CN109312592B

CN109312592B - Medium automatic door

Info

Publication number: CN109312592B
Application number: CN201680086676.4A
Authority: CN
Inventors: 赵斗熙
Original assignee: Pilsky Global Co Ltd
Current assignee: Pilsky Global Co., Ltd
Priority date: 2016-06-30
Filing date: 2016-07-01
Publication date: 2020-09-11
Anticipated expiration: 2036-07-01
Also published as: WO2018004043A1; KR101693194B1; CN109312592A

Abstract

The invention relates to a medium automatic door, in particular to a medium automatic door which is automatically opened and closed by sensing when a user approaches, carries out customer reception such as advertising, propaganda or calling actions at ordinary times, and indicates evacuation when an emergency such as fire occurs. The structure of the medium automatic door of the embodiment of the invention comprises: an automatic door body, comprising: the LED display panel comprises a flat conductive glass (medium glass), a first LED (light emitting diode) arranged on the medium glass, a first spacing strip vertically adhered to the outer edges of the medium glass, panel glass made of transparent materials and fixedly adhered to the upper end of the first spacing strip, and first resin filled in a space between the medium glass and the panel glass; a hanger frame assembled at an upper portion of the automatic door main body, a guide pulley installed at a fixed frame of an upper wall surface of the doorway to slide left and right; a base fixed to the fixed frame, a first assembly groove being formed on a bottom surface of the base, the first assembly groove allowing the two first movable wires to be respectively assembled; and a first connection pulley which is rotatably contacted with the first moving wire when the robot body slides left and right, and is connected to the medium glass through a first power line.

Description

Medium automatic door

Technical Field

The invention relates to a medium automatic door, in particular to a medium automatic door which is automatically opened and closed by sensing when a user approaches, carries out customer reception such as advertising, propaganda or calling actions at ordinary times, and indicates evacuation when an emergency such as fire occurs.

Background

Recently, it is common to install automatic doors in various buildings such as banks, buildings, and hospitals in order to provide convenience to customers and the value of stores.

Such an automatic door is basically manufactured and used in a smooth type in which the door is opened and closed while moving in the left-right direction and a side hung door type in which the door is opened and closed in a rotating manner.

An existing automatic door opening and closing system in which an automatic door is opened and closed in a smooth manner is illustrated in fig. 1.

As shown in fig. 1, in the conventional automatic opening and closing system, a drive motor 3 and a speed reducer 4 are provided on a side of a door frame installation plate 2, a drive pulley 5 of the speed reducer 4 and a drive pulley 6 for opening and closing a right side door 1 are connected by a first chain 7, a drive pulley 8 for opening and closing a left side door 1 'and a driven pulley 9 are connected by a second chain 10, and

brackets

13 and 14 for connecting

door hangers

11 and 12 fixed to the

chains

7 and 10 and the upper surfaces of the left and right side doors 1 and 1' are fixed to predetermined positions of the first and

second chains

7 and 10, respectively.

According to this configuration, when a user approaches the automatic doors 1 and 1 ', the drive motor 3 is adjusted and driven by a control unit (not shown) that receives a detection signal from a sensor (not shown) that senses this, and then the first chain 7 that connects the drive pulley 5 of the reduction gear 4 and the drive pulley 6 for opening and closing the right door 1 is driven in the counterclockwise direction, and at the same time, the second chain 10 that connects the drive pulley 8 for opening and closing the left door 1' and the driven pulley 9 is driven in the clockwise direction.

Then, the left and right side doors 1, 1' are opened.

On the contrary, when the user moves away from the automatic door 1, 1', the driving motor 3 is driven in the reverse direction by the adjustment of the control part receiving the detection signal from the sensor which generates the induction, and the first chain 7 is driven in the clockwise direction and the second chain 10 is driven in the counterclockwise direction according to the adjustment.

Then the left and right side doors 1, 1' are closed.

On the other hand, recently, in order to effectively apply space and improve an advertisement effect, a printing paper is attached to an entrance or exit, or an advertisement document, a design, an illumination, or the like is installed, so that an aesthetic sense is provided to a person who enters or exits, and an acceptance is increased to improve an advertisement effect.

In addition, the existing automatic door only has one power supply for lighting, and when a fire disaster or an emergency occurs, if the power supply is interrupted, the lighting or the automatic door is powered off, so that the problem that an exit cannot be found and the user cannot evacuate quickly is caused.

Disclosure of Invention

Technical problem

The invention provides a medium automatic door which is provided with a smooth automatic door sliding left and right on the whole and supplies power to a luminous element smoothly through a contact pulley to output a medium, thereby realizing customer reception such as advertisement or calling actions or seasonal activities through the automatic door.

Another objective of the present invention is to provide a media automatic door, which comprises two layers, i.e. a media layer and an emergency layer, wherein each layer is connected to a power source, and can be used for advertising, customer reception or publicity through the media layer at ordinary times, and can be used for guiding evacuation through the emergency layer in emergency.

Technical scheme

The media automatic door according to an embodiment of the present invention includes: an automatic door body, comprising: a dielectric glass having a flat plate shape with a predetermined thickness and size, at least one first LED disposed on the dielectric glass, a first spacer vertically adhered to the dielectric glass and an outer edge of the dielectric glass, a panel glass of a transparent material adhered and fixed to an upper end of the first spacer at a predetermined distance from an upper portion of the dielectric glass, and a first resin filled in a space between the dielectric glass and the panel glass to diffuse light generated from the first LED;

a hanger frame assembled at an upper portion of the automatic door main body, a guide pulley installed on a fixed frame provided at an upper wall surface of the doorway with a certain length to slide left and right;

a base fixed to the fixed frame, a bottom surface of the base forming a first fitting groove for fitting the two first moving wires, respectively;

and a first connection pulley which is rotatably provided on an upper portion of the first moving wire so that a connection terminal formed on an outer peripheral surface thereof is in contact with the first moving wire while rotating when the automatic door main body slides left and right, and is connected to the medium glass through a first power line.

The automatic door main body further includes: a conductive glass having a flat plate shape with a prescribed thickness and size, i.e., a base glass; at least more than one second LED is arranged on the substrate glass; the second spacing bars are vertically adhered to the outer side edge of the substrate glass, and the medium glass is adhered and fixed at the upper end of the second spacing bars; a second resin filled in a space between the base glass and the intermediate glass to diffuse light generated from the second LED;

the bottom surface of the base is also provided with second assembling grooves which can respectively assemble the two second moving wires;

the upper part of the second moving wire is also provided with a second connecting pulley which enables a connecting terminal formed on the peripheral surface to be arranged in a rotatable contact way, and the automatic door body rotates when sliding left and right and simultaneously contacts the second moving wire and is connected with the medium glass through a second power line.

The first power line and the second power line are connected to different DC power sources, and the second power line is connected to a fire power source.

The first LED is used for receiving the customer service such as advertisement, propaganda or call at ordinary times, and the second LED is formed by green LED and is lighted only in case of emergency such as fire.

The automatic door body is sealed by a side frame having a prescribed space, and the inner space of the side mode frame is provided with a reinforcement frame for reinforcing the strength of the side frame, a PCB mounted with a plurality of electronic components and controlling the first LED and the second LED, and a FPCB connecting the PCB with the medium glass and the base glass.

Through holes for leading out the FPCB are formed on a reinforcing frame and a protective frame of synthetic resin material combined with the reinforcing frame, and the size of the through holes of the protective frame is smaller than that of the through holes of the reinforcing frame.

The (+) power line of the first power line is directly connected to the medium glass, and the (-) power line is connected to the medium glass through the PCB and the FPCB; the (+) power line of the second power line is directly connected to the substrate glass, and the (-) power line is connected to the substrate glass through the PCB and the FPCB.

Advantageous effects

According to the technical scheme, the invention has the advantages that,

the smooth automatic door which slides left and right integrally is provided with power supply for the luminous element through the contact pulley to output media, so that customers take care of or seasonal activities such as advertising or calling actions are carried out through the automatic door;

the automatic door consists of two layers, namely a media layer and an emergency layer, wherein each layer is respectively connected with a power supply, advertisement, customer reception or propaganda can be carried out through the media layer at ordinary times, and evacuation can be guided through the emergency layer in emergency.

Drawings

FIG. 1 is a schematic view showing the structure of an automatic door;

fig. 2 is a schematic view showing an engaging structure of an automatic door main body according to an embodiment of the present invention;

fig. 3 is a schematic view showing an automatic door main body coupling structure according to another embodiment of the present invention;

FIG. 4 is a schematic diagram showing the power supply mode under the condition of FIG. 2;

FIG. 5 is a schematic diagram showing the power supply mode under the condition of FIG. 3;

fig. 6 is a view showing an internal structure of a side frame of the automatic door in the condition of fig. 3;

fig. 7 is a block diagram for controlling the opening and closing of an automatic door according to an embodiment of the present invention.

Detailed Description

The structure and function of the embodiments of the present invention will be described below with reference to the accompanying drawings.

Fig. 2 is a schematic view showing an engagement structure of an automatic door main body according to an embodiment of the present invention.

As shown in fig. 2, the structure of the automatic door main body includes: medium glass 22, first light emitting element 32, spacer bar 52, panel glass 20, and resin 40.

The medium glass 22 is a conductive glass having a plate shape with a thickness of about 3 to 6mm and a certain size area.

A first light emitting element 32, here formed of at least one or more first LEDs 32, is affixed in a desired pattern over the intermediate glass 22.

A power source such as DC48V is inputted to the plurality of first LEDs 32 attached to the medium glass 22.

The first LED32 is connected to a conductive wire (not shown) in at least one of series and parallel connection, and is attached to the intermediate glass 22.

The width of the conductive line is 1 mu m-1 mm, and the conductive line is formed by processing at least one of an ultrafine metal conductive line, conductive gel and a conductive band.

The spacer 52 is formed of a transparent material or an opaque material vertically adhered to the outer edge of the medium glass 22 at a height of about 2 mm.

The front glass 20 is formed of a transparent material adhesively fixed to the upper end of the spacer bar 52 at a distance (about 2mm) from the upper portion of the medium glass 22.

The panel glass 20 has a flat plate shape having a thickness of about 3 to 10mm and a certain size area.

The space between the intermediate glass 22 and the panel glass 20 is filled with resin (resin)40 to make the conductive wires invisible as much as possible, so that light generated from the first LED32 is diffusely reflected.

As described above, since the first LED32 is arranged on the transparent panel, power is supplied by the ultrafine conductive wire which is difficult to be visually recognized, and power is input to the first LED32 which presents the surface and the linear pattern, so that the pattern or information floating on the virtual space is specifically presented as a combination of the surface, the line, and the dot, not the dot form, advertisement can be performed by the first LED32 at ordinary times, or cold noise can be performed for a customer, or a season campaign can be advertised.

Fig. 3 is a schematic view showing an automatic door main body coupling structure according to another embodiment of the present invention.

As shown in fig. 3, the structure includes: a base glass 24, a medium glass 22, first and second

light emitting elements

32, 34, a spacer 52, a panel glass 20, and a resin 40.

The base glass 24 is a conductive glass having a plate shape with a thickness of about 3 to 6mm and a certain size area.

A second light emitting element 34, here formed of at least one more second LED34, is affixed over the base glass 24 in a desired pattern.

The base glass 24 to which the plurality of second LEDs 34 are attached is inputted with an emergency power supply (fire power supply) such as a DC 24V power supply.

The second LED34 is affixed to the base glass 24 by at least one of connecting electrically conductive wires in series and parallel.

The evacuation direction can be indicated by displaying graphics such as 'EXIT' word or arrow (→, ←, ↓) indicating the evacuation direction with the second LED 34.

In particular, the second LED34 in the present invention is formed of a 750cd green LED which can be seen clearly in smoke and can clearly indicate an evacuation direction or an exit in case of an emergency.

The conductive wire is 1-1 mm wide and is formed by at least one of a processed superfine metal conductive wire, conductive gel and conductive band.

The spacer 52 is formed of a transparent material or an opaque material vertically adhered to the outer edge of the base glass 24 at a height of about 2 mm.

The intermediate glass 22 is formed of a transparent material adhesively fixed to the upper end of the spacer 52 at a distance (about 2mm) from the upper portion of the base glass 24.

The first light emitting element 32 is attached to the intermediate glass 22 in a desired pattern, and at least one or more first LEDs are described herein.

A power supply such as DC48V is inputted to the plurality of first LEDs 32 attached to the medium glass 22.

The first LED32 is attached to the intermediate glass 22 by connecting a conductive wire in at least one of a direct connection and a series connection.

The conductive wire has a width of 1 μm to 1 mm, and is formed of at least one of a processed ultrafine metal conductive wire, a wire gel, and a conductive tape.

The panel glass 20 is formed of a transparent material adhesively fixed to the upper end of the spacer 52 at a distance (about 2mm) from the upper portion of the medium glass.

The space between the base glass 24 and the intermediate glass 22 and the space between the intermediate glass 22 and the panel glass 20 are filled with resin (resin)40 to make the conductive lines invisible as much as possible, so that light generated from the second and

first LEDs

34, 32 is diffusely reflected.

As described above, the first and

second LEDs

32, 34 are arranged on the panel having a penetration property, power is supplied by using the ultra-fine conductive wire which is difficult to be recognized by naked eyes, and further, power is inputted to the first and

second LEDs

32, 34 which present the surface and linear patterns, so that the patterns or information floating on the virtual space are specifically presented as combinations of the surface, the line and the dot rather than the dot form, and therefore, at ordinary times, an advertisement can be given by the first LED32, or a cold noise operation can be performed for a customer, or a season event can be announced, and an evacuation direction can be indicated by the second LED34 in an emergency.

Fig. 4 is a schematic diagram showing a power supply mode under the condition of fig. 2.

As shown in fig. 4, a fixed frame 110 having a certain length is provided on an upper wall surface of the doorway, and the guide pulley 62 of the hanger 60 mounted on the upper portion of the automatic door 100a is mounted to slide right and left on the fixed frame 110.

A guide 70 formed by injection molding synthetic resin in a predetermined shape and a predetermined length is fixed to the fixing frame 110, and a mounting groove is formed in a bottom surface of the guide so that the two first moving wires 72 can be mounted thereon.

The two first power lines 72 are supplied with power of DC48V, for example, which converts a normal alternating current into a direct current.

A first connection pulley 82 having a connection terminal formed on an outer peripheral surface thereof is rotatably installed on an upper portion of the first movable wire 72 and rotatably contacts the first movable wire 72 when the automatic door 100a slides left and right, and the first connection pulley 82 is connected to the medium glass 22, which is conductive glass, through a first power line 81.

More specifically, the (+) power line of the first power line 81 is directly connected to the conductive glass, i.e., the dielectric glass 22, and the (-) power line is connected to the dielectric glass 22 by connecting a PCB90 and a FPCB94, which will be described later in fig. 6.

By the power supply manner as described above, the automatic door 100a can stably supply power such as DC48V to the first LED32 even if it is slid left and right.

Fig. 5 is a schematic diagram showing a power supply mode under the condition of fig. 3.

As shown in fig. 5, a fixed frame 110 having a certain length is provided on an upper wall surface of the doorway, and the guide pulley 62 of the hanger 60 mounted on the upper portion of the automatic door 100b is installed on the fixed frame 110 to slide left and right.

A guide 70 formed by injection molding synthetic resin in a fixed shape and a fixed length is fixed to the fixed frame 110, and a bottom surface of the guide 70 is formed with a fitting groove into which the two first movable wires 72 and the two second movable wires 74 can be fitted, respectively.

Here, the two first power lines 72 are supplied with a power source of DC48V such as DC for converting a general alternating current into a direct current, and the second power line 74 is supplied with a power source of DC 24V such as a fire power source (emergency power source).

A first connection pulley 82 having a connection terminal formed on an outer peripheral surface thereof is rotatably installed on an upper portion of the first movable wire 72 and rotatably contacts the first movable wire 72 when the automatic door 100a slides left and right, and the first connection pulley 82 is connected to the medium glass 22 through a first power line 81.

Similarly, a second connecting pulley 84 having an outer peripheral surface forming an engaging terminal on the upper portion of the second movable wire 74 is rotatably disposed in contact with the second movable wire 74, and the second connecting pulley 84 is connected to the base glass 24 through a second power line 83 while the automatic door 110b slides left and right.

More specifically, the (+) power line of the second power line 83 is directly connected to the conductive glass, i.e., the base glass 24, and the (-) power line is connected to the base glass 24 through a PCB90 and a FPCB94, which will be described later in fig. 6.

By such a power supply manner, even if the automatic door 110b slides left and right, the power of, for example, DC48V can be stably supplied to the first LED32, and the power of, for example, DC 24V can be stably supplied to the second LED 34.

Fig. 6 is an internal structure view of a side frame of the automatic door in the condition of fig. 3.

As shown in fig. 6, the side frame 50 having a predetermined internal space is formed of a metal material, the surface of which is treated with the surface treating member 54, and a reinforcing frame 96 made of a metal material is provided inside for enhancing the strength.

A plurality of electronic parts 92 for controlling the on and off and brightness of the first LED32 and the second LED34 are disposed in the PCB90 disposed in the inner space of the side frame 50 and connected to the conductive glass, i.e., the intermediate glass 22 and the base glass 24, through the FPCB 94.

In order to lead out the FPCB94, a through hole is formed in the middle of the reinforcing frame 96, and a protector 98 of synthetic resin material forming the through hole is provided and coupled to the reinforcing frame 96 in order to prevent the FPCB94 and the internal metal from contacting each other to damage the FPCB94 or to prevent leakage of electricity.

At this time, in order to prevent the FPCB94 connected to the

glasses

22, 24 from contacting the reinforcing frame 96, the size of the through hole of the protection frame 98 is formed larger than that of the reinforcing frame 96.

Damage and leakage of the FPCB94 can be prevented by the structure as described above.

Fig. 7 is a block diagram for automatic door opening and closing control according to an embodiment of the present invention.

The controller 104 normally electrically connects the DC48V to the first LED32 to control the on/off and brightness of the first LED32, and when the DC48V power source is turned off in the event of a fire or the like, switches the relay (R) to electrically connect the DC 24V power source to the second LED34 to control the on/off of the second LED.

The motion sensor 102 is provided at an upper portion of the doorway, and senses when a user approaches the automatic door 100b, and outputs a sensing signal to the controller 104.

When the automatic door 110b is closed by the control of the controller 104, the first LED32 of the closed automatic door 110b advertises or advertises seasonal events, and when the motion sensor 102 inputs a sensing signal, the first LED32 displays a low-head call action, and outputs sounds such as "hello" or "welcome" through the speaker 108, and then the motor 106 is activated to open the automatic door.

Thereby obtaining advertising, publicity, and customer reception (business).

Claims

1. A media automatic door, comprising:

an automatic door body, comprising: a dielectric glass having a flat plate shape with a predetermined thickness and size, at least one first LED disposed on the dielectric glass, a first spacer vertically adhered to the dielectric glass and an outer edge of the dielectric glass, a panel glass of a transparent material adhered and fixed to an upper end of the first spacer at a predetermined distance from an upper portion of the dielectric glass, and a first resin filled in a space between the dielectric glass and the panel glass to diffuse light generated from the first LED;

a base fixed to the fixed frame, a first assembly groove being formed on a bottom surface of the base so that the two first movable wires are respectively assembled;

a first connection pulley which is provided on an upper portion of the first moving wire so that a connection terminal formed on an outer peripheral surface thereof is rotatably contacted therewith, rotates while contacting the first moving wire when the automatic door main body slides left and right, and is connected to the medium glass through a first power line;

the upper part of the second moving wire is also provided with a second connecting pulley which enables a connecting terminal formed on the peripheral surface to be arranged in a rotatable contact way, and the automatic door body rotates and simultaneously contacts the second moving wire when sliding left and right and is connected to the substrate glass through a second power line.

2. The media automatic door of claim 1,

3. The media automatic door of claim 2,

the first LED is used for parallelly carrying out customer reception, the customer reception at least comprises advertising, propaganda and calling actions, the second LED is formed by a green LED and is only lighted in emergency, and the emergency at least comprises fire.

4. The media automatic door of claim 1,

5. The media automatic door of claim 4,

6. The media automatic door of claim 4,

the (+) power line of the first power line is directly connected to the medium glass, and the (-) power line is connected to the medium glass through the PCB and the FPCB;

the (+) power line of the second power line is directly connected to the substrate glass, and the (-) power line is connected to the substrate glass through the PCB and the FPCB.