TR2021013048A2 - FABRIC STRUCTURE THAT CAN EMBRACE LIGHT DEPENDING ON A PHYSICAL PROPERTIES - Google Patents

Abstract

The invention relates to a fabric (10) capable of emitting light to the environment by means of at least one light source (12) and at least one fiber optic (11). The novelty of the invention; in order to determine the physical feature of a building and to give information by emitting meaningful light to the environment; it is characterized by at least one sensor (14) capable of detecting and at least one control unit (13) that can manage the operation of the said light source (12) according to the detection result obtained from the said sensor (14). Figure 1

Description

DESCRIPTION FABRIC THAT CAN BE DIFFICULT TO THE ENVIRONMENT DUE TO A PHYSICAL CHARACTERISTIC TECHNICAL FIELD The invention provides light to the environment through at least one light source and at least one fiber optic. relates to a fabric that can diffuse.

Textile and clothing, as it is known, has been the most important thing since the creation of mankind. has been one of the requirements. Textile, all kinds of fibers; various methods (knitting, the art of obtaining a surface using weaving, non-woven surface methods) can be defined as

Textile, which is as old as the history of humanity, has formed different forms with the development of technology. takes. Product with hybrid use of traditional methods with new polymers increases diversity. When the literature studies are examined, weft and warp are Conductive yarns used, sensors integrated into the fabric, coatings Different properties are gained to the surfaces that are touched by conductive and insulating surfaces. Optical fiber is used on the subject textile material. The mentioned optics are multiple on the fiber textile material and with a light source are associated. The end of each optical fiber is a pattern on the textile material. forms. The light source, on the other hand, illuminates these patterns by giving light. it provides. In addition to this, a light animation is given by giving light in different colors. can be created.

As in this application known in the art, textile materials are different from clothing. started to be used in the fields. The use of textile materials is various Although it has expanded to areas, the desired expansion in the field of health has not been achieved. not possible. This situation has remained open to improvement in the current technique.

In conclusion, all the above mentioned problems. an innovation in the relevant technical field does not make it mandatory.

BRIEF DESCRIPTION OF THE INVENTION The present invention is designed to eliminate the above mentioned disadvantages and It is about a fabric 'to bring new advantages to the field.

One purpose of the invention is to detect a physical data and emit significant light to the environment. is to present a fabric that can convey information.

Another purpose of the invention is temperature, humidity, movement, emotion change, pulse, Saturation (SPO2 blood oxygen level), electromagnetic field change, gas, is to reveal a fabric that can emit significant light depending on radiation.

All the above-mentioned purposes that will emerge from the detailed description below present invention, at least one light source and at least one fiber optic It is a fabric that can emit light to the environment through it. Accordingly, innovation is In order to determine your physical 'feature' and to give information by emitting meaningful light to the environment; detection at least one sensor capable of at least one control unit capable of managing the operation of said light source according to it contains. Thus, depending on the characteristic of the light emitted by the fabric physical feature is determined.

The peculiarity of an embodiment of the possible of the invention is that the light source has multiple colors of light. is that there is at least one RGB LED that can emit. Thus, light in different colors on the fabric available to be given.

Another embodiment of the m'umk of the invention is the 'feature' of the sensor to detect temperature. It is a temperature sensor configured to Thus the temperature It is ensured that the follow-up can be done easily by the person who sees the fabric.

Another possible embodiment of the invention is that the sensor will detect humidity. It is a humidity sensor configured in such a way. Thus, the fabric of the moisture monitoring It is provided that it can be done easily by the person who sees it.

Another possible embodiment of the invention is characterized by the motion detection of the sensor. It is a motion sensor configured to So move It is ensured that the follow-up can be done easily by the person who sees the fabric.

Another possible embodiment of the invention is the sensory change of emotion. It is a motion sensor configured to detect Like this it is ensured that the change of emotion is easily detected by the person who sees the fabric.

Another possible embodiment of the invention is that the sensor will detect a pulse. It is a heart rate sensor configured in the following way. Thus, heart rate tracking It is ensured that it can be easily made by the person who sees the fabric.

In another possible embodiment of the invention, the sensor is the oxygen in the blood. It is a saturation sensor configured to detect the level of

Thus, the fabric of the oxygen level monitoring in the blood can be easily performed by the person who sees it. it is possible to do Another possible embodiment of the invention is that the sensor is electromagnetically an electromagnetic field sensor configured to detect the field is that. Thus, the fabric of electromagnetic field tracking can be seen by the person who sees it. it can be done easily.

Another possible embodiment of the invention is characterized by the gas level of the sensor. is that there is a corresponding gas sensor configured to detect So the gas the level of the fabric can be easily followed by the person who sees the fabric. is provided.

Another possible embodiment of the invention is that the sensor is irradiated. A radiation level sensor configured to detect the level of is that. Thus, the monitoring of the radiation level is carried out by the person who sees the fabric. it can be done easily.

Another possible embodiment of the invention is characteristic of the system with integrated circuit (IC). that it is controlled. Thus, an easily accessible control unit structure is obtained. is being done.

BRIEF DESCRIPTION OF THE FIGURE In Figure 1, a representative schematic view of the inventive fabric is given.

DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the subject of the invention is only intended for a better understanding of the subject. It is explained with examples that will not have any limiting effect on the subject.

Referring to Figure 1 , the invention relates to a fabric 10. On the subject of the invention fabric (10) It is colored according to the physical (changing) properties of the building in which it is placed, and It is configured to provide information about the physical (changing) property.

The fabric (10) is first of all weft yarns to be formed into a textile material. and woven with warp threads. Length of fabric (10) to be woven with warp thread threads that run parallel to the edge. Warp thread, weaving fabric (10) from the two thread systems that form the fabric (10) longitudinally, that is, parallel to its edge. oriented threads. Weft threads according to the drawing-in plan is passed. The weft thread is crosswise between the warp threads in the woven fabric (10). They are the threads that pass from one edge of the fabric (10) to the other in the direction of the fabric (10). These two threads Together they form the fabric (10) of the fabric.

There is at least one fiber optic (11) fiber on the fabric (10). mentioned fiber Optical (11) fiber; It is a type of fiber that allows light to be transmitted through it. find a possible fiber optic (11) in its configuration; Made of glass or plastic based material can be achieved. Fiber optic (11) fiber on fabric (10) multiple is positioned and uses light signals. Fiber optic (11) preferably While the fabric (10) is woven together with the weft and warp threads, it is placed on the fabric (10) is placed. The fiber optic (11) preferably weft yarns on the fabric (10) and fabric (10) by weaving in a predetermined pattern between the warp threads is placed.

The fabric (10) is associated with at least one light source (12). said light The source (12) has the feature of emitting light on the fiber optic (11). Fiber optic (11) On the other hand, it carries the light on the fabric (10) thanks to its light transmitting feature and transfers it to the environment. light propagation is provided. In this way, the fabric (10) is illuminated. lsik so that the source (12) illuminates the fabric (10) in a predetermined order. can be configured. The light source (12) is preferably capable of giving light in different colors. It can be an RGB light source (12). In this way, it contains different meanings to the environment. light is emitted in colors. RGB light source; (12) red, green, blue It can give light in many colors in different combinations by using lights. physical properties can be tracked.

The fabric (10) is associated with at least one control unit (13). Said control unit (13) is preferably connected with the light source (12). Control unit (13) light to energize the source (12) and color it to include meaning. allows. The control unit (13) is illuminated according to the character of the physical feature. It will enable the determination of the characteristic of the light to be given from the source (12) has the ability. To be able to do this, preferably as the 'L'izer control unit (13) microcontroller is used. Control unit (13) on 'integrated circuit' There are elements that are necessary for it to work. The control unit (13) is thus It can be easily connected to a computer and operated with an adapter or battery.

The light source (12) is different when the control unit (13) manages the light unit. It can give light in colors as well as by giving a rhythm of light that is intermittent or meaningful. can also provide information to the environment.

The fabric (10) is associated with at least one sensor (14). The aforementioned sensor (14) allows the provision of physical data for the coloring of the fabric (10) gives. For this, the sensor (14) will be configured to detect the physical feature. It can be a configured element. Sensor (14) physical feature It can be supplied in different types depending on its character.

The sensor 14 is a temperature sensor in one possible embodiment of the invention. can happen. In this way, the temperature of the fabric (10) in a predetermined place detects the change in the fabric (10) and ensures that the fabric (10) is colored accordingly.

Thus, the temperature monitoring can be done easily by the person who sees the fabric (10). is provided. If this structure is desired to be provided in smaller volumes, can be used. This allows the sensor (14) size up to 100pm. can be downsized.

The sensor 14 may be a humidity sensor in one possible embodiment of the invention.

In this way, the fabric (10) can detect the moisture change in a predetermined place. it ensures that the fabric (10) is colored accordingly. So the humidity It is ensured that the follow-up of the fabric (10) can be easily done by the person who sees it.

The sensor 14 is a motion sensor in one possible embodiment of the invention. can happen. In this way, the movement of the fabric (10) in a predetermined place detects and ensures that the fabric (10) is colored accordingly. Like this by the person who sees the fabric (10) of the motion tracking in a predetermined place. it can be done easily.

The sensor 14 is a mood shift sensor in one possible embodiment of the invention. can happen. In this way, the fabric (10) feels in a predetermined place. detects the change in the fabric (10) and ensures that the fabric (10) is colored accordingly.

Thus, the person who sees the fabric (10) of the motion tracking in a predetermined place It can be easily done by.

The sensor 14 is a pulse sensor in one possible embodiment of the invention. can happen. In this way, the fabric (10) is on the pulse of the predetermined person. detects the change in the fabric (10) and ensures that the fabric (10) is colored accordingly.

Thus, the heart rate monitoring can be done easily by the person who sees the fabric (10). is provided.

In one possible embodiment of the sensor (14) invention, a Saturation (SPO2 oxygen level) sensor. In this way, the fabric (10) by detecting the change in the oxygen level in the determined person, the fabric (10) It provides coloration accordingly. Thus, monitoring of oxygen exchange in the blood It is ensured that the fabric (10) can be easily made by the person who sees it.

The sensor 14 is an EMF (Electromagnetic field) in one possible embodiment of the invention. could be a sensor. In this way, the fabric (10) is placed in a predetermined place. detecting the electromagnetic field change and the fabric (10) accordingly. provides coloring. Thus, the fabric of electromagnetic field tracking (10) It is provided that it can be done easily by the person who sees it.

The sensor 14 may be a gas sensor in one possible embodiment of the invention.

In this way, the fabric (10) detects the gas change in a predetermined place. it ensures that the fabric (10) is colored accordingly. Like this The fabric (10) of electromagnetic field tracking can be easily carried out by the person who sees it. it is possible to do it.

The sensor 14 is a radiation sensor in one possible embodiment of the invention. can happen. In this way, the fabric (10) is exposed to radiation at a predetermined location. detects the change in the fabric (10) and ensures that the fabric (10) is colored accordingly.

Thus, the fabric (10) of electromagnetic field tracking can be easily performed by the person who sees it. it is possible to do it.

The sensor (14) is not limited to these, but is controlled by a technical system. For all structures that can be detected and converted into electrical signals can be used. In this way, the fabric (10) can also be used in addition to the configurations described. may be areas of use.

The fabric (10) is associated with at least one energy source (15). Power supply (15) will energize the light source (12) to illuminate the fiber optic (11) fibers is configured as follows. In order to do this, the energy source (15) is controlled. It is also associated with the unit (13). Depending on the data received from the control unit (13) as an energy transfer to the light source (12). The energy source (15) is essentially contains electrical energy. The energy source (15) used for this is a possible In another configuration, it can be a battery (DC) or in another possible configuration. can be mains electricity (AC). In this way, lighting and microcontroller The energy needed is provided.

In the possible use of the invention, the fabric (10) is placed on the surface to be measured. detects the temperature by means of the sensor (14). As a result of the detection, control transferred to the unit (13). predetermined on the control unit (13) The light color of the light source is adjusted according to the temperature values. This The energy needed during the process is supplied from the energy source (15).

Then, the light emitted from the light source (12) is placed on the fabric (10) with the fiber optic (11). the temperature of the surface to be measured by the person looking from the outside. understanding is provided. For example, the fabric (10) will turn yellow when at room temperature. while on fire; With the temperature rise measured on the sensor (14), orange and There is a transition to red, in case of excessive heat, the red fabric (10) surface is flashing. With the temperature decrease measured on the sensor (14), green and there is a transition to blue, in case of extreme cold, the blue fabric (10) surface will flash. goes out. Thus, with fiber optic (11) braided illuminated fabric (10), there is a significant a solution is provided.

With all this structuring; fiber optic (11) braided illuminated fabric (10), It is ensured that the different colors of the light are meaningful. Detection made in fabric (10) depending on the feature in various fields from medical, military and daily life use is provided. In medical applications, especially those requiring follow-up instead of measuring the temperature of the patient by going to the patient's bedside regularly In this way, it is possible to easily monitor remotely. The most to be determined for the highest and lowest temperature values, the fabric (10) flashes in 0 color tone. It can be provided to give a warning by turning off.

The fabric (10) is fed by the fiber optic (11) visible light source (12). If the light at a wavelength that the eye cannot perceive as its source (12) (Infrared IR) lit by feeding and with glasses that will make this wavelength visible. If it is made visible, it can also be used for military purposes for critical missions. can be used.

The scope of protection of the invention is stated in the appended claims and it is absolutely detailed explanation cannot be limited to what is told for the purpose of illustration. Because in technique what has been described above by a specialist without departing from the main theme of the invention It is clear that similar structuring can occur in the light of this.

Claims (1)

REQUESTS . The invention is a fabric (10) capable of emitting light to the environment through at least one light source (12) and at least one fiber optic (11). In order to determine the physical feature of a building and to give information by emitting meaningful light to the environment; it contains at least one sensor (14) capable of detecting and at least one control unit (13) that can manage the operation of the said light source (12) according to the detection result obtained from the said sensor (14). . It is a fabric (10) according to claim 1 and its feature is; The light source (12) is at least one RGB LED that can emit light in multiple colors. . It is a fabric (10) according to claim 1 and its feature is; is that the sensor (14) is a temperature sensor configured to detect temperature. . It is a fabric (10) according to claim 1 and its feature is; the sensor (14) is a humidity sensor configured to detect humidity. . It is a fabric (10) according to claim 1 and its feature is; the sensor 14 being a motion sensor configured to detect motion. . It is a fabric (10) according to claim 1 and its feature is; The reason is that the sensor (14) is an emotion change sensor configured to detect emotion change. . It is a fabric (10) according to claim 1 and its feature is; is that the sensor (14) is a heart rate sensor configured to detect a heart rate. . It is a fabric (10) according to claim 1 and its feature is; is that the sensor (14) is a saturation sensor configured to detect the oxygen level in the blood. It is a fabric (10) according to claim 1 and its feature is; is that the sensor (14) is an electromagnetic field sensor configured to detect the electromagnetic field. 10. It is a fabric (10) according to claim 1 and its feature is; detection is that the sensor (14) is a saturation sensor configured to detect the gas level. 5 11. It is a fabric (10) according to claim 1 and its feature is; is that the sensor (14) is a saturation sensor configured to detect the radiation level. 12. It is a fabric (10) according to claim 1 and its feature is; said control unit (13)