WO2022051962A1 - Non-contact device for pressing control, and method therefor - Google Patents

Abstract

A non-contact device (100) for pressing control and a method therefor. The non-contact device (100) comprises: a tube body (110), which is tubular; a protective cover (120), which is located at an opening at one end of the tube body (110); and a sensor (130), a circuit board (140) and a power element (150) which are located in the tube body (110). The sensor (130) detects changes in the human body and sends a signal to the circuit board (140). The circuit board (140) processes the signal and then sends same to the power element (150). The power element (150) generates a pushing force, thereby forming a non-contact device (100) for pressing control.

Description

一种应用于按压控制的非接触式装置及其方法A non-contact device and method for pressing control 技术领域technical field

本发明是有关于一种应用于按压控制的装置及其方法，尤指一种可用以非接触式，可将按压控制装置启动，可达成非接触式启动作用，有效的减少接触的动作。The present invention relates to a device for pressing control and a method thereof, especially a non-contact action that can activate the pressing control device to achieve non-contact activation and effectively reduce contact.

背景技术Background technique

近年来一般电梯皆无触控开关的装置，人员皆须直接触碰电梯的按钮开关，增加疾病传染的风险，因此面板要做人工清洁消毒很容易因为清洁剂破坏电梯的面板造成短路故障，或是使用者，借由其它硬物，例如钥匙，来按压，因此面板常会损坏。最好的方法是避免接触，但是，如整部电梯要更换成触控开关须付担很大的更换改建与建置维护成本。In recent years, general elevators do not have touch switch devices, and personnel must directly touch the button switches of the elevator, which increases the risk of disease infection. Therefore, manual cleaning and disinfection of the panels is easy to cause short-circuit failure due to the cleaning agent destroying the elevator panels, or It is the user who presses by other hard objects, such as keys, so the panel is often damaged. The best way is to avoid contact. However, if the entire elevator needs to be replaced with a touch switch, it will have to pay a lot of replacement, reconstruction, construction and maintenance costs.

有鉴于目前的老式电梯与一般电梯的问题示，本发明提供了一种非接触式的方式克服上述的问题。In view of the problems of current old-fashioned elevators and general elevators, the present invention provides a non-contact method to overcome the above problems.

发明内容SUMMARY OF THE INVENTION

鉴于上述的发明背景中，为符合产业上特别的需求，本发明提供一种应用于按压控制的非接触式装置用以解决上述传统技艺未能达成的标的。In view of the above-mentioned background of the invention, in order to meet the special needs of the industry, the present invention provides a non-contact device for pressing control to solve the above-mentioned problems that the conventional techniques cannot achieve.

本发明提供的设计特点在于人员不需要用手直接接触电梯面板上的按钮开关，通过一种应用于按压控制的非接触式装置内的机构单元直接按压电梯的按钮开关。此应用于按压控制的非接触式装置是利用红外线感应器感应到人体后，开启(微型)电磁阀开关并结合机构(金属或塑胶)崁合的顶出件，直接按压电梯面板上的按钮开关。此应用于按压控制的非接触式装置内更可含导光结构，将电梯面板上的按钮开关的光线均匀的导出于装置正面或侧边，以达成人员能识别装置确实启动电梯的按钮开关的动作。此应用于按压控制的非接触式装置可为多个以上，并利用磁铁或背胶或锁螺丝的方式固定于电梯面板上。The design feature provided by the present invention is that personnel do not need to directly touch the button switch on the elevator panel with their hands, and directly press the button switch of the elevator through a mechanism unit in a non-contact device applied to pressing control. This non-contact device for press control uses infrared sensors to sense the human body, turns on the (miniature) solenoid valve switch and combines the ejector piece with the mechanism (metal or plastic) to directly press the button switch on the elevator panel. . This non-contact device used for push control can also include a light guide structure to evenly guide the light from the push button switch on the elevator panel to the front or side of the device, so that personnel can recognize that the device has indeed activated the push button switch of the elevator. action. There can be more than one non-contact device for pressing control, and they are fixed on the elevator panel by means of magnets, adhesives, or locking screws.

本发明提供一种应用于按压控制的非接触式装置，包含：管体，其为管状，包含容置空间、第一端开口与第二端开口；保护盖，其是位于该管体的该第一端开口；感应器，其是位于该管体内；动力元件，其是位于该管体内；以及电路板，其是与该感应器及该动力元件相互电性连接；其中，该感应器探测到人体的变化，送出信号给该电路板，该电路板处理后送出信号给该动力元件，该动力元件产生推动力。The present invention provides a non-contact device applied to pressing control, comprising: a tube body, which is tubular and includes a accommodating space, a first end opening and a second end opening; and a protective cover, which is located on the part of the tube body a first end opening; an inductor, which is located in the pipe body; a power element, which is located in the pipe body; and a circuit board, which is electrically connected with the inductor and the power element; wherein, the inductor detects When the human body changes, a signal is sent to the circuit board, and the circuit board sends a signal to the power element after processing, and the power element generates a driving force.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包 含导光元件，是用以传送该第二端开口发送的光到该管体外。The present invention provides another aspect, wherein the non-contact device used for pressing control further includes a light guide element for transmitting the light sent by the second end opening to the outside of the tube.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含传压元件，该传压元件是用以传送保护盖的动作到第二端开口。The present invention provides another aspect, wherein the non-contact device for pressing control further includes a pressure transmission element, and the pressure transmission element is used for transmitting the action of the protective cover to the second end opening.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含电源，是用以提供该感应器、该电路板、该动力元件电力。The present invention provides another aspect, wherein the non-contact device for pressing control further includes a power source for providing power to the sensor, the circuit board, and the power element.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含传压元件，是用以接受该动力元件产生推动力，推动该传压元件。The present invention provides another aspect, wherein the non-contact device for pressing control further includes a pressure transmission element, which is used for receiving the power element to generate a propulsive force to push the pressure transmission element.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含无线传输感应器，是用以接收到外部行动装置传送的信号，然后送出信号给该电路板。The present invention provides another aspect, wherein the non-contact device used for pressing control further includes a wireless transmission sensor, which is used for receiving the signal transmitted by the external mobile device, and then sending the signal to the circuit board.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含电源容量指示灯，是置于该第一端开口，借以指示电源容量。The present invention provides another aspect, wherein the non-contact device used for pressing control further includes a power capacity indicator light, which is placed in the opening of the first end, so as to indicate the power capacity.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含按压控制装置启动指示灯置于该第一端开口，借以指示该非接触式装置启动。The present invention provides another aspect, wherein the non-contact device applied to the press control further comprises a press control device activation indicator light disposed on the first end opening, so as to indicate the activation of the non-contact device.

本发明提供另一种样态，其中该无线传输感应器，是可以为WIFI、蓝牙、红外线；其中该行动装置，是可以为手机、平板电脑。The present invention provides another aspect, wherein the wireless transmission sensor can be WIFI, bluetooth, infrared; wherein the mobile device can be a mobile phone or a tablet computer.

本发明提供另一种按压控制的非接触方法，包含：提供至少一个非接触式装置，其中，该非接触式装置更包含管体，其是管状，包含容置空间、第一端开口与第二端开口；感应器，其是位于该管体内；动力元件，其是位于该管体内与电路板；借由该感应器进行感测程序，以感测人体红外光谱的变化，并产生对应信号传送至该电路板；借由该电路板进行运算程序，以根据该对应信号产生操作信号并传至该动力元件；与该动力元件根据该操作信号产生推动力以进行按压程序以按压控制装置。The present invention provides another non-contact method for pressing control, comprising: providing at least one non-contact device, wherein the non-contact device further includes a tubular body, which is tubular and includes an accommodating space, a first end opening and a first end opening. Two ends are open; a sensor, which is located in the tube body; a power element, which is located in the tube body and the circuit board; the sensor performs a sensing procedure to sense the changes of the human body's infrared spectrum and generate corresponding signals send to the circuit board; perform an operation program through the circuit board to generate an operation signal according to the corresponding signal and transmit it to the power element; and the power element generates a driving force according to the operation signal to perform a pressing program to press the control device.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含导光元件，是用以传送该第二端开口发送的光到该管体外。The present invention provides another aspect, wherein the non-contact device for pressing control further includes a light guide element for transmitting the light sent by the second end opening to the outside of the tube.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含传压元件，该传压元件是用以传送保护盖的动作到第二端开口。The present invention provides another aspect, wherein the non-contact device for pressing control further includes a pressure transmission element, and the pressure transmission element is used for transmitting the action of the protective cover to the second end opening.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含电源，是用以提供该感应器、该电路板、该动力元件电力。The present invention provides another aspect, wherein the non-contact device for pressing control further includes a power source for providing power to the sensor, the circuit board, and the power element.

本发明提供另一种样态，其中该应用于按压控制的非接触式装置更包含无线传输感应器，是用以接收到外部行动装置传送的信号，然后送出信号给该电路板。The present invention provides another aspect, wherein the non-contact device used for pressing control further includes a wireless transmission sensor, which is used for receiving the signal transmitted by the external mobile device, and then sending the signal to the circuit board.

本发明提供另一种样态，其中该控制装置是电梯控制按键。The present invention provides another aspect, wherein the control device is an elevator control button.

借由上述技术方案，本发明至少具有以下优点效果：本发明的一种应用于按压控制的非接触式装置是不需要人员用手直接接触电梯面板上的按 钮开关，而是通过一种应用于按压控制的非接触式装置内的机构单元直接按压电梯的按钮开关。此应用于按压控制的非接触式装置内更可含导光结构，将电梯面板上的按钮开关的光线均匀的导出于装置正面或侧边，以达成人员能识别装置确实启动电梯的按钮开关的动作。此应用于按压控制的非接触式装置可为多个以上，并利用磁铁或背胶或锁螺丝的方式固定于电梯面板上。By means of the above technical solutions, the present invention has at least the following advantages and effects: a non-contact device applied to pressing control of the present invention does not require personnel to directly touch the push button switch on the elevator panel by hand, but is applied to The mechanism unit in the press-controlled non-contact device directly presses the pushbutton switch of the elevator. This non-contact device used for push control can also include a light guide structure to evenly guide the light from the push button switch on the elevator panel to the front or side of the device, so that personnel can recognize that the device has indeed activated the push button switch of the elevator. action. There can be more than one non-contact device for pressing control, and they are fixed on the elevator panel by means of magnets, adhesives, or locking screws.

【图式简单说明】[Simple description of the diagram]

图1是本发明一实施例示意图。FIG. 1 is a schematic diagram of an embodiment of the present invention.

图2是本发明一实施例示意图。FIG. 2 is a schematic diagram of an embodiment of the present invention.

图3是本发明一实施例示意图。FIG. 3 is a schematic diagram of an embodiment of the present invention.

图4是本发明一实施例示意图。FIG. 4 is a schematic diagram of an embodiment of the present invention.

图5是本发明应用于按压控制的非接触式装置的一实施例示意图。FIG. 5 is a schematic diagram of an embodiment of the present invention applied to a non-contact device controlled by pressing.

图6是本发明应用于按压控制的非接触式装置的另一实施例示意图。FIG. 6 is a schematic diagram of another embodiment of the present invention applied to a non-contact device controlled by pressing.

图7是本发明应用于按压控制的非接触式装置的方法流程图。FIG. 7 is a flow chart of a method of applying the present invention to a press-controlled non-contact device.

【符号说明】【Symbol Description】

100:非接触式装置              110:管体100: Non-contact device 110: Pipe body

111:第一端开口                112:第二端开口111: Opening at the first end 112: Opening at the second end

120:保护盖                    130:感应器120: Protective cover 130: Sensor

140:电路板                    150:动力元件140: circuit board 150: power components

160:延伸元件                  170:固定元件160: Extension element 170: Fixed element

190:电源                      195:按压控制装置190: Power supply 195: Press control device

200:非接触式装置              210:管体200: Non-contact device 210: Tube body

211:第一端开口                212:第二端开口211: Opening at the first end 212: Opening at the second end

220:保护盖                    230:感应器220: Protective cover 230: Sensor

240:电路板                    250:动力元件240: circuit board 250: power components

260:延伸元件                  270:固定元件260: Extension element 270: Fixed element

280:导光元件                  290:电源280: light guide element 290: power supply

295:按压控制装置              300:非接触式装置295: Press control device 300: Non-contact device

310:管体                      311:第一端开口310: tube body 311: first end opening

312:第二端开口                320:保护盖312: The second end opening 320: Protective cover

330:感应器                    340:电路板330: sensor 340: circuit board

350:动力元件                  360:延伸元件350: Power element 360: Extension element

370:固定元件                  381:光源显示元件370: Fixed components 381: Light source display components

382:光源感应元件              390:电源382: Light source sensing element 390: Power supply

395:按压控制装置              400:非接触式装置395: Press control device 400: Non-contact device

410:管体                           411:第一端开口410: tube body 411: first end opening

412:第二端开口                     420:保护盖412: The second end opening 420: Protective cover

430:感应器                         440:电路板430: sensor 440: circuit board

450:动力元件                       460:延伸元件450: Power element 460: Extension element

470:固定元件                       485:传压元件470: Fixed element 485: Pressure transmission element

490:电源                           495:按压控制装置490: Power supply 495: Press control device

500:应用于按压控制的非接触式装置   510:管体500: Non-contact device for push control 510: Tube body

511:第一端开口                     512:第二端开口511: The opening of the first end 512: The opening of the second end

520:保护盖                         530:感应器520: Protective cover 530: Sensor

540:电路板                         550:动力元件540: circuit board 550: power components

580:按压控制装置启动指示灯         590:电源580: Press the control device to start the indicator 590: Power

591:电源容量指示灯                 595:按压控制装置591: Power capacity indicator 595: Press control device

600:应用于按压控制的非接触式装置   610:管体600: Non-contact device for press control 610: Tube body

611:第一端开口                     612:第二端开口611: Opening at the first end 612: Opening at the second end

620:保护盖                         630:感应器620: Protective cover 630: Sensor

635:无线传输感应器                 640:电路板635: Wireless transmission sensor 640: Circuit board

650:动力元件                    680:按压控制装置启动指示灯650: Power element 680: Press the control device to start the indicator light

690:电源                          691:电源容量指示灯690: Power supply 691: Power capacity indicator

695:按压控制装置                  700:非接触式装置的方法695: Press Control Device 700: Method of Contactless Device

710:提供至少一个非接触式装置710: Provide at least one contactless device

720:借由感应器探测到人体红外光谱的变化，送出信号给电路板720: Detect the change of the infrared spectrum of the human body by the sensor, and send a signal to the circuit board

730:进行电路板处理，然后送出信号给动力元件730: Perform circuit board processing, and then send signals to power components

740:借由动力元件产生推动力进行按压按压控制装置740: Press and press the control device by generating the driving force by the power element

具体实施方式detailed description

本发明在此所探讨的方向为应用于按压控制的非接触式装置，为了能彻底地了解本发明，将在下列的描述中提出详尽的结构及其元件与方法步骤。显然地，本发明的施行并未限定于应用于按压控制的非接触式装置的技艺者所熟习的特殊细节。另一方面，众所周知的结构及其元件并未描述于细节中，以避免造成本发明不必要的限制。此外，为提供更清楚的描述及使熟悉该项技艺者能理解本发明的发明内容，图示内各部分并没有依照其相对的尺寸而绘图，某些尺寸与其他相关尺度的比例会被突显而显得夸张，且不相关的细节部分亦未完全绘出，以求图示的简洁。本发明的较佳实施例会详细描述如下，然而除了这些详细描述之外，本发明还可以广泛地施行在其他的实施例中，且本发明范围不受限定，其以专利保护范围为准。The direction of the present invention discussed herein is applied to a touch-controlled non-contact device. In order to provide a thorough understanding of the present invention, detailed structures, components and method steps will be presented in the following description. Obviously, the practice of the present invention is not limited to the specific details familiar to those skilled in the art of application to press-controlled contactless devices. In other instances, well-known structures and elements thereof have not been described in detail to avoid unnecessarily limiting the invention. In addition, in order to provide a clearer description and enable those skilled in the art to understand the content of the present invention, the various parts in the drawings are not drawn according to their relative dimensions, and the ratio of certain dimensions to other relative dimensions will be highlighted However, it is exaggerated, and the irrelevant details are not completely drawn for the sake of simplicity. The preferred embodiments of the present invention will be described in detail below. However, in addition to these detailed descriptions, the present invention can also be widely implemented in other embodiments, and the scope of the present invention is not limited, which is subject to the scope of patent protection.

请参阅图1所示，本发明一种应用于按压控制的非接触式装置100，非接触式装置100包含：管体110、保护盖120、感应器130、电路板140、动力元件150、延伸元件160、固定元件170及电源190。Please refer to FIG. 1 , the present invention is a non-contact device 100 applied to pressing control. The non-contact device 100 includes: a tube body 110 , a protective cover 120 , a sensor 130 , a circuit board 140 , a power element 150 , an extension element 160 , fixed element 170 and power supply 190 .

如上述一种应用于按压控制的非接触式装置100，其中，管体110是管状，包含容置空间、第一端开口111与第二端开口112。上述的保护盖120是位于管体110的第一端开口111。上述的感应器130、电路板140、动力元件150与延伸件16是位于管体110内，其中，感应器130探测到人体红外光谱的变化，送出信号给电路板140，电路板140处理后送出信号给动力元件150，动力元件150产生推动力，推动延伸元件160。上述的固定元件170是用以固定上述的非接触式装置100于按压控制装置195的上方。上述的电源190是用以提供感应器130、电路板110、动力元件150电力。As described above, the non-contact device 100 for pressing control, wherein the tube body 110 is tubular, and includes an accommodating space, a first end opening 111 and a second end opening 112 . The aforementioned protective cover 120 is located at the first end opening 111 of the tube body 110 . The above-mentioned sensor 130 , circuit board 140 , power element 150 and extension piece 16 are located in the tube body 110 , wherein the sensor 130 detects the change of the infrared spectrum of the human body and sends a signal to the circuit board 140 , and the circuit board 140 sends it out after processing. The signal is sent to the power element 150 , and the power element 150 generates a pushing force to push the extension element 160 . The above-mentioned fixing element 170 is used for fixing the above-mentioned non-contact device 100 above the pressing control device 195 . The above-mentioned power source 190 is used to provide power to the inductor 130 , the circuit board 110 , and the power element 150 .

请参阅图2所示，本发明一种应用于按压控制的非接触式装置200，非接触式装置200包含：管体210、保护盖220、感应器230、电路板240、动力元件250、延伸元件260、固定元件270、导光元件280及电源290。Referring to FIG. 2 , the present invention is a non-contact device 200 applied to pressing control. The non-contact device 200 includes: a tube body 210 , a protective cover 220 , a sensor 230 , a circuit board 240 , a power element 250 , an extension The element 260 , the fixing element 270 , the light guide element 280 and the power supply 290 .

如上述一种应用于按压控制的非接触式装置200，其中，管体210是管状，包含容置空间、第一端开口211与第二端开口212。上述的保护盖220是位于管体110的第一端开口211。上述的感应器230、电路板240、动力元件250与延伸件260是位于管体210内，其中，感应器230探测到人体红外光谱的变化，送出信号给电路板240，电路板240处理后送出信号给动力元件250，动力元件250产生推动力，推动延伸元件260。上述的固定元件270是用以固定上述的非接触式装置200于按压控制装置295的上方。上述的导光元件280是用以传送按压控制装置295发送的光到管体210外。上述的电源290是用以提供感应器230、电路板240、动力元件250电力。As described above, the non-contact device 200 applied to pressing control, wherein the tube body 210 is tubular, and includes a accommodating space, a first end opening 211 and a second end opening 212 . The aforementioned protective cover 220 is located at the first end opening 211 of the tube body 110 . The above-mentioned sensor 230 , circuit board 240 , power element 250 and extension piece 260 are located in the tube body 210 , wherein the sensor 230 detects the change of the infrared spectrum of the human body, and sends a signal to the circuit board 240 , and the circuit board 240 sends it out after processing. The signal is sent to the power element 250 , and the power element 250 generates a pushing force to push the extension element 260 . The above-mentioned fixing element 270 is used for fixing the above-mentioned non-contact device 200 above the pressing control device 295 . The above-mentioned light guide element 280 is used to transmit the light sent by the pressing control device 295 to the outside of the tube body 210 . The above-mentioned power source 290 is used to provide power to the inductor 230 , the circuit board 240 , and the power element 250 .

请参阅图3所示，本发明一种应用于按压控制的非接触式装置300，非接触式装置300包含：管体310、保护盖320、感应器330、电路板340、动力元件350、延伸元件360、固定元件370、光源显示元件381、光源感应元件382及电源390。Please refer to FIG. 3 , a non-contact device 300 applied to pressing control of the present invention. The non-contact device 300 includes: a tube body 310 , a protective cover 320 , a sensor 330 , a circuit board 340 , a power element 350 , an extension The element 360 , the fixing element 370 , the light source display element 381 , the light source sensing element 382 and the power supply 390 .

如上述一种应用于按压控制的非接触式装置300，其中，管体310是管状，包含容置空间、第一端开口311与第二端开口312。上述的保护盖320是位于管体310的第一端开口311。上述的感应器330、电路板340、动力元件350与延伸件360是位于管体310内，其中，感应器330探测到人体红外光谱的变化，送出信号给电路板340，电路板340处理后送出信号给动力元件350，动力元件350产生推动力，推动延伸元件360。上述的固定元件370是用以固定上述的非接触式装置300于按压控制装置395的上方。上述的光源感应元件382是位于第二端开口312。上述的光源显示元件381是位于第一端开口311。上述的光源感应元件382是用以侦测按压控制装置395发送的光，然后 传送信号启动上述的光源显示元件381发光。上述的电源390是用以提供感应器330、电路板340、动力元件350电力、光源显示元件381、光源感应元件382。As described above, the non-contact device 300 for pressing control, wherein the tube body 310 is tubular, and includes a accommodating space, a first end opening 311 and a second end opening 312 . The aforementioned protective cover 320 is located at the first end opening 311 of the tube body 310 . The above-mentioned sensor 330, circuit board 340, power element 350 and extension piece 360 are located in the tube body 310, wherein the sensor 330 detects the change of the infrared spectrum of the human body, and sends a signal to the circuit board 340, and the circuit board 340 sends it out after processing. The signal is sent to the power element 350 , and the power element 350 generates a driving force to push the extension element 360 . The above-mentioned fixing element 370 is used for fixing the above-mentioned non-contact device 300 above the pressing control device 395 . The above-mentioned light source sensing element 382 is located at the second end opening 312 . The above-mentioned light source display element 381 is located at the first end opening 311 . The above-mentioned light source sensing element 382 is used to detect the light sent by the pressing control device 395, and then transmit a signal to activate the above-mentioned light source display element 381 to emit light. The above-mentioned power source 390 is used to provide power to the sensor 330 , the circuit board 340 , the power element 350 , the light source display element 381 , and the light source sensing element 382 .

请参阅图4所示，本发明一种应用于按压控制的非接触式装置400，非接触式装置400包含：管体410、保护盖420、感应器430、电路板440、动力元件450、延伸元件460、固定元件470、传压元件485及电源490。Please refer to FIG. 4 , a non-contact device 400 applied to pressing control of the present invention. The non-contact device 400 includes: a tube body 410 , a protective cover 420 , a sensor 430 , a circuit board 440 , a power element 450 , an extension The element 460 , the fixing element 470 , the pressure transmission element 485 and the power source 490 .

如上述一种应用于按压控制的非接触式装置400，其中，管体410是管状，包含容置空间、第一端开口411与第二端开口412。上述的保护盖420是位于管体410的第一端开口411。上述的感应器430、电路板440、动力元件450与延伸件460是位于管体410内，其中，感应器430探测到人体红外光谱的变化，送出信号给电路板440，电路板440处理后送出信号给动力元件450，动力元件450产生推动力，推延伸元件460。上述的固定元件470是用以固定上述的非接触式装置400于按压控制装置495的上方。上述的传压元件485是用以传送保护盖420的动作到按压控制装置495。上述的电源490是用以提供感应器430、电路板440、动力元件450电力。As described above, the non-contact device 400 applied to pressing control, wherein the tube body 410 is tubular, and includes a accommodating space, a first end opening 411 and a second end opening 412 . The aforementioned protective cover 420 is located at the first end opening 411 of the tube body 410 . The above-mentioned sensor 430, circuit board 440, power element 450 and extension piece 460 are located in the tube body 410, wherein the sensor 430 detects the change of the infrared spectrum of the human body, and sends a signal to the circuit board 440, and the circuit board 440 sends it out after processing. The signal is sent to the power element 450 , and the power element 450 generates a pushing force to push the extension element 460 . The above-mentioned fixing element 470 is used for fixing the above-mentioned non-contact device 400 above the pressing control device 495 . The above-mentioned pressure transmitting element 485 is used to transmit the action of the protective cover 420 to the pressing control device 495 . The above-mentioned power source 490 is used to provide power to the inductor 430 , the circuit board 440 , and the power element 450 .

请参阅图5所示，本发明一种应用于按压控制的非接触式装置500，非接触式装置500包含：管体510、保护盖520、感应器530、电路板540、动力元件550及电源590。Please refer to FIG. 5 , a non-contact device 500 applied to pressing control of the present invention. The non-contact device 500 includes: a tube body 510 , a protective cover 520 , a sensor 530 , a circuit board 540 , a power element 550 and a power supply 590.

如上述一种应用于按压控制的非接触式装置500，其中，管体510是管状，包含容置空间、第一端开口511与第二端开口512。上述的保护盖520是位于管体510的第一端开口511。上述的感应器530、电路板540与动力元件550是位于管体510内，其中，感应器530探测到人体红外光谱的变化，送出信号给电路板540，电路板540处理后送出信号给动力元件550，动力元件550产生推动力，推按压控制装置595的上方。上述的电源590是用以提供感应器530、电路板540、动力元件550电力。如上述一种应用于按压控制的非接触式装置500，非接触式装置500更包含：电源容量指示灯591置于上述第一端开口511是用以指示电源容量与按压控制装置启动指示灯580置于上述第一端开口511是用以指示按压控制装置启动。上述的管体510与保护盖520更可以为一体成形。As described above, the non-contact device 500 applied to pressing control, wherein the tube body 510 is tubular, and includes an accommodating space, a first end opening 511 and a second end opening 512 . The aforementioned protective cover 520 is located at the first end opening 511 of the tube body 510 . The above-mentioned sensor 530, circuit board 540 and power element 550 are located in the tube body 510, wherein the sensor 530 detects the change of the infrared spectrum of the human body and sends a signal to the circuit board 540, and the circuit board 540 sends a signal to the power element after processing. 550 , the power element 550 generates a propulsive force to push and press the upper part of the control device 595 . The above-mentioned power source 590 is used to provide power to the inductor 530 , the circuit board 540 , and the power element 550 . As described above, the non-contact device 500 applied to press control, the non-contact device 500 further includes: a power capacity indicator light 591 disposed in the first end opening 511 to indicate the power capacity and the press control device activation indicator light 580 The opening 511 at the first end is used to indicate the activation of the pressing control device. The above-mentioned tube body 510 and the protective cover 520 may be formed integrally.

请参阅图6所示，本发明一种应用于按压控制的非接触式装置600，非接触式装置600包含：管体610、保护盖620、感应器630、无线传输接收器635、电路板640、动力元件650及电源690。Please refer to FIG. 6 , a non-contact device 600 applied to pressing control of the present invention. The non-contact device 600 includes: a tube body 610 , a protective cover 620 , a sensor 630 , a wireless transmission receiver 635 , and a circuit board 640 , power element 650 and power source 690 .

如上述一种应用于按压控制的非接触式装置600，其中，管体610是管状，包含容置空间、第一端开口611与第二端开口612。上述的保护盖620是位于管体610的第一端开口611。上述的感应器630、无线传输接收器635、电路板640与动力元件650是位于管体610内，其中，感应器630探测到人体 红外光谱的变化，送出信号给电路板640，电路板640处理后送出信号给动力元件650，动力元件650产生推动力，推按压控制装置695的上方；亦可以是，无线传输接收器635接收到外部行动装置传送的信号，送出信号给电路板640，电路板640处理后送出信号给动力元件650，动力元件650产生推动力，推按压控制装置695的上方。上述的电源690是用以提供感应器630、无线传输接收器635、电路板640、动力元件650电力。如上述一种应用于按压控制的非接触式装置600，非接触式装置600更包含：电源容量指示灯691置于上述第一端开口611是用以指示电源容量与按压控制装置启动指示灯680置于上述第一端开口611是用以指示按压控制装置启动。上述的管体610与保护盖620更可以为一体成形。As described above, the non-contact device 600 applied to pressing control, wherein the tube body 610 is tubular, and includes a accommodating space, a first end opening 611 and a second end opening 612 . The aforementioned protective cover 620 is located at the first end opening 611 of the tube body 610 . The above-mentioned sensor 630, wireless transmission receiver 635, circuit board 640 and power element 650 are located in the tube body 610, wherein the sensor 630 detects the change of the infrared spectrum of the human body, and sends a signal to the circuit board 640, and the circuit board 640 processes it. After that, the signal is sent to the power element 650, and the power element 650 generates a driving force to push and press the top of the control device 695; it is also possible that the wireless transmission receiver 635 receives the signal transmitted by the external mobile device, and sends the signal to the circuit board 640, the circuit board After processing, the 640 sends a signal to the power element 650 , and the power element 650 generates a driving force to push and press the upper part of the control device 695 . The above-mentioned power source 690 is used to provide power to the sensor 630 , the wireless transmission receiver 635 , the circuit board 640 , and the power element 650 . As described above, the non-contact device 600 applied to press control, the non-contact device 600 further includes: a power capacity indicator light 691 placed in the first end opening 611 to indicate the power capacity and the press control device activation indicator light 680 The opening 611 at the first end is used to indicate the activation of the pressing control device. The above-mentioned tube body 610 and the protective cover 620 may be formed integrally.

请参阅图7所示，本发明一种应用于按压控制的非接触式装置的方法700，非接触式装置的方法700包含：提供至少一个非接触式装置710，该至少一个非接触式装置包含：管体、保护盖、感应器、电路板、动力元件、延伸元件、固定元件及电源。借由感应器探测到人体红外光谱的变化，送出信号给电路板720，进行电路板处理，然后送出信号给动力元件730。借由动力元件产生推动力进行按压按压控制装置740。Please refer to FIG. 7 , a method 700 of the present invention is applied to a press-controlled non-contact device. The method 700 of the non-contact device includes: providing at least one non-contact device 710 , and the at least one non-contact device includes : Tube body, protective cover, sensor, circuit board, power element, extension element, fixed element and power supply. Changes in the infrared spectrum of the human body are detected by the sensor, and a signal is sent to the circuit board 720 for processing on the circuit board, and then a signal is sent to the power element 730 . The pressing control device 740 is pressed by the power element to generate a pushing force.

以上所述，仅是本发明的较佳实施例而已，并非对本发明作任何形式上的限制，虽然本发明已以较佳实施例揭露如上，然而并非用以限定本发明，任何熟悉本专业的技术人员，在不脱离本发明技术方案范围内，当可利用上述揭示的技术内容作出些许更动或修饰为等同变化的等效实施例，但凡是未脱离本发明技术方案的内容，依据本发明的技术实质对以上实施例所作的任何简单修改、等同变化与修饰，均仍属于本发明技术方案的范围内。The above are only preferred embodiments of the present invention, and do not limit the present invention in any form. Although the present invention has been disclosed above with preferred embodiments, it is not intended to limit the present invention. Technical personnel, within the scope of the technical solution of the present invention, can make some changes or modifications to equivalent embodiments of equivalent changes by using the technical content disclosed above, but any content that does not depart from the technical solution of the present invention, according to the present invention Any simple modifications, equivalent changes and modifications made to the above embodiments still fall within the scope of the technical solutions of the present invention.

Claims (16)

1. 一种应用于按压控制的非接触式装置，其特征在于，包含：A non-contact device applied to press control, characterized in that it comprises:

   管体，其是管状，包含容置空间、第一端开口与第二端开口；a pipe body, which is tubular, and includes an accommodating space, a first end opening and a second end opening;

   感应器，其是位于该管体内；a sensor, which is located in the body of the tube;

   动力元件，其是位于该管体内；以及a power element, which is located in the tube body; and

   电路板，其是与该感应器及该动力元件相互电性连接；a circuit board, which is electrically connected to the inductor and the power element;

   其中，该感应器探测到人体的变化，送出信号给该电路板，该电路板处理后送出信号给该动力元件，该动力元件产生推动力。The sensor detects changes in the human body and sends a signal to the circuit board, which sends a signal to the power element after processing, and the power element generates a driving force.
2. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含导光元件，是用以传送该第二端开口发送的光到该管体外。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a light guide element for transmitting the light sent by the second end opening out of the tube.
3. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含传压元件，该传压元件是用以传送保护盖的动作到第二端开口。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a pressure transmission element, and the pressure transmission element is used to transmit the action of the protective cover to the second end opening.
4. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含电源，是用以提供该感应器、该电路板、该动力元件电力。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a power source for providing the sensor, the circuit board, the power Component power.
5. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含传压元件，是用以接受该动力元件产生推动力，推动该传压元件。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a pressure transmission element, which is used for receiving the power element to generate a driving force to push the pressure transfer element.
6. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含保护盖，其是位于该管体的一端。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a protective cover located at one end of the tube body.
7. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含无线传输感应器，是用以接收到外部行动装置传送的信号，然后送出信号给该电路板。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a wireless transmission sensor for receiving a signal transmitted by an external mobile device , and then send the signal to the circuit board.
8. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含电源容量指示灯，是置于该第一端开口，借以指示电源容量。The non-contact device for pressing control according to claim 1, wherein the non-contact device for pressing control further comprises a power capacity indicator light, which is placed in the opening of the first end to indicate battery capacity.
9. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该应用于按压控制的非接触式装置更包含按压控制装置启动指示灯置于该第一端开口，借以指示该非接触式装置启动。The non-contact device for press control according to claim 1, wherein the non-contact device for press control further comprises a press control device activation indicator light disposed on the first end opening to indicate The contactless device is activated.
10. 根据权利要求1所述的应用于按压控制的非接触式装置，其特征在于，其中该无线传输感应器，是可以为WIFI、蓝牙、红外线；其中该行动装置，是可以为手机、平板电脑。The non-contact device for pressing control according to claim 1, wherein the wireless transmission sensor can be WIFI, Bluetooth, infrared; wherein the mobile device can be a mobile phone or a tablet computer.
11. 一种按压控制的非接触方法，其特征在于，包含：A non-contact method for pressing control, comprising:

    提供至少一个非接触式装置，其中，该非接触式装置更包含管体，其是管状，包含容置空间、第一端开口与第二端开口；感应器，其是位于该管体内；动力元件，其是位于该管体内与电路板；Provide at least one non-contact device, wherein, the non-contact device further includes a tube body, which is tubular, and includes a accommodating space, a first end opening and a second end opening; an inductor, which is located in the tube body; power components, which are located in the body of the tube and the circuit board;

    借由该感应器进行感测程序，以感测人体红外光谱的变化，并产生对应信号传送至该电路板；performing a sensing procedure by the sensor to sense the change of the infrared spectrum of the human body, and generate a corresponding signal to transmit to the circuit board;

    借由该电路板进行运算程序，以根据该对应信号产生操作信号并传至该动力元件；与An operation program is performed by the circuit board to generate an operation signal according to the corresponding signal and transmit it to the power element; and

    该动力元件根据该操作信号产生推动力以进行按压程序以按压控制装置。The power element generates a pushing force according to the operation signal to perform a pressing procedure to press the control device.
12. 根据权利要求11所述的按压控制的非接触方法，其特征在于，其中该非接触式装置更包含导光元件，是用以传送该第二端开口发送的光到该管体外。The non-contact method of pressing control according to claim 11, wherein the non-contact device further comprises a light guide element for transmitting the light emitted by the second end opening to the outside of the tube.
13. 根据权利要求11所述的按压控制的非接触方法，其特征在于，其中该非接触式装置更包含传压元件，该传压元件是用以传送保护盖的动作到第二端开口。The non-contact method of pressing control according to claim 11, wherein the non-contact device further comprises a pressure transmission element, and the pressure transmission element is used for transmitting the action of the protective cover to the second end opening.
14. 根据权利要求11所述的按压控制的非接触方法，其特征在于，其中该非接触式装置更包含电源，是用以提供该感应器、该电路板、该动力元件电力。The non-contact method of pressing control according to claim 11, wherein the non-contact device further comprises a power source for providing power to the sensor, the circuit board, and the power element.
15. 根据权利要求11所述的按压控制的非接触方法，其特征在于，其中该非接触式装置更包含无线传输感应器，是用以接收到外部行动装置传送的信号，然后送出信号给该电路板。The non-contact method of pressing control according to claim 11, wherein the non-contact device further comprises a wireless transmission sensor for receiving a signal transmitted by an external mobile device, and then sending the signal to the circuit board .
16. 根据权利要求11所述的按压控制的非接触方法，其特征在于，其中该控制装置是电梯控制按键。The non-contact method of pressing control according to claim 11, wherein the control device is an elevator control button.

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