Ts表

Weight approx.: 10 lbs.Dimensions: inches1) The bypass valve is integrated in the screwplug. For the filter without a bypass valve the opening function is raised up to p > 14.5 PSI.Description:The TS-filters are directly mounted to the reservoir and connected to the suction-line. The suction-area …IN“ must be below the oil level.The filter element consists of a star-shaped folded bellows, which is flowed through from the inside to the outside.For cleaning the mesh element or changing the microglass element, remove the cover and take out the element. The mesh elements are not guaranteed to maintain 100% performance after cleaningFilters finer than 40 µm use the disposable elements made of paper or microglass. Filter elements as fine as 5 µm(c) are available; finer filter elements on request. Eaton filter elements are known as stable elements which have excellent filtration capabilities and a high dirt retaining capacity, therefore having a long service life. Due to its practical design, the return-line filter is easy to service.Eaton filter can be used for petroleum-based fluids, HW emulsions, water glycols, most synthetic fluids and lubrication fluids. Consult factory for specific fluid applications.Due to its practical design, the return-line filter is easy to service. When releasing the filter cover a plate-shaped valve closes the suction-inlet of the filter bowl and prevents the return flow of dirt oil into the reservoir. For cleaning, the filter bowl together with the filter element can be taken out of the filter head. Type index:Complete filter:(ordering example)series:TS =suction filter for vertical tank-mountingnominal size: 426filter material:25VG, 16VG, 10VG, 6VG, 3VG microglass10P paperfilter element collapse rating:- = not specifiedfilter element design:B = both sides opensealing material:P = Nitrile (NBR)V = Viton (FPM)filter element specification:- = standardprocess connection:UG = thread connectionFS = SAE-flange connection 3000 PSIprocess connection size:7 = 1 ½“filter housing specification:- = standardinternal valve:- = withoutS = with bypass valve p 4.1 PSIclogging indicator at M1:- = withoutO1 = visual, see sheet-no. 1616E4.-0,25 = pressure switch, see sheet-no. 1616clogging indicator at M2:possible indicators see position 12 of the type indexclogging indicator at M3:possible indicators see position 12 of the type indexTo add an indicator to your filter, use the corresponding indicator data sheet to find the indicator details and add them to the filter assembly model code. Filter element:(ordering example)series:01TS. = suction filter element according to company standardnominal size: 425- , see type index-complete filtersealing material:- = withoutTechnical data:operating temperature: +14°F to +212°Foperating medium mineral oil, other media on requestprocess connection: thread connection or SAE-flange connection 3000 PSIhousing material standard: AL-casting, filter cover / filter bowl glass fiber reinforced polyamidesealing material: Nitrile (NBR) or Viton (FPM), other materials on requestinstallation position: verticalvolume tank: .70 Gal.Classified under the Pressure Equipment Directive 2014/68/EU for mineral oil (fluid group 2), Article 4, Para. 3.Classified under ATEX Directive 2014/34/EU according to specific application (see questionnaire sheet-no. 34279-4).Pressure drop flow curves:Filter calculation/sizingThe pressure drop of the assembly at a given flow rate Q is the sum of the housing ∆p and the element ∆p and is calculated as follows: ∆p assembly= ∆p housing+ ∆p element∆p housing = (see ∆p= f (Q) - characteristics)∆p element (PSI) =Q (GPM) x MSK1000(PSIGPM)x ν(SUS) x ρ0.876(kgdm³)For ease of calculation our Filter Selection tool is available online at /hydraulic-filter-evaluationMaterial gradient coefficients (MSK) for filter elementsThe material gradient coefficients in psi/gpm apply to mineral oil (HLP) with a density of 0.876 kg/dm³ and a kinematic viscosity of 139 SUS (30 mm²/s). The pressure drop changes proportionally to the change in kinematic viscosity and density.∆p = f(Q) – characteristics according to ISO 3968The pressure drop characteristics apply to mineral oil (HLP) with a density of 0.876 kg/dm³. The pressure drop changes proportionally to the density.Symbols:without indicatorvisual Oelectric E4.-0,25filter without internal valvefilter with bypass valveSpare parts:Test methods:Filter elements are tested according to the following ISO standards:ISO 2941 Verification of collapse/burst resistance ISO 2942 Verification of fabrication integrityISO 2943 Verification of material compatibility with fluids ISO 3723 Method for end load testISO 3724 Verification of flow fatigue characteristicsISO 3968 Evaluation of pressure drop versus flow characteristics ISO 16889Multi-pass method for evaluating filtration performanceNorth America 44 Apple StreetTinton Falls, NJ 07724 Toll Free: 800 656-3344 (North America only) Tel: +1 732 212-4700Europe/Africa/Middle East Auf der Heide 253947 Nettersheim, Germany Tel: +49 2486 809-0 Friedensstraße 4168804 Altlußheim, Germany Tel: +49 6205 2094-0An den Nahewiesen 2455450 Langenlonsheim, GermanyTel: +49 6704 204-0Greater China No. 7, Lane 280, Linhong RoadChangning District, 200335 Shanghai, P.R. China Tel: +86 21 5200-0099Asia-Pacific100G Pasir Panjang Road #07-08 Interlocal Centre Singapore 118523 Tel: +65 6825-1668For more information, please email us at ********************or visit /filtration© 2021 Eaton. All rights reserved. All trademarks and registered trademarks are the property of their respective owners. All information and recommendations appearing in this brochure concerning the use of products described herein are based on tests belie ved to be reliable. However, it is the user’s responsibility to determine the suitability for his own use of such products. Since the actual use by others is beyond our control, no guarantee, expressed or implied, is made by Eaton as to the effects of such use or the results to be obtained. Eaton assumes no liability arising out of the use by others of such products. Nor is the information herein to be construed as absolutely complete, since additional information may be necessary or desirable when particular or exceptional conditions or circumstances exist or because of applicable laws or government regulations.。

arkts语言修改表结构的语法在ArkTS语言中，修改表结构的语法通常涉及到对表的字段、索引、约束等进行修改。

下面是一些常见的修改表结构的语法示例：1. 添加字段：```arduinoALTER TABLE table_nameADD column_name data_type;```2. 删除字段：```arduinoALTER TABLE table_nameDROP COLUMN column_name;```3. 修改字段数据类型：```arduinoALTER TABLE table_nameALTER COLUMN column_name TYPE new_data_type;```4. 重命名字段：```arduinoALTER TABLE table_nameRENAME COLUMN old_column_name TO new_column_name;```5. 添加索引：```arduinoCREATE INDEX index_name ON table_name (column1, column2, ...); ```6. 删除索引：```arduinoDROP INDEX index_name;```7. 添加主键约束：```arduinoALTER TABLE table_name ADD PRIMARY KEY (column1, column2, ...); ```8. 删除主键约束：```arduinoALTER TABLE table_name DROP PRIMARY KEY;```9. 添加外键约束：```arduinoALTER TABLE table_name ADD FOREIGN KEY (column1, column2, ...) REFERENCES other_table(columnA, columnB, ...);```10. 删除外键约束：```arduinoALTER TABLE table_name DROP FOREIGN KEY constraint_name;```请注意，上述语法示例仅供参考，具体的语法可能会因不同的ArkTS实现而有所不同。

实验3 自由表的操作实验一.实验目的1.了解项目的概念。

掌握使用项目设计器创建和管理文件的方法。

2.了解表的概念。

掌握使用表设计器创建、保存自由表的方法。

3.掌握表结构的设计、修改的方法。

4.掌握表记录的输入、显示、修改、删除的方法。

5.掌握命令方式和菜单方式的工作方式和特点。

二．实验内容与步骤在D盘中建立名为：“学号+姓名+8位日期”的文件夹。

用下面菜单或命令方式，设置默认工作目录为：D：\学号+姓名+8位日期。

菜单方式：“工具”→“选项”→“文件位置”→“默认目录”→“修改”，设置为工作目录,选中“设置为默认值”，点击“确定”。

命令方式：在命令窗口中输入 SET DEFAULT TO 工作目录1．项目的创建与保存、打开与关闭（1）菜单操作方式创建“项目”①执行下面任意一种操作方法，打开“新建”对话框。

单击常用工具栏的“新建”按钮。

单击“文件”菜单中的“新建”命令。

按“Ctrl+N”组合键。

②选择“项目”单选框，单击“新建文件”按钮，打开“创建”对话框。

③确认项目的保存位置，输入项目的名称：实验3-1，单击“保存”按钮。

观察项目文件的个数和文件的后缀。

（两个，后缀.pjt .pjx）打开“项目”：单击“文件”菜单中的“打开”菜单项。

选择文件类型为“项目”，选中要打开的项目文件，单击“确定”。

关闭“项目”：单击项目管理器窗口右上角的关闭按钮“x”。

(2)命令操作方式创建项目命令：CREATE PROJECT <项目文件名>关闭项目命令：CLOSE ALL打开项目命令：MODIFY PROJECT <项目文件名>2．创建表（1）使用项目管理器创建表①打开或新建项目，在“项目管理器”窗口中依次单击“数据”选项卡、“自由表”选项、“新建”命令按钮；②在出现“创建”对话框后，输入课程表的表名kc，单击“保存”命令按钮；③在“表设计器”窗口中，按表3-1输入表结构定义表kc的结构。

TATEK TS7说明书
（一）电能表显示
1、循环显示
电能表通电，或无按键操作3min后，显示屏每隔5s（可设为5～20s）自动循环显示。

2、按键操作说明
＃1按键（主菜单键）用于切换显示数据的类型，依次在有功电量、无功电量、需量、需量时间、实时数据、电压越限记录、失压、失流、时钟和循环显示状态间切换。

每按动一次，第一位代码加l。

＃2按键（子菜单键）用于在＃l按键选定的显示数据类型中，进一步选择显示类型。

每按动一次，第二位代码加1。

＃3按键（项目显示键）用于在＃l、＃2按键选定的显示数据类型中，依次显示该项目中各个显示量。

每按动一次，后3位代码加1。

＃4按键（预置参数显示键）用于依次显示电能表预先设定的各个参数。

预置参数显示全部显示完后，回到循环显示状态。

按下任意键，液晶上显示按键符号，指示当前处于按键显示状态。

当状态回到循环显示状态后，按键符号自动消失。

（二）参数设置
用户可以通过RS485、红外通信口或编程IC卡对电能表的参数进行预置，但必须通过参数编程键硬件开锁（按住参数编程键5s，出现一笛声报警，LCD显示钥匙出现，开锁成功）后方可进行。

在通过RS485或红外设置电能表通信地址时，需按住＃2按键进行。