轴承温度传感器的说明书

温度传感器的说明书尊敬的用户：感谢您购买我们的温度传感器产品。

为了确保您正确、安全地使用此产品，我们特别提供如下说明书，请仔细阅读并按照要求进行操作。

1. 产品概述温度传感器是一种用于测量温度的设备，可以将温度转化为电信号输出。

本产品采用高精度的数字温度传感器，并具备以下特点：- 超高精度：测量温度范围为-40℃至+125℃，精度可达±0.1℃。

- 快速响应：传感器具备快速响应时间，能够准确捕捉温度变化。

- 稳定可靠：采用优质材料和先进工艺制造，确保产品稳定可靠，长时间使用不易出现故障。

2. 使用方法本温度传感器为数字输出型产品，可通过以下步骤进行使用：步骤一：将传感器连接到计量仪器或控制系统的温度接口，确保接触良好。

步骤二：开启计量仪器或控制系统，并按照相关说明进行设置。

步骤三：进行温度测量，待测量结果稳定后，记录或进行进一步处理。

3. 注意事项为了保障您的安全和正常使用，请注意以下事项：- 请按照产品规定的工作温度范围使用，不要超出额定范围，以免影响测量准确性和传感器寿命。

- 请避免与水、油等液体直接接触，以免影响传感器性能和使用寿命。

- 请勿在高温、高湿度、强酸碱等恶劣环境中使用，以免损坏传感器。

- 避免传感器受到强磁场或电磁辐射的干扰，可能会导致测量偏差。

4. 维护保养- 定期清洁传感器外壳，可使用干净的软布轻擦，不要使用有机溶剂或大量水直接清洗。

- 如发现传感器接触异常或测量不准确，请及时联系售后服务，不要私自拆卸或修理。

5. 售后服务如有任何关于产品的使用问题或售后需求，请随时联系我们的客户服务团队，我们将竭诚为您提供技术支持和解决方案。

感谢您对我们产品的信任和支持，我们将一如既往地致力于为您提供高品质的产品和专业的服务。

祝您使用愉快!此致，敬礼。

厂商名称日期。

尊贵的4B产品用户:感谢购买4B产品和对4B公司的信任！安装使用产品前请务必认真完整阅读并理解本说明书的全部内容。

所有4B产品都有相应的涉及安全的基本要求，为保证您购买的产品长期安全高效地工作，务必特别留意相关的安全须知。

如不严格遵守相关的安全要求可能带来严重伤害甚至死亡事故。

客户安全须知1. 必须完整阅读所有与本产品有关的全部文字说明必须认真阅读并完全理解有关责任、安装操作和安全说明才能安全有效地使用本产品。

2. 必须彻底弄清您的真正需求是什么每个客户都独一无二，每个应用也是如此。

所以只有用户自身才真正了解自己的需求，才真正了解自己设施运行的能力。

如有需要了解更多4B产品性能或有技术疑问请登录我公司网站h ttp://或拨打公司服务热线电话189****6321，我们的专业工程师随时为您解答疑问。

3. 选择有资质、能力强的安装公司4B正确合理的安装对设备的安全和运行至关重要。

如果您请 以外的公司进行安装，务必找那些有资质、有经验的电气安装公司进行设备安装。

4.建立并严格遵循定期检查维护计划建立并严格遵循定期检查维护计划，确保您的系统一直处于良好的工作状态。

如何确立定期检查的周期客户最有发言权，客户了解到的观察指标越多，制定的检修周期越适当。

这些指标包括但不仅限于：天气状况、生产设施的结构、设备运行的时间长度、动物或昆虫寄生状况、对自己员工执行力的了解等等。

涉及到设备安装、操作、维护、检查等等任务的人员多必须具备适当资质且训练有素。

必须妥善保管定期检查维护记录。

Rev 9: Oct 2015 Related document:- Changes to this document must be authorised5.务必保管好4B 安装使用说明书并遵循推荐的维护检查方式每个客户的实际情况都不一样，除遵循一般经验原则外，必须注意很有可能你的设备需要额外的定期检查和维护，以确保监测设备一直处于理想的工作状态。

感应加热器（轴承加热器）操作规程1主要技术参数2操作规程2.1使用前准备工作2.1.1将TIH 030M放置在平稳的水平面上。

2.1.2正确地连接电源电线。

2.1.3将可移动的控制面板接入加热器手柄侧的接口。

2.1.4对内孔足够大的工件套到电磁感应线圈上，请遵循以下操作步骤：a.展开加热器的支撑地脚。

b.将工件套到电磁感应线圈上。

c.调整工件的位置，让感应线圈居于工件的中心。

d.放上最大的磁轭，使它与加热器两立柱顶端端面完全接触。

2.1.5对不能够套到电磁感应线圈上的工件，请遵循以下操作步骤：a.选择能够穿过工件内孔的最大的一根磁轭。

b.将工件套到选中的磁轭上。

c.将磁轭放置到加热器上，确保磁轭光亮的一边朝下，与加热器的两立柱顶端端面有完好的接触。

2.1.6若选择了温度模式（TEMP MODE），请将温度传感器插头插到加热器手柄侧的接口，将温度传感器的磁吸探头吸附到轴承的内圈或者是其它工件最靠近里面的地方。

2.2“温度模式”下设备使用的操作程序2.2.1打开电源。

2.2.2若可移动控制面板显示“t”，按下“加热模式“键，选择温度模式（TEMP MODE），控制面板显示℃或℉。

2.2.3设定的加热目标温度显示在控制面板上。

可按“上/下”键调节设置温度。

2.2.4请按“POWER“键选择加热功率。

2.2.5按下“START/STOP”按钮，启动加热程序，此时“START/STOP”按钮上方的LED灯亮，呈闪烁状态；控制面板显示工件的当前温度。

2.2.6当加热至目标温度，加热器会自动对工件进行退磁、关闭并发出长为10秒的提示音。

2.2.7按下“START/STOP“键，提示音终止，停止加热。

2.2.8用合适的工具取下加热好的工件。

2.3 “时间模式”下设备使用的操作程序2.3.1打开电源。

2.3.2若控制面板显示℃或℉，按下“加热模式”键，选择时间模式（TIME MODE），在时间模式下，控制面板显示“t”。

Bearing Checher BC100说明书仪器概述：1测量探头：按下探头，开始测量轴承状态；2红外温度传感器：测量温度；3指示灯：绿，黄，红用于评估轴承状态；4 LED背光图形显示器；5浏览键；6测量键和电源开关；7耳机输出端，立体声连接器；8传感器输入端用于可选SPM的传感器和测试电缆；9 LED测量灯：测量完成时，灯灭；10电池盒：两个IEC LR6/AA1.5伏碱性电池或1.2伏可充电电池；11 系列号；测量：z按测量键（6），仪器接通;z用箭头键选择一般设定方式和测量方式;z根据测量原则选择测试点，以得到可靠的状态评估;z仪器探头压住要测试的轴承，使探头橡皮套接触到测试表面，并稳定地保持一段时间;当蓝色测试灯停止闪烁时，测量循环结束，在显示屏旁边有绿，黄，红指示灯和评估码指示轴承状态;如果两分钟内不按仪器任何键，仪器将自动关机;要立刻关闭仪器，可同时按左右箭头键;听诊器功能：轴承状态评估：耳机被用来确定和跟踪振动脉冲源。

在轴承支座上，轴承的信号应该是最强的。

如果从这个轴承支座外获得一个更高的信号（通过材料的接触面），很可能正在测量来自别的轴承和其他声源的冲击脉冲。

典型的轴承信号是冲击脉冲越强，峰值水平下的一些dB值听的越清楚，显示是以随机的间隔出现。

1 轴承状态良好，dBm值在绿区，dBm和dBc差值不能太小;2故障轴承的冲击脉冲图，红区出现较强的脉冲，顺序随机，dBm和dBc差值较大，当给轴承润滑后，数值先会下降，而后又再次升高;3干运转的轴承会有很高的地毯值dBc，非常接近dBm。

当给轴承润滑后，这个数值会下降保持低值。

泵的气穴现象可以产生同样的图形。

在这种情况下，泵体部位的测试值要比轴承座上的测试值大，并且进行润滑后测试结果不会发生影响;4图形很规律，出现有节奏的强脉冲丛，是由部件磨碰原因引起;5规律图形上出现的是有节奏的单独脉冲，可能由阀体开合，部件松动及规则的负载脉动引起;6突然的冲击脉冲水平下降，要引起注意。

iiE -5: GYJ17.1060X(±t!!i.Jt: Obere Wank 1, 87484 Nesse Iwang, Germany)� -5 � � TMT142 *�UroJ ��;r-� ExdIICT4-T6GbIII�.$ UU -5 14 25 00 000GB 3836.1-2010, GB 3836.2-2010�� Wi � llt iiE 0* iiE � � � Wh 2017 � 2 � 22 B 3§: 2022 fF 2 � 21 B-fk 51 1. ��ffm)!�;rtnjlim*iiE�f!11i'f o2.iiE��%€*uxn.�F�A*���m ••• �. �.m*iiE�M�o3. �%��iJtajjm*iiE�f!11�o4. ������m*iiE�f!11�o5. *iiE�rii]ll1mmT!�.l�WT�wri.ffil.JJt f)(. (�#l) *��0'ii.l(±t!!t.il:: �#l.I�JJ!lm[R�!l!IIflIm465%) �Fßf,J��%F�ottf!:I:.It: »t3i: 1m 1 03-i5-JilB�: 200233 1XX.J:I:.It: Email:****************It!.ii!i: +8621 64368180fifa: +8621 64844580EXPLOSION PROTECTIONCERTIFICATE o F CONFORMITYCert NO.GYJ17.1060XThis is to certify that the productTemperature field transmittermanufactured by Endress + Hauser Wetzer GmbH + Co. KG(Address:Obere Wank 1,87484 Nesselwang, GerIllany)which model is TMT142 SedesEx marking Ex dUC T4�T6 Gbproduct standard /drawing number 142500000has been inspected and certified by NEPSI, and that it conformsto GB 3836.1-2010,GB 3836.2-2010This Approval shall remain in force until 2022.02.21Remarks l.Conditions for safe use are specified in the attachment(s) to this certificate.2.Symbol X placed after the certification lIumber denotes specific conditions of use,which are specified in the aHachment(s) to this certificate.3.Model designation is specified in the attachment(s) to this ccrtificate.4.lntrinsic safety parameters specified in the attachment(s) to this cert.ificate.5.Thi s certificate i also applicable for the product with the same type manufactured byEndress+Hauser Wetze I'(Suzhou) Co., Ltd. (address: Su Hong Zhong Lu No.465,S u z hou-S IP, China)DirectorIsslJed DateThis Certificate is valid for products compatible with the documents and sam p ies approved by NEPSI.103 C ao Bao Road Shanghai200233,China Email: **************.cnTel: +862164368180Fax: +8621 64844580Edition 05�*ätt�tt��.*�����M National Supervision and Inspection Centre forExplosion Protection and Safety of Instrumentation(GYJ17.1060X) (Attachment I )EI3 }ß(1i&, JtIT + � ftJT -0 i§j 1:F (:11 T MT 142� �� 11fi'tJ1t 11!:�.f.�, � � % � 15( .f.HX. $: r�:lI:tc � 1lil �fft�ftft�(NEPSI);j§:�, r1:il-r ��fff-{jt:G83836.1-2010 mHfl l 7}: 15i:� jjfiffl�* G83836.2-201 0 :lItftl::E1�Jfi m2tfß7t: EI3 ��:J:I5'�)t "d" 1!-iHf' 811& �F J'b IlJJ :J:I fff-;=.t;Ex d II e T 4� T 6 Gb, �}j:ll il-*friiE -'%GY J 17.1 060Xo;2js:iiE �I� iA pJ 81 F Jf� lli -'% �.m*fr :im r :iTEMP HART TMT 142-30;!tr:I': 0$::1J\5'�%, �EJ.�.!F) I A�E\ m;:6:i!}:t:w., ii(; �FJjH.l\l�;fri�HJ.J 450-, F � ��-ß!!ffl *f 7'l�ftj:F�'bllh13il-*itiiE-'% )§� "X" 1J..1*�J?g:�llr:�R�.mil-®��.���F���%o=,F��fflY3:�.J.]lt1, Fn�:7�:Jti&�m!tJ1.ftIlij-=f, JtJ?tJ-=.��{fJi�Ui·m.PJ$m±-tl!.o2, FrI'b]*************:1v40Vdc o3, FR,d!tJfJ 31�J5i�\frßt�D11fi't }JUJHJ � 81*�:11ü\.]}t�JHJIjT 6 T 5 �1.t11ffi.J1t -40'C �+55'C -40'C�+70'C T4 -40'C �+85'C�ffffl��'i\1EUjti@J-=f 65'C, 4, F Jfb 81 Il!. �� 51 A D 5'Z �cffl � �}j:J:I;j§:� iA pT �, �{fil-G83836.1-201 O �II G83836.2-2010B1*J\!�, B.�}j:J:I��Ex d IIe Gba"J�>��JOJ\!*fr:1v1/2NPT (EI.x;M20X 1.5) B1tt!.��5I A'l& iI 0 7L� .EJ.�� 51 A D 5'Z*ffl �;§5'ZIlJJ :lI �� 05,FJfb����ffl.����m�"���§H�"���o6, ffl):Ct :f�� EI 1TI�!L����F Jfb 81 ftJ/=t-*t1'�1�:, m.� �1djj Uif�(rt1;t fPJfo zn';R:lE1T 9=t I±\���., ��.�IlJJ .tt��m��.���o(GY J17.1 060X) (Attachment I )7, F �,E11�9t, 1.l!!ffl*11�1Hf' e'Z1fD n,Jit'<i' FJjH�ffl �ryj �I];, G83836.13-2013 ";t�Hf.U:Jq� J5't m13tfß7t: if>(:�811Iir.lli,�11i, 11i�*I]�m" , G83836.15-2000 ":Ii�f.tl:4:1*:JqdJifflE@. l=t.&� m15$7t: mJfLthFf r4:!.4:�� CmWllil1l-) " , G83836.16-2006 ":Ii�tn4:1*�1:t ffl �4: -&�%16ttrl7t: C �Jffr�i�"') .&.G850257 -2014 "i4J.4:if;( ��9&I�.��*������4:9& ••1,F���r������mtt •• ��AF��ru���;2, tM Jilt r �, �1i1 JIli 1:ir tt: )10-N E P S l'lA 81 -x.1tJ: 'ti :t4 t" ;3, t" r.f b� il t! rp e'Z � Y � 3>-5 -F 31� i*J � :a)N EPS I-lAWJ:fj]\fit;b) F Jjt"ljj� :fj]\ fit;c) ll1J � ß-1:t'riiE -'%d ) 1!f: Ji=J � ±JUili't }j[ffil*�{)(�{)(��.1<�lI{t'l��M National Supervision and Inspection Centre forExplosion Proteetion and Safety of InstrumentationG YJ17.1060X) A ttachment I )Attachment I to GYJ17.1060X1. DescriptionTMT142 series Temperature field transmitter, manufactured by Endress+Hauser Wetzer GmbH + CO.I<G, has been certified by National Supervision and Inspection Center for Explosion Protection and Safety of Instrumentation (NEPSI). The product accords with following standards:G83836.1-2010 Explosive atmospheres-Part 1: Equipment-General requirementsG83836.2-2010 Explosive atmospheres-Part 2: Equipment protection by flameproof enclosure"d"The Ex marking is Ex d n C T 4-T6 Gb, its certificate number is GY J17.1 060X.Type approved in this certificate is shown as the following:iTEMP HART T M T142-3 0o indicates enclosure, cable entry, configuration connection and etc.Refer tü instruction manual for tl16 details.2. Special Conditions for Safe UseThe suffix "X" placed after the certificate number indicates that this product is subject to special conditions for safe use, that is:For information on the dimensions of the flameproof joints contact the manufacturer.3. Conditions for Safe Use3.1 The external earth connection facility of this product shall be connected reliably.3.2 Electrical data: 40 Vdc.3.3 The relationship between ambient temperature range and the temperature class is shown as foliows:Temperature class T6 T5 T4Ambient temperature range -40°C-+55°C -40°C-+ 70°C -40'C-+85°CUse the connection cable endurance to he a t at least 90°C when the ambient temperature is > 65°C.3.4 Suitable certified cable glands or blanking plugs for unused holes ('1/2 NPT or M20*1.5) approved by ExTL according to G83836.1-201 0 and G83836.2-2010 with Ex marking "Ex d II C Gb" shall be used and correctly installed. The cable glands and blanking plugs to be used shall suitable for the product working conditions.Page 1 of 2G Y J17.1 060X) A ttachment I )3.5 Any maintenance shall be performed only when the warning of "00 not open when energized" is obseNed.3.6 The user shall not change the configuration in order to maintain/ensure the explosion protection performance of the equipment. Any change may impair safety.3.7 For installation, use and maintenance of this product, the end user shall obseNe the instruction manual and the following standards:GB50257 -2014 "Code for construction and acceptance of electric device for explosion atmospheres and fire hazard electrical equipment installation engineering".GB3836.13-2013 "Explosive atmospheres-Part 13:Equipment repair, overhaul and reclamation".GB3836.15-2000 "Electrical apparatus for explosive gas atmospheres-Part 15:Electrical installations in hazardous area (other than mines)".GB3836.16-2006 "Electrical apparatus for explosive gas atmospheres-Part 16: I nspection and maintenance of electrical installation (other than mines)".4. Manufacturer's Responsibility4.1 Conditions for safe use, as specified above, should be included in the documentation the user is provided with ..4.2 Manufacturing shoulcl be done according to the documentation approved by NEPSI.4.3 Nameplate should include these contents listed below:1) NEPSl logo @2) Ex marking3) certificate number4) ambient temperature5) warning of "00 not open when energized"Page 2 of 2。

1 绪论1.1 课题意义机车车辆在运行过程中车轴与轴承之间相互摩擦，容易使轴温升高，温度达到一定程度就会引起燃轴，轻则轴体变形、热轴、固死，造成机破，影响机车的正常运转，重则造成热切轴,车毁人亡，严重影响铁路运输安全，对国家造成巨大的经济损失。

对于机车轴承的温度控制不但可以防止火灾，而且对于延长仪器的工作寿命都有着极其重要的作用。

为此铁道部于2000年颁发了关于机车轴承温度监测报警装置技术条件（暂行）的通知，对机车轴承温度监测报警装置的研制生产提出了明确的规定和严格的技术要求，以便能及时、可靠、准确的对机车轴温进行监测报警，确保机车车辆的安全运行。

以前铁路工人采用手摸的方式对车轴进行温度检查。

在每趟列车进站停稳后，几十名列检工人钻入车下用手触摸轴箱判断温度，工人要在5-10分钟内检查完毕,劳动强度,安全保障率低。

后来使用红外线探测轴温装置,当列车通过安装在咽喉道岔处的探测装置时，红外线探头就会将车轴温度情况显示出来,值班列检人员根据显示，就能准确判断这趟列车是否有热轴发生.红外线探测只须一个人坐在室内，仅用一分钟就能把整趟列车的情况探测清楚。

减轻了列检人员的劳动强度，提高了检查的准确性、可靠性和工作效率，更提高了经济效益。

车轴温度随火车运输速度不断变化,长途列车的轴温又是怎样控制呢？所以又有了轴温报警装置。

当轴温超限时，显示器的报警装置便发出声响或红色信号,有关人员即可根据此采取防护措施。

不管列车跑多远，轴温报警装置都能随时发出信号,有效防止热轴、裂轴等重大事故发生,极大地保证了行车安全。

1。

2 解决方案那么如何设计一台机车轴承温度监测报警装置呢？DS18B20芯片可以把温度信号直接转换为数字量，而无须A/D转换器与数据调理电路，而且它采用单总线原理，易于电路扩展，只需在相应单总线上继续挂接器件即可。

我们可以利用DS18B20的这些优点,把4个DS18B20连接到轴承的上下左右，组成一个数据采集电路，对轴承的温度进行监测。

轴承电感应加热器技术规格书一、项目简介及使用地点：机修厂设备检修时需对各类轴承进行更换，为提高工作效率和装配质量，满足实际生产需求，需要购置轴承电感应加热器进行使用。

二、货物名称及供货范围：三、主要部件（或设备）配置要求：产品应选用性能优良的原材料及器件制造，保证产品优良的技术性能及良好的使用性。

四、设计、生产、制造、安装、检验检测所需资质文件：具有国家3C强制认证、生产许可证、产品技术鉴定证书、说明书及合格证等。

五、货物使用环境及范围：1、使用环境：（1）环境温度：-20～45℃（2）环境相对湿度：日平均值不大于95%（＋25℃时），月平均值不大于90%；（3）使用地点：地面2、使用范围：中小型轴承加热。

六、货物适用标准：1、本产品性能符合ISO9001质量体系认证，GB/T 10067.3-2015感应电热装置技术条件等的规定。

2、其他国家及行业相关执行标准规定。

七、技术参数：八、质量及验收要求：1、产品的生产、制造、检验等严格按照相关规范执行，确保产品合格，发货前应对产品进行性能试验，无误后方可发货。

2、产品到货时必须是全新的、性能参数合格的，并提供有正常使用所需的相应配件，随货应有详细的产品清单、产品合格证、检测报告、使用说明书等相关技术资料。

3、产品交货后订货方负责组织验收，验收按照技术规范要求进行。

4、产品验收发现有产品质量问题的，供货方应及时更换，相关费用由供货方承担；发现配件、技术资料不齐全的，供货方应及时补齐。

5、产品在使用过程中，若发现厂家存在以次充好、偷工减料、假冒伪劣以及钻国家或行业漏洞现象，必须随时无条件更换，否则扣除全部质保金，并拉入黑名单。

九、服务及质保要求：1、产品自验货之日起，提供不低于二年免费质保期。

2、产品相关材料配件正常情况下使用寿命不得低于三年，并提供材质证明和探伤报告。

3、提供终生维修和技术支持，免费提供使用培训服务。

若需求方需要供方货对设备进行性能检验时，供货方应免费提供设备全面性能检验服务，并提供检验报告。

目 录一、概述二、产品及配件介绍三、操作说明四、简易故障排除五、清洁及维护六、技术参数七、电气图一、概述感应加热器的应用感应加热器设计用于加热轴承、衬套、齿轮、联轴器或其它具有闭合电回路的金属工件。

然而，其它构成铁磁性回路的工件也可以被加热，例如衬套、扣环、皮带轮、齿轮、联轴器等，所有能够套到感应线圈上、横跨在支撑立柱间（加热杆放置到位）的轴承都可以使用轴承加热器来加热。

此外，小尺寸的轴承还可以挂在三根不同规格的标准配置的加热杆上加热。

很多轴承和其它钢质环形零件都是过盈配合安装在轴上。

通常，大型的零件在安装之前，都要事先加热（滚动轴承的加热温度不能超过120℃）。

和传统的加热方法（例如火焰、加热板和油浴等）相比，感应加热是目前最先进的加热方法。

感应加热快速并且清洁，适合批量作业。

加热器可以加热整个轴承，也可以对圆柱滚子轴承和滚针轴承的套圈单独加热，或者对其它各种规则的环形零件进行加热，例如迷宫密封圈、联轴器以及轮箍等。

工作条件感应加热器设计用于环境温度为 0℃-50℃。

大气湿度在5%-90%之间的工业环境。

感应加热器仅供室内使用。

工作原理感应加热器工作原理与变压器的相同。

初级线圈为加热器, 而次级线圈为工件。

当加热器接通电源时, 高压、低交流电流流过主线圈绕组。

这个电流将会在作为次级线圈的工件中感应出一个低压高电流。

由于被加热工件的自身的阻抗，高电流使工件产生较大的热量，正是这个热量将工件自身加热，电流只是在工件内流动, 因此也仅加热工件，别的组件不会被加热。

在每个加热循环结束时, 工件将被自动消磁。

电磁感应加热器比其他加热方式的优点二、产品及配件介绍使用明火加热轴承不但效率低下不可掌控，且容易造成轴承损坏。

因此不应该使用这种方法。

有时也可以使用油浴加热轴承。

但油浴通常要花费很长时间才能达到所需温度，且轴承实际温度也难于控制。

油浴的能耗远高于感应加热器。

由脏的热油导致轴承的污染是显而易见的，并会直接造成轴承的过早失效。

经过多年研发及现场应用，现成功开发出轧机新一代轴承无线温度传感器WTS-30F，WTS-30F采用原装进口芯片模块开发而成，该项传感器的技术开发成功，填补了在工业设备轴承温度监测领域无法有效监测空白。

该传感器体积小、抗干扰能力强、采集数据准确、传输距离远、安装快捷。

主要应用在大型机械轴承、工业设备轴承、运行环境差、巡检人员或用其它测温手段无法触及到设备温度监测，有效避免因温度过高造成设备轴承损坏故障。

通过济南银澳科技研发的该测温传感器的实际应用结果证明，使用该测温装置后，大大减少了因设备温度过高而引起的设备损坏故障，减少了设备维修次数，保障工业安全生产。

以下是现场安装运行实例
1、传感器安装在工作轮上轴承，接收装置放在距离工作区20米开外。

现场图片如下：
传感器安装位置：
2、实例图和开孔尺寸。

Solid partners for powder and bulk handling componentsAdjustable PT100 Bearing Temperature Sensor with grease nippleHot bearing WARNING device, for use in hazardous areasInstallation guideCertificationUSC ®PT100V3CSKF PT100K3DNAdjustable Bearing Temperature Sensor With Grease nippleThe adjustable PT100 bearing temperaturesensor with grease nipple is specially designed for accurate measuring of universal bearing housings.The PT100 sensor is very easy to mount in thebearing housing without need for modifications. Use this installation method to avoid losing the guarantee on the bearing. The advantage of measuring with a PT100 is that it sends a continuous output signal to the operating system (PLC - SKADA System).PT100V3C Taper thread G1/8 SKF Taper thread M6The adjustable bearingtemperature sensor with grease nipple, is specially designed for accurate measuring of universal bearing housings. The bearing temperature sensor emits a standard analogue output signal. The signal can be implemented very simply in an operating system. If the analogue signal is interrupted, the reason for this must be investigated (failsafe). Early detection of high temperature can prevent the bearing from becoming overheated, thereby reducing the risk of possible dust explosions.Prior to fitting the adjustable bearing temperature sensor it is of great importance to ensure that:- Fitting is implemented by qualified personnel only;- Proper and safe work conditions are provided;- Bearings have a correct design and are in good condition;- The spot where the PT100 sensor is to be mounted is clean and free of dust;1. Rub-Block RB100DN or RB200DN belt misalignmentmonitoring location (both sides)2. Bearing temperature sensor monitoringPT100 location (both sides)3. Speed monitoring4. Junction box small or largeBefore the bearingtemperature sensor can be mounted, it is important that the following steps will be taken:First of all, the electrical signal for the PT100 sensors has to be operational. If this is not the case, you must put back the existing grease nipple till the electrical signal is operational. For fieldcabling we recommend using a shielded core cable in order to avoid any electrical interference.STEP 1: 1. Ensure the installation and surroundings are quite dust-free and clean. 2. Remove the existing grease nipple from the bearing house. 3. Clean the threaded hole with airflow.STEP 2: 1. Measure the depth (A) from the top of bearing house till the inner bearing ring is reached2. Before mounting the PT100 brass body please make sure you will use the gasket and the PTFE tape on the thread from the brass body to ensure that the IP 67 class will prevented.3. Screw the sensor brass body in to the existing threaded hole in the bearing housing.STEP 3: 1. Insert the temperature probe with the olive nut into the brass body til the end of the bearing ring..STEP 4: 1. Tighten the olive nut using an appropriate spanner. The maximum recommended torque for the olive nut is 2Nm (18 lb-in) this is not done properly, no exact measurement can be taken and the risk that the sensor will break is very high. 2. lubricate the bearing by using the grease nipple on the PT100 sensor body. Use the right grease.STSTEP 4STEP 2STEP 3STEP1The equipment used in areas with an explosion hazard only contains intrinsically safe circuits. A circuit is intrinsically safe if, both in normal operation and in the event of a fault, a short-circuit in the circuit does not produce a spark capable of causing ignition, and the current flowing through the equipment does not heat any part of the surface above the level specified for the temperature class (see also EN 60079-11).In order for a circuit to be designated as intrinsically safe, every individual device included in the circuit must be designed to be intrinsically safe. Furthermore, it is necessary to test that the complete circuit of the (individually) intrinsically safe devices forms, as a whole, an intrinsically safe circuit.The fact that a circuit is assembled from devices that are (individually) intrinsically safe, does not guarantee that the circuit as a whole is intrinsically safe.For a RTD temperature probe the measuring current (or in case of malfunction the residual current) flows through the sensor element. The result is self-heating of the element and ultimately temperature increase on the surface area of the protection fitting. It is essential to ensure that the limit of the defined temperature class is not exceeded.Adjustable bearing temperaturesensor, type PT100V3C installed on a bearing house.Please read this fitting installation instruction carefully before beginning the installation.For the correct compression and force that will put on the compression fitting of the PT100 adapter. Please follow the stepsand instructions very carefully.Step 1: First start with the three components above.Step 2: Put the PT100 probe sensor in de brass bodyStep 3: Tighten the bolt onto the brass body hand-tight Step 4:Now use a 14mm spanner wrench.Brass bodyOlive NutPT100 ProbePlease hold the lower part from the PT100V3C brass body tide with the adjustable spanner. Step 5: Turn the spanner wrench (size 14) clockwise 1½ PLEASE DO NOT OVER-TIGHTEN.When this is done correctly as above described the PT100 sensor is tighten and secured by the compression ring (olive) into the brass adapter.Before mounting the PT100 brass adapter please make sure you will use PTFE tape on the thread from the adapter to ensure that the IP 67 class will prevented.If you loosen or disconnect a fitting, remove the old tape and re-wrap it with a fresh piece.Extra information before mouting the Bearing temperature sensor:Please hold the lower part from the SKF PT100K3DN brass body tide with an spanner (size 14).Step 5: Turn the spanner wrench (size 8) clockwise 1½ PLEASE DO NOT OVER-TIGHTEN.Compression ring SKF PT100K3DNCompression ring PT100V3CMeasuringThe PT100 produces a standard analogue output signal. It is easy to implement this signal in a PLC system, for example a SIEMENS PLC S7 (SIL2). If it is not possible to implement an analogue signal, an analogue card is required or a HEAD transmitter with an analogue output signal of 4-20mA can be used. Software for the visualisation can be programmed by a qualified software engineer.PT100 connections• PT100 connected directly to an RTD I/O card by using a shielded cable in order to avoid any electrical interference• Local transmitter 4..20mA• Indicator• Converter/BarrierThe transmitter can be either 4..20mA or bus technology (e.g. Profibus PA, Foundation Fieldbus, Modbus, ect.)Required functional specification for the transmitter, 4..20mA version Tixo2:• Output 4-20mA• Calibration Range 4mA = -25°C, 20mA = 125°C• Fail – Low signal (<4mA) on internal failure• Electrical approvals – Hazardous approval according to local zoningBus Technology:• Broken wire detection• Fail detection on internal failure• Electrical approvals – Hazardous approval according to local zoningTransmitter Failsafe Configuration:Power loss failure configuration: The transmitter range shall have a high value at 4mA. This assures broken wire alarming incase of a broken wire between the transmitter and the I/O card and/or transmitter power loss.The analog input card shall detect a fault on the analog input, and go to “error”.Internal instrument failure configuration: The failure mode alarm shall be set to low or below 4mA either via Hart handheld programmer or internal hardware switch.In case of a broken cable in the connection between the PT100 and the transmitter, the transmitter will read the maximum resistance, giving max temperature value on the analog output. The PLC will generate alarm.Alarm configuration PLCBest maximum delay for the sum of the timer and the filter is 5 seconds.The following alarm points are recommended in a ATEX environment:• Absolute temperature PRE-ALARM : 60 °C• Absolute temperature STOP-ALARM : 80 °CThe electrical conductivity of metal (i.e. platinum) is based on the mobility of free electrons. With increasing temperaturesthe atoms in the metal lattice will vibrate more vigorously and thus impede the free flow of electrons towards the positivepole of a voltage source. This impedance causes a resistance in linear proportion to the temperature.The resistance value is in conformance with the European standard: PT100 = 100 + 0.385 055 x T.The positive temperature coefficient of a PT100 is 0.385 055 Ohms per Kelvin.PT100V3C and the SKF PT100K3DN technical dataPT100 sensorSensor type : R8-81227320-0115/050.S01 with 1 x 4L connection wires Protection type : IP 67Tolerance class : Class A DIN IEC751Cable type : PFA-PFA-V2A Cn 4 x 0,22 mm²Ambient temperature limit for cable : - 40°C to + 185°CCable Length : 3 meter, (several cable lengths available)Measuring temperature limit : - 40°C to + 280°CMeasuring current : 1mAOutput signal : AnalogueProbe lenght PT100V3C: 100 mm, (several probe lengths available)Standard probe Diameter : Stainless Steel 5 mmProbe lenght SKF PT100K3DN: 60 mm, (several probe lengths available)Standard probe Diameter : Stainless Steel 3 mmElectrical Data PT100Measuring voltage : Ui 30 VMaximum current input : li 101 mAMaximum total output : P 750 mWConnection body PT100V3CHousing sensorbody : Brass or Stainless SteelDiameter screw connection head : G1/8Connection body SKF PT100K3DNHousing sensorbody : Brass or Stainless SteelDiameter screw connection head : M6 x 1 or G1/8Hazardous area classificationATEX Class (Ex-i) : Ex II 1D Ex iaD T85°C / Ex II 1G IIC T6Certificate number : IBExU13ATEX1079XIECEx Class (Ex-i) : Ex II 1D Ex iaD T85°C Da, Ex II 1/2 G Ex ia IIC T6* Ga/GBTAMB -40°C to 185°CCertificate number : IECEx IBE 15.0014XGost R (Ex-i) : Ex II 1D Ex iaD T85°C / Ex II 1G IIC T6Certificate number : POCC PL.AF.H00052Test ProcedureThe RTD temperature tester has been designed to test adjustable depthbearing temperature sensors in the field. This hand held test unit featuresan integrated heating block specifically designed to have a RTD probesensor directly inserted. With integral controls and temperature display,the unit heats the sensor to the desired trip point, and allows quick andeasy real life testing of the sensor and temperature monitoring system.Method of operation: During planned maintenance or periodictesting, the RTD Sensor Tester can be used as a diagnostic tool to verifythe alarm and shutdown sequences of the control unit are functioning asexpected. To test, the heater block should be set above the control unitsalarm operating temperature. Remove the RTD sensor probe from thehousing and insert it into the heater block. As the heater block reachesthe alarm temperature, the RTD sensor will relay this data to the controlunit, allowing you to verify that the alarm and shutdown sequences run asexpected.Inspection of the Bearing PT100 sensorThe PT100 needs to be inspected regularly (recommendation: yearly) andafter a trip. For this purpose, the PT100 probe must be extracted from thebrass body.MeasuringThe PT100 produces a standard analogue output signal. It is easy to im-plement this signal in a PLC system, for example a SIEMENS S7. If it is notpossible to implement an analogue signal, an analogue card is requiredor a HEAD transmitter with an analogue output signal of 4-20mA can beused. Software for the visualisation can be programmed by a qualifiedsoftware engineer.MaintenanceThe valid European and national regulations must be observed for maintenance, servicing and testing. Inparticular,all parts on which explosion protection depends must be checked during maintenance.PT100 coversSunlight does not have an impact on the measurements, the PT100 is sprotected with several insulating layers,different temperatures on two sides of the bearing have no effect. Problems in hot climate have not occurred.Tel +31(0)15 369 54 44 Fax +31(0)15 369 78 44 ***************************Do not damage the sealing surfacesor other seals!Thread adapter to resize the thread from the PT100 sensorThis measuring was done on a bearing from a bucketelevator.Diagram (°C) Time (min.)Ambient temperature of 35°CDuration hot bearing measuring by the PT100V3C adjustable bearing temperaturesensor.Duration of temperature rise to 80°C:Approximately in 40 sec.We recommend to use an trending software module. As soon as a difference in temperature occurs within a certain time, there is a slight hot bearing. It prevents unnecessary wear of the bearing and you will be informed for a threatening hot bearing. • Temperature rise rate STOP-ALARM : 2,5°C /min, max allowed 10°C /min • Temperature rise rate STOP-ALARM : 1°C /5sec, max allowed 5°C /5sec • Temperature rise rate PRE-ALARM : 0,2°C /min, max allowed 10°C /min • Temperature rise rate PRE-ALARM : 0,7°C /5sec, max allowed 5°C /5secAdditional Notes: for temperature line monitoringTel +31(0)15 369 54 44 Fax +31(0)15 369 78 44 *************************** A.In order to maximize efficiency and safety, selecting the right equipment for each operation is vital.The correct installation of this equipment, as well as regular maintenance and inspection, are equallyimportant to proper operation and safety of the product. The correct installation and maintenance of theproducts are the responsibility of the user. B.All installation and wiring must conform to governing local and national electrical codes and otherstandards applicable to specific industries. The installation of the wiring should be undertaken by anexperienced and qualified professional electrician.Failure to correctly wire the product to any machinery may result in the product or machine failing tooperate as intended. C.Periodic inspection by a qualified person will help assure that this product performs properly.It is recommended that a documented inspection is carried out at least annually or more frequently in case that the product has been subjected to intensive use.Customer safety responsibilities1.Read all literature provided with the product. Read all user instructions and safety manuals toensure that the product operation is understood and can be used safely and effectively use this product. 2.Select a qualified and competent installer; Correct installation of the product is important for safety andperformance. It is critical for the safety of your operation and of those who may work with yourequipment that a qualified and competent electrical installer is selected to undertake the installation ofthis product. The product must be installed properly to perform to its designed functions.The installer should be qualified, trained, and competent to perform the installation in accordancewith local and National Electrical Codes, all relevant OSHA Regulations, as well as any of the user’sown standards and preventive maintenance requirements, and other product installation informationsupplied with the product. The installer should be provided with all necessary installation information to assist in the installation.This symbol indicates safety measures that definitely must be taken into account in order to prevent personal injury.This symbol indicates ATEX Certified components with a certain zoning designation.The flat sealing surfaces and seals must not be damaged!Installation and commissioning must be performed by qualified personnel. Read the instructions carefully before starting up. The supplier is not liable for personal injury or prop-It is required to check the latest product information on Muller Beltex’ website, before installing this product. Failure to do so, could result in to product failure or damage.Solid partners for powder and bulk handling componentsTel +31(0)15 369 54 44 Fax +31(0)15 369 78 44 ***************************。

KGW10型温度传感器使用说明书镇江中煤电子有限公司二○○六年八月一、概述KGW10型温度传感器是由嵌入式单片机控制的智能仪表。

该传感器采用本安电路设计，适用于煤矿井下或地面有瓦斯爆炸气体环境中，能够对管道介质温度、环境温度以及机电设备轴承温度进行连续检测。

它也可与KJ10、A-1、KJ4、KJF2000 等型号矿井监测系统配套使用。

该仪器具有检测灵敏度高、稳定性好、测量范围宽、兼容性好以及非线性补偿、灵敏度校正、参数显示等优点。

二、主要技术指标1、测量范围：0-50-100℃2、测量误差：±0.2℃3、工作电压：１８Ｖ4、工作电流：<50mA5、防爆型式：矿用本质安全型6、防爆标志： ibI（150℃）7、报警范围：1-99℃8、声光报警：声级>85db 红色LED闪光19、响应时间：4 秒10、工作条件：温度： 0-75℃相对湿度：≤96%大气压力 80-106℃11、输出信号：①数字串行码格式②脉冲频率方式：200-1000Hz③模拟电流方式：1-5mA;4-20mA12、关联设备：电源型号： KJF19名称： KJF19 矿用监控仪防爆形式： ibdmI防爆合格证编号： 2024006－2005 13、传感器-电源距离：2Km（1.5mm2铜芯电缆）分布电感≤1mh/Km分布电容≤0.1μF/Km14、遥控距离：>6m15、仪器重量：1.3Kg三、仪器的联接本仪器四芯插座与外部设备联接，接线方式如下：2四、仪器的通电与使用当仪器接通电源后，单片机复位启动，数码管依次显示：―――复位、启动、自检状态P ××温度传感器量程（50或100℃）C.××温度零频L.××温度精度A ××报警值F ××断电值F ××断电值××.×温度检测值五、安装3监控仪对应属性开关设置为↑↑↓，监控仪属性显示为X-C，数据显示为温度，单位为℃。

1. Using threaded adapters if necessary (included), screw the sensor into the desired location using Teflon tape to seal the threads. Use Flex-a-lite part no. 32082 (1 ½” diameter) or 32084 (1 ¾” diameter) to mount sensor inline with radiator hose (Preferred location - see Detail A). Alternatively, the sensor can be mounted in the intake manifold (see Detail B) or cylinder head or block (see Detail C). DO NOT overtighten.2. Carefully strip the ends of the wires. Fold the wire back on itself to effectively double the thickness (see Detail D ). Using a quality crimping tool, crimp the female connectors provided on the ends. Attach the wires to terminals 10 & 11 on the VSC (it doesn’t matter which wire goes to which spade, but both wires must be connected). Make sure the temperature. sensor wires are at least 2-3” away from exhaust manifolds or other extreme heat sources.3. Start the vehicle and check for leaks. When the engine has reached desired operating temperature, adjust the VSC to turn the fan(s) on (see page 2). Detail A Detail B Important:Before beginning, be sure that the Variable Speed Control unit (VSC) is mounted close enough to the temperature sensor so that the wires will reach the control unit. The lead on the sensor is approxi-mately 4 feet.Installation Instructions#31163 Variable Speed Control with Screw-in Temperature Sensor01-11-08 Page 1 of 2 part no. 91163FOLLOW THESE INSTRUCTIONS CAREFULLY TO A VOID DAMAGING THE CONTROL UNIT, FAN MOTORS, AND YOUR VEHICLE! WHEN CRIMPING WIRES, ALWAYS USE A QUALITYCRIMPING TOOL (DO NOT USE PLIERS). Detail CDetail DPage 2 of 2 01-11-08 part no. 91163The Flex-a-lite Limited WarrantyFlex-a-lite Consolidated, 7213-45th St. Ct. E. Fife, WA 98424, Telephone No. 253-922-2700, warrants to the original purchasing user, that all Flex-a-lite products to be free of defects in material and workmanship for a period of 365 days (1 year) from date of purchase. Flex-a-lite products failing within 365 days (1 year) from date of purchase may be returned to the factory through the point of purchase, transportation charges prepaid. If, on inspection, cause of failure is determined to be defective material or workmanship and not by misuse, accidental or improper installation, Flex-a-lite will replace the product free of charge, transportation prepaid. Flex-a-lite will not be liable for incidental, progressive or consequential damages. Some states do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This warranty gives you specific legal rights and you may have other rights, which vary from state to state. The Flex-a-lite warranty is in compliance with the Magnuson-Moss Warranty Act of 1975.1. Turn ignition on. After 6 seconds, LED #L4 should light up. If not, check to make sure that there is 12 Volts at terminal #9 on VSC. The delay is to allow starter to start the vehicle withoutthe fans drawing any power.2. With your engine running, engage the A/C. The fans should come on and cycle with the A/C clutch. LED’s #L1, L3 and L4 should be lit when fans are running. If they do not turn on, verifythat the A/C clutch is engaged and make sure you have a positive signal when the clutch is engaged at terminal #8 (OR negative signal at terminal on #7 if A/C compressor is triggered by a negative signal) on the VSC. Shut off A/C and let engine continue to idle, or drive the vehicle a short distance to bring the engine to operating temperature (monitor the vehicle’s tempera-ture gauge).3. Verify that the operating temperature has been reached by feeling the upper radiator hose. Hot water should be flowing through hose into the radiator. If the fans have not cycled on yet,slowly adjust the screw on the VSC until the fans cycle on. Turning the screw counterclock-wise will keep the engine at a lower temperature, and turning in the opposite direction will keep the engine at a higher temperature. NOTE: THE TOTAL MOVEMENT OF THE ADJUST-MENT SCREW IS ABOUT ¾ OF A TURN. TURNING THE SCREW BEYOND THE LIMITS WILL DAMAGE THE UNIT!4. Once desired temperature is set, let the engine continue to idle and make sure the fans willcycle to maintain desired temperature. When fans are running, LED’s #L1 and L4 should be lit. VERIFY THE DIRECTION OF BLADE ROTATION. IF THE FAN IS MOUNTED TO THE ENGINE SIDE OF THE RADIATOR, THE FAN SHOULD BE PULLING AIR THROUGH THE RADIATOR.Initial Start-up and Adjustment ProcedureThe Variable Speed Control has new features!At the set temperature, the fans will come on at 60%; this reduces the load on your charging system. If the temperature rises, the fan speed will increase. If your set temperature is 195°F, then between 195° and 205° the fan speed will increase from 60% to 100%. So after a 10-degree rise from the set point, the fans will be running at 100%.Turning screw counterclockwise = cooler temp.Turning screw clockwise = warmer temp.。

TA2232温度传感器说明书
TA2232温度传感器使用说明书：
TA2232系列温度传感器是用铂金属丝制成的测温度电阻器，可用来测量各种液体、气体等流体的温度。

具有精度高、分辨率好，安全可靠、使用方便等优点，也可以直接测量各种生产过程中的液体、蒸气和气体介质的温度。

一、原理
本传感器是利用铂金属(PT100)在温度变化时自身电阻也随着变化的特性来测量温度的。

它的受热元件是利用细铂丝均匀的双绕在绝缘材料制成的骨架上。

二、技术指标
1.0℃对应电阻为100100℃对应电阻为1385Ω
2.测量范围:-200~500℃
3.时间参数:5秒
4.外型尺寸:参照定货要求
三、传感器接线示意图
四、安装使用方法及注意事项
.本温度传感器通过螺纹固定。

在固定的时候切记
不要用力过度，以免损坏传感器。

2.如传感器有杂质粘附于传感器上，要及时清洗，保证传感器可靠、准确运行。

3.线缆的铺设以不防碍现场工作人员的现场操作和不易被砸碰损坏，且架设安全可靠为原则下能线制四线制。

电机轴承温度传感器一、电机轴承温度传感器概述：轴承温度传感器分为PWZD普通型电机轴承温度传感器、AWZD增安型电机轴承温度传感器，BWZD隔爆型电机轴承温度传感器，两轴承共用一个接线盒（BWZG），传感器探头可根据客户要求制作，订货时需标明安装螺母的规格和探头直径及长度。

※正常产品不带绝缘，需zmkj013带绝缘产品则在型号后加“J”如（BWZDJ）。

※正常产品测温元件为两线制，而三线制则在型号后加“3”如（BWZD3）※正常产品的压紧螺母或安装螺栓为可动式，如要求不可动，订货时需标注如（BWZD不动）。

※正常产品引线电缆长度为0.5-3M，如有不同要求订货时需注明。

※正常产品测温元件为单支，如需双支，请在型号前面加“2”如（2BWZD）。

二、电机轴承温度传感器基本技术参数：※传感器主体外壳防护能力为IP54※传感器为连续工作制（S1）名称：传感器电流：4-20mA电压：18-24V测量范围：0-200℃WZD系列温度传感器（请咨询：152贾1537广7753伟）是专为测量轴承温度（也可测量固体、液体、气体温度）的温度传感器，其测量元件为Pt100铂热电阻，配置恰当的测温仪表后，可监测轴承温度并可实现报警和控制。

三、电机轴承温度传感器安装及使用※用于测量电机轴承温度时，首先将传感器接线盒安装在电机的适当位置，拧紧连接螺丝，接上地线。

※将传感器的感温元件（探头）插入电机轴承附近的螺孔中（如电机壳，轴壳上钻孔），并拧紧安装螺母。

※将传感器的接线盒打开，将引出电缆接好，盖上盒盖，将引出电缆接到指定地点与本安型二次仪表连接。

※安装时引线每间隔300mm用扎头固定，护线弹簧管弯曲半径不小于60mm，引线过长时可挽圈挂于合适处，并远离发热设备。

※如选用“不可动”螺母安装方式，在安装时必须先安装探头部分，最后再安装接线盒。

四、电机轴承温度传感器工作环境※海拔不超过2000m；※环境空气温度-20℃～＋40℃；※最湿月份，月平均最高相对湿度为90%（25℃时）；※无剧烈震动和冲击的场所；※周围无足以破坏绝缘或金属的腐蚀性气体及蒸气的环境；五、电机轴承温度传感器同类型产品：传感器：GQQ0.1烟雾传感器、GUD堆煤传感器、GEJ30跑偏传感器、GVD1200撕裂传感器、GVD300撕裂传感器、GUJ堆煤传感器、GWD系列温度传感器、GSC系列速度传感器、GSH系列速度传感器、KXH0.2(0.6)/127(36)声光组合信号器、GAD10张力传感器、GYH25氧气传感器、GTH500一氧化碳传感器、GTH1000一氧化碳传感器、KHJ0.5/12急停开关、HFKLT2双向拉绳开关、HFKPT1跑偏开关、ZXB127声光语言报警装置、KXB0.15/127矿用一般型语言报警器；气体检测仪：CYH25氧气测定器、CLH100硫化氢测定器、CTH1000一氧化碳测定器、CJG10光干涉式甲烷测定器、CJG100光干涉式甲烷测定器、CJB4甲烷检测报警仪、JCB4甲烷报警仪、GJC4低浓甲烷传感器、CJYB4/25甲烷氧气两参数报警仪、JFY-2通风多参数检测仪、JFY-4通风检测仪、CD4多种气体检测仪、CFJ5/CFJ10/CFJ25机械式风速表、CFJD5/CFJD25矿用电子风速表、CCZ1000真读式测尘仪、CCZ20粉尘采样器、GCG1000粉尘浓度传感器；降尘装置：RFMH超温洒水装置、ZCPC127尘控洒水降尘装置、ZPW127温控洒水降尘装置、ZPCK127触控洒水降尘装置、ZPR127热释光控降尘装置；防爆灯具：CBF防爆方位灯、57-4铁路信号灯、DGC35隔爆型支架灯、DGC175隔爆投光灯、DGS60防爆白炽灯、DGS18隔爆巷道灯、KL4LM锂电矿灯、KL2LM矿灯、DGY18隔爆机车灯、太阳能警示灯、TGZ60太阳能航标灯；矿用接线盒：光缆接线盒、JHH型本安电路接线盒、BHG1型高压电缆接线盒、BHD2型隔爆型接线盒；自救器系列： MZS-30自动苏生器、ZH15隔绝式化学氧自救器、ZH30隔绝式化学氧自救器、ZYJ压风自救器、ZYJ压风自救装置、ZY30压缩氧自救器、ZL60过滤式自救器、ZY45隔绝式压缩氧自救器、HYZ-2隔绝式正压氧气呼吸器、HYZ-4正压氧气呼吸器、自救器橡胶保护条、自救器皮套。