TWI686736B - Multi-point antenna transceiving induction discriminating board - Google Patents

Abstract

Multi-point antenna transceiving induction positioning board, which includes a panel body; a plurality of receiving antenna units, which are parallel to each other and distributed on the panel body; a plurality of transmitting antenna units, which are parallel to each other and distributed on the panel body , And the transmitting antenna unit and the receiving antenna unit are interlaced with each other, and the sensing points are formed at the intersections, and at each of the sensing points, the receiving antenna unit can continuously receive the signals from the transmitting antenna unit A fixed-size antenna signal; and a triggering device having at least one triggering element made of a material that can weaken or amplify the antenna signal, and when the triggering element approaches the sensing point, the triggering point The antenna signal changes, and through this signal change, it can be determined that the trigger corresponds to the position on the panel body.

Description

Multi-point antenna transceiving induction discriminating board

The present invention relates to a multi-point antenna transceiving induction positioning board; in particular, it relates to an induction using multiple wireless transceiver antennas in a staggered distribution, which can be used to achieve position judgment through local antenna signal changes at interleaved points板应用。 Board application.

With the development of electronic technology, the input types of human-machine interfaces have also increased. In order to pursue intuitive operation and improve relative convenience, touch input methods are widely used in various types of electronic products. Generally speaking, the methods of touch recognition can be divided into electromagnetic touch recognition, resistive touch recognition and capacitive touch recognition.

Among them, the electromagnetic touch recognition is obtained by the interaction between the touchpad and the magnetic pen to obtain the corresponding input signal, usually the induction antenna will be laid on the touchpad in a two-dimensional array. The operating principle of electromagnetic touch is that the distance between the touchpad and the digital pen changes, so that the magnetic force between the sensing antenna and the digital pen changes accordingly, and then the magnetic force of the sensing antenna can be changed to obtain the digital pen Location on the touchpad.

Among them, capacitive touch identification is through the configuration of the capacitive sensing circuit, and then the human fingers have the conductive characteristics, which can affect the power signal when touching the panel, and then estimate the position of the finger by calculating the signal difference Then, you can directly replace the stylus with your hand to perform touch recognition on the panel.

However, in the prior art, the application of these two types is due to technical characteristics, and there are some unchangeable technical deficiencies. For example, the electromagnetic touch recognition technology must rely on a stylus that can emit signals, so the stylus It is inevitable that the battery needs to be configured to generate the signal; and in the capacitive touch identification technology, because of its conductive properties, it will be affected by other conductors, such as water. In view of the above, if you want to perform touch identification in a working environment with moisture, even in an underwater working environment, and at the same time do not want to load the battery in the touch object responsible for touch, it is known Electromagnetic or capacitive touch technology cannot be achieved.

Therefore, in view of the foregoing, the inventor of the present invention has thought about and designed a multi-point antenna transceiving induction positioning board, with a view to improving the lack of the existing technology, and thus enhancing the implementation and utilization in the industry.

In view of the aforementioned shortcomings of the prior art, the present invention is to design a multi-point antenna transceiving induction positioning board with patent requirements such as novelty, advancement and industrial applicability, in order to overcome the difficulties of the prior art.

In order to achieve the above object, the technical means adopted in the present invention is to design a multi-point antenna transceiving induction positioning board, which includes: a panel body with a wiring range; a plurality of receiving antenna units, which are juxtaposed and parallel to each other Distributed in the wiring range of the panel body; a plurality of transmitting antenna units are distributed parallel to each other in the wiring range of the panel body, and the transmitting antenna unit and the receiving antenna unit are interleaved, and At each intersection of the receiving antenna unit and the transmitting antenna unit, a sensing point is formed, and then at each of the sensing points, the receiving antenna unit can continuously receive the signal from the transmitting antenna unit A fixed size antenna signal; and a trigger device having at least one trigger element made of a material that can attenuate or amplify the antenna signal, and when the trigger element approaches any of the sensing points, the sensor The antenna signal received at the point will change, and through the change of the antenna signal at this local position, it can be determined that the trigger corresponds to the position on the panel body.

Wherein, the transmitting antenna unit and the receiving antenna unit are vertically and horizontally arranged on the panel body

Wherein, the trigger is a magnetic conductive substance or metal.

Wherein, the trigger device is a stylus, and the trigger is fixed to the tip of the stylus.

Wherein, the triggering device is a mobile phone with wireless charging function, and the triggering element is corresponding to the position of the charging coil of the mobile phone.

Wherein, the triggering device is a keyboard board with a plurality of keys, and the triggering element is correspondingly disposed under each key, and will sink as the key is pressed.

Wherein, the triggering device is a mouse structure, and the triggering element is correspondingly arranged at the bottom of the mouse structure and under the button of the mouse structure.

The design of the multi-point antenna transceiving induction positioning board of the present invention can make the local antenna signal at the interleaved part be changed through the plural receiving antenna units and the plural transmitting antenna units forming an interlaced aspect, and then used as The method for determining the location of the trigger point is a novel touch application.

In order to make the above purpose, technical features and gains after actual implementation more obvious and understandable, in the following, the preferred embodiments will be supplemented with corresponding drawings to explain in more detail.

The advantages and features of the present invention and the methods for achieving it will be described in more detail with reference to exemplary embodiments and accompanying drawings and are easier to understand. However, the present invention can be implemented in different forms and should not be understood to be limited to the embodiments set forth herein. On the contrary, for those with ordinary knowledge in the technical field, the provided embodiments will make the disclosure more thorough, comprehensive and complete to convey the scope of the invention, and the invention will only be the scope of the attached patent application As defined. In the drawings, the sizes and relative sizes of components or elements are shown in exaggeration for clarity. Throughout the specification, the same component symbols refer to the same components. As used hereinafter, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Unless otherwise defined, all terms (including technical and scientific terms) used hereinafter have the same meaning as generally understood by those skilled in the art to which this invention belongs. It will be more understandable that, for example, those terms defined in commonly used dictionaries should be understood to have a meaning consistent with the content of the relevant field, and unless clearly defined later, will not be over-idealized or over-idealized. Formal understanding.

The exemplary embodiment will be described in detail below in conjunction with the drawings. However, these embodiments may be included in different forms and should not be construed as limiting the scope of patent application of the present invention. The provision of these embodiments makes the disclosure of the present invention complete and clear, and those skilled in the art will be able to understand the scope of the present invention through these embodiments.

First of all, please refer to the first and second figures, the present invention relates to a multi-point antenna transceiving induction positioning board, which includes a panel body (10), a plurality of receiving antenna units (20), a plurality of sending The antenna unit (30) and a trigger device (40).

The aforementioned panel body (10) has a wiring area, which is rectangular.

The aforementioned receiving antenna units (20) are inter-lattice and distributed in parallel in the wiring range of the panel body (10).

The aforementioned transmitting antenna unit (30) is interdigitated and distributed in parallel within the wiring range of the panel body (10), and the transmitting antenna unit (30) and the receiving antenna unit (20) are mutually Staggered, and arranged in the panel body (10) in a vertical and horizontal direction, and where each of the receiving antenna unit (20) and the transmitting antenna unit (30) are interlaced, a sensing point (90) is formed, and At each sensing point (90), the receiving antenna unit (20) can continuously receive the antenna signal of a fixed size sent by the transmitting antenna unit (30).

The aforementioned triggering device (40) has at least one triggering element (41), which is made of a material that can attenuate or amplify the antenna signal, such as magnetic materials or metals, and when the The trigger element (41) is close to any induction point (90), the antenna signal received at the induction point (90) will change, and the antenna signal at this local position can be changed to determine the correspondence of the trigger element (41) In the position on the panel body (10), in one of the embodiments, the trigger device (40) may be a stylus, and the trigger (41) is fixed to the tip of the stylus.

The design of the multi-point antenna transceiving induction positioning board of the present invention is designed through ingenuity, so that it can be interleaved through a plurality of receiving antenna units (20) and a plurality of transmitting antenna units (30) that are interleaved with each other The local antenna signal of the part is changed, which is used as a method to determine the location of the trigger point. This method can avoid the problem of being affected by water in use like the capacitive touch technology, and the stylus part only Through the selection of materials, there is no need to additionally configure a battery to emit any signal like electromagnetic touch technology. It is a novel touch application and is beyond the reach of the existing technology.

Please further refer to FIG. 3, in another embodiment, the trigger device (40A) may be a mobile phone with wireless charging function, and the trigger (41A) corresponds to the charging coil of the mobile phone The position of the mobile phone can be determined when the mobile phone moves to a part of the sensing point (90) on the panel body (10), and then the corresponding position of the mobile phone can be performed by a device with automatic movement and charging Charging, and the actuation method of the device that automatically moves and charges is not the technology to be discussed in the present invention, so it will not be described in detail in this part.

Please refer to Figure 4 for further cooperation. In another embodiment, the triggering device (40B) may be a keyboard board with a plurality of keys, and the triggering element (41B) is correspondingly provided on each key. Below, and when the keyboard board is placed on the panel body (10) and the key corresponds to the sensing point (90), when the key is pressed and sinks, the trigger (41B) follows Sinking will affect the antenna signal at the sensing point (90), so that the pressed button can be judged, so that the input signal corresponding to the button can be sent out later.

Please refer to Figure 5 for further cooperation. In another embodiment, the trigger device (40C) may be a mouse structure, and the trigger element (41C) is correspondingly located at the bottom of the mouse structure And the lower side of the button of the mouse structure, when the mouse structure moves on the panel, or when the button of the mouse structure is pressed, the sensing point (90) of the antenna signal is changed through the panel body (10) Position, you can determine the moving position of the trigger (41C), and whether there is a button press action.

The above embodiments are only used to exemplify the implementation of the present invention and to explain the technical features of the present invention, not to limit the scope of protection of the present invention. Any changes or equivalence arrangements that can be easily completed by those familiar with this technology belong to the scope claimed by the present invention, and the scope of protection of the rights of the present invention shall be subject to the scope of patent application.

(10): Panel body (20): receiving antenna unit (30): Transmitting antenna unit (40) (40A)(40B)(40C): trigger device (41)(41A)(41B)(41C): Trigger (90): Sensing point

Figure 1 is a schematic diagram of the configuration of the multi-point antenna transceiving induction discriminating board of the present invention; FIG. 2 is a schematic diagram of application of an embodiment of a multi-point antenna transceiving induction discriminating board of the present invention; FIG. 3 is a schematic diagram of an application of a modified embodiment of a multi-point antenna transceiving induction discriminating plate of the present invention; FIG. 4 is a schematic diagram of an application of a modified embodiment of a multi-point antenna transceiving induction discriminating plate of the present invention; FIG. 5 is a schematic diagram of an application of a modified embodiment of the multi-point antenna transceiving induction discriminating plate of the present invention.

(10): Panel body

(20): receiving antenna unit

(30): Transmitting antenna unit

(90): Sensing point

Claims (3)

A multi-point antenna transceiving induction positioning board, comprising: a panel body with a wiring range; a plurality of receiving antenna units, which are juxtaposed and distributed in the wiring range of the panel body; The communication antenna units are distributed parallel to each other in the wiring range of the panel body, and the transmission antenna unit and the reception antenna unit are interleaved, and each of the reception antenna unit and the transmission antenna unit At the intersection, a sensing point is formed, and at each of the sensing points, the receiving antenna unit can continuously receive the fixed-size antenna signal sent by the transmitting antenna unit; and a trigger device, the trigger The device is a mobile phone with wireless charging function, which has at least one trigger, which corresponds to the position of the charging coil of the mobile phone, and the trigger is made of a material that can weaken or amplify the antenna signal, and When the trigger is close to any of the sensing points, the antenna signal received at the sensing point will change, and through the change of the antenna signal at this local position, it can be determined that the trigger corresponds to the position on the panel body. A multi-point antenna transceiving induction positioning board, comprising: a panel body with a wiring range; a plurality of receiving antenna units, which are juxtaposed and distributed in the wiring range of the panel body; The communication antenna units are distributed parallel to each other in the wiring range of the panel body, and the transmission antenna unit and the reception antenna unit are interleaved, and each of the reception antenna unit and the transmission antenna unit At the intersection, a sensing point is formed, and at each of the sensing points, the receiving antenna unit can continuously receive the fixed-size antenna signal sent by the transmitting antenna unit; and a trigger device, the trigger The device is a keyboard board with a plurality of keys, and has at least one trigger, and the trigger is correspondingly disposed under each key, and will sink as the key is pressed, the touch The sending piece is made of a material that can weaken or amplify the antenna signal, and when the trigger is close to any of the sensing points, the antenna signal received at the sensing point will change, and the antenna signal at this local position changes, It can be determined that the trigger corresponds to the position on the panel body. A multi-point antenna transceiving induction positioning board, comprising: a panel body with a wiring range; a plurality of receiving antenna units, which are juxtaposed and distributed in the wiring range of the panel body; The communication antenna units are distributed parallel to each other in the wiring range of the panel body, and the transmission antenna unit and the reception antenna unit are interleaved, and each of the reception antenna unit and the transmission antenna unit At the intersection, a sensing point is formed, and at each of the sensing points, the receiving antenna unit can continuously receive the fixed-size antenna signal sent by the transmitting antenna unit; and a trigger device, the trigger The device is a mouse structure with at least one trigger element, and the trigger element is correspondingly arranged at the bottom of the mouse structure and under the button of the mouse structure. The trigger element is used to weaken or amplify the antenna signal Made of materials, and when the trigger is close to any of the sensing points, the antenna signal received at the sensing point will change, and by changing the antenna signal at this local position, it can be determined that the trigger corresponds to the panel Position on the body.

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