Model NO.: JTS-1060
Certification: CE, RoHS
Condition: New
Customized: Non-Customized
Feature: Energy Saving
Material: Stainless Steel SUS304/SUS316
Size: Custom Made Available
Mobility: Four Wheels to Move Easily
Solvent: SUS316 for Strong Acid and Alkaline
Basket: Layered Design for Different Demand
Sovent Recycle: Filter System to Remove Oil and Dirty
Automatic: Automatic System Optional
Ultrasonic Power: 3000W, Can Be Custom Made
Heating Power: 4.5kw, Can Be Custom Made
Frequency: 28kHz/40kHz/60kHz/80kHz/120kHz
Trademark: skymen/OEM/ODM
Specification: CE, ROHS
Origin: Guangdong, China
HS Code: 845620
Model NO.: JTS-1060
Certification: CE, RoHS
Condition: New
Customized: Non-Customized
Feature: Energy Saving
Material: Stainless Steel SUS304/SUS316
Size: Custom Made Available
Mobility: Four Wheels to Move Easily
Solvent: SUS316 for Strong Acid and Alkaline
Basket: Layered Design for Different Demand
Sovent Recycle: Filter System to Remove Oil and Dirty
Automatic: Automatic System Optional
Ultrasonic Power: 3000W, Can Be Custom Made
Heating Power: 4.5kw, Can Be Custom Made
Frequency: 28kHz/40kHz/60kHz/80kHz/120kHz
Trademark: skymen/OEM/ODM
Specification: CE, ROHS
Origin: Guangdong, China
HS Code: 845620
Ultrasonic oil filter cleaner, ultrasonic machines for car parts, carburator, engine
Why stand over a pan of solvent and breathe fumes while you scrub? Let our machines do the work for you - and get every nook and cranny scrubbed clean.
These ultrasonic systems are designed for the serious professional who needs to degrease metal parts quickly and effectively. We offer two configurations, and will be happy to put together a specially sized system with accessories to suit your needs. Ultrasonic cleaning is perfect for carburators, engine and other intricate metal parts, because it can reach into the tiniest openings and blind
Ultrasonic cleaning is primarily an aqueous tank system that uses ultrasonic energy to remove dirt, grease, oil, And baked-on carbon from parts. Contaminants such as paint, rust, glued-on gaskets, and heavy layers of bakedonCarbon can also be removed by ultrasonic cleaning but require more aggressive chemistries. Unlike someOther cleaning processes, ultrasonic cleaning will not damage intricate, lightweight, or easily damaged parts. Parts that have a tendency to tightly nest will shadow each other, reducing cleaning efficiency.
How it Works
Ultrasonic cleaning works by producing sound waves in liquids. The waves consist of both high- and low-pressureFronts. The low-pressure fronts are small enough to cause bubbles to form. The high-pressure fronts cause the bubblesTo collapse. The expanding and collapsing bubbles loosen contaminants on the part surface and the chemical cleanersEither dissolve or segregate the free contaminants.
As with sound waves in air, ultrasonic sound waves can be varied by both frequency (pitch) and amplitude (power). Higher frequencies will produce smaller bubbles and lower frequencies will produce larger bubbles. Larger bubblesWill typically dislodge large particles and smaller bubbles small particles. Typical industrial systems are either 28kHz or 40 kHz, which can handle the particle sizes in the range of normal automotive cleaning. Ultrasonic cleaningSystems with a much higher frequency are used in the computer industry where tiny particles need to be removed.
Configuration of Equipment
The most basic piece of equipment for ultrasonic cleaning is a stainless steel tank with an ultrasonicTransducer and power supply (frequency generator), and is usually referred to as a benchtop unit. MoreAdvanced units may include features such as heating, filtration, mechanical agitation, rotating baskets, Ultrasonic power controls, oil skimmers, water level controls, and frequency modulators to improveSolution degassing.
No More Solvents!
A carburetor remanufacturer formerly used manual solvents parts washers to clean Carburetors. This was a very labor-intensive operation, requiring a technician to spend between 15-20 minutes per carburetor. In many cases, the carburetor then required additional cleaning in a DIP tank containing caustic soda, followed by a hot water rinse.
Application:
They deep clean to remove dirt, grease, waxes, and oils used from Switches, Gears, Nozzles, Relays and motors, Bearings, Sieves, Metal, Ironware, plastic parts and assemblies.
They will be good servers for yours and make the procedure more smoothly!
Remark:
1. Tank size and other functions can be custom made
2. Customer logo is acceptable
3. Packing by wooden case
4. Lead time is negotiable according to qty. And custom made requirements
Model:Â Skymenâ„¢ |
JTS-1012 |
JTS-1018 |
JTS-1024 |
JTS-1030 |
JTS-1036 |
JTS-1072 |
TANK'SÂ WORKINGÂ DIMENSION Â (mm) |
L1 |
355 |
406 |
500 |
500 |
500 |
720 |
 |
W1 |
305 |
305 |
355 |
406 |
460 |
680 |
H1 |
355 |
460 |
500 |
500 |
550 |
620 |
OVERALLÂ DIMENSIONÂ (mm) |
L2 |
535 |
586 |
680 |
710 |
710 |
940 |
W2 |
485 |
485 |
535 |
586 |
640 |
860 |
H2 |
750 |
680 |
720 |
720 |
770 |
850 |
TANK'SÂ TOTALÂ CAPACITY |
38L |
56L |
88L |
101L |
126L |
303L |
TANK'SÂ MATERIAL |
SUS304/SUS316L |
IN-TANKÂ SURFACEÂ FINISHING |
Hard-Cr Plating Treatment (20+ microns) |
HOUSING'SÂ MATERIAL |
SUS304/SUS316L |
ULTRASONICÂ FREQUENCY* |
28kHz / 40kHz |
ULTRASONICÂ TRANSDUCER |
12 |
18 |
24 |
30 |
36 |
72 |
ULTRASONICÂ OUTPUTÂ POWERÂ (MAX.) |
600W |
900W |
1200W |
1500W |
1800W |
3600W |
ELECTRONICÂ GENERATOR |
KG600 |
KG900 |
KG1200 |
KG1500 |
KG1800 |
KG3600 |
Build-in |
Separate |
HEATER'SÂ (HOTÂ PLATE)Â POWER |
1.5kW |
3kW |
4.5kW |
9KW |
CLEANINGÂ Machine POWERÂ REQUIREMENT |
AC 220V / 240V AC 380V, 3 phase AC 415V, 3 phase |
GENERATOR'SÂ POWERÂ REQUIREMENT |
---- |
AC 220V / 240V, 1, 13AMP |
NEW PRODUCT 68kHz / 80kHz / 120kHz are also available |
Ultrasonic oil filter cleaner, ultrasonic machines for car parts, carburator, engine
Why stand over a pan of solvent and breathe fumes while you scrub? Let our machines do the work for you - and get every nook and cranny scrubbed clean.
These ultrasonic systems are designed for the serious professional who needs to degrease metal parts quickly and effectively. We offer two configurations, and will be happy to put together a specially sized system with accessories to suit your needs. Ultrasonic cleaning is perfect for carburators, engine and other intricate metal parts, because it can reach into the tiniest openings and blind
Ultrasonic cleaning is primarily an aqueous tank system that uses ultrasonic energy to remove dirt, grease, oil, And baked-on carbon from parts. Contaminants such as paint, rust, glued-on gaskets, and heavy layers of bakedonCarbon can also be removed by ultrasonic cleaning but require more aggressive chemistries. Unlike someOther cleaning processes, ultrasonic cleaning will not damage intricate, lightweight, or easily damaged parts. Parts that have a tendency to tightly nest will shadow each other, reducing cleaning efficiency.
How it Works
Ultrasonic cleaning works by producing sound waves in liquids. The waves consist of both high- and low-pressureFronts. The low-pressure fronts are small enough to cause bubbles to form. The high-pressure fronts cause the bubblesTo collapse. The expanding and collapsing bubbles loosen contaminants on the part surface and the chemical cleanersEither dissolve or segregate the free contaminants.
As with sound waves in air, ultrasonic sound waves can be varied by both frequency (pitch) and amplitude (power). Higher frequencies will produce smaller bubbles and lower frequencies will produce larger bubbles. Larger bubblesWill typically dislodge large particles and smaller bubbles small particles. Typical industrial systems are either 28kHz or 40 kHz, which can handle the particle sizes in the range of normal automotive cleaning. Ultrasonic cleaningSystems with a much higher frequency are used in the computer industry where tiny particles need to be removed.
Configuration of Equipment
The most basic piece of equipment for ultrasonic cleaning is a stainless steel tank with an ultrasonicTransducer and power supply (frequency generator), and is usually referred to as a benchtop unit. MoreAdvanced units may include features such as heating, filtration, mechanical agitation, rotating baskets, Ultrasonic power controls, oil skimmers, water level controls, and frequency modulators to improveSolution degassing.
No More Solvents!
A carburetor remanufacturer formerly used manual solvents parts washers to clean Carburetors. This was a very labor-intensive operation, requiring a technician to spend between 15-20 minutes per carburetor. In many cases, the carburetor then required additional cleaning in a DIP tank containing caustic soda, followed by a hot water rinse.
Application:
They deep clean to remove dirt, grease, waxes, and oils used from Switches, Gears, Nozzles, Relays and motors, Bearings, Sieves, Metal, Ironware, plastic parts and assemblies.
They will be good servers for yours and make the procedure more smoothly!
Remark:
1. Tank size and other functions can be custom made
2. Customer logo is acceptable
3. Packing by wooden case
4. Lead time is negotiable according to qty. And custom made requirements
Model:Â Skymenâ„¢ |
JTS-1012 |
JTS-1018 |
JTS-1024 |
JTS-1030 |
JTS-1036 |
JTS-1072 |
TANK'SÂ WORKINGÂ DIMENSION Â (mm) |
L1 |
355 |
406 |
500 |
500 |
500 |
720 |
 |
W1 |
305 |
305 |
355 |
406 |
460 |
680 |
H1 |
355 |
460 |
500 |
500 |
550 |
620 |
OVERALLÂ DIMENSIONÂ (mm) |
L2 |
535 |
586 |
680 |
710 |
710 |
940 |
W2 |
485 |
485 |
535 |
586 |
640 |
860 |
H2 |
750 |
680 |
720 |
720 |
770 |
850 |
TANK'SÂ TOTALÂ CAPACITY |
38L |
56L |
88L |
101L |
126L |
303L |
TANK'SÂ MATERIAL |
SUS304/SUS316L |
IN-TANKÂ SURFACEÂ FINISHING |
Hard-Cr Plating Treatment (20+ microns) |
HOUSING'SÂ MATERIAL |
SUS304/SUS316L |
ULTRASONICÂ FREQUENCY* |
28kHz / 40kHz |
ULTRASONICÂ TRANSDUCER |
12 |
18 |
24 |
30 |
36 |
72 |
ULTRASONICÂ OUTPUTÂ POWERÂ (MAX.) |
600W |
900W |
1200W |
1500W |
1800W |
3600W |
ELECTRONICÂ GENERATOR |
KG600 |
KG900 |
KG1200 |
KG1500 |
KG1800 |
KG3600 |
Build-in |
Separate |
HEATER'SÂ (HOTÂ PLATE)Â POWER |
1.5kW |
3kW |
4.5kW |
9KW |
CLEANINGÂ Machine POWERÂ REQUIREMENT |
AC 220V / 240V AC 380V, 3 phase AC 415V, 3 phase |
GENERATOR'SÂ POWERÂ REQUIREMENT |
---- |
AC 220V / 240V, 1, 13AMP |
NEW PRODUCT 68kHz / 80kHz / 120kHz are also available |
Introduction:
A borescope (occasionally called a boroscope, though this
spelling is nonstandard) is an optical device consisting of a rigid or flexible
tube with an eyepiece on one end, an objective lens on the other linked together by a relay optical system in between. The optical system in some instances is surrounded by
optical fibers used for illumination of the remote object. An internal image of
the illuminated object is formed by the objective lens and magnified by the eyepiece which presents it to
the viewer's eye.
Rigid or flexible
borescopes may be fitted with an imaging or video device. For medical use, similar instruments are called endoscopes.
Uses:
Borescopes are used for visual inspection work where the area to be
inspected is inaccessible by other means, or where accessibility may require
destructive, time consuming and/or expensive dismounting activities. Similar
devices for use inside the human body are referred to as endoscopes. Borescopes are mostly used in nondestructive testing techniques for recognizing
defects or imperfections.
Borescopes are commonly
used in the visual inspection of aircraft engines, aeroderivative industrial
gas turbines, steam turbines, diesel engines, and automotive and truck engines.
Gas and steam turbines require particular attention because of safety and
maintenance requirements. Borescope inspection of engines can be used to
prevent unnecessary maintenance, which can become extremely costly for large
turbines. They are also used in manufacturing of machined or cast parts to
inspect critical interior surfaces for burrs, surface finish or complete
through-holes. Other common uses include forensic applications in law
enforcement and building inspection, and in gunsmithing for inspecting the interior bore of a firearm.
In World War II, primitive rigid borescopes were used to examine the interior
bores (hence "bore" scope) of large guns for defects.[1]
Flexible
borescopes:
Camera head of an inexpensive hobby borescope. It contains six small LEDs for illumination. The other end is connected
to the computer's USB socket.
A flexible borescope
includes a bundle of optical fibers which divide the image into pixels. It is
also known as a fiberscope and can be
used to access cavities which are around a bend, such as a combustion chamber
or "burner can", in order to view the condition of the compressed air
inlets, turbine blades and seals without
disassembling the engine.
Flexible borescopes
suffer from pixelation and pixel crosstalk due to the fiber image guide. Image
quality varies widely among different models of flexible borescopes depending
on the number of fibers and construction used in the fiber image guide. Some
high end borescopes offer a "visual grid" on image captures to assist
in evaluating the size of any area with a problem. For flexible borescopes,
articulation mechanism components, range of articulation, field of view and
angles of view of the objective lens are also important. Fiber content in the
flexible relay is also critical to provide the highest possible resolution to
the viewer. Minimal quantity is 10,000 pixels while the best images are
obtained with higher numbers of fibers in the 15,000 to 22,000 range for the
larger diameter borescopes. The ability to control the light at the end of the
insertion tube allows the borescope user to make adjustments that can greatly
improve the clarity of video or still images.
Depending upon the
application for the flexible borescope, it may be advisable to have a battery
operated, portable borescope as opposed to a borescope with a conventional power
cord.
Video borescopes
A video borescope used to inspect the jet engine of an F/A-18E fighter
A video borescope or
"Inspection Camera" is similar to the flexible borescope but uses a
miniature video camera at the end of the flexible tube. The end of the
insertion tube includes a light which makes it possible to capture video or
still images deep within equipment, engines and other dark spaces. As a tool
for remote visual inspection the ability to capture video or still images for
later inspection is a huge benefit. A display in the handle shows the camera
view, and the viewing position can be changed via a joystick control or similar
controls. Because the complex optical waveguide is replaced with an inexpensive
electrical cable, video borescopes can be much less costly and potentially
better resolution (depending on the specifications of the camera). Costs for
high end video borescopes can range from about $8,000 to $50,000 depending upon
manufacturer, options and specifications. Easy-to-use, battery-powered video
borescopes, with 3" LCD displays of 320x240 pixels or better, became
available circa 2012 from several manufacturers for prices between $100 and
$400 and are adequate for some applications. On many of these models, the video
camera and flexible tube is submersible. Later models offered improved
features, such as lower cost, better resolution, or replacing the built-in
display with a computer connection, such as a USB cable. Hobbyist models of
this type are now available starting at around $10.
Rigid borescopes
Rigid borescopes are similar to fiberscopes but generally provide a
superior image at lower cost compared to a flexible borescope. Rigid borescopes
have the limitation that access to what is to be viewed must be in a straight
line. Rigid borescopes are therefore better suited to certain tasks such as
inspecting automotive cylinders, fuel injectors and hydraulic manifold bodies,
and gunsmithing.
Criteria for selecting a
borescope are usually image clarity and access. For similar-quality
instruments, the largest rigid borescope that will fit the hole gives the best image.
Optical systems in rigid borescopes can be of 3 basic types: Harold Hopkins rod lenses, achromatic doublets and gradient index rod lenses. For large diameter
borescopes (over 12mm), the achromatic doublet relays work quite well, but as
the diameter of the borescope tube gets smaller the Hopkins rod lens and
gradient index rod lens designs provide superior images. For very small rigid
borescopes (under 3mm), the gradient index lens relays are better.
Features:
The features of each OBD code reader
depends on the make and model.
However, it is common for most readers
to have:
LCD screen readouts
View diagnostic trouble codes (DTC's)
Ability to reset / clear DTC codes
Get "snapshot" data so you
can view what was going on when the code was triggered
Higher-end OBD code readers can have
more advanced features such as:
Languages other than English
Code definitions right on the unit
Display freeze frame data
Specification:
Operation temperature range: 0 ~ 40 C
Frequency response: 40KHz + 2KHz
Power supply: 9V 6F22 battery, the
maximum working current is about 35mA
Battery low voltage alarm: power
indicator lights out when power supply is insufficient
Pricing:
OBD-II code readers vary in price.
They range from an affordable price
($85) to many hundreds of dollars, or more.
Photos:
More
Information:
If you're interested in getting more
information on OBD-II code readers or are interested in purchasing one,
check out complete list of Frequently
Asked OBD Questions, and also the ads throughout this site.
Some brand names of OBD readers are
Carsara, Cartrend, Actron, Innova, etc.
Reference
Links:
Inspection Video Scope
Inspection Video Scope,Inspection Camera,Digital Inspection Camera,Vehicle Inspection Camera
Shenzhen Cartrend Technology Co, Ltd , http://www.cartrendthings.com