator car 200 is fast, the image area to be processed dark and/or transparent, opaque control It is to correct the occurrence of an error in the PDLC film 110 region.

The correction may be the addition of a correction value M calculated by Equation 1 below in the moving direction D.

[Equation 1]

M = V × G

(In Equation 1, the correction value M is the corrected distance (cm), V is the elevator speed (cm/s) calculated by the tracking unit, and G is the correction factor (s))

The correction factor G is a communication time between each component of the elevator display system and a voltage application interval time of the voltage controller 550, and if it is not known exactly, an appropriate correction factor G may be set through a trial run.

Hereinafter, another specific example of the present invention will be described with reference to FIG. 4. 4 is a simplified diagram of an elevator display system according to another embodiment of the present invention.

According to another embodiment of the present invention, the identification mark 210 may include two or more different identification marks at the top and bottom of one side of the elevator car 200. In this case, there is an advantage of being able to determine the more accurate position (L) of the elevator car 200 according to the circumstances of the elevator implementing the elevator display system.

Specifically, the average of the elevator car positions determined from each of the two or more identification marks may be calculated as the position (L) of the elevator car, and this may be estimated as the position (L) of the elevator car.

Alternatively, the position (L) of the elevator car may be estimated as the position (L) of the elevator car between the upper identification mark and the lower identification mark.

Hereinafter, another specific example of the present invention will be described with reference to FIG. 5. 5 is a simplified illustration of an elevator display system according to another embodiment of the present invention.

According to another embodiment of the present invention, when two or more elevator cars 200 (for example, a first elevator car and a second elevator car) are operated in one elevator shaft 100, the PDLC film is provided with two or more rows. The first elevator car and the second elevator car may each be provided with an identification mark and a control module.

In this case, the position of each elevator car is calculated by each of the plurality of camera sensors, and based on this, the voltage control unit 550 controls the voltage of the PDLC film in the region corresponding to each elevator car.

However, in this case, the image control unit 530 may be configured as a single image control unit that darkens regions corresponding to the positions of the elevator cars in consideration of the position of each elevator car, or may be configured separately for each elevator car. .

In another embodiment of the present invention, the PDLC film is described in two or more rows, but similar to the PDLC film described in one embodiment, the width of the elevator shaft 100 and the size of the produced PDLC film and the applied contact pressure, interval, etc. In consideration of, it may be provided in two or more groups. (Each group can contain more than 2 rows)

In another embodiment, the elevator car 200 may further include at least one of a human body detection sensor (not shown) and an impact detection sensor (not shown) that can check the presence or absence of a passenger in the elevator car 200.

The human body detection sensor is a sensor capable of detecting a movement of a person. For example, an infrared human body detection sensor (PIR sensor, Passive Infrared Sensor) may be applied, but is not limited thereto. The impact detection sensor is a sensor capable of detecting a shock by vibration and can be applied without special limitation as long as it is easy for those skilled in the art.

In a specific embodiment, the elevator display system of the present invention may determine the presence or absence of occupants in the elevator car 200 with one of the human body detection sensor and the impact detection sensor.

In another embodiment, the elevator display system of the present invention may determine the presence or absence of occupants in the elevator car 200 by combining the human body detection sensor and the impact detection sensor. For example, a situation in which there is no occupant is determined from the human body detection sensor. , When a person boards the empty elevator car 200, it is possible to improve accuracy and speed of determination by determining by combining a human body detection sensor and an impact detection sensor.

When it is determined from the human body sensor or the impact sensor that there is a passenger in the elevator car 200, the voltage control unit applies a voltage to the PDLC film in the area corresponding to the position (L) of the elevator car, and the elevator car Voltage is not applied to the PDLC film in an area other than the area corresponding to the position (L) of, and the image control unit darkens the area corresponding to the position (L) of the elevator car among the scanned image It is possible to secure a view to the outside of the car 200 and prevent glare.

When it is determined from the human body sensor or the impact sensor that there is no occupant in the elevator car, the voltage control unit does not apply voltage to all PDLC films, and the image control unit does not darken the scanned image. 100) It has the advantage of being able to more effectively provide necessary information and advertisements to people outside the elevator by scanning the image as a whole.

In another embodiment, the elevator display system may further include a laser distance sensor (not shown) on the elevator shaft 100, and the tracking unit collects coordinate information of the elevator car 200 from the laser distance sensor. And, it is possible to calculate one or more of the elevator speed (V) and movement direction (D). There are many restrictions on installing structures in the elevator shaft 100, but in the case of the elevator shaft 100 with a transparent ceiling, a laser distance sensor is applied to the outside (upper) of the ceiling of the elevator shaft 100, Position (L) can be determined.

The laser distance sensor may determine the position of the elevator car 200 together with an identification mark and a camera sensor, and in this case, reliability may be improved.

In another embodiment, the position of the elevator car 200 may be determined by applying only a laser distance sensor instead of the identification mark and camera sensor.

Although the specific examples of the present invention have been described above, the present invention is not limited to the above specific examples, but may be manufactured in various different forms, and those of ordinary skill in the technical field to which the present invention pertains to the technical idea of the present invention. It will be appreciated that it can be implemented in other specific forms without changing any or essential features. Therefore, it should be understood that the specific examples described above are illustrative in all respects and not limiting.

10: elevator display system 100: elevator shaft
110: PDLC film 200: elevator car
210: identification mark 300: camera sensor
400: projector 500: control module
510: tracking unit 530: image control unit
550: voltage control unit 570: power supply unit

Claims (12)

An elevator shaft having at least one surface transparent and having at least one PDLC film on the transparent surface;
An elevator car that is transparent over a partial area so that a view in the direction of the transparent surface of the elevator shaft is secured, and an identification mark is displayed on one side of the outside;
A plurality of camera sensors collecting coordinate information from the identification mark in the one direction of the elevator car and transmitting it to a tracking unit;
A projector for scanning an image on a transparent surface of the elevator shaft; And
A control module including a tracking unit for determining the position (L) of the elevator car from coordinate information of the collected identification mark and a control unit for controlling voltages applied to the plurality of PDLC films according to the position of the elevator car;
Elevator display system comprising a.
The method of claim 1,
The PDLC film is provided with a certain height (H) standard, the elevator display system that is repeatedly arranged in the direction of the movement path of the elevator car.
The method of claim 1,
The PDLC film is an elevator display system further comprising a reflective film laminated in the elevator shaft direction.
The method of claim 1,
The control module further includes an image control unit for controlling an image scanned by the projector,
The image control unit dark processing an area corresponding to the position (L) of the elevator car among the scanned image.
The method of claim 1,
The voltage control unit,
A voltage is applied to the PDLC film in the region corresponding to the position (L) of the elevator car,
An elevator display system that does not apply voltage to a PDLC film in an area other than the area corresponding to the position (L) of the elevator car.
The method of claim 1,
The elevator display system for calculating at least one of the speed (V) and the moving direction (D) of the elevator from the collected coordinate information of the identification mark.
The method of claim 6,
The elevator display system for correcting the position (L) of the elevator car by adding the position (L) in the moving direction (D) in proportion to the speed (V) calculated by the tracking unit.
The method of claim 7,
The correction is an elevator display system that adds a correction value (M) calculated by the following equation (1) in the moving direction (D):
[Equation 1]
M = V × G
(In Equation 1, the correction value M is the corrected distance (cm), V is the elevator speed (cm/s) calculated by the tracking unit, and G is the correction factor (s)).
The method of claim 1,
The identification mark is an elevator display system comprising two or more different identification marks at the top and bottom of one side of the elevator car.
The method of claim 9,
An elevator display system for estimating the average of the elevator car positions determined from each of the two or more identification marks as the position (L) of the elevator car.
The method of claim 9,
Elevator display system for estimating the position (L) of the elevator car between the upper and lower identification signs.
The method of claim 4,
The elevator car further includes at least one of a human body detection sensor and an impact detection sensor capable of checking the presence or absence of occupants in the elevator car,
When it is determined from the human body sensor or the impact sensor that there is a passenger in the elevator car, the voltage controller applies a voltage to the PDLC film in the area corresponding to the position (L) of the elevator car, and the position of the elevator car ( Voltage is not applied to the PDLC film in an area other than the area corresponding to L), and the image control unit darkens the area corresponding to the position L of the elevator car among the scanned images,
When it is determined from the human body sensor or the impact sensor that there is no occupant in the elevator car, the voltage control unit does not apply voltage to all PDLC films, and the image control unit does not darken the scanned image.

Images