Commutateur de proximité 972134224 90000 psi

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Description

Proximity Switch 972134224 is an essential component of 90000 psi waterjet cutting systems.

Assemblage de l’intensificateur 72170165
Assemblage de l’intensificateur 72170165

Article

Numéro de pièceDescriptionQuantitéArticleNuméro de pièceDescriptionQuantité

1

05146592Joint d’étanchéité, Topworks Support21472162253Ventouse

2

2

20476377Soutien, Topworks21505130091Cartouche de joint hydraulique

2

3

10118206Joint torique, 1.31×1.56× .1321672175989Bride de retenue de bague2

4

05144514Vérin hydraulique11772158494Assemblage de joints UHP

2

5

05098991Vis à tête creuse, 3/8-16×3-3/481872166738Cylindre UHP

2

6

95688743Rondelle de blocage, .3881972163802Paquebot

2

7

72101190Assemblage du piston12020474325Goujon, 1-1/8-12×18.31

8

8

10074771Joint torique, 5.25×5.50× .1322172170157Assemblage de la tête de scellage

2

9

05120092Anneau de secours, 5.25×5.50× .1322272178493Assemblage de brides

2

10

72175997Culasse hydraulique22320464590Rondelle plate, 1.13

8

11

05097886Vis à tête creuse, 3/4-16×2-1/4122420461761Écrou hexagonal, 1-1/8-12

8

12

05144183Ensemble d’entretoise, interrupteur de proximité22520489339Adaptateur, JIC/Tuyau, 50× .38

1

05144191

Joint torique, .69× .88× .092672176756Joint torique, 3,88×4,25× .19

6

13

72141569Kit, Détecteur de proximité2

72134224Commutateur de proximité

95119012

Vis à tête creuse, 1/4-20×1

Commutateur de proximité 90000 psi 72134224
Commutateur de proximité 90000 psi 72134224

A proximity switch is an electronic sensor that detects the presence or absence of an object without physical contact. In the context of waterjet cutting, a proximity switch is often used to detect the position of the waterjet nozzle relative to the workpiece.

In a waterjet cutting system, the proximity switch is typically mounted on the cutting head assembly and is used to sense the distance between the nozzle and the workpiece.

When the distance between the nozzle and the workpiece is within a certain range, the proximity switch sends a signal to the control system, which adjusts the waterjet pressure and other cutting parameters to ensure accurate cutting.

Proximity switches are commonly made of robust materials, such as stainless steel or high-strength plastic, to withstand these conditions.

There are different types of proximity switches that can be used in waterjet cutting systems, including inductive proximity switches, capacitive proximity switches, and photoelectric proximity switches.

The choice of proximity switch rests with the specific application and the material being cut.

1. Inductive proximity switches are commonly used in waterjet cutting because they are reliable and accurate. They generate a magnetic field that is disrupted by the presence of a conductive object, such as the workpiece, which triggers the switch to send a signal to the control system.

Inductive proximity switches are not affected by non-metallic materials, such as ceramics or plastics, and can be used in high-temperature environments.

2. Capacitive proximity switches are another type of sensor that is used in waterjet cutting. They generate an electric field that is disturbed by the presence of any material, whether conductive or non-conductive.

Capacitive proximity switches are often used to detect the presence of liquids, such as water or oil, and can be used in a variety of applications, including level sensing and object detection.

3. Photoelectric proximity switches use light to detect the presence or absence of an object. They emit a beam of light that is interrupted by the object, triggering the switch to send a signal to the control system.

Photoelectric proximity switches can be designed with different sensing ranges and are often used in applications where the object being detected is small or difficult to detect with other types of sensors.

The proximity switch used in a waterjet cutting system that operates at 90000 psi (6,200 bar) is typically designed to withstand the high-pressure environment and harsh conditions of the waterjet cutting process.

The proximity switch used in a 90000 psi waterjet cutting system is similar to those used in lower-pressure systems, but it may have some specific design features to accommodate the high pressure.

One important consideration when choosing a proximity switch for a 90000 psi waterjet cutting system is the sensing range. The switch should be able to accurately detect the position of the nozzle relative to the workpiece even at the high pressures involved in the cutting process.

The switch also need to be designed to withstand the high-pressure water flow and any abrasive particles that are present in the waterjet stream.

90000 psi Waterjet Intensifier Pump

When selecting a proximity switch for 90000 psi waterjet cutting, there are several factors that should be considered to ensure that the switch is compatible with the application and can provide accurate and reliable sensing:
1. Sensing range
The sensing range of the proximity switch ought to be appropriate for the specific application. A switch with a longer sensing range may be necessary for thicker materials, while a shorter sensing range may be sufficient for thinner materials.
2. Material compatibility
The proximity switch should be able to detect the material being cut. For example, an inductive proximity switch may not work well with non-conductive materials, while a capacitive proximity switch may not work well with conductive materials.
3. Environmental factors
The proximity switch should be able to operate in the harsh environment of a 90000 psi waterjet cutting system, which includes exposure to water, abrasive particles, and high-pressure jets. The switch should be made of materials that can withstand these conditions.
4. Accuracy and reliability
The proximity switch should be able to provide accurate and reliable sensing. A switch with a high degree of accuracy and repeatability can help to ensure consistent cutting quality.
5. Response time
The response time of the proximity switch should be appropriate for the specific application. A faster response time may be necessary for high-speed cutting, while a slower response time may be sufficient for slower cutting speeds.
6. Mounting options
The proximity switch should be easy to mount and install in the 90000 psi waterjet cutting system. It should be compatible with the existing mounting hardware and wiring.
7. Operating temperature range
The proximity switch should be able to operate within the temperature range of the 90000 psi waterjet cutting system. If the environment is particularly hot or cold, a switch with a wider operating temperature range may be necessary.
8. Output type
Proximity switches can have different types of outputs, such as analog or digital. The output type should be compatible with the control system and the input requirements of the cutting machine.
9. Electrical requirements
The proximity switch should be compatible with the electrical requirements of the 90000 psi waterjet cutting system, such as voltage and current rating.
10. Maintenance and longevity
The proximity switch should be easy to maintain and have a long lifespan. Switches with sealed housings and no moving parts are mostly more reliable and require less maintenance than switches with exposed components.
11. Cost
The cost of the proximity switch should be considered relative to the benefits it provides. More expensive switches may provide better accuracy and durability, but may not be necessary for all applications.
Overall, choosing the right proximity switch for a 90000 psi waterjet cutting system requires careful consideration of the specific application requirements and the capabilities of the available sensors.
By selecting a proximity switch that is well-suited for the application of 90000 psi, it is possible to achieve accurate and efficient cutting and maximize the lifespan of the 90000 psi waterjet cutting machine.
90000 psi WATERJET 72134224
90000 psi WATERJET 72134224

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