Red Laser Theodolite
Model MDT2L
Features:
Built in 100 meters red laser pointer & red laser plummet (down)
Absolute Encoding for high precision & easy service
Double large LCD display with illumination
Switchable horizontal & vertical angle readout
Water resistant, sealed construction
Rechargeable on board battery included
Removable tribach for multiple set ups
Color available: blue/grey, all grey
Standard outfit:
laser theodolite, plumb bob, adjusting pin, soft brush, woolen cloth,
wrench, charger, rechargeable battery, operation manual, plastic carrying case.
Ordering Information:
Model | MDT2L |
Brand | GeoTech, Neutral Packaging or Customer’s brand |
Place of origin | Made in China |
M.O.Q. | 1unit |
Lead time | 7-10 work days |
Payment terms | T/T, Paypal |
Shipping terms | EXW, FOB, CFR, CIF,DDU |
Shipping method | Courier, air, sea |
Place of delivery | Worldwide |
Packaging | 1unit/box, 1box/carton |
Free sample service | No. |
Customized service | Yes. See below. |
private label/logo printing | Instrument, carry case (MOQ:20units) |
Inner box, outer carton (MOQ:20units) |
User’s manual, black/white only (MOQ:20units) |
appearance color | Blue/grey, all grey (No MOQ) |
Customer’s color (MOQ:50units) |
mechanical assembly | 360 degree or 400gon scale (No MOQ) |
5/8” or Metric tripod connecting thread (No MOQ) |
optical System | No |
Electronic/Software | No |
Model | MDT2L |
Laser PointerRange | 100m |
Laser Wave Length | 635mm |
Laser spot diameter | 5mm/100m |
Telescope | Upright image |
Length: | 156mm |
Objective aperture: | 45mm |
Magnification: | 30X |
Field of view: | 1°30’ |
Resolving power: | 3.5” |
Shortest focus distance: | 1.3m |
Electronic angle measurement: | 360 degree or 400gon |
Min. Reading: | 1”/2” |
Accuracy: | 2” |
Electronic Compensator: | Yes |
Laser Plummet: | Yes,red laser |
Laser wave length | 635nm |
Laser spot diameter | 1mm / 1.5m |
Accuracy | 0.5mm / 1.5m |
Level Sensitivity |
|
Plate level | 30”/2mm |
Circular vial: | 8’/2mm |
Power supply: | Built in Ni-Mh chargeable battery |
Chargeable battery: | 6v/1500mAH(15hours) |
Weight: | 4.8kgs |
*All specifications and design are subject to change without prior notification.
What is the difference between a laser electronic theodolite and an electronic theodolite?
The primary difference between a laser electronic theodolite and a standard electronic theodolite lies in the addition of a laser feature in the former. Here's a detailed comparison:
**1. Laser Feature:
Laser Electronic Theodolite: Includes a built-in laser, which projects a visible laser beam to aid in alignment and positioning. The laser can help in transferring points or aligning the instrument with a specific target or reference point.
Standard Electronic Theodolite: Does not have a laser feature. It relies solely on electronic angle measurement and digital display for precise readings. Alignment is typically done manually or with the help of optical or mechanical aids.
**2. Alignment and Setup:
Laser Electronic Theodolite: The laser can simplify the setup process by providing a visual reference that helps in aligning the instrument more accurately with a target point or line. This can be particularly useful in applications requiring precise point transfer or alignment.
Standard Electronic Theodolite: Alignment is done manually, which might involve using the instrument's optical sights or other alignment tools. This can be more time-consuming and less intuitive compared to using a laser.
**3. Precision and Ease of Use:
Laser Electronic Theodolite: The laser can enhance precision and ease of use by providing a clear visual guide, which can be beneficial in complex or large-scale projects.
Standard Electronic Theodolite: Precision is maintained through electronic measurements and digital readings. The user may need to rely more on the instrument’s optical system and manual adjustments for precise alignment.
**4. Applications:
Laser Electronic Theodolite: Often used in situations where visual alignment and point transfer are crucial, such as in construction and large-scale surveying projects where precise setup is needed.
Standard Electronic Theodolite: Suitable for general surveying and construction tasks where electronic measurement of angles is the primary requirement. It may be preferred in environments where a laser beam might not be as useful or necessary.
**5. Cost and Complexity:
Laser Electronic Theodolite: Generally more expensive due to the added laser feature. The inclusion of a laser can also add to the complexity of the instrument, although it can offer enhanced functionality.
Standard Electronic Theodolite: Typically less expensive and simpler in design. It focuses on electronic measurement without the added cost of laser technology.
In summary, the main distinction is the laser feature in the laser electronic theodolite, which provides additional visual aids for alignment and setup, making it a potentially more versatile tool in certain applications. The standard electronic theodolite, while lacking a laser, remains a robust tool for precise angular measurements and is often sufficient for many surveying and construction tasks.