mud pump stroke sensor pricelist

The Magneto® Pump Stroke Sensor is the latest new product from ASD Holdings (Advanced Sensor Design). ASD has successfully introduced unique products for the Oil & Gas Industry for over a decade. In this newest creation we find that the Magneto® Pump Stroke Sensor has been patented by Advanced Sensor Design. It is the world’s first pump stroke sensor that is mounted to the outside housing of the rig pump. It is mounted and stays in place by the use of a heavy duty magnet. The Magneto PSS is completely capable of detecting and counting Oil Rig “mud pump piston strokes” without having to make or be in contact with the pistons.

It is no longer a requirement to open the covers of the Oil Rig mud pumps to install a C-clamp style micro switch with a metal whisker. (Note picture below labeled C-clamp style micro switch) No longer is it necessary to bore a hole through the pump housing in order to get a proximity switch close enough to a piston to count actual strokes. (Note picture below labeled Cable going through pump housing) The Magneto® Pump Stroke Sensor is simple to install and easy to monitor!

The magnetic base of the Magneto® PSS makes it totally different than anything available in the marketplace today relative to its form and fit. However, that is not its only outstanding feature. Advanced Sensor Design is using “State of the Art” electronic circuitry that has the ability to give the end user (Oil Rig Mud Pump Operator) an On/Off switch type electrical output. Just like what the conventional mud pump sensors emit today. The obvious benefit to the oil rig is that No Special accommodations to their Data Acquisition Systems are required.

Our pump stroke counter systems (CPS101 Series) measure the stroke rate and number of strokes on mud pumps. The oilfield pump stroke system is user-friendly and reliable and is configurable to measure up to three mud pumps at once. Our digital pump stroke counter systems are manufactured here in the U.S. by Crown Oilfield Instrumentation, and Crown’s Pump Stroke Counter provides easy monitoring of strokes per minute on multiple mud pumps. Each mud pumps’s stroke rate can be selected individually and the display is updated regularly for accurate monitoring. LCD displays indicate both pumps strokes per minute and the total number of strokes. Located at the bottom of the panel, push buttons provide easy operation and reseting of each pump. When you need to accurately monitor and maintain the amount of mud being pumped, you can trust Crown’s oilfield stroke counters.

DRILLNG INSTRUMENTATION Pump Stroke Counter System PUMP STROKE COUNTER SYSTEM Model PSC-3 Instruction Manual …Quality is Everything... This manual describes the installation operation and maintenance of the Model PSC-3 Pump Strokes Counter System. This manual shall provide the user with information necessary to properly utilize the Pump Strokes Counter. Included in this manual are all the necessary procedures to install and maintain this Pump Strokes Counter Instrumentation properly. Email: service@rigchina.com SKYPE:RIGCHINA Website: http://www.rigchina.com Telephone: 0086-579-87537698 Fax: 0086-579-8753 696 Address: No.80-82, Qiude Road, West Cheng Industrial Estate, Yongkang city, Zhejiang P

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer 1. Introduction The Pump StrokeCounter (Model PSC-3) monitors and displays the total accumulated mud pump strokes and the stroke rate of up to 3 individual mud pumps simultaneously. The stroke rate for each mud pump can be individually display and is updated every second. The Battery Pack is designed to operate continuously for 2 years. No calibration is required. The quartz crystal oscillator provides high precision counts with no drift. The Pump StrokeCounter is designed to be intrinsically safe. The stainless steel case is...

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer 2. Systems Description: 2.1 Pump Stroke Counter With Mechanical Sensor Switch One (1) Pump Strokes Counter with three (3) pump input capability. The PSC-3 consists of a Pump Stroke Counter display and requires an inductive proximity sensor. The display shows (Pump1, Pump2, Pump3) the total strokes and strokes per minute. 1. Pump Stroke Counter 2. Connection Cable in Liquid Control Box (1.5m) 3. Junction Box of Pump Stroke Counter (on the liquid control box) 4. Main Cable (50 m) 8. Mechanical Sensor Switch

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer 2.2 Pump Stroke Counter With Passive Proximity Sensor Switch 1. Pump Stroke Counter 2. Connection Cable in Liquid Control Box (1.5m) 3. Junction Box of Pump Stroke Counter (on the liquid control box) 4. Main Cable (50 m) 8. Passive Proximity Sensor Switch The Inductive Proximity Sensor: The inductive proximity sensor used with the Pump Stroke Counter has a sensing range of 15mm. Care must be taken when mounting the sensor so it can safely detect the movement of the metal mass moving past th

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer Schematic Diagram of Installation of Magnetic Piece Note: When the magnetic piece is installed on the magnetic material, the material of the screw should be selected to use stainless steel. When a sensor is installed on non-magnetic material, the material of the screw should be of iron quality. The LCD has excellent daytime visibility and is backlight for night viewing as well. 3. Features and Specifications Stroke Rate Range: 0 to 999 strokes per minute (SPM) Total Accumulated Strokes: 0 to 99,999 strokes Front Panel...

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer Time Base: Quartz Crystal oscillator Pump Switch Micro-switch or passive proximity sensor Battery: ER26500 3.6V industrial lithium battery Intrinsically Safe sealed Power Pack Battery Life: 2 years continuous operation Maximum Cable Length: 250 ft (80 m) from pump switch to StrokeCounter Dimensions: 8"X8"X3.3" LXWXD (20.3X20.3X8.4 cm) Weight: 6.6 Lbs. (3 Kgs) Case Material: Stainless steel Operating & Storage Temperature: -40 to 100°C 4. Installation The Pump Stroke Counter is mounted in a driller’s or choke control panel in a...

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer Care should be taken not to over-tighten these bolts, as the clear panel behind the front panel can fracture if torque sufficient to distort the stainless front panel is applied. 5. Theory of Operation This system is comprised of a Control Head containing the necessary batteries, dis-plays, control and external connector. All power is supplied by a 3.6 Volt battery contained inside the instrument housing. Under normal use this battery should last approximately 2 years. The required input to the Pump Stroke Counter is either a...

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer Using the Pump Stroke Counter There are 3 push-buttons (switches) on the front panel, one for power（ONOFF）, and one each for clearing the count on each pump(RESET),and one for Selecting Pump1,Pump2,Pump3 in the display. The power switch “ON-OFF” is an alternate action type; pressing it will turn the device on, and pressing it again will turn the device off. When the unit is on, there will be a Total Strokes displayed, and when the Mud Pump is operating, the rate will be displayed in the Strokes/Minute window. The “RESET”...

DRILLNG FLUID TESTING INSTRUMENTATION RheoVADR™ Rheometer 6. Calibration No calibration is required for the Pump Stroke Counter. The device contains an internal crystal clock, which is used for determining the pump stroke rate. 7. Maintenance The internal battery will have to be replaced at the end of its life. This will normally be several years – a normal life is approximately 2 years with 24 hour Operation but the life can be short-ened with extremes of temperature. When the display segments appear to no longer have a high contrast, it is time to replace the battery. Turning the...

The RIGCHINA Pump Stroke Counter/Rate Meter displays both the total number of strokes and the strokes per minute for 3 mud pumps up to 1,024 strokes per minute for each pump. Push buttons conveniently located on the front of the instrument make it easy for the operator to reset each pump count

We support our purchasers with ideal premium quality products and substantial level company. Becoming the specialist manufacturer in this sector, we"ve acquired rich practical working experience in producing and managing for Mud Pump Stroke Counter Sensor, , , , We respect your enquiry and it truly is our honor to operate with each friend around the world.

1.The pumping sensor can be fixed to the mud pump head by the bracket, or the appropriate part of the turntable, and the closest distance between the position of the sensing surface of the measured object and the end surface of the sensor is within 30 mm. (According to the influence of the use environment, the rated working distance is generally taken. 80%), plus the working voltage, when the end of the inductive sports sensor is close, the indicator light is on; when away from the sensor, the indicator is off.

2.The turntable speed sensor can be fixed to the appropriate part of the drive shaft of the turntable with the bracket. It should be convenient to install and repair. The model of the drill is selected. A piece of iron with a length and width of 30mm is welded on the shaft of the drive shaft or the airbag clutch. The position of the end face should be close to the end face of the sensor. Adjust the fixing nut of the sensor so that the distance between the iron sensor is within the effective range of the working distance.

Limit switch is used to limit the position or stroke of the mechanical movement, so that the machine automatically stops, reverses, changes speed or automatically moves back and forth according to a certain position or stroke. It can be installed on relatively stationary objects (such as fixed mount or door frames) or moving objects (such as travelling crane, door, etc.). When the object is close to the stationary object, the lever of the limit switch drives the switch contacts open or close. According to the change of the contacts open/close state, the system can control the action of the circuit and machine.

Proximity sensor can be also called non-contact limit switch. It can not only complete the stroke control and limit protection, but also realize non-contact detection. It is used to detect the size of parts, speed, or used in frequency conversion counter, frequency conversion pulse generator, liquid level control and automatic connection of processing programs. Proximity sensor is a devise that "perceives" the object approaching it. This perception distance is usually called the "detection distance". The ability to respond to continuous detection objects is called the "response frequency". Different proximity sensors have different detection distances and response frequencies.

Proximity sensors are non-contact switches with a long life and are suitable for passing objects. Limit switches are contact switches. Due to the internal contacts, the working life is relatively shorter.

The limit switch usually has 1 NO + 1 NC contacts. Generally only one group of contacts is used, so there are 2 wires. Proximity sensors generally adopt 2-wire, 3-wire and 4-wire, so they have more wires than limit switches. Some proximity sensors have to confirm it is PNP or NPN based on the connected equipment.

There are many such limit switches on the machine tool, which are used to control the movement of the workpiece or the stroke of the automatic feed to avoid collision accidents. Sometimes the limit switch is used to make the controlled object automatic reverse between two specified positions, so as to obtain continuous reciprocating motion.

The SK-8Y2X series alloy film sensor consists of an ion-beam sputtering alloy film sensor and a signal modulation circuit and is applicable to detection of fluid pressure, differential pressure or liquid level. The Sensor is made using the modern film equipment and etching technique. The sensor has unique technique and excellent performance and can stably run in severe environment. The liquid medium pressure/differential pressure acts on the corrosion resistant stainless steel elastic film to deform the film, as shown in the strain schematic diagram. An alloy film strain resistance comprising Wheatstone bridge has been made on the film. Film deformation changes the geometry and value of the resistance, and the bridge outputs corresponding electrical signals. The electronic circuit amplifies the bridge output signals and converts them into standard 4~20mA current signals for output.

The Two-pump Digital Stroke Rate Meter monitors and displays the Rate and Total Strokes of up to two individual pumps simultaneously. The unit continually displays, on large easy to read, low power LCD displays, RPM, TOTAL ACCUMULATED STROKES (0-9999 total strokes) and STROKE RATE (8-350 strokes per minute) for each pump. The unit is internally powered by a battery source having an operational life of 3 years.

At Matherne Instrumentation, we"re proud to provide both our two-pump and three-pump stroke counters to companies and oilfield operators across the states of Texas, Louisiana, North Dakota, and Pennsylvania. While our offices are based in Odessa, TX; Lafayette, LA; and Houma, LA, we"re proud to serve those across the cities of Midland, TX; Houston, TX; Williston, ND; and Pittsburgh, PA. To learn more or for a quote, please feel free to give us a call today!