ATM防护舱防护亭超声波传感器使用说明书2015

(19)中华人民共和国国家知识产权局(12)实用新型专利(10)授权公告号 (45)授权公告日 (21)申请号 201920464923.0(22)申请日 2019.04.08(73)专利权人 江苏鸿雁邮电器材有限公司地址 225200 江苏省扬州市江都区樊川镇永安集镇(72)发明人 周有才　周健　(74)专利代理机构 北京文苑专利代理有限公司11516代理人 朱青(51)Int.Cl.E04H 1/12(2006.01)F24F 7/007(2006.01)G08B 3/10(2006.01)(54)实用新型名称ATM智能防护舱(57)摘要本实用新型涉及一种ATM智能防护舱，包括舱体、远程监控主机、智能监控系统以及设置在舱体顶部的设备箱，舱体上铰接有舱门，舱门上安装有电控锁；智能监控系统包括处理器模块以及分别与处理器模块电连接的无线通信模块、离子感烟探测器、摄像头、人体红外传感器和语音播报器，处理器模块通过无线通信模块接入网络，再通过网络与远程监控主机相连接；电控锁与处理器模块电连接。

本实用新型智能化程度高，可通过语音播报器提醒用户注意操作时间不宜过长，从而缩短了每个用户对ATM机的平均使用时间，提高了ATM机使用效率，还能检测舱体内空气质量，并及时通过语音播报器提醒用户不能吸烟，并通过换气扇对舱体内的空气进行换气，提高舱体内空气质量。

权利要求书1页 说明书3页 附图1页CN 210370024 U 2020.04.21C N 210370024U1.一种ATM智能防护舱，其特征在于，包括舱体、远程监控主机、智能监控系统以及设置在舱体顶部的设备箱，舱体上铰接有舱门，舱门上安装有电控锁；智能监控系统包括处理器模块以及分别与处理器模块电连接的无线通信模块、离子感烟探测器、摄像头、人体红外传感器和语音播报器，处理器模块通过无线通信模块接入网络，再通过网络与远程监控主机相连接；电控锁与处理器模块电连接；舱体的上部设置有与处理器模块电连接的换气扇。

INSTALLATION GUIDEUltrasonic Sensors Series UFP and UPAFor further information please see the data sheet at /products/ultrasonic-sensorsWayCon Positionsmesstechnik GmbH would like to thank you for the trust you have placed in us and our products. This manual will make you familiar with the installation and operation of our ultrasonic sensors. Please read this manual carefully before initial operation!Unpacking and checking:Carefully lift the device out of the box by grabbing the housing. After unpacking the device, check it for any visible damage as a result of rough handling during the shipment. Check the delivery for completeness. If necessary, consult the transportation company, or contact WayCon directly.• Ultrasonic sensors may be installed in any position, as long as depositions like dust, spray mist, or condensing humidity are avoided on the sound active membrane.• It is important to avoid structure-borne sound bridges between the sensor and its holder.• In case several ultrasonic sensors are used in one application, it is important to leave sufficient distance between them. Otherwise the sensors may interact which leads to false measurement values.• By using a sound deflection angle the sound beam can be redirected, at the expense of the sensor’s maximum measurement range. A plain and hard surface should be used for the defection of the sound beam. Redirecting the sound beam with multiple sound deflection angles should be avoided.TEACHING THE ANALOG OUTPUTEvery sensor is delivered with the factory set-up (max. measurement range). The teach-in feature is designed to choose a smaller range within the nominal measuring range for optimizing the resolution and linearity. Output current, or output voltage adapt to the new range and get new characteristic curves. The two positions P1 and P2 must be taught.CharacteristicsP1 and P2 define the analog output slope.P1 determines the 0 V / 4 mA position and P2 the 10 V / 20 mA position.P1P24 mA / 0 V20 mA / 10 VPositive slope: P1 < P2P2P14 mA / 0 V20 mA / 10 VNegative slope: P2 < P1Teach-In of P1 (SP1 position)Connect Teach-In line with GND until P1 and Echo LEDs start blinking with a 2 Hz frequency (UFP-200 just yellow). Release the contact. The sensor is now in the Teach-In mode for P1: P1 LED will now blink with 1 Hz frequency (UFP-200 with ½ Hz) and the Echo LED will go back to normal function (alignment LED). There is a time window of 30 seconds to do the programming of P1. Place the target at the new position P1. Connect and release Teach-In line with GND: P1 is now programmed. Sensor returns to normal function with the new value for P1.(UFP-200 just yellow, 1 Hz). First P1 and Echo LEDs will be blinking, but it is important to wait to reach P2. The sensor is now in the Teach-In mode for P2: P2 LED blinks with 1 Hz frequency now (UFP-200 just yellow, ½ Hz). The Echo LED returns to normal function (alignment LED). There is a time window of 30 seconds to do the programming of P2. Place target at the new position P2. Contact and release the Teach-In line with GND: P2 is now programmed. Sensor returns to normal function with the new value for P2.Environmental influences:Ultrasonic sensors are made for the use in atmospheric air. Environmental Influences like rain, snow, dust or smoke have no influence on the accuracy of the measurement. However, measurements under pressure (higher that the atmospheric pressure) are not possible with ultrasound sensors.Strong wind or air turbulences may lead to instability in measurement values. A flow speed up to a few m/s is unproblematic and will have no influence on the sensor’s accuracy.Target Influences:• Liquids are excellently detectable with ultrasound. A classic application for ultrasonic sensors is level measurement. The sound beam axis however must have a maximum deviation of 3° vertically to the liquid level (no strong waves), otherwise the reflected sound will miss the sensor.• Hot Targets with high temperatures cause a thermal convection in the surrounding air. For this reason the sound beam may be strongly diverted vertically to its axis, so that the echo is weakened, or can no longer be received at all.• For convex (cylindrical and spherical) surfaces every area element has a different angle to the sound cone’s axis. The reflected cone thus diverges and the portion of the sound energy reflected to the receiver is reduced correspondingly. The maximum range decreases with the decreasing size of the cylinder (ball).• The roughness and surface structures of the object to be detected also determine the scanning capacities of the ultrasonic sensors. Surface structures that are larger than the ultrasound wavelength, as well as coarse-grained bulk materials, reflect ultrasound in a scattered manner, and are not detected optimally by the sensor under these conditions.• Hard material reflects almost all of the impulse energy from ultrasound applications in a way that makes them very easy to detect with ultrasound.• Soft material, on the other hand, absorbs almost all of the impulse energy. It is thus harder to detect with ultrasound. These materials include felt, cotton, coarse meshes, foam, etc.• Thin-walled foils behave like soft materials. To be able to use ultrasound, the foil thickness should be at least 0.01 mm.WayCon Positionsmesstechnik GmbHMehlbeerenstraße482024 Taufkirchen / GermanyThis is to certify that the productsClassification Ultrasonic SensorsSeries UFP, UPAfulfil the current request of the following EC-directives:2014/30/EUEMC-directiveapplied harmonized standards:EN 60947-5-2: 2007 + A1:2012, EN 60947-5-7:9/2003The declaration of conformity loses its validity if the product is misused or modified without properauthorisation.Taufkirchen,Andreas24.02.2016CEO。

超声波YGB-005车位探测器使用说明一、产品工作原理超声波车位探测器的工作原理是利用超声波发射，通过被测物体的反射、回波接收后的时差来测量被测距离的，是一种非接触性探测仪器。

其所测距的距离数据并和已预置数据进行比较，如达到预置值则进行开或关的开关量信号输出。

接收电路接收物体反射超声波回波信号，该芯片内部包括了前置放大，限幅放大、整形，以便微芯片检测、判断回波的数据正确与否及时差，并计算出测距的距离数值。

二、主要技术参数● 工作电源：DC24V±10%● 工作温度： -20℃ -- 65℃● 储存温度： -40℃--5℃● 工作湿度： 30—90% （相对湿度）● 使用条件：安装在车位的上方（范围1.0m--3.5m）三、超声波车位探测器特点：1，测定物位距离时不接触被测物体，无活动部分；2，工业级设计，安装、调试简单，维修、保养方便，测量精度高；3，使用先进的超声波侦测方式，不容易受外在环境变化或干扰造成误报；4，可以灵活设定报警距离，当车辆到位，测定距离小于预设距离时，产生LED光信号，并由RS-485接口向控制器发送车辆到位信息；5，探测器功耗极低，采用RS485输出接口，接口简单、安全可靠，稳定性好，适合二次开发；6，具有防误检功能，如防相邻车位误检、人员在停车位误检、障碍物误检等；四、超声波探测器工作状态及指示1、当探测器的超声波发送和接收都正常，且有车时，状态灯(State/红)亮或车位显示屏为红色。

2、当探测器的超声波发送和接收都正常，且无车时，状态灯(State/绿)亮或车位显示屏为绿色。

五、产品功能无线超声波车位探测器安装在每个车位的正上方，采用超声波测距的工作原理采集停车场的实时车位数据，并把车位信息通过无线通讯实时传送给无线节点控制器。

六、超声波探测器图片七、产品优势1. 超声波测距技术，应用于室内，稳定环保节能；2. 无线通讯方式，不用设置电缆和管路；3. 工作寿命长，至少可用4.5年；4. 外壳材质坚固，可阻燃、防腐蚀、防水浸。

超声波传感器使用说明书浙江亚龙教育装备股份有限公司一、超声波传感器介绍：（一）、超声波传感器参数表（二）、外观介绍图1-1如1-1图所示：左边绿色指示灯为电源和信号强度指示灯，右边黄色指示灯为信号输出指示灯，TEACH为调节按钮（三）、工作原理图1-2 工作原理图如图1-2所示：可分为四个区域，最小和最大工作范围，近限和远限设定点。

（1）检测物体在最小和最大工作范围内，电源指示灯变为绿色，代表物体在可工作区域内；（2）检测物体在近限和远限设定点内，信号指示灯变为黄色，代表物体在设定点范围内，有信号输出；（3）检测物体在最小和最大工作范围外，电源指示灯变为红色，信号指示灯变为白色，代表物体在工作范围外，无信号输出。

（四）、参数设置1、近限和远限手动设置（1）进入编程模式：长按TEACH Push Button 直到OUT灯变红；（2）设置低限：短按TEACH Push Button，设置完成OUT灯闪烁；（3）设置高限：短按TEACH Push Button，设置完成退出编程模式，进入RUN 模式OUT灯变回初始状态；（4）低限或高限没有设置完成前，长按TEACH Push Button，退出编程模式；（5）在编程模式下，低限设置前，如果时间超过120秒，退出编程模式（五）、超声波传感器接线说明图1-3棕色（bn）：+24v蓝色(bu)：0V（模拟量输出公共端）白色(wh):模拟量输出端黑色(bk)：开关量信号端灰色(gy):远程终端屏蔽线(shiled)：接地端mm 数字量68mm28mm6000320000二、西门子S7-224XP 与超声波传感器使用说明（一）接线原理图图1-4（二）编程思路S18UIA 传感器输出为4~20ma 的电流，西门子224XP 系列PLC 模拟量输入为0~10v 满量程为0~32000；所以在模拟量输出端外加500欧姆的电阻转化为2~10v 的电压。

此处实例：下限高度为28mm 上限高度为68mm由公式y=kx+b 可以计算出 K=650；b=-12200图1-5首先把模拟量转化成数字量的值读出来，放到累加寄存器AC0内，然后把AC0内的值转化成实数，进行实数运算，按照公式和图1-5所示，要得到X的值，首先把b的值进行补偿计算，然后再除以斜率K的值，得到高度值存放在VD1051中。

ApplicationThe sensor measures the spectral absorption of process liquids in the ultraviolet region of the electromagnetic spectrum.•Measurement of protein concentrations •Chromatography monitoring •Filtration monitoring •Concentration measurement of organic compounds •Detection of aromatesYour benefits•Improved process control and easier quality control thanks to quick and reliable monitoring of product concentration –Measuring range up to 2.5 AU or 50 OD (depending on optical path length)–Measurement of UV absorption at discrete wavelengths between 254 nm and 313 nm –Outstanding filter properties for highest linearity –Direct concurrence with laboratory values –Integrated reference detector for lamp compensation –Gas discharge lamp for long service life and stable measured values •FM- and ATEX-approved lamps for applications in the hazardous area •Compliance with life sciences sector thanks to hygienic design and FDA- and USP-compliant sealing materials •High degree of product safety as SIP/CIP-resistant •High product yield thanks to low volume requirements •Maximum durability in all applications owing to wide range of materials and process connections •Can be adapted to process requirements:Optional air purge ports to prevent the formation of condensate on the optical windowsProducts Solutions ServicesTechnical Information OUSAF46Optical sensor with the OUA260 flow assembly for the measurement of UV absorptionTI01190C/07/EN/02.1771388454OUSAF462Endress+HauserFunction and system designMeasuring principle Light absorption The measuring principle is based on the Lambert-Beer law.There is a linear dependency between the absorption of light and the concentration of the absorbing substance:A = -log(T) = ε . c . OPL T = I/I 0T ... Transmission I ... Intensity of received light at detector I 0 ... Intensity of transmitted light of light source A ... Absorption ε ... Extinction coefficient c ... Concentration OPL ... Optical path lengthA light source emits radiation through the medium and the incident radiation is measured on the detector side.The subsequent conversion to absorbance units (AU, OD) is performed in the associated transmitter.1Absorption measurement with reference 1Light source 2Optical windows 3Measurement filter 4Measuring detector 5Lens 6Medium flow 7Reference filter 8Reference detectorOUSAF46 has 2 pairs of reference and measuring detectors (= 2 channels). Only one channel is shown for the sake of simplicity.Measuring system An optical measuring system comprises:•Sensor (photometer) OUSAF46•Transmitter, for example Liquiline CM44P •Cable set, for example CUK80•Assembly OUA260OUSAF46Endress+Hauser 32Example of a measuring system with a photometer sensor 1pipe 5Flow assembly OUA2602Transmitter CM44P 6Sensor: light source (lamp)3CUK80 cable set 7CUK80 cable set 4Sensor: detector InputMeasured variableUV-absorption Measuring range •0 to 2.5 AU •Max. 50 OD (depending on the optical path length)WavelengthDiscrete wavelength at 254, 280, 295 or 313 nm Power supplyElectrical connection The sensor is connected to the transmitter using the pre-terminated or labeled cable set CUK80 (for connection to CM44P) or OUK (for connection to CVM40) . The terminals and labeling may vary depending on the transmitter in use. The cable set must be ordered separately.OUSAF464Endress+Hauser3OUSAF46 connecting cable ALight source (lamp) power supply B Signals of measurement and reference detectorCable lengthMaximum 100 m (330 ft)Lamp voltage Versions for use inhazardous areas 1)Safety instructions for electrical apparatus in explosion-hazardous areas, XA01403CConnecting the detector using a safety barrierThe photometer sensors use silicon photovoltaic cells as detectors which are operated in the current mode. The detectors are intrinsically safe and can be deployed in Zone 1 and Class I, Division 1environments.1)Applies only to measuring points consisting of a photometer, CUK80 cable set and Liquiline CM44P transmitter.OUSAF46Endress+Hauser 5The safe area is separated from the hazardous area by safety barrier MTL7760AC.4Safety barrier, dimensions in mm (inch)The safety barrier may only have a very low leak current since the optical signals from the sensor can be in the nanoampere range. Therefore, the sensor cable shield is connected to the ground terminal of the barrier.On delivery, the CUK80 detector cable is permanently wired to the . All you have to do is simply connect the individual cable ends to the detector and transmitter.Connecting the hazardous area lamp using a junction boxThe hazardous area lamp (EXP-1) must be connected to the transmitter using a certified junction box.For versions with FM approval, the junction box is included in the delivery and already pre-terminated on the lamp side. You simply have to connect the cable of the transmitter (CUK80)to the terminals of the junction box.For versions with ATEX approval, the junction box is not included in the delivery and it and the cable glands required must be provided by the customer at the place of installation. You must connect the cables entirely on your own (CUK80 of transmitter and lamp cable of photometer sensor).OUSAF466Endress+HauserInstallation5Mounting angles. The arrows indicate the direction of medium flow in the pipe.ASuitable mounting angle, better than C BOptimum mounting angle, best installation position CAcceptable mounting angle DMounting angle to be avoided E Forbidden mounting angleEnvironmentAmbient temperature0 to 55 °C (32 to 130 °F)Storage temperature-10 to +70 °C (+10 to +160 °F)Humidity5 to 95 %Degree of protection IP 65 (NEMA 4) for all optical partsProcessProcess temperature 0 to 90 °C (32 to 194 °F) continuousMax. 130 °C (266 °F) for 2 hoursProcess pressure Max. 100 bar (1450 psi) absolute, depending on the material, pipe size and process connection of the flow assemblyOUSAF46Endress+Hauser 7Mechanical construction6Sensor module ADimension of lamp → Table BDimension of detector → Table C Assembly, see Technical Information for assembly The total length of the sensor module is derived from the lengths of the lamp, the detector and the assembly.The dimensions of the OUA260 assembly are provided in Technical Information, TI00418C.‣Allow an additional gap of 5 cm (2") on both the lamp side and detector side of the sensor to connect the sensor cable.Weight SensorUV lamp0.58 kg (1.28 lbs)UV lamp with wire-braided cable (1.2 m (4 ft)) and junction box (sensor for hazardous area)3.2 kg (6.66 lbs)Easycal detector0.53 kg (1.17 lbs)Standard detector0.78 kg (1.71 lbs)Materials Sensor housingStainless steel 316Assembly OUA260Stainless steel 316, 316L or Kynar Cable connector endsNickel-plated brass Light sourceLow-pressure mercury lampLamp operating life: typically 3000 hDetectorUV silicon detector, hermetically sealed Filter Multilayer interference filter, designed for extreme UV conditionsOUSAF468Endress+HauserCertificates and approvalsmark Declaration of ConformityThe product meets the requirements of the harmonized European standards. As such, it complies with the legal specifications of the EU directives. The manufacturer confirms successful testing of the product by affixing to it the mark.Ex approvals •ATEX II 2G Ex db IIC T5 Gb •FM Cl.1, Div. 1, Groups B, C, DFDA conformityAll non-metal parts in contact with medium, such as rubber and plastic parts, meet the requirements of FDA 21 CFR 177.2600. The plastic and elastomer parts of the sensor in contact with medium have passed the biological reactivity tests according to USP <87> and <88> Class VI.Ordering informationProduct page /ousaf46Product Configurator On the product page there is a "Configure" button to the right of the product image Configure .1.Click this button. The Configurator opens in a separate window.2.Select all the options to configure the device in line with your requirements. In this way, you receive a valid and complete order code for the device.3.Export the order code as a PDF or Excel file. To do so, click the appropriate button on the rightabove the selection window.For many products you also have the option of downloading CAD or 2D drawings of the selected product version. Click the tab for this CAD and select the desired file type using picklists.Scope of delivery The scope of delivery consists of the following :•Detector and lamp module without flow assembly or •Detector and lamp module mounted on flow assembly •Operating InstructionsOrdering the sensor together with a transmitter:If you select the calibration option in the Product Configurator for the transmitter , the complete measuring system (transmitter, sensor, cable) is factory-calibrated and shipped as one package.‣If you have any queries:Please contact your supplier or local sales center.AccessoriesThe following are the most important accessories available at the time this documentation was issued.‣For accessories not listed here, please contact your Service or Sales Center.OUSAF46Endress+Hauser 9Flow assembly OUA260•Flow assembly for hygienic sensors •For sensor installation in pipes •Materials: stainless steel 316, 316L or Kynar (other materials available on request)•Wide variety of process connections and path lengths available •Product Configurator on the product page:/oua260Technical Information TI00418CCable CUK80 cable set •Pre-terminated and labeled cables for connecting analog photometer sensors •Product Configurator on the product page: /cuk80CalibrationKit OUSAF46 EasyCal retrofit kit •Patented system traceable to NIST for the calibration of UV absorption sensors •Order numbers:–254 nm: 71210149–280 nm: 71210150–295 nm: 71210156–313 nm: 71210151Reference rod Order number: 71108543。

超声波传感器使用说明书浙江亚龙教育装备股份有限公司全国机电一体化产品的装配与调试竞赛指定产品目录一、超声波传感器介绍： (3)（一）、超声波传感器参数表 (3)（二）、外观介绍 (3)（三）、工作原理 (4)（四）、参数设置 (4)（五）、超声波传感器接线说明 (5)二、西门子S7-224XP与超声波传感器使用说明 (6)（一）、接线原理图 (6)（二）、编程思路 (6)三、三菱FX0N-3A模拟量模块与超声波传感器的使用说明 (8)（一）、接线原理图 (8)（二）、编程思路 (9)四、汇川H2U-6A扩展卡与超声波传感器的使用说明 .............................................................. 错误！未定义书签。

（一）、接线原理图 .................................................................................................................. 错误！未定义书签。

（二）、编程思路 ...................................................................................................................... 错误！未定义书签。

一、超声波传感器介绍：（一）、超声波传感器参数表（二）、外观介绍图1-1如1-1图所示：左边绿色指示灯为电源和信号强度指示灯，右边黄色指示灯为信号输出指示灯，TEACH为调节按钮（三）、工作原理图1-2 工作原理图如图1-2所示：可分为四个区域，最小和最大工作范围，近限和远限设定点。

（1）检测物体在最小和最大工作范围内，电源指示灯变为绿色，代表物体在可工作区域内；（2）检测物体在近限和远限设定点内，信号指示灯变为黄色，代表物体在设定点范围内，有信号输出；（3）检测物体在最小和最大工作范围外，电源指示灯变为红色，信号指示灯变为白色，代表物体在工作范围外，无信号输出。

银行ATM防护舱分类及安防作用说明防护舱是一种离行式与在行式的新型智能化金融自助服务设施，具有完善的结构设计、智能化控制和远程监控功能，以保障内部ATM取款机及其它金融服务机具全天候安全、独立、可靠地运行。

北京天驰融盛科技有限公司所生产的ATM防护舱，分为室内、室外和大堂式三种类型的ATM防护舱：天驰融盛室内ATM防护舱主要适用于室内穿墙式ATM机，依据ATM机数量户内ATM 防护舱有单体和多联体两种。

具有独立操作空间、自动控制照明、语音提示、防窥视、通风透气、防尾随、紧急离开按钮、远程机外部遥控等先进科技功能；天驰融盛室外ATM防护舱又称户外ATM防护亭适用于户外穿墙式ATM机，具有防尘、防风、防风雨、防锈刻画、遮蔽烈日、通风透气、自动控制照明、防窥视、防尾随（选配）。

全封闭操作空间，保护操作人员安全；天驰融盛大堂式室内ATM防护舱适用于银行大堂式ATM机，具有独立的加钞操作间、自动照明控制系统、语音提示系统、独立交易空间防窥视、顶底设置通风孔具备通风换气的作用、带门禁锁确保交易安全、防尾随等先进功能。

ATM防护舱是基于人防、技防为基础进行设计的；利用硬件与软件相结合的方式达到金融安全防护的作用。

拿ATM防护舱控制器的软件系统操作具体来说：系统结构图ATM防护舱运行状态实时控制，ATM防护舱系统结构有：主控制板、强弱电控制模块、语音模块、防尾随系统、照明风扇、开关门按钮、应急按钮。

（2）智能语音安装有语音提示装置，提醒用户注意事项。

A、开门语音提示：按开门按钮开门进入，语音提示“欢迎使用XX行自动柜员机，请按屏幕提示进行操作，若有咨询事项，请与本机银行联系”等内容。

B、离开时语音提示：操作完毕后，按出门按钮离开，语音提示“谢谢使用，再见”等内容。

排风扇停止工作。

C、语音超时提示：本设备具有超时语音提示功能，当使用者超出设定的使用时间时（设定时间可调，目前设定5分钟），智能安全防护舱自动开锁，并语音提示“如果您的交易已经结束，请尽快离开”等内容。