Enerpac MCS7500 Manuel utilisateur
Instruction Sheet
L4370
Rev. B 01/20 Mobile
Calibration
System
MCS7500
Enerpac MCS7500 Mobile Calibration System
2
TABLE OF CONTENTS
1.0 INTRODUCTION......................................................................................................................................... 3
1.1 System Overview.................................................................................................................................... 3
1.2 Main Components .................................................................................................................................. 4
1.3 Electrical Connections........................................................................................................................... 5
1.4 CE Declaration of Conformity ............................................................................................................... 6
2.0 SAFETY ..................................................................................................................................................... 7
2.1 Introduction .............................................................................................................................................. 7
2.2 General Safety ........................................................................................................................................ 7
2.3 Mobile Calibration System Safety......................................................................................................... 8
2.4 Use and Care .......................................................................................................................................... 8
2.5 Disconnect Electrical Power ................................................................................................................. 8
3.0 SETUP AND ADJUSTMENTS.................................................................................................................... 9
3.1 Mount the Torque Wrench ..................................................................................................................... 9
3.2 Adjust the Run Down Fixture and Reaction Stop.............................................................................. 10
3.3 Torque To Spreadsheet Software (TTS).............................................................................................. 11
4.0 OPERATION.............................................................................................................................................. 12
4.1 Check Torque with Digital Display...................................................................................................... 12
4.2 Using the TTS Software ....................................................................................................................... 13
4.3 Performing a Calibration and Producing a Calibration Certificate for Corded Electronic tools .. 14
4.4 Performing a Calibration and Producing a Calibration Certificate for Pneumatic tools ............... 20
5.0 DIGITAL DISPLAY MODULE.................................................................................................................... 27
5.1 Digital Display Buttons ........................................................................................................................ 27
5.2 Digital Display Window ........................................................................................................................ 27
5.3 Battery Indicator................................................................................................................................... 27
5.4 Mode of Operation ............................................................................................................................... 28
5.5 Engineering Units ................................................................................................................................. 28
5.6 Filter....................................................................................................................................................... 29
6.0 MAINTENANCE........................................................................................................................................ 30
7.0 RECALIBRATION...................................................................................................................................... 31
8.0 TROUBLESHOOTING .............................................................................................................................. 32
8.1 Digital Display....................................................................................................................................... 32
8.2 Joint Run Down .................................................................................................................................... 32
8.3 Repair and (Re)Calibration .................................................................................................................. 32
9.0 TECHNICAL SPECIFICATIONS ............................................................................................................... 33
Enerpac MCS7500 Mobile Calibration System
3
1.0 INTRODUCTION
1.1 System Overview
The MCS7500 Calibration System allows users to check torque accuracy, run calibration tests, and create
calibration certificates for bolting tools. The MCS7500 is designed for corded electric, hydraulic and
pneumatic tools, such as the Enerpac PTW- and ETW-Series Torque Wrenches, as well as similar controlled
bolting fastening systems.
Not Suitable for use with battery or impact tools
The calibration system is a calibrated instrument qualified in a UKAS certified laboratory. The accuracy of
the MCS7500 is calibrated to meet or exceed: 1% of Full Scale Deflection (FSD) from 2% to 8% of torque
range and 1% of reading from 8% to 100% of torque range.
Upon delivery, all components must be inspected for damage incurred during shipping. If damage is found,
the carrier should be notified at once. Shipping damage is not covered by the Enerpac warranty.
Please read the full Instruction Sheet before using the MCS7500”.
The MCS7500 includes:
• 1 Dynamic run down fixture with 1.5” female square drive, and the following adapters (1):
- 1.5” to 1” x 2” tall
• 1 Base plate (2)
• 1 Standard reaction stop, and secondary reaction post (3)
• 1 Digital LCD display module with global outlet adaptor (4)
• 1 Calibration software with USB plug (not shown)
• 1 standard hard case (not shown)
• 1” x 1-1/2” adaptors available as an accessory on request
• ¾” x 1” adaptors available as an accessory on request.
• Drawings of the Special Reaction block and adaptors designed for usage in combination with Enerpac
S-Series and RSL-Series hydraulic wrenches available upon request.
Fig. 1
1
3
2
4
Enerpac MCS7500 Mobile Calibration System
4
1.2 Main Components
Run down fixture and transducer – The run down fixture and transducer are designed specifically for the
testing of constant rotation controlled bolting tools. The MCC7500 features a 1.5” female square drive that can
accommodate other size square drive tools with the use of adaptors. The dynamic fixture provides a fastening
solution that is similar to real life applications. An integrated transducer measures the torque and communicates
the results to the digital display module. The run down fixture can be adjusted vertically to accommodate
various tool designs.
Base plate - The base plate houses the run down fixture, reaction stop, and digital display module. It features
three sturdy legs, end slot to transport the unit, and can be fastened down to a flat surface.
Reaction stop – The reaction stop functions as a counterpoint to the reaction arms of the wrench. The
torque wrench being calibrated is positioned with the reaction arm in between the wings of the reaction stop.
The MCS7500 features a standard reaction stop that will accommodate most pneumatic and electric tools,
including the PTW-, ETW-Series and many competitive tools. It also features a special reaction post for tools
with configurations that won’t work with the standard reaction stop.
Digital display module –The digital display module facilitates the display, collection, archiving, and processing
of torque readings. The module can run o battery power or plugged into an outlet. Each MCS7500 is equipped
with a global outlet adaptor that allows the tool to be used with many electrical systems.
Fig. 2 - Digital Display
When used with the Torque To Spreadsheet (TTS) software, the digital display module can be attached to a
computer with a USB plug (see Section 1.3).
The TTS software is included with the standard MCS7500 package. The MCS7500 can interface with the test
stand using a USB cable. The software facilitates the calibration testing of torque wrenches and can be used to
create calibration certificates. Windows 7/8/10 is required to install the TTS software. Microsoft Excel is required
to export and display the torque readings.
Enerpac MCS7500 Mobile Calibration System
5
1.3 Electrical Connections
The digital display module includes a USB/battery charger port as shown in Figure. 3.
Fig. 3 - USB/ Battery charge port
1.3.1 DC Interface
The interface for the 5V DC USB AC adapter is supplied with the MCS7500. Use the adapter if you plan on using
the main power source.
Use only the AC adapter provided with the MCS7500. If another power source is used it will void
the warranty and may cause severe damage to the digital display module.
1.3.2 USB Connections
The USB interface cable shown below is used when downloading to a computer, or other device. The values
are sent every time a reading in Peak mode is taken on the MCS7500 (see Figure 7).
Replacement USB cable and Power Supply Cable can be ordered using part numbers:
• USB Cable: VSSPX-0000-ENXXUS,
• Power Supply Unit: VSSPX-0000-ENXXPS.
Fig. 4 - Standard USB Cable ICBL-USB
Enerpac MCS7500 Mobile Calibration System
6
1.3.3 Charging the Battery
Follow the standard operating procedures in your workplace and be sure to observe all communicated safety
precautions.
• The battery for the MCS7500 should last approximately 12 hours when fully charged.
• The battery is charged any time the MCS7500 is plugged-in. The charge time is between 2 and 4 hours
depending on the battery charge level. It is recommended that the user unplug the unit when it is not in use.
This will not harm the unit and will increase battery life.
NOTE: If the MCS7500 is stored for several months make sure the battery is completely charged prior to
storage.
1.4 CE Declaration of Conformity
Enerpac declares that the MCS7500 Mobile Calibration System meets the applicable standards
and directives issued by the European Union. A copy of the EU Declaration of Conformity is
shipped along with this Unit.
Follow the standard operating procedures in your workplace and be sure to observe all communicated safety
precautions.
Enerpac MCS7500 Mobile Calibration System
7
2.0 SAFETY
Read all introductions carefully. Follow all recommended safety precautions to avoid personal injury as well
as damage to the product and / or damage to other property. Enerpac cannot be responsible for any damage
or injury from unsafe use, lack of maintenance, or incorrect operation. Do not remove warning labels, tags, or
decals. In the event of any questions or concerns arising, contact Enerpac or a local Enerpac distributor for
clarification.
This manual follows a system of safety alert symbols, signals, words, and safety messages to warn the user of
specific hazards. Failure to comply with these warnings could result in death or serious personal injury, as well
as damage to the equipment or other property.
2.1 Introduction
The Safety Alert Symbol appears throughout this manual. It is used to alert you to potential physical injury
hazards. Pay close attention to Safety Alert Symbols and obey all safety messages that follow this symbol
to avoid the possibility of death or serious injury.
Safety Alert Symbols are used in conjunction with certain Signal Words that call attention to safety messages
or property damage messages and designate a degree or level of hazard seriousness. The Signal Words used
in this manual are WARNING, CAUTION, and NOTICE.
Indicates a hazardous situation that, if not avoided, will result in death or serious personal injury.
Indicates a hazardous situation that, if not avoided, could result in death or serious personal injury.
Indicates a hazardous situation that, if not avoided, could result in minor or moderate personal injury.
Indicates information considered important, but not hazard related (e.g. messages relation to property
damage). Please note that Safety Alert Symbol will not be used with the signal word.
2.2 General Safety
Observe the following safety precautions. Note that under some circumstances, additional safety precautions
beyond those described in this manual may be required.
• Be sure you have read and understood the instruction manual prior to using the tool.
• Make sure you have completed safety training specific to the work surroundings. The operator should be
thoroughly familiar with the proper use of the calibration system.
• The operator must be at least the minimum age required by applicable local regulations, laws, and the
facility’s standard operating procedures.
• Make sure your workplace is safe.
Enerpac MCS7500 Mobile Calibration System
8
2.3 Mobile Calibration System Safety
The following hazard messages are specific to the Mobile Calibration System (MCS).
Failure to observe and comply with the following precautions could result in death or serious
personal injury. Property damage could also occur.
• Always wear appropriate personal protection equipment such as protective head wear, eye protection,
footwear, and gloves suitable for safe operation of the MCS. The protective clothing must not interfere with
safe operation of the system or restrict the ability to communicate with co-workers.
• Prior to use, check reaction stops for cracks and replace if any sign of deterioration is found. Check reaction
stop mounting bolt torque regularly. Bolts should be tightened to 50-55 Ft.lbs (68-75 Nm).
• Do not stand in the line of movement of the tool when it is in operation. If the reaction stop should break, it
will detach in that direction.
• Keep loose clothing, hair, and other items from being caught in any rotating part of the tool being calibrated.
Failure to comply with the following precautions could result in minor or moderate personal
injury.
• Do not place any objects between the reaction arm and the reaction stop. Keep the cords away from the
reaction stop.
• When operating, ensure full contact is achieved between the reaction arm and the reaction stop.
• The maximum torque rating of the MCS7500 is 7375 Ft.lbs (10,000 Nm). Never exceed the torque rating of
the MCS7500.
2.4 Use and Care
• Do not operate the equipment with a damaged cord or plug, or after the equipment malfunctions, or is
dropped or damaged in any manner. Return the equipment to the nearest Enerpac Authorized Service
Center for examination or electrical and mechanical repair.
• Store the MCS7500 in a secure, dry location. Keep out of reach of children.
2.5 Disconnect Electrical Power
To disconnect, turn the On/O switch to the OFF (“O”) position, then remove plug from the outlet.
• Do not unplug by pulling on cord. To unplug, grasp the plug not the cord.
• Unplug from 5V DC outlet when not in use and before servicing or cleaning.
Enerpac MCS7500 Mobile Calibration System
9
3.0 SETUP AND ADJUSTMENTS
3.1 Mount the Torque Wrench
• Remove the MCS7500 components from the packaging and place on a flat surface. Ensure that the digital
display module is plugged in or suciently charged to operate.
• Select and position an appropriate adaptor onto the run down fixture to allow the proper mounting of the
torque wrench.
• Mount the torque wrench vertically onto the run down fixture, positioning the reaction arm between the
reaction stop wings, and lower the wrench into position. For safe operation, the square drive of the wrench
must fit into the run down fixture, with the wrench reaction arm positioned to fully engage the reaction stop
as shown in Figure 5:
Fig. 5 - Fitting torque wrench
Enerpac MCS7500 Mobile Calibration System
10
3.2 Adjust the Run Down Fixture and Reaction Stop
If the tool will not fit as indicated, the run down fixture can be adjusted vertically, and the reaction stop can be
adjusted in a straight line perpendicular to the run down fixture (see Figure 6).
3.2.1 Run Down Fixture
• To vertically adjust the run down fixture, use the appropriate adapter that provides the required positioning
to achieve full reaction arm engagement. It is important to reverse (loosen) the run down fixture for testing.
3.2.2 Reaction Stop
• To adjust the reaction stop, loosen the handle as shown in Figure 6.
• Slide the reaction stop to properly position the reaction arm and fully engage the reaction stop per
manufacturer’s recommendation.
• Slide the reaction stop to the desired position. Lock into place by rotating the lock handle located directly
under the reaction stop.
Once the MCS7500 unit has been appropriately adjusted, complete the mounting of the tool.
Fig. 6 - Securing reaction arm
Handle
Table des matières
Autres manuels Enerpac Équipement de test
Manuels Équipement de test populaires d'autres marques
SMART
SMART KANAAD SBT XTREME 3G Series Manuel utilisateur
Agilent Technologies
Agilent Technologies BERT Serial Manuel utilisateur
Agilent Technologies
Agilent Technologies N3280A Manuel utilisateur
Vernier
Vernier Go Direct Voltage Manuel utilisateur
Lifeloc
Lifeloc R.A.D.A.R. Manuel utilisateur
Fluke
Fluke T5-600 Instructions d'utilisation et d'installation
