TR201618087A2 - A PUBLISHING DEVICE - Google Patents

Abstract

The present invention comprises at least one RF antenna (6) obtained by forming discharges of geometry corresponding to the electromagnetic wave frequency on the mounting plate (4), which comprises a mounting plate (4) on which at least one electronic card (3) is placed on the housing (2). A broadcast receiving device (1), characterized by).

Description

DESCRIPTION DEVICE THAT RECEIVES A BROADCAST This invention is a device with improved remote access compatibility and wireless communication performance. relates to the receiving device.

Today, electronic devices are connected to the internet or are suitable for remote access. They need communication modules and especially antennas to be. antennas By collecting electromagnetic waves propagating in space, the transmission lines of these waves propagation in (receiving antenna) or transmitting signals from transmission lines into space. It provides radiating (transmitting antenna). Antennas are sized according to their wavelengths. They are shaped and usually named according to their wavelengths. An electronic device is a different When it wants to connect to the electronic device remotely, it emits electromagnetic waves.

The electronic device it wants to connect to is a suitable device to collect the frequency of the transmitted wave. The receiver converts these waves into electrical signals through the antenna and the connection is established.

In broadcasting devices such as televisions, the receiving antenna can be connected to the device remotely. are available. To be able to remotely connect to this device, RF (radio frequency) antenna, as electromagnetic waves are compatible with radio frequency is named.

RF antennas must be made of electrically conductive materials and emitted by this device directly in order to establish a connection with the device should be exposed to electromagnetic waves. RF in a receiving device In order for the antenna to be connected wirelessly to any electronic device, the most effective way to receive electromagnetic waves emitted by the electronic device. required and the use of multiple antennas designed to receive different frequencies They must be positioned correctly as they will be necessary. Therefore change of direction/frequency of electromagnetic waves by hitting different surfaces should be avoided. Broadcasting devices can often cause frequency distortions. Since it contains metallic structural elements, it is an antenna that can be reached by passing through these regions. cannot function effectively. The RF antenna is on the back of the receiving device. When positioned, it is similarly reflected on the objects in the environment. Since it is transmitted to the antenna, it can cause differences in waves. eliminate this problem to the frame around the screen on the front of the receiving devices to remove can be placed. Since the frame is a very narrow area and the waves are very It cannot be used effectively because it can take it from a limited angle. In addition, this situation It requires it to be away from the control board. away from antenna control board When the signal is high, the noise on the signal increases, which negatively affects the efficiency.

An RF antenna connected to a device that transmits electromagnetic waves externally. It is also possible to get it through, but in this case, both an aesthetic appearance not occur, but also causes extra costs.

In the European Patent document numbered EP0923157, which is in the state of the art, By creating discharges on the metal surface, it becomes suitable for receiving certain frequencies. An antenna is described.

United States of America numbered US7605763 in the state of the art In the patent document, it is stated on a single structure that can receive waves of different frequencies. The placement of more than one element suitable for receiving frequencies is described.

The aim of this invention is to develop and manufacture remote access and wireless communication efficiency. It is the implementation of a transmitting device that includes a facilitated RF antenna.

In the first request and dependent claims made to achieve the purpose of this invention the defined transmitting device consists of an optically permeable panel and a frame surrounding the panel, located behind the panel, which provides the formation of the image with the illumination of the panel. a front part with lighting elements, control unit, electronic connection Assembly of parts such as elements and the metal material carrying them It comprises a body with a rear part with a plate. of the receiving device electromagnetic in the section from the front to the mounting plate at the rear. There is no material to prevent the passage of waves. Metallic especially the frequency of the signal aimed to be received on the mounting plate made of material. Discharges are created in suitable geometries. This gap structure allows the signal to be effectively an RF antenna from collecting it to the electronic board via the connecting cable. forms. Since the electronic board is mounted on the mounting plate, the RF in signal transmission by positioning the antenna at the closest distances to the electronic card. possible occurrence of parasites is prevented. The antenna formed on the mounting plate, the plate without the need for any operation such as adding or connecting during production. It provides both time and cost advantage since it can be produced with the unloading process.

In one embodiment of the invention, there is a reservoir between the front part of the body and the rear part. are available. The chamber is on the front of the body, on which the lighting elements While creating a suitable surface for its fixing, also attach the metal mounting plate on the back. can be used as a carrier. The bowl, like plastic, does not have a metallic feature, It is produced from a material suitable for transmitting electromagnetic waves. In this way While performing the function of carrying the elements inside the body, electromagnetic waves The RF antenna created on the mounting plate does not prevent the passage of allows it to work.

In one embodiment of the invention, the discharges created on the mounting plate, Wi-fi It is designed in geometry suitable for the signal frequency. Wi-Fi PC, video game devices such as consoles, digital audio players, and smartphones wirelessly. The technology that enables the internet to be connected to the internet is also the wireless connection of the products. Antenna form in the most suitable geometry to receive fi signals is the result of various experiments. is determined. During the production of this form mounting plate, unloading on the plate is created by doing. Unloadings are done during sizing of the plate in mass production. Since it can be created easily, its production is facilitated. any additional material It also provides a cost advantage since it is formed without any need. on the mounting plate the communication connection between them by positioning them close to the installed electronic card. performed with cables. The short distance between the antenna and the electronic card It also shortens the connection cable, thus minimizing the interference that may occur in between. is being downloaded. Sent from electronic devices that will connect with Wi-Fi without any deviation on the device receiving electromagnetic waves. directly to the antenna. Thus, the electromagnetic propagation pattern is being improved. Since there are no restrictions on the positioning of the antenna. in a position to receive wide-angle waves emitted from electronic devices By positioning it, the signal reception power is increased. In this way, the signal level of the devices The problem of not being able to connect due to its weakness is minimized.

In one embodiment of the invention, the cut-outs created on the mounting plate, bluetooth It is designed in geometry suitable for the signal frequency. Bluetooth eliminates the cable connection It is the name of short-range radio frequency (RF) technology that Bluetooth computer, peripheral line-of-sight without cable connection between units and other devices It allows them to communicate even if they are outside. Bluetooth technology 2.4Ghz ISM It works in the frequency band and can transmit voice and data. up to 24 MBPS The effective range of Bluetooth-enabled devices capable of transmitting data is approximately 10 to 100 meters. It is within the IEEE 802.15.] standard determined by IEEE. Bluetooth Antenna form in the most suitable geometry to receive signals is the result of various experiments. is determined. During the production of this form mounting plate, unloading on the plate is created by doing. Unloadings are done during sizing of the plate in mass production. Since it can be created easily, its production is facilitated. any additional material It also provides a cost advantage since it is created without any need. on the mounting plate the communication connection between them by positioning them close to the installed electronic card. performed with cables. The short distance between the antenna and the electronic card It also shortens the connection cable, thus minimizing the interference that may occur in between. is being downloaded. sent from electronic devices that will connect with bluetooth. without any deviation on the device receiving electromagnetic waves. directly to the antenna. Thus, the electromagnetic propagation pattern is being improved.

In one embodiment of the invention, it is suitable for receiving different frequencies via the mounting plate. There are multiple RF antennas. RF antennas are electromagnetic at a certain frequency. It is designed in geometries suitable for receiving waves. Frequency reception range of the antenna When it is kept wide, it becomes difficult to provide an efficient connection. For this reason, devices Special frequency compatibilities depending on the nature of the connection planned to be established between is provided. Multiple antennas receiving electromagnetic waves of the same frequency Signal strength can also be increased by using During the production of the mounting plate cost-effective as multiple antenna forms can be created on the plate in a single process provides the advantage. Since the antennas are not external parts, it also provides ease of assembly. brings with it.

Thanks to the invention, it can be created on the mounting plate, allowing remote access and wireless communication efficiency has been improved, and production has been facilitated by its monolithic production. A transmitting device comprising an RF antenna is implemented.

In order to achieve the purpose of this invention, the broadcast receiving device is attached. shown, this figure; Figure 1 - The rear view of the receiving device.

The parts in the figure are numbered one by one and the corresponding numbers are given below. given. 1. Receiving device 2. Body 3. Electronic card 4. Mounting plate . Connection cable 6. RF antenna 7. Hopper RF: Radio frequency Broadcasting device (1) is a device that includes components such as panel, lighting elements, frame. body (2), which is placed on a part close to the rear surface of the body (2), on which at least one a mounting plate (4) with metallic features suitable for fixing the electronic board (3) mounting plate (4), which is connected to the electronic board (3) with a connecting cable (5) discharges in geometries suitable for the frequency of the signal aimed to be received. It contains at least one RF antenna (6) obtained by creating Broadcasting device (l), by connecting the various elements placed in the body (2) with each other. is working. The control unit, which enables the operating function to be controlled, is a electronic elements on the electronic card (3) and these electronic elements It is provided with processed commands. The electronic board (3) is fixed in the body (2) it is placed on a mounting plate (4). Mounting plate (4) metal feature shows. In this way, it provides electronic conductivity. With mounting plate (4) The body (2) is made of optically permeable and non-metallic material between its front part. There are structural elements made. Wireless remote to the receiving device (l) There is an RF antenna (6) for connection. RF antenna (6), an electronic by receiving electromagnetic waves emitted by the device at a certain frequency, converts it into electrical impulses. The electrical power generated through the RF antenna (6) The warnings are transferred to the relevant processor on the electronic card (3) and necessary connection is created. Production of the RF antenna (6) on the mounting plate (4) It is created by dumps created at certain geometries during This figure is taken in the form suitable for collecting electromagnetic waves of the desired frequency in the most appropriate way. is created. Unloadings, any additions on the mounting plate (4), form with the strength of the mounting plate (4) without the need for joining It is formed in such a way that it can remain unchanged. Drains, usually assembly will form a curved RF antenna (6) by leaving a point on its plate (4). is designed in this way. formed at the point where the RF antenna (6) meets the mounting plate (4). The electrical warning is transmitted to the electronic board (3) via a connecting cable (5) and the devices are wireless connection is created. In this way, electromagnetic signals Broadcast area The remote wireless connection efficiency of the device (l) is increased. The device (l), which is broadcast in the application, is located in a part close to the back surface of the body (2). a material made of a non-metallic material placed in a space the chamber (7) and the mounting plate (4) placed in the chamber (7). of the trunk (2) a panel made of an optically transparent material on the front of which the image is formed, with lighting means located on the back of the panel inside the body (2). is illuminated. In the front part of the body (2), placed in a space It can be fixed on lighting devices, has no metallic feature. There is a chamber (7) made of material. The chamber (7) is located inside the body (2). located in the front part of the chamber (7) so that it almost completely covers the cavity. lighting elements and the panel in such a way that it cannot be reached from behind the body (2). is positioned. The chamber (7), on the rear part of the mounting plate (4) is in a suitable form. The mounting plate (4) will not protrude into the bowl (7), beyond the bowl (7) is positioned in the row. On the mounting plate (4), the electronic board (3) and other electronic connectors are placed. Providing the necessary connections then the rear part of the body (2) is closed by means of a cover. related to electronic elements In case of possible problems, this cover can be opened and the chamber (7) and the electronics in it card (3) is reached. The reservoir (7) is removed from the rear of the body (2) in case of possible repair. When it is opened, it prevents direct access to the part where the panel and lightings are located. It protects the display mechanism that needs to be kept sensitive and clean. In this way, I use security is increased and ease of use is provided.

Wi-Fi signal on the mounting plate (4) of the Device (l) broadcasting in an embodiment of the invention at least one RF antenna obtained by creating discharges in geometries suitable for its frequency (6) contains. Wi-Fi frequencies commonly used today are 2.4 GHz, 3.6 It is in the GHz, 4.9 GHz, 5 GHz and 5.9 GHz bands. The development of technology and tapes change is possible. Electromagnetic wave signals at this frequency are the most RF antenna (6) is formed with a geometry suitable for receiving well. This RF antenna (6) Since it is customized to process signals belonging to a certain frequency, signal reception power and range is increased. Remote device connection method with Wi-Fi technology with a Wi-Fi-specific authentication protocol executed via the electronic card (3). is provided. The RF antenna (6), which receives Wi-Fi electromagnetic wave signals, directly the required electrical signal to the electronic card (3) unit defined for this process. can transmit. Assembling different RF antennas (6) for Wi-Fi signals of different frequencies plate (4). In this way, the RF integrated into the receiving device (1) the signal reception power of the antenna (6) is improved and the production cost is reduced.

The device (1) broadcasting in an embodiment of the invention is bluetooth on the mounting plate (4). at least one obtained by creating dumps in geometries suitable for the signal frequency. includes a radio frequency antenna (6). Today, the Bluetooth frequency is the 2.4 GHz band. has not been determined. This frequency has been differentiated with the development of Bluetooth technology. can show. To receive electromagnetic wave signals of this frequency in the best way possible. RF antenna (6) with suitable geometry is formed. This RF antenna (6) belongs to a certain frequency. Signal reception strength and range as it is customized to process signals. is being increased.

In one embodiment of the invention, the device (l) that receives the broadcast is on the mounting plate (4) with different contains more than one radio frequency antenna (6) suitable for receiving frequencies. Assembly RF antennas (6) that can be formed at many different points on the plate (4) Possibility to process signals at frequency and/or increase signal reception power can provide. During the production of the mounting plate (4), all RF in one go cost advantage as antenna (6) forms can be formed on the mounting plate (4) and It provides ease of production. As an additional piece It does not require any extra parts, fixing and labor costs.

Thanks to the invention, it is suitable for receiving electromagnetic wave signals of various frequencies, remote access and wireless by developing an integrated RF antenna that is streamlined to manufacture The Device (1), which receives a broadcast with increased communication efficiency, is carried out.

Claims (1)

REQUIREMENTS A body (2) containing components such as panel, lighting elements, frame, and a mounting plate (4) with metallic features, suitable for fixing at least one electronic card (3) on it, which is placed near the back surface of the body (2). , a transmitting device (1), which is connected to the electronic board (3) with a connecting cable (5), characterized by at least one RF antenna (6) on the mounting plate (4), obtained by creating discharges in geometries suitable for the frequency of the signal aimed to be received. . A device that receives a broadcast as in Claim 1, characterized by a chamber (7) made of a non-metallic material, placed in the cavity near the rear surface of the body (2), and a mounting plate (4) placed inside the chamber (7) ( I). A transmitting device (1) as in Claim 1 or 2 above, characterized by the RF antenna (6) obtained by creating discharges in geometries suitable for the Wifi signal frequency on the mounting plate (4). Device (1) that receives a broadcast as in any one of the above claims, characterized by the RF antenna (6) obtained by creating discharges in geometries suitable for the bluetooth signal frequency on the mounting plate (4). A device (1) that receives a broadcast as in any one of the above claims, characterized by the creation of more than one RF antenna (6) suitable for receiving different frequencies on the mounting plate (4).