KR102083016B1 - System for operating model house - Google Patents

Abstract

The present invention relates to a system for operating a house sale promotion hall, which comprises: a building modeling device in which a position of irradiated light varies in accordance with a user control signal; and at least one kiosk device including a display unit receiving the user control signal to control the building model device and outputting a result in accordance with the user control signal.

Description

Presale Promotion Center Operating System {SYSTEM FOR OPERATING MODEL HOUSE}

The present invention relates to an operating system for premature public relations, comprising a building model device for varying the position of light irradiated according to a user control signal including latitude, longitude, and time information, and real-time premature public relations for real-time monitoring of the presale public information center. It's about an operating system.

In general, the model house is made to pre-fabricate a building such as an unfinished building, an apartment complex or a factory complex using steel frame or wood to visually check the state after completion and cause the purchase of visitors.

Since these model houses are only expected to be installed after a short period of time and promoted to visitors, they are expected to be dismantled, rather than the durability of the structure or various advanced facilities. Rather than focusing on the overall view, the interior spaces of certain apartments and buildings used to be more beautiful. However, in recent years, people have become interested in not only the beauty of the interior space but also the external elements such as the natural landscape, the view right and the sunshine right, but there is a problem that it is difficult to express all these by the model house.

In order to solve this problem, a model structure of a miniature apartment or building is created to provide people with information about the external environment of the apartment or building. However, the conventional model structure has a problem that it is difficult to check the sunshine in the model structure according to the different building layout and the sun's moving position by simply placing the apartment or building on the land model where the building or apartment will be placed. In addition, since the position and motion of the sun varies according to latitude, longitude, and season and time on the earth, there was a problem that accurate power generation experiments were not possible by using a conventional solar power simulation system.

In addition, the conventional model house, as described above, the bar is installed only after a short time is to be removed, there is a problem that the system for the convenience and safety of the user is not sufficiently built.

In the meantime, the above-described background art is technical information possessed by the inventor for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily known technology disclosed to the general public before the application of the present invention. .

Korea Patent Registration No. 10-1519798

The present invention includes a building model device that changes the position of the light irradiated according to a user control signal including latitude, longitude and time information, and to provide a pre-sale promotion office operating system that can monitor the pre-sale promotion inside.

Presale promotion office operating system according to an embodiment of the present invention, the building model that the location of the light irradiated in accordance with the user control signal; And at least one kiosk device that receives the user control signal and controls the building model device and outputs a result according to the user control signal.

In one embodiment, the building model apparatus, at least one model building module; A light source module irradiating light to the model building module according to the user control signal including latitude, longitude, and time information; A curved guide module having a semi-spherical curve for transporting and supporting the light source module in a curve; A rotation rail disposed around the model building module to rotate the curved guide module; A model control unit which receives the latitude, longitude and time information, and a control signal of the user, and adjusts the intensity of light irradiated from the light source module, the position of the light source module, and the axial rotation angle of the curved guide module; A sensing sensor module generating a sensing signal and transmitting the sensing signal to the model controller when sensing an entry or exit of an object or a body within a rotation radius of the curve guide module; And a model alarm module which is formed in at least one region of the rotary rail and provides an alarm with light or sound when the sensing signal is received by the model controller.

The model controller may include a model receiver configured to receive the latitude, longitude, and time information and the user control signal; A model light quantity calculator configured to calculate intensity of light irradiated from the light source module based on latitude, longitude, and time information received from the model receiver and a control signal of the user; A model light amount adjusting unit controlling an amount of voltage or current applied to the light source module according to the intensity of light calculated by the model light amount calculating unit; A model position calculator configured to calculate an axial rotation angle of the curve guide module from the latitude, longitude, and time information received from the model receiver and the control signal of the user; A model angle control unit for adjusting the curve guide module position according to the shaft rotation angle calculated by the model position calculation unit; And a model movement control unit for controlling the movement of the light source module from the user control signal received by the model receiving unit, The model control unit stops the operation of the building model device when receiving the detection signal from the sensor module And provide an alarm by transmitting the detection signal to the model alarm module. If the detection signal is not additionally received from the detection sensor module, the building model device resumes operation after a preset time. The curved guide module includes: a curved guide bar having a semi-spherical curve for supporting the light source module being curved; A transfer module coupled to the curved guide bar for slide transfer and detachment of the light source module; A driving module formed on one side of the transfer module and provided on an outer circumferential surface of the curved guide bar and configured to rotate forward or reverse to transfer the light source module to a curve; A belt provided on an outer surface of the curved guide bar and coupled to at least one region of the driving module; Contact fixing members coupled to both sides of the transfer module and restraining movement of the transfer module; Guide protrusions formed at both ends of the curved guide bar for guiding the curved guide bar to be curved in the rotary rail; An angle adjusting module formed at one end of the guide protrusion to adjust the inclined position of the curved guide bar according to the axial rotation angle; And an injection module formed in at least one region of the transfer module and injecting lubricant to an outer circumferential surface of the curved guide bar. And an accommodating module configured to be detached from at least one region of both ends of the curved guide bar, wherein the accommodating module accommodates the injected lubricating oil, wherein the accommodating module includes the lubricating oil when the received lubricating oil reaches a predetermined value. When the stop signal is transmitted to the model control unit, the model control unit stops the operation of the building model device when receiving the stop signal, the model control unit when the receiving module is removed from the curved guide bar to empty the lubricant contained therein, After stopping the operation of the building modeling device, if the accommodating module is attached to the curved guide bar again, the operation of the building modeling device resumes after a preset time, and the contact fixing member includes: a head portion; An elevating module coupled to at least one area of a side of the transfer module and configured to elevate the head portion: an electromagnet cartridge positioned at the front of the head portion and having magnetic properties when power is applied, including at least one electromagnet; An angle adjustment lever positioned on a rear surface of the head to adjust the rotation angle of the electromagnet cartridge by horizontally rotating the electromagnet cartridge independently of the head part; And a cover portion having one end coupled to the electromagnet cartridge and the other end coupled to the head portion to cover the surface of the head portion, wherein the cover portion is embodied in a flexible elastic material and interlocks with the rotation of the electromagnet cartridge. At least one region extends and the other region contracts to prevent the occurrence of an exposed surface of the head portion, wherein the head portion is disposed in front of the head portion, and easily extends and contracts the cover portion in contact with the cover portion. And at least one bearing, wherein the cover part is easily extended and contracted in conjunction with rotation of the electromagnet cartridge by separating at least one region of the cover part from the surface of the head part. The model control by receiving a user control signal and the latitude, longitude and time information An input unit for forwarding on; A signal transmitter formed on at least one region of the building model apparatus, the signal transmitter comprising: a plurality of signal receivers for receiving at least one signal transmitted from a transmitter; And a traveling controller configured to control a driving direction of the kiosk apparatus by using the received values of the at least one signal received by the plurality of signal receivers, wherein each of the plurality of signal receivers includes a first signal and a first signal from the signal transmitter. Configured to receive a second signal, wherein a reach range of the first signal transmitted from the signal transmitter is wider than a reach range of the second signal transmitted from the signal transmitter, and the travel control unit is configured to receive the plurality of signals. When the first signal and the second signal are received by at least one of the receivers, the driving direction of the kiosk apparatus is controlled according to a driving algorithm, or when only the first signal is received by all of the plurality of signal receivers. The driving direction is directed so that the kiosk device faces the point where the signal transmitter is located. For example, the model building module may further include a color change panel provided on an outer wall of the model building module and including a color change layer including Zion paint, and the color change panel may be discolored by the light source module. The amount of sunshine of the model building module is expressed in real time through the color change of the color change panel, and the color change panel mixes and paints a general paint and an ophthalmic material including an oil paint and an aqueous paint to express a first cyan by a mixed design, and the light source When the module is operated, the time temperature is transparently discolored so that the second cyan is expressed only by the general paint.

In one embodiment, each of the curved guide bar is fixedly installed at each end, and includes at least one elastic support for receiving and supporting at least a portion of the contact fixing member, wherein the elastic support portion, An elastic housing member fixed to at least one region of both ends; A fastening groove member formed inside the elastic housing member to insert and fasten one side of the contact fixing member; And an elastic member formed inside the fastening groove member and providing elasticity to one side of the contact fixing member when the one side of the contact fixing member is inserted into the fastening groove member. An elastic unit accommodated in the fastening groove member and providing elasticity to the contact fixing member when the contact fixing member is fastened to the fastening groove member; And a contact cover unit having one side fixed to the elastic unit and the other side contacting the contact fixing member to transfer a force transmitted from the contact fixing member to the elastic unit, wherein the housing member is fastened to the elastic unit. It is connected in the groove member, further comprising a pushing member for pushing the contact fixing member, the pushing member is formed in the fastening groove member, the contact member and the contact fixing member while reciprocating along the fastening groove member Push unit for pushing the contact fixing member to the front; And a spring unit having one side fixed to the pushing unit and the other side fixed to the inside of the fastening groove member to provide elasticity to the pushing unit when the contact fixing member is pushed out of the fastening groove member. do.

Presale promotion office operating system according to an embodiment of the present invention, a plurality of display sectors including a display device for providing information about the building.

In one embodiment, the display sector receives the building model device and the user control signal received by the location of the light is irradiated in accordance with the user control signal to control the building model device, and outputs the result according to the user control signal Further comprising a kiosk device including a display unit, located adjacent to the display sector, table, desk. A plurality of counseling sectors including at least one of chairs and having accommodation spaces for receiving visitors; A plurality of model house sectors located in communication with the display sectors to reproduce an internal configuration of the building; A monitoring system for real-time monitoring the individual situation of each sector by identifying the temperature change and smoke detection of each sector in real time through the heat / smoke complex detector installed in each of the display sector, the consultation sector and the model house sector: And a blind device control system including a blind device formed in at least one of the model house sector and the consultation sector, wherein the monitoring system comprises: a complex detector installed in each of the sectors to collectively detect temperature and smoke; A plurality of accommodating rod members for collecting common wires connected to the complex sensor in a housing; Collect and process the detection signals of the compound sensor installed in each sector through the receiving rod member, and periodically transmit the detection request signal to the compound sensor installed in each sector controlled by each compound sensor. A control box unit for collecting the temperature data value and the smoke detection data signal of each sector in real time and converting the current temperature data value and the smoke detection data signal of each sector collected in real time into a text file; Monitor in real time the status in the individual sectors of the entire presale promotions transmitted from the control box unit, and graphically display the situation in the individual sectors, take action according to a preset command signal, and during the data conversion transmission process. The control box unit displays the abnormal state of the complex sensor installed in each of the sectors in a preset color, and displays the abnormal state of the individual sectors, and displays the abnormal state of the individual sectors, and then the control server receives a plurality of control box units from the plurality of control box units. After analyzing the temperature data value and the smoke detection data signal of the individual sectors collected in real time, the monitoring state implements the change state of all the individual sectors of the distribution promotion in a graphic form, and the change state of all the individual sectors is a threshold value. Color-coded display with the upper and lower limits And, if the mouse is moved to the position of the color in the monitoring screen implemented in a graphical form, the control server for displaying the real-time temperature data or smoke data value of the individual sector that the color refers to, the control When an abnormal signal is generated in a specific individual sector, the server transmits a control command signal to the control box unit for controlling the individual sector, and the control box unit transmits the control command signal of the individual sector according to the control command signal of the control server. Forcibly turning off or on the compound machine, the blind device control system further comprises a user terminal for exchanging a signal with the blind device, the user terminal, according to the signal received from the control unit A terminal display unit displaying an interface screen for controlling the blind device; A terminal interface unit configured to receive a blind input signal for at least one blind from a user; A terminal controller configured to generate and output a blind control signal for the at least one blind according to the input blind input signal; And a terminal communication unit configured to transmit the blind control signal received from the controller to the blind apparatus, wherein the blind apparatus comprises: at least one blind; At least one blind driver corresponding to each of the at least one blind and adjusting at least one of a height and a slope of each of the at least one blind according to an input blind driving signal; A data communication unit communicating with the user terminal through a wired or wireless connection; And a blind controller generating a blind driving signal corresponding to each of the at least one blind according to the blind control signal received from the user terminal through the data communication unit, and outputting the blind driving signal to each of the at least one blind driving unit. The screen may include at least one blind height setting icon, at least one blind vertical line, and at least one blind selection icon, and the blind input signal may include at least one blind selection selected by the user among the at least one blind selection icon. Information regarding an icon and a position at which one of the blind height setting icons selected by the user is moved along one blind vertical line of the at least one blind vertical line, The terminal controller may be configured to set the height of at least one blind corresponding to the at least one blind selection icon selected by the user, and the blind height setting icon selected by the user to select one blind vertical line among the at least one blind vertical line. Generates a blind control signal for controlling according to the moved position and outputs the blind control signal to the terminal communication unit, wherein the blind input signal is at least one continuous line input from the user, and the terminal controller receives the input from the user. Generating height information of each of the at least one blind according to a point where at least one continuous line and a blind vertical line corresponding to each of the at least one blind meet each other, and generating the height information according to the height information of each of the at least one blind. A blind control signal for a blind is generated and output to the terminal communication unit, and the blind apparatus is disposed on an upper end of the blind apparatus, detects a person near the blind apparatus, and detects a key and a position of a person who is close to the blind apparatus. And a human body sensor for outputting the blinds to the blind control unit, wherein the blind control unit controls the height of the blind corresponding to the position of the person close to the blind apparatus according to the height of the person close to the blind apparatus. The blind apparatus generates a signal and outputs it to any one blind driver corresponding to the position of the person near the blind apparatus, and generates a blind driving signal for adjusting the inclination of the blind corresponding to the position of the person near the blind apparatus. Proximity to And outputs to one of the blind drive unit corresponding to the position of the person.

According to the present invention described above, it is possible to provide a building model device that can change the position of the light irradiated like the actual sun according to the user control signal including latitude, longitude and time information, the real-time inside the sale promotion hall Providing pre-sale management system to monitor the condition of light, temperature, smoke, etc.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the scope apparent to those skilled in the art from the following description.

1 is a view showing a building model device according to an embodiment of the present invention.
2 and 3 show a curved guide module according to an embodiment of the present invention.
4 and 5 show a contact fixing member according to an embodiment of the present invention.
6 to 8 are views illustrating an elastic support part according to an embodiment of the present invention.
9 shows an operating state of the kiosk apparatus according to an embodiment of the present invention.
10 is a block diagram showing a kiosk apparatus and a signal transmitter according to an embodiment of the present invention.
11 illustrates a driving operation of the kiosk apparatus according to an embodiment of the present invention.
12 shows a model building module according to an embodiment of the present invention.
Figure 13 illustrates a sales promotion office operating system according to an embodiment of the present invention.
14 shows a block diagram of a monitoring system according to an embodiment of the invention.
15 illustrates a blind device control system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

1 is a view showing a building model device according to an embodiment of the present invention.

Referring to Figure 1, the building model device 100 according to an embodiment of the present invention is a model building module 110, light source module 120, curve guide module 130, rotary rail 140, detection sensor module 150, the model alarm module 160 and a model controller (not shown) may be included.

Model building module 110 is located in the inner central through area of the rotary rail 140, at least one model building module 110 may be formed. Model building module 110 may be implemented by reducing the actual environment of the building and the building to be constructed.

The light source module 120 may change the position of light irradiated to the model building module 110 according to a user control signal including latitude, longitude, and time information. That is, when the construction of the actual building is completed, the light source module 120 is configured to show how the sun irradiates light on the actual building by time and season. The curved guide module 130 and the rotating rail 140 will be described later. You can recreate the situation where the sun shines on the building where the sun will be constructed according to time, season, etc.

Curve guide module 130 forms a semi-spherical curve to transport and support the light source module 120 in a curve. Curve guide module 130 is configured to move the light source module 120 by reflecting the time, season, building latitude and longitude information, the building model device 100 through the curve guide module 130 is the actual sun It can provide visitors with an environment that radiates light.

The rotary rail 140 is disposed around the model building module 110 to rotate the curved guide module 130. The rotary rail 140 may be coupled to both ends of the curved guide module 130 to support the curved guide module 130 and rotate 360 degrees at the same time. Through this, the location information of various suns and the location information of buildings can be reflected.

The sensing sensor module 150 generates a sensing signal and transmits the sensing signal to a model controller to be described later when sensing an entry or exit of an object or a body within the radius of rotation of the curved guide module 130. The sensing sensor module 150 may be installed in one area inside the building where the curved guide module 130, the rotating rail 140, or the building model device 100 is installed, and the sensing sensor module 150 is the curved guide module. In particular, when a human body enters within the rotation radius of 130, by generating a detection signal to stop the operation of the building model apparatus 100, it is possible to prevent a safety accident in advance. The detection sensor module 150 continuously generates a detection signal and transmits the detected signal to the model control unit when the entry or exit of the object or the body is maintained within the rotation radius of the curve guide module 130. That is, the detection sensor module 150 stops generating the detection signal only when there is no entry of the body or the object within the radius of rotation of the curve guide module 130.

Model alarm module 160 is formed in at least one region of the rotary rail 140, when receiving a detection signal of the detection sensor module 150 by the model control unit to be described later by providing an alarm with light or sound, safety accidents It can prevent. The model alarm module 160 may be formed in at least one region of the curved guide module 130 or the rotary rail 140 and may generate light or sound to inform the manager or visitors of the danger.

The model controller (not shown) receives the latitude, longitude, and time information and the control signal of the user, the intensity of light irradiated from the light source module 120, the position of the light source module 120, and the curve guide module 130. The angle of rotation of the shaft can be adjusted.

In one embodiment, the model controller, from the light source module from the latitude, longitude and time information and the model receiver for receiving the user control signal, the latitude, longitude and time information received from the model receiver and the control signal of the user Model light amount calculator for calculating the intensity of the light to be irradiated, Model light amount control unit for adjusting the amount of voltage or current applied to the light source module according to the light intensity calculated by the model light amount calculator, received by the model receiver The model position calculation unit for calculating the axial rotation angle of the curve guide module from the latitude, longitude and time information and the control signal of the user, the position of the curve guide module according to the axial rotation angle calculated by the model position calculation unit The model angle adjusting unit and the user control signal received from the model receiving unit to adjust the It may include a model movement control unit for controlling the movement. Through the configuration as described above, the model control unit can control the operation and position of the curved guide module 130 and the rotary rail 140, and through this, it is possible to implement an environment in which the actual sun irradiates light.

In one embodiment, the model control unit stops the operation of the building modeling apparatus 100 when receiving the detection signal from the detection sensor module 150, and transmits a detection signal to the model alarm module 160 to provide an alarm, The safety accident of visitors can be prevented beforehand. Subsequently, if a detection signal from the detection sensor module 150 is not additionally received, the operation of the building model apparatus 100 may be resumed after a preset time. If the predetermined time is the operation of the building model device 100 immediately that the reception of the detection signal is stopped, the safety accident may occur when the body access is repeated for a short time, so that the building model device 100 at a predetermined time interval This is to thoroughly prevent safety accidents caused by the operation of the machine.

2 and 3 show a curved guide module according to an embodiment of the present invention.

2 and 3, the curved guide module 130 according to an embodiment of the present invention is the curved guide bar 131, the transfer module 132, the drive module 133, the belt 134, guide protrusion 135, an angle adjustment module 136, an injection module 137, a receiving module 138, a contact fixing member 400, and an elastic support part 500.

The curved guide bar 131 forms a semi-spherical curve for supporting the light source module that is curved. The curved guide bar 131 supports the light source module 120 which is driven at the same time while driving the light source module 120 at a predetermined angle.

The transfer module 132 is coupled to the curved guide bar 131 for slide transfer and the light source module 120 is detachably attached. In one embodiment, the transfer module 132 may be provided with at least one slide roller at the bottom, the slide roller is freely positioned to be coupled to at least one area of the curved guide bar 131 can be formed to slide transfer. have.

The driving module 133 is formed at one side of the transfer module 132 and is provided on the outer circumferential surface of the curved guide bar 131 so as to rotate forward or reverse to transfer the light source module 120 to the curve. In one embodiment, the drive module 133 may include a timing pulley coupled to the belt 134 to be described later.

The belt 134 is provided on the outer surface of the curved guide bar 131 and is coupled to at least one region of the driving module 133. In particular, the belt 134 may be formed to be coupled to the timing pulley included in the driving module 133.

The guide protrusion 135 is formed at both ends of the curved guide bar 131 to guide the curved guide bar 131 to be curvedly driven by the rotary rail 140. In one embodiment, the guide rail 141 is formed in the rotary rail 140, the guide protrusion 135 is fastened to the guide groove may be rotated along the rotary rail 140. The guide groove 141 may be formed in a through shape along the outer circumferential surface of the rotary rail 140, and a part of one end of the guide protrusion 135 may protrude out of the guide groove 141 of the rotary rail 140. The protruding guide protrusion 135 may be formed to be coupled to the angle adjusting module 136 which will be described later.

The angle adjustment module 136 is formed at one end of the guide protrusion 135 and adjusts the position of the curved guide bar 131 inclined according to the axial rotation angle. As shown in FIG. 3, the angle adjustment module 136 may be formed on the outer circumferential surface of the rotary rail 140, and may move the curved guide 131 at a predetermined angle.

The injection module 137 is formed in at least one region of the transfer module 132 and injects lubricant oil to the outer circumferential surface of the curved guide bar 131. The injection module 137 may prevent lubrication during the operation of the curve guide module 130 by spraying lubricant on the curve guide bar 131, and stably perform the operation of the curve guide module 130.

The accommodation module 138 is formed to be attached to or detached from at least one region of both ends of the curved guide bar 131 and accommodates the injected lubricating oil. The accommodation module 138 transmits a stop signal to the model control unit when the received lubricating oil reaches a preset value, and the model control unit receives the stop signal sent from the accommodation module 138 to operate the building model device 100. The model control unit stops the operation of the building model apparatus 100 when the accommodation module 138 is dropped from the curved guide bar 131 to empty the lubricant contained therein. Then, the model control unit resumes the operation of the building model apparatus 100 after a preset time when the receiving module 138 is attached to the curved guide bar 131 again.

The contact fixing member 400 is coupled to both sides of the transfer module 132 and restrains the movement of the transfer module 132. The contact fixing member 400 is configured to stably hold the transfer module 132 when the transfer module 132 is stopped at a specific position by a user control signal. To this end, when the transfer module 132 is stopped, the contact fixing member 400 descends at least one area toward the outer circumferential surface of the curved guide bar 131, by applying power to an electromagnet included in the contact fixing member 400. The curved guide bar 131 and the magnetic force may be combined.

The elastic support part 500 is fixedly installed at both ends of the curved guide bar 131 to accommodate and support at least a portion of the contact fixing member 400. The elastic support part 500 may include a contact fixing member coupled to one side of the transfer module 132 when the transfer module 132 and the light source module 120 are close to any one of both ends of the curved guide bar 131. By stably accommodating a part of the 400 using elastic force, the contact fixing member 400, the transfer module 132, and the light source module 120 may be stably supported from impact and vibration.

4 and 5 show a contact fixing member according to an embodiment of the present invention.

4 and 5, the contact fixing member 400 according to an embodiment of the present invention includes a head part 410, a lifting module 420, an electromagnet cartridge 430, an angle control lever 440, The cover 450 is included.

The head portion 410 has an electromagnet cartridge 430 and a cover portion 450 formed on the front surface, the angle adjustment lever 440 is formed on the back, at least one area of the back surface is coupled to the elevating module 420 Do a lift.

The elevating module 420 is coupled to at least one region of the side surface of the transfer module 132 and elevates the head portion 410.

Located in front of the head 410 of the electromagnet cartridge 430, and includes at least one electromagnet to have a magnetic power. The electromagnet cartridge 430 may be coupled to the curved guide bar 131, which is made of metal, by using magnetic force when the power is applied, thereby firmly supporting the transfer module 132.

The angle control lever 440 is located on the rear of the head portion 410, and adjusts the rotation angle of the electromagnet cartridge 430 by horizontally rotating the electromagnet cartridge 430 independently of the head portion 410.

The cover 450 has one end coupled to the electromagnet cartridge 430 and the other end coupled to the head 410 to cover the surface of the head 410. The cover portion 450 is formed of a flexible elastic material, and prevents generation of an exposed surface of the head portion 410 by extending at least one region and contracting the other region in association with the rotation of the electromagnet cartridge 430. In addition, as shown in FIG. 4, at least one region of the cover portion 450 is separated from the surface of the head portion 410 so that the cover portion 450 easily expands and contracts in conjunction with the rotation of the electromagnet cartridge 4300. The cover 450 may be made of, for example, a flexible material such as silicon, and may be easily stretched and contracted in conjunction with the rotation of the electromagnet cartridge 430. That is, when the electromagnet cartridge 430 rotates, one region of the cover portion 450 coupled with the electromagnet cartridge 430 is extended and the other region is contracted, which may occur due to the rotation of the electromagnet cartridge 430. Since it covers the exposed surface of the head portion 410, it is possible to prevent the problem that the outer peripheral surface of the curved guide bar 131 is stimulated or damaged by the exposed surface.

In one embodiment, the head portion 410 is disposed in front of the head portion 410, and includes at least one bearing 460 in contact with the cover portion 450 to facilitate extension and contraction of the cover portion 450. can do.

In one embodiment, when the lubricating oil (A) is applied to the outer peripheral surface of the curved guide bar 131 by the injection module 137, when the head portion 410 is lowered in a straight line, the contact fixing member 400 and the curve Lubricant (A) is partially present between the guide bar 131 may reduce the coupling force. In order to prevent this situation, when the head portion 410 is lowered, by repeatedly rotating the electromagnet cartridge 430 using the angle adjustment lever 440, the curved guide bar 131 to which the electromagnet cartridge 430 is coupled Lubricating oil (A) applied to the outer peripheral surface of the can be wiped off. Through this, the coupling force of the contact fixing member 400 can be prevented from being lowered.

Referring to FIG. 5, FIG. 5A illustrates a state before rotating the electromagnet cartridge 430, FIG. 5B illustrates a state during rotation of the electromagnet cartridge 430, and FIG. 5. (c) shows the state after the rotation of the electromagnet cartridge 430 is completed.

As shown, when the electromagnet cartridge 430 is rotated by operating the angle adjustment lever 440 formed on the back of the head portion 410, the cover portion 450 is linked to the rotation of the electromagnet cartridge 430. Specifically, the region (I) of the cover portion 450 may extend along the electromagnet cartridge 430, and conversely, the region (II) of the cover portion 450 may shrink along the electromagnet cartridge 430. This stretching and contraction of the cover portion 450 may cover the exposed surface of the head portion 410, which may occur due to the rotation of the electromagnet cartridge 430. Such an exposed surface may be generated by rotating the electromagnet cartridge 430 independently of the head 410, but may not generate an exposed surface that may occur when the angle of the electromagnet cartridge 430 is adjusted through the cover 450. Thus, the curved guide module 130 may be damaged or the effect of restraining the movement of the transfer module 132 may be reduced by the exposed surface.

6 to 8 are views illustrating an elastic support part according to an embodiment of the present invention.

6 to 8, the elastic support 500 includes an elastic housing member 510, a fastening groove member 520, an elastic member 530, and a pushing member 540.

The elastic housing member 510 may be installed in a manner of being fixed or detached to at least one region of both ends of the curved guide bar 131 through screwing, adhesive, or the like. The elastic housing member 510 may be deformed in various forms corresponding to the shape of the curved guide bar 131 and the contact fixing member 400. In one embodiment, the elastic housing member 510, the upper or lower inlet (region A) in which the fastening groove member 520 is formed is in the inner or outer direction at a predetermined slope (for example, 10 ° to 30 °, etc.). As the inclination is formed, the contact fixing member 400 may be guided to be easily inserted into the fastening groove member 520 along the inclined surface. In one embodiment, the elastic housing member 510 may be formed in the upper or lower portion of the inlet in which the fastening groove member 520 is formed in an arch shape to facilitate the insertion and separation of the contact fixing member 400.

The fastening groove member 520 is formed in a shape recessed inside the elastic housing member 510 corresponding to one side of the contact fixing member 400. The fastening groove member 520 may stably support the contact fixing member 400 to the elastic housing member 510 by inserting and fastening one side of the contact fixing member 400.

The elastic member 530 is formed inside the fastening groove member 520 and is formed of a material having elastic force (for example, a spring) to insert one side of the contact fixing member 400 into the fastening groove member 520. It provides elasticity to one side of the contact fixing member 400 when fastening. In detail, the elastic member 530 includes an elastic unit 531 and a contact cover unit 532.

The elastic unit 531 is formed of a material having an elastic force (for example, spring, silicon, rubber, etc.) is accommodated in the fastening groove member 520. The elastic restoring force of the elastic unit 531 provides elasticity to the contact fixing member 400 when the contact fixing member 400 is fastened to the fastening groove member 520.

One side of the contact cover unit 532 is fixedly installed on the elastic unit 531, the other side is in contact with the contact fixing member 400 to transfer the force transmitted from the contact fixing member 400 to the elastic unit 531. . In addition, by forming the front surface of the contact cover unit 532 in contact with the contact fixing member 400 made of a material having an elastic restoring force such as silicone, rubber, synthetic rubber, sponge, absorbing the impact when the contact fixing member 400 is inserted can do. Through this, it is possible to reduce wear and damage of the configuration of the contact fixing member 400 and the elastic support 500.

The pushing member 540 is connected and installed in the fastening groove member 520 to facilitate the discharge of the contact fixing member 400 by pushing the contact fixing member 400 when discharging the contact fixing member 400. Specifically, the pushing member 540 may include a push unit 541 and a spring unit 542.

The pusher unit 541 is formed in the fastening groove member 520 to contact the contact fixing member 400 while reciprocating along the fastening groove member 520 and pushes the contact fixing member 400 to the front. A portion of the pusher unit 541 is formed to protrude out of the elastic housing member 510. An opening region may be formed in an area of the elastic housing member 510 to which the pusher unit 541 is connected to be formed so that the pusher unit 541 may protrude and be reciprocated.

One side of the spring unit 542 is fixedly installed on the pusher unit 541 and the other side is fixedly installed inside the fastening groove member 520. The spring unit 542 provides elasticity to the pusher unit 541 when the contact fixing member 400 is pushed out of the fastening groove member 520. As illustrated in FIGS. 6 to 8, the spring unit 542 may be omitted when the elastic unit 531 is present. That is, the elastic unit 531 may perform the function of the spring unit 542 at the same time, in this case, may not leave a separate spring unit 542.

9 shows an operating state of the kiosk apparatus according to an embodiment of the present invention.

As shown in FIG. 9, the sale promotion office operating system 1 according to an embodiment of the present invention may include a building model device 100 and a kiosk device 200. The kiosk apparatus 200 according to an embodiment of the present invention receives a user control signal to control the building model device, and includes a display unit for outputting a result according to the user control signal. The building model apparatus 100 receives a user control signal from the kiosk apparatus 200 and adjusts the position of the light source module 120. The kiosk device 200 may be configured in plural, and when a plurality of users transmit a plurality of user control signals to the building model device 100 through the kiosk device 200, the building model device 100 may be included. The model controller may control the position of the light source module 120 in the order of the user control signals received in chronological order. In this case, the model control unit may inform which kiosk device 200 the user control signal is input through the model alarm module 160, and for this purpose, an identification number may be displayed on each kiosk device 200.

In one embodiment, the display unit of the kiosk device 200 may serve as an interface unit for receiving a user control signal. In addition, the display unit may provide various information of the building to be constructed as an image or an image.

As shown in FIG. 9, the kiosk apparatus 200 may autonomously run within a limited range around the building model apparatus 100. To this end, at least one region of the building model apparatus 100 may include a signal transmitter 210 for transmitting a signal to the kiosk apparatus 200. For autonomous driving of the kiosk device 200, the signal transmitter 210 may transmit at least one signal in a predetermined range (A, B). The kiosk apparatus 200 may receive at least one signal transmitted from the signal transmitter 210 and determine a driving direction by using the received value. That is, the kiosk device 200 may be set to operate within the range (maximum A range) that can receive the signal of the signal transmitter 210, thereby limiting the operating range of the kiosk device 200 Can be. Through this, the kiosk device 200 can always run in the area that the administrator can manage and supervise, there is an advantage that the administrator does not always need to follow the kiosk device 200. The kiosk device 200 may autonomously drive itself without an administrator or a user. That is, in the area A and the area B, to which at least one signal of the signal transmitter 210 affects, the kiosk apparatus 200 may automatically move back, forth, left, and right according to a preset process. The autonomous driving of the kiosk apparatus 200 may be performed by analyzing at least one signal transmitted from the signal transmitter 210.

10 is a block diagram showing a kiosk apparatus and a signal transmitter according to an embodiment of the present invention.

As shown in FIG. 10, the kiosk device 200 according to an embodiment of the present invention includes a signal transmitter 210, a first receiver 220, a second receiver 230, a travel controller 240, and a steering device. 250 may be included.

The signal transmitter 210 may be formed in at least one region of the building model apparatus 100, and may transmit at least one signal to the kiosk apparatus 200. According to an embodiment, the signal transmitter 210 may be formed in a detachable form, and may be freely moved to an object or a place to be installed by the user by being separated from the building model apparatus 100. The first receiver 220 and the second receiver 230 may receive at least one signal transmitted from the signal transmitter 210. In detail, the first receiver 220 and the second receiver 230 may receive at least one of a first signal and a second signal transmitted from the transmitter 210. As an example, the first signal may be a signal having a greater signal strength than the second signal. The first receiver 220 and the second receiver 230 both receive the first signal and the second signal, or the two receivers 220, 230 depending on the location of the kiosk device 200. Only one receiver may receive both the first signal and the second signal. As such, when at least one of the plurality of receivers 220 and 230 detects the first signal and the second signal, the kiosk device 200 may be driven according to the autonomous driving algorithm.

In addition, the first receiver 220 and the second receiver 230 may receive only the first signal. In this case, the kiosk device 200 is out of a predetermined area (B of FIG. 9), and when the first receiver 220 and the second receiver 230 receive only the first signal, the kiosk device 200 is It may return toward the signal transmitter 210.

The driving controller 240 may control the driving direction of the kiosk device 200 using at least one of the first signal and the second signal received by the plurality of receivers 220 and 230. As an example, the received value may be a received signal strength indicator (RSSI) value. The driving controller 240 may control the driving direction of the kiosk device 200 by analyzing the received values of the first signal and the second signal received by the plurality of receivers 220 and 230. In addition, the driving controller 240 may operate the kiosk device 200 in various patterns according to the received analysis value. For example, when both the first signal and the second signal are received, when only the first signal is received, and when the first signal having different strengths is received by the first receiver and the second receiver, the driving controller 240 may be used. May control the kiosk apparatus 200 to correspond to different reception values, respectively. To this end, the driving controller 240 may output a control signal to the steering apparatus 250 based on the analyzed received value.

The steering device 250 may move the arrangement of the wheels located under the kiosk device 200 according to the control signal of the travel control unit 240. For example, the steering device 250 may be connected to the wheels on both sides of the front of the kiosk device 200, and may rotate the wheels in the left and right directions.

The signal transmitter 210 may transmit at least one signal, and the at least one signal may have a different range of arrival. As shown in FIG. 10, the signal transmitter 210 may transmit a first signal and a second signal having different shapes and ranges in a predetermined range, and the arrival range of the first signal (A in FIG. 9) may be The signal can be transmitted to be wider than the reach of the second signal (B in FIG. 9). The first receiver 220 and the second receiver 230 may be defined as having received the corresponding signal when the signal strength of the received signal is greater than or equal to the reception limit, and the first receiver 220 and the second receiver 230 may be defined. ) May be defined as a range (A of FIG. 9) of the first signal, and the first receiver 220 and the second receiver 230 may receive the second signal. The range that can be defined may be defined as the reach range of the second signal (B of FIG. 9). In one embodiment, the signal transmitter 210 may transmit a plurality of signals at different signal levels. For example, the signal transmitter 210 may transmit the first signal at an output level of 0 dBm at intervals of 1 second. Subsequently, the signal transmitter 210 may transmit a second signal at a -10 dBm output level at an interval of 1 second. When two different data (the first signal and the second signal) are transmitted at output levels having different signal strengths, transmission ranges having different reach ranges may be formed as shown in FIG. 11 to be described later. Can be. That is, as shown in FIG. 11 to be described later, according to the operation of the signal transmitter 210 according to an embodiment of the present invention, the B region may be formed as an area where both the first signal and the second signal are reached. , A region may be formed as a region where only the first signal is reached. Through this, the traveling space of the kiosk apparatus 200 can be partitioned, and the operation mode of the kiosk apparatus 200 can be set differently according to the partitioned space.

 In some embodiments, the signal transmitter 210 may transmit one signal or three or more signals. When the signal transmitter 210 transmits one signal (first signal), the area B where the reception value of the first signal received by the first receiver 220 or the second receiver 230 is greater than or equal to a predetermined value is defined as the area B. In this case, an area in which the received value of the first signal received by the first receiver 220 and the second receiver 230 is less than a predetermined value may be set as the A area. Accordingly, the kiosk device 200 may operate in the autonomous driving mode in the area B, and in the area A by using the difference between the received values of the first signals received by the first receiver 220 and the second receiver 230. The driving direction may be controlled to face the point where the signal transmitter 210 is located to operate in the return mode. When the kiosk device 200 is located in the area A, the driving controller 240 may steer if the difference between the received values of the first signal received by the first receiver 220 and the second receiver 230 is equal to or greater than the first reference value. The device 250 may be rotated toward a larger value of the first signal to move the kiosk device 200 forward or backward toward the point where the signal transmitter 210 is located, and the first receiver 220 and the second receiver ( If the difference in the received value of the first signal received at 230 is less than the first reference value, the kiosk 200 may be driven toward the point where the transmitter 200 is located by changing whether the kiosk 200 is moved forward or backward. have.

11 illustrates a driving operation of the kiosk apparatus according to an embodiment of the present invention.

The signal transmitter 210 may transmit the first signal and the second signal, and the arrival range A of the first signal may be wider than the arrival range B of the second signal with respect to the signal transmitter 210. Can be. Through this, the range in which the kiosk device 200 operates may be divided into an A area and a B area.

The area A is an area where only the first signal is reached, and both of the plurality of receivers 220 and 230 of the kiosk apparatus 200 may receive only the first signal. When the kiosk device 200 is located in the area A, the driving direction of the kiosk device 200 may be automatically controlled to face the point where the signal transmitter 210 is located. That is, the area A allows the kiosk device 200 to return to the point where the signal transmitter 210 is located, so that the kiosk device 200 operates only within a range where the manager can observe the kiosk device 200. .

The area B is an area where both the first signal and the second signal arrive, and at least one of the plurality of receivers 220 and 230 of the kiosk apparatus 200 may receive both the first signal and the second signal. When the kiosk device 200 is located in the area B, the kiosk device 200 may automatically control the driving direction according to the autonomous driving algorithm. Here, the autonomous driving algorithm means that the kiosk device 200 determines the driving direction by determining itself, and means that the kiosk device 200 determines the driving direction by itself without the manager's control. For example, the autonomous driving algorithm may avoid, stop or decelerate obstacles located in the traveling direction of the kiosk apparatus 200 by themselves. In addition, the autonomous driving algorithm may allow the kiosk device 200 to travel in a specific pattern such as a circular shape or an 8 shape shape.

In one embodiment, the kiosk 200 may be controlled according to the autonomous driving algorithm as soon as it leaves the area A. FIG. That is, when the kiosk device 200 enters the area A from the area B and at least one of the plurality of receivers 220 and 230 of the kiosk device 200 receives both the first signal and the second signal, the kiosk device The 200 no longer moves toward the signal transmitter 210 and may be controlled by an autonomous driving algorithm.

In one embodiment, in order to avoid obstacles or dangerous places by the autonomous driving algorithm, the kiosk device 200 may further include an infrared sensor, a motion detection sensor, a position sensor, and the like. In this case, the travel control unit 240 may analyze the sensing signal received from the infrared sensor, the motion sensor, the position sensor, and the like to control the steering device 250 of the kiosk device 200.

12 shows a model building module according to an embodiment of the present invention.

According to an embodiment of the present invention, the model building module 110 includes a color change layer including Zion paint on the outer wall of the model building module so as to accurately grasp the detailed view of the viewing zone and the sunshine zone according to the movement of the light source module 120. It may include a color change panel 111 is formed.

The color change panel 111 may be formed of a plate shape formed of a synthetic resin material, wood, or a thick paper material, and may be formed of a panel in which a color change layer coated with a paint including a time temperature is formed. That is, the color fading panel 111 allows the amount of sunshine of the model building module 110 to be expressed in real time through the color of the color fading layer discolored by the light source module 120 installed at the virtual sun position. The color fading panel 111 includes a color change layer including a Zion paint that changes color to B color at room temperature (24 to 27 ° C.) when heated to about 29 to 32 ° C., and the light source module 120 includes the model building module 110. When light is supplied to the outer wall of the model building module 110, that is, the color fading layer of the discoloration panel, which is warmed to reach 29 to 32 ° C, is discolored to B color, and the shadow of another model building module 110 is applied. The outer wall of the model building module 110 in which the light of the light source module 120 is blocked by the temperature is maintained or lowered so that the user maintains the color A, so that the user can be constructed on the assumption that the light provided from the light source module 120 is the sun. It is possible to confirm the right of sunshine. In particular, in the present invention by moving the light source module 120 in the same manner as the movement of the sun to provide light to the model building module 110, the color change panel of the outer wall of the model building module 110 according to the direction of the light of the light source module 120 The user can observe the path of the color change, so that the direction of sunlight provided to the building to be constructed during the day can be confirmed in real time.

In one embodiment, the color change panel 111 may be included in the model building module 110. In particular, by including a discoloration panel on the wall and the floor of the model building module 110, when the light source module 120 is irradiated with light, it is possible to check the discoloration of the wall and the floor so that the indoor light information in real time. In particular, in the present invention, through the three-dimensional bird's eye view according to the present invention by observing the model building module 110 by adjusting the vertical angle of the light source module 120 in the range of 25 ~ 80 ° altitude of the sun that changes during the four seasons of Korea It may be possible to check the amount of light provided to the interior of the building by season.

The color change panel 111 expresses the amount of sunshine of the model building module in real time through the color change of the color change layer discolored by the light source module 120, and the color change panel is a mixture of general paint and oil-based paint including oil-based and water-based paints. By coloring, the first cyan is expressed by the mixed design, and when the light source module 120 is operated, the time temperature is transparently discolored so that the second cyan is expressed only by the general paint. When the Zion paint and the general paint that are transparent at a specific temperature are mixed to form the color change layer by coloring the color change panel 111, the first cyan represented by the mixed paint is disclosed while the light source module 120 is turned off. Then, when the light source module 120 is operated on, the second cyan is expressed when only the general paint (oil paint and water paint) is observed while the time temperature material reaches a specific temperature and becomes transparent.

Figure 13 illustrates a sales promotion office operating system according to an embodiment of the present invention.

Referring to FIG. 13, the sales promotion office operating system 1 according to an embodiment of the present invention may control a display sector (a), a consultation sector (b), a model house sector (c), a monitoring system 10, and a blind device control. System 20.

The display sector (a) may be formed in plural, the building model device 100 in which the position of the light irradiated according to the user control signal is different, and the building model device 10 is controlled by receiving the user control signal and controlling the user. It may include at least one of the kiosk apparatus 200 including a display unit for outputting a result according to the signal, the display apparatus 300 for providing information about the building.

Consultation center (b) is located adjacent to the display sector (a), table, desk. It includes at least one of the chairs, the accommodation space for accommodating visitors can be formed, it is formed in plurality.

The model house sector (c) may be formed in plural on the basis of the number of squares, and positioned to communicate with the display sector (a) to reproduce the internal configuration of the actual building to be constructed.

The monitoring system 10 grasps the temperature change and smoke detection of each sector in real time through the composite detector 11 installed in each of the display sector (a), the consultation sector (b) and the model house sector (c). Monitoring the individual situation of the real time can be transmitted to the control server (14). The administrator can manage the real-time situation of the sale promotion through the screen provided by the management server (14).

The blind device control system 20 automatically controls the blind device formed in at least one of the model house sector (c) and the consultation sector (b).

14 shows a block diagram of a monitoring system according to an embodiment of the invention.

Referring to FIG. 14, the monitoring system 10 according to an embodiment of the present invention includes a complex sensor 11, a receiving rod member 12, a control box unit 13, and a control server 14.

The compound detector 11 is installed in each sector as shown in FIG. 13 to detect temperature and smoke in combination. The accommodating rod member 12 collects the wires connected to the complex sensor 11 into the housing to process common wiring.

The control box unit 13 collects and processes the detection signals of the compound detector 11 installed in each sector through the receiving rod member 12, and is installed in each sector managed by each compound sensor 11. The detection request signal is periodically transmitted to the composite detector 11 to collect the temperature data value and the smoke detection data signal of each sector in real time, and the current temperature data value and the smoke detection data signal of each sector collected in real time. Convert it to a text file and send it.

 The control server 14 monitors in real time the status in the individual sectors of the entire presale promotions transmitted from the control box unit 13, displays the situation in the individual sectors in a graphic form, and then takes action according to a preset command signal. During the data conversion transmission process, the control box unit displays an abnormal state of the complex sensor installed in each of the sectors in a predetermined color to indicate abnormality of the individual sectors. The control server 14 displays the abnormality of the individual sectors, and then the monitoring server 14 analyzes the temperature data values and the smoke detection data signals of the individual sectors collected in real time from the plurality of control box units 13 and then monitors the screen. On the monitoring screen implemented in graphic form, the change state of all the individual sectors of the distribution promotion hall is implemented in graphic form, and the change state of all the individual sectors is set to the threshold value, the upper limit value, and the lower limit value. When the mouse is moved to the position of the color, the real-time temperature data or smoke data value of the individual sectors indicated by the color are displayed.

In one embodiment, the control server 14, when an abnormal signal is generated in a particular individual sector, transmits a control command signal to the control box unit for controlling the individual sector, the control box 13 is the control server 14 According to the control command signal of the complex sensor 11 of the respective sector can be forcibly turned off (on) or on (on).

The monitoring system 10 according to the present invention executes a sensing operation by applying operating power to a plurality of complex detectors 11 for detecting heat or smoke in individual sectors. This jurisdiction periodically transmits the detection request signal to the composite detector 11 installed in each individual sector to collect in real time the current temperature data value and the smoke detection data signal of the individual sector. At this time, the control box 13 of the industrial HUB form can collect and collect the detection signals of the complex sensor 11 by a predetermined unit through the receiving rod member 12 by RS-485 communication. In addition, the control box 13 may display the presence or absence of an abnormality of the complex sensor 11 installed in the individual sectors by using LED lighting or the like. After real-time data collection, the control box unit 13 converts the current temperature data values and the smoke detection data signals of the individual sectors collected in real time into a text file and transmits them to the control server 14. Then, the control server 14 analyzes the current temperature data value and the smoke detection data signal of the individual sectors collected in real time from the plurality of control box units 13 and implements the change state of the entire individual sectors in the graphic form on the monitoring screen. do. At this time, the control server 14 sets the threshold / upper / lower limit value of each individual sector in color and displays the color change when the administrator's mouse moves to the position of the color on the monitoring screen implemented in graphic form. It displays the real-time temperature data or smoke data of each sector. On the other hand, the control server 14 transmits a control command signal to the control box unit 13 which controls the individual sectors when an abnormal signal is generated in a specific individual sector, and the control box unit 13 accordingly controls the control server 14. According to the control command signal of the individual sector composite detector 11 is forcibly turned off / on to prevent the spread of the abnormal situation.

15 illustrates a blind device control system according to an embodiment of the present invention.

Referring to FIG. 15, the blind device control system 20 according to an exemplary embodiment of the present invention may include a blind device 21 including a plurality of blinds and a user terminal 22 that exchanges signals with the blind device 21. ) May be included.

The blind apparatus 21 corresponds to each of at least one blind and at least one blind, and at least one blind driver for adjusting at least one of a height and a slope of each of the at least one blind according to an input blind driving signal. A blind drive signal corresponding to each of the at least one blind is generated according to a blind control signal received from the user terminal through the data communication unit and a wired or wireless communication with the user terminal, and output to each of the at least one blind driver. It includes a blind control unit.

The user terminal 22 may include a terminal display unit displaying an interface screen for controlling the blind device according to the input signal, a terminal interface unit receiving a blind input signal for at least one blind from a user, and the received blind input signal. The terminal control unit generates and outputs a blind control signal for the at least one blind, and a terminal communication unit for transmitting the blind control signal received from the terminal control unit to the blind device.

In one embodiment, at least one blind height setting icon 811 and at least one blind vertical line 812 on the interface screen 800 for controlling the blind device 21 displayed on the terminal display unit of the user terminal 22. It may include at least one blind selection icon 813 and at least one blind control button 821, 822, 823, 824. When the blind input signal input from the user includes information on at least one blind selection icon selected by the user from among at least one blind selection icon 813 and information on any one blind control button input by the user. The controller 154 of the user terminal 150 controls the height or inclination of the at least one blind corresponding to the at least one blind selection icon selected by the user according to one of the blind control buttons input by the user. The signal may be generated and output to the terminal communication unit. The terminal communication unit may transmit the blind control signal to the blind apparatus 21, and the blind apparatus 21 may adjust the height or inclination of each of the at least one blind selected by the user according to the blind control signal.

In an exemplary embodiment, the blind input signal may include information about at least one blind selection icon selected by the user among at least one blind selection icon, and one blind height setting icon selected by the user among the at least one blind vertical line. It includes information about a position moved along one blind vertical line. The blind input signal input from the user includes information on the blind height setting icon selected by the user among the at least one blind height setting icon 811, and the blind height setting icon selected by the user includes one of the at least one blind vertical line 812. When the information regarding the position moved along the blind vertical line is included, the terminal controller of the user terminal 22 may include at least one blind height setting icon selected by the user for the height of the blind corresponding to the blind height setting icon selected by the user. One of the blind vertical lines 812 may generate a blind control signal controlled according to a position moved along the blind vertical line, and output the blind control signal to the terminal communication unit. The terminal communication unit may transmit the blind control signal to the blind apparatus 21, and the blind apparatus 21 may adjust the height of any one blind selected by the user according to the blind control signal. As another example, the blind input signal input from the user may include at least one blind selection icon selected by the user from among at least one blind selection icon 813 and at least one blind height setting icon selected by the user. When the blind vertical line 812 includes information regarding a position moved along one blind vertical line, the controller 154 of the user terminal 150 may include at least one corresponding to at least one blind selection icon selected by the user. The blind height setting icon selected by the user to select the height of the blind of the blind to generate a blind control signal to control according to the position moved along any one blind vertical line of the vertical vertical line 812 to output to the terminal communication unit Can be.

According to an embodiment, the terminal controller may further include setting a height of at least one blind corresponding to the at least one blind selection icon selected by the user. The blind control signal may be generated according to the position moved along the vertical blind line and output to the terminal communication unit. In this case, the blind input signal may be at least one continuous line input from the user.

In an embodiment, the terminal controller generates height information of each of the at least one blind according to a point where at least one continuous line received from a user and a blind vertical line corresponding to each of the at least one blind meet each other, and the at least one According to the height information of each blind of the blind control signal for the at least one blind is generated and output to the terminal communication unit.

In one embodiment, the blind device 21 is disposed on the top of the blind device 21, detects a person close to the blind device 21 to output the key and position of the person close to the blind device to the blind control unit. It may include a human body sensor. The human body sensor may be disposed on an upper end of the blind apparatus 21, detect a person near the blind apparatus 21, and output at least one of a key and a position of the person near the blind apparatus 21 to the blind controller. . As an example, the human body sensor may be disposed outside the blind apparatus 21, and a plurality of the human body sensor units may be disposed according to the number of at least one blind included in the blind apparatus 21, and infrared rays emitted from the human body may be provided. It may be implemented by an infrared sensor or a variety of similar human body detection sensor that can detect the.

In one embodiment, the blind control unit generates a blind driving signal for adjusting the height of the blind corresponding to the position of the person close to the blind device according to the height of the person close to the blind device 21, the person close to the blind device. Any one corresponding to the position of the person close to the blind apparatus by outputting to one of the blind driver corresponding to the position of the blind device, generating a blind driving signal for adjusting the inclination of the blind corresponding to the position of the person close to the blind apparatus Output to blind drive of. That is, when a person approaches the blind apparatus 21 according to an embodiment of the present invention, the blind of the position where the approaching person stands among the at least one blind rises up according to the height of the approaching person according to the operation of the blind driving unit. Can be. Accordingly, the blind apparatus 21 according to an embodiment of the present invention automatically detects when a person approaches and the blind rises up according to the height of the approaching person, so that the outdoor landscape can be conveniently viewed without a separate operation. It can be effective. As another example, the blind control unit generates a blind driving signal for adjusting the inclination of the blind corresponding to the position of the person close to the blind device 21 received from the human body sensor and generates the position of the person near the blind device 21. It may be output to any one blind driver corresponding to the. For example, when a person approaches the blind apparatus 21 according to an embodiment of the present invention, the inclination of the blind at the position where the approaching person stands is adjusted horizontally with respect to the ground, so that the approaching person does not need additional manipulation. You can enjoy the outdoor scenery between the wings of the blinds. In addition, in the blind apparatus 21 according to an embodiment of the present invention, when a person moves along at least one blind, the blind whose horizontal is inclined may be changed in real time according to the current position of the moving person. .

The above-described embodiments are for illustrative purposes, and those of ordinary skill in the art to which the above-described embodiments belong may easily change to other specific forms without changing the technical spirit or essential features of the above-described embodiments. I can understand. Therefore, it is to be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected by the present specification is represented by the following claims rather than the above description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

1: Presale Promotion Center Operation System
10: monitoring system
20: blind device control system
100: building model device
200: kiosk device

Claims (2)

And a kiosk device including a building model device having a different position of light irradiated according to a user control signal, and a control unit for receiving the user control signal and controlling the building model device and outputting a result according to the user control signal. A plurality of display sectors;
Located adjacent to the display sector, table, desk. A plurality of counseling sectors including at least one of chairs and having accommodation spaces for receiving visitors;
A plurality of model house sectors located in communication with the display sectors to reproduce an internal configuration of the building;
A monitoring system for real-time monitoring the individual situation of each sector by identifying the temperature change and smoke detection of each sector in real time through the heat / smoke complex detector installed in each of the display sector, the consultation sector and the model house sector:
Including a blind device control system including a blind device formed in at least one of the model house sector and the consultation sector,
The monitoring system,
A complex detector installed in each of said sectors for complexly detecting temperature and smoke; A plurality of accommodating rod members for collecting common wires connected to the complex sensor in a housing; Collect and process the detection signals of the compound sensor installed in each sector through the receiving rod member, and periodically transmit the detection request signal to the compound sensor installed in each sector controlled by each compound sensor. A control box unit for collecting the temperature data value and the smoke detection data signal of each sector in real time and converting the current temperature data value and the smoke detection data signal of each sector collected in real time into a text file; Monitor in real time the status in the individual sectors of the entire presale promotions transmitted from the control box unit, and graphically display the situation in the individual sectors, take action according to a preset command signal, and during the data conversion transmission process. The control box unit displays the abnormal state of the complex sensor installed in each of the sectors in a preset color, and displays the abnormal state of the individual sectors, and displays the abnormal state of the individual sectors, and then the control server displays a plurality of the control box units. After analyzing the temperature data value and the smoke detection data signal of the individual sectors collected in real time, the monitoring state implements the change state of all the individual sectors of the distribution promotion in a graphic form, and the change state of all the individual sectors is a threshold value. Color-coded display with the upper and lower limits It said, when you move the mouse to the location of that color in the monitor screen implemented in graphical form, comprising: a control server that displays the real-time temperature data values or delay a data value of the individual sectors for the color is referred to,
When an abnormal signal is generated in a specific individual sector, the control server transmits a control command signal to the control box unit that controls the individual sector, and the control box unit according to the control command signal of the control server. Forcibly turning off or on the complex sensor of
The blind device control system further includes a user terminal for transmitting and receiving a signal to the blind device,
The user terminal,
A terminal display unit displaying an interface screen for controlling the blind device according to an input signal; A terminal interface unit configured to receive a blind input signal for at least one blind from a user; A terminal controller configured to generate and output a blind control signal for the at least one blind according to the input blind input signal; And a terminal communication unit configured to transmit the blind control signal received from the terminal controller to the blind apparatus.
The blind device,
At least one blind; At least one blind driver corresponding to each of the at least one blind and adjusting at least one of a height and a slope of each of the at least one blind according to an input blind driving signal; A data communication unit communicating with the user terminal through a wired or wireless connection; And a blind controller generating a blind driving signal corresponding to each of the at least one blind according to the blind control signal received from the user terminal through the data communication unit, and outputting the blind driving signal to each of the at least one blind driving unit.
The interface screen includes at least one blind height setting icon, at least one blind vertical line, and at least one blind selection icon,
The blind input signal may include information regarding at least one blind selection icon selected by the user among the at least one blind selection icon and any one blind height setting icon selected by the user. Contains information about where you moved along the blind vertical line,
The terminal controller may be configured to set the height of at least one blind corresponding to the at least one blind selection icon selected by the user, and the blind height setting icon selected by the user to select one blind vertical line among the at least one blind vertical line. Generates a blind control signal to control according to the position moved along the output to the terminal communication unit,
The blind input signal is at least one continuous line received from the user,
The terminal controller generates height information of each of the at least one blind according to a point where at least one continuous line input from the user and a blind vertical line corresponding to each of the at least one blind meet each other, and the at least one blind Generating a blind control signal for the at least one blind according to the height information, and outputting the blind control signal to the terminal communication unit;
The blind apparatus further includes a human body sensor configured to be disposed on an upper end of the blind apparatus, detect a person in proximity to the blind apparatus, and output a key and a position of the person in proximity to the blind apparatus to the blind controller.
The blind control unit generates a blind driving signal for adjusting the height of the blind corresponding to the position of the person close to the blind device according to the height of the person close to the blind device to correspond to the position of the person close to the blind device. Output to any one blind driver, and generates a blind drive signal for adjusting the inclination of the blind corresponding to the position of the person close to the blind device to output to any one blind driver corresponding to the position of the person close to the blind device Presale management office operating system.
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