Pondicherry, Pondicherry, India GST : 34AAACP3472E1ZQ Verified Supplier
Our Complete range of products are IR Collimator, Precision Horizontal Stand, Angle Dekkor Stand, Spindle Target and Alignment Cube.
Preceison Horizontal Stand with two axis tilt for Autocollimator or ALignment Telescope. Could be mounted on a Pedestal Stand or a Tripod STand or a Pillar type stand or clamped to a flat Honeycomb table.
we offer spindle target of fine quality. Spindle target is used for mounting and aligning the spindle and bore rotation axis. Spindle targets are special purpose mounted reticule targets. The reticule may be a cross line on a mirror or on a beamsplitter. In autocollimator application the mirror surface is used to measure angular tilts. In alignment telescope application the target cross line reticule is used for measurement of linear shifts. Our spindle target is precisely manufactured using the premium grade raw material that is sourced from known and reliable dealers. Additionally, it is being presented at the best rates in the industry. spindle targets are special purpose mounted reticule targets. The reticule is a cross line on a mirror. In autocollimator application the mirror surface is used to measure angular tilts. In alignment telescope application the target cross line reticule is used for measurement of linear shifts. two adjustment screws are provided for linear movement of the reticule to center the reticule to the axis of rotation. three leveling screws are provided for tilting the mirror surface for aligning the surface perpendicular to the axis of rotation. types of target 1) 25 mm dia front surface mirror 2) 25 mm dia front surface mirror with 10 microns width cross line 3) 25 mm dia cross line (parallelism 4) 25 mm beam splitter with 10 microns width cross line (parallelism
Alignment Cube facilitates easy alignment in five orthogonal direction. Optical Cubes are made from Fused Silica material and are Aluminum coated. Also, our Alignment Cube is neatly polished and is made using high grade raw-material. Moreover, we provide Alignment Cube in different sizes as per clients’ requirements.
We are offering grazing incidence interferometer. Our grazing incidence interferometer is used for inspection of non-reflective lapped components. We use high quality parts and advanced technology to manufacture the grazing incidence interferometer. We offer our customers with our high class grazing incidence interferometer a very low price. Again we are the only manufacturer of this equipment in india.
we are the only manufacturer & suppliers of optical parallels in india. Optical parallels are used for checking flatness and parallelism of micrometer measuring faces. These are supplied as a set of four numbers with thickness increment of 0.125 mm (one fourth of the pitch of the micrometer). Optical parallels are made from fused silicafused quartz material as the material has environmental durability, and a low coefficient of thermal linear expansion and as well resistant to abrasion. the parallels are manufactured to comply with the npl (national physical laboratory) specification moyscmi54 accompanied by flatness inspection report inspection in laser fizeau interferometer reference flat (»20) traceable to nist. evaluation of flatness with licensed quick fringe software cosmetic defects : according to us mil std supplied in wooden box
linear interferometer is used for the investigation of the machine tools’ geometry. The linear interferometer used for measurement of positioning accuracy of cnc & cmm. compactly designed and easy to carry from one place to another. The linear interferometer, which we offer, has different measurement capabilities and can be assessed as per one’s needs. This perfectly-designed linear interferometer is demanded widely in industries for diverse purposes.
we are the only manufacturer & suppliers of monochromatic light source in india. Monochromatic light source also called as checklite is manufactured with the best burma teak wood for long life. Model mls-01 is used by placing the optical flat on top of the lapped part and observing the light bands from top of the optical flat. Model mls-02 is used by placing the lapped surface on top of the optical flat and the light bands are viewed through the mirror. Model mls-01 is used by placing the optical flat on top of the lapped part and observing the light bands from top of the optical flat. Model mls-02 is used by placing the lapped surface on top of the optical flat and the light bands are viewed through the mirror. model mls-01 this is used when the optical flat is less than 150 mm diameter. The optical flat is placed over the polished part under inspection. The light bands are viewed over the optical flat from above. model mls-02 the part to be inspected is placed over the optical flat and the light bands are viewed from beneath after reflection from a mirror. This type monochromatic light source is used when the part under inspection is thin and of large diameter. If an optical flat of large diameter is to be placed on such thin parts there would be deformation of fringes due to the weight of large size optical flat. To avoid this the part to be inspected is placed over the optical flat and the fringes are viewed after reflection from a mirror placed below. the master surface of the optical flat face upwards and the test surface face downwards and are in contact to view the light bands. Mls-02 is suitable for use with 200 mm diameter optical flat. On request mls to suit optical flats larger than 200 mm diameter is manufactured against specific order. specifications material : teakwood construction light source : 35w sodium wavelength : 0.575 micron = power 220v50hz (110v available on request)
non contact flatness measurement interferometer also called fizeau interferometer for inspection of flatness of optical or mechanical parts. Many mechanical seal manufacturer use this interferometer for evaluation of flatness. In automobile parts many flat surfaces require inspection of flatness in light bands. Monochromatic light source and use of optical flat is replaced with fizeau interferometer. highlights technical mass products with flat surfaces specified to better than 0.1µm over a few cm are produced by millions per month. the production processes are lapping & polishing – and, increasingly more often, micro-machining; 90% have diameters under 50mm. iso 9000 requires tight inspection often 100%. the most common tool for this is the interferometer an esteemed value to engineers as does the stethoscope for the medical practitioner. principle interferometer is shown in figure 1 (the basic layout of a fizeau autocollimator). A laser source is spatial y filtered via a microscope objective. This microscope objective is located at the focal point of a collimating lens. Between the microscope objective and lens is a cube beam-splitter. The collimated beam encounters a slightly wedged glass plate. This is the heart of the interferometer. The surface adjacent to the collimating lens is of good optical quality. however, the next surface is of exceptional optical quality, λ20 peak to valley (pv) or better. This is the reference surface and part of the collimated beam is reflected by this surface. Part of the collimated beam continues on to interrogate the component being tested. The return beam contains information on aberration introduced by the test surface. The two wave fronts recombine inside the interferometer. the cube beam-splitter diverts the combined beam towards a recording medium, either film or a ccd. An intermediate lens forms an image of the test surface onto the recording plane.