CN105627999A - Photoelectric-technology-based construction engineering surveying equipment - Google Patents

Abstract

The present invention relates to photoelectric-technology-based construction engineering surveying equipment comprising a housing, a signal processing module, an electronic compensation module and a battery, the signal processing module, the an electronic compensation module and the battery are located inside the housing, and the housing is provided with a lifting handle, a self-aligned telescope, a measuring regulating device, an input-output device and a base. The photoelectric-technology-based construction engineering surveying equipment has the advantages of simple structure, easy operation, high sensitivity, high measurement precision, and the like, can timely calculate, display and store data, greatly simplifies the process of a worker, and improves work efficiency.

Description

A kind of building engineering survey equipment based on photoelectric technology

Technical field

The present invention relates to a kind of engineering survey equipment, specifically a kind of building engineering survey equipment based on photoelectric technology.

Background technology

Electronic theodolite is to utilize photoelectric technology angle measurement, with angle numerical monitor and the theodolite carrying out data autoreduction and storage device. Engineering survey for aspects such as railway, highway, bridge, water conservancy, mines, it is also possible in the installation of building, main equipment, is applied to cadastration, topographic survey and various engineering and measures, be a kind of highly important engineering survey equipment.

Existing some motor theodolites on the market mostly have cost high and the shortcoming such as complicated operation, based on above reason, we need to design a kind of novel electronic theodolite, it has simple in construction, easy to operate, highly sensitive, certainty of measurement advantages of higher, data can be calculated, show and store in time, enormously simplify the operation of staff, improve work efficiency.

Summary of the invention

In order to solve above-mentioned prior art Problems existing, the present invention provides a kind of building engineering survey equipment based on photoelectric technology.

This invention address that the problems referred to above be the technical scheme is that

A kind of building engineering survey equipment based on photoelectric technology, including shell, signal processing module, electronic compensation module and battery: described signal processing module, electronic compensation module and battery are positioned at enclosure; Described shell is provided with handle, autocollimatic formula telescope, surveys quantity regulating device, input/output unit and pedestal.

Described signal processing module includes signals collecting original paper, microprocessor and signal output original paper, microprocessor and signal output original paper electrical connection, and the signal that microprocessor processes is crossed is by exporting original paper output.

Described autocollimatic formula telescope is arranged on housing center, including eyepiece, object lens and telescope focusing handwheel, carrys out centering by the crosshair in eyepiece and the station measuring point in object lens.

Described survey quantity regulating device includes vertical stop manual pulley, vertical fine motion manual pulley, horizontal stop manual pulley, horizontal fine motion manual pulley and lower counter point device.

Described input/output unit includes display screen, keyboard and communication interface, observes the data after measuring and is exported by display screen, and communication interface can be connected with external device.

Described pedestal is provided with pedestal and adjusts knob and circular bubble, and it is smooth that adjustment pedestal knob ensures that electronic theodolite is put on spider.

The invention has the beneficial effects as follows: a kind of novel electron theodolite, it has simple in construction, easy to operate, highly sensitive, certainty of measurement advantages of higher, data can be calculated, show and store in time, enormously simplify the operation of staff, improve work efficiency.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is the Facad structure schematic diagram of the present invention;

Fig. 2 is the structure schematic diagram of the present invention.

1, shell, 2, handle, 3, handle, 4, autocollimatic formula telescope, 401, eyepiece, 402, object lens, 403, telescope focusing handwheel, 5, survey quantity regulating device, 501, vertical stop manual pulley, 502, vertical fine motion manual pulley, 503, horizontal stop manual pulley, 504, horizontal fine motion is manual, and 505, lower counter point device, 6, input/output unit, 601, display screen, 602, keyboard, 603, communication interface, 7, pedestal, 701, pedestal adjust knob, 702, circular bubble.

Detailed description of the invention

As depicted in figs. 1 and 2, a kind of building engineering survey equipment based on photoelectric technology, including shell 1, signal processing module, electronic compensation module and battery 2, it is characterised in that: described signal processing module, electronic compensation module and battery are positioned at enclosure; Described shell is provided with handle 3, autocollimatic formula telescope 4, surveys quantity regulating device 5, input/output unit 6 and pedestal 7.

Described signal processing module includes signals collecting original paper, microprocessor and signal output original paper, microprocessor and signal output original paper electrical connection, and the signal that microprocessor processes is crossed is by exporting original paper output.

Described autocollimatic formula telescope 4 is arranged on shell 1 central authorities, including eyepiece 401, object lens 402 and telescope focusing handwheel 403, carrys out centering by the station measuring point in the crosshair in eyepiece 401 and object lens 402.

Described survey quantity regulating device 5 includes vertical stop manual pulley 501, vertical fine motion manual pulley 502, horizontal stop manual pulley 503, horizontal fine motion manual pulley 504 and lower counter point device 505.

Described input/output unit 6 includes display screen 601, keyboard 602 and communication interface 603, observes the data after measuring and is exported by display screen 601, and communication interface 603 can be connected with external device.

Described pedestal 7 is provided with pedestal and adjusts knob 701 and circular bubble 702, and it is smooth that adjustment pedestal knob 701 ensures that electronic theodolite is put on spider.

During measurement, theodolite is placed on spider, with spirit level, instrument is allocated, target is measured with collimation telescope, horizontal angle and vertical angle is measured with horizontal limb and altitude circle, spider furnishing is isometric and applicable operator's height, is fixed on spider by instrument, makes instrument base face parallel with end face on spider. instrument is put after steadily, after visual estimation is generally centered, step on a steady frame foot, mix up optical centering device eyepiece and object lens, with the hands respectively carry before and after a frame foot, swing, observing centralizer makes crosshair intersection point overlap with survey station point, put steady and tread frame foot, extension tripod lower limb length leveling circular bubble allocates spiral by parallel for levelling tube two, leveling levelling tube, , flat turn alidade 90 degree, levelling tube is flattened with the 3rd spiral, check optical centering, if there being a small amount of deviation, connection spiral translation base can be opened, make its precise alignment, screw connection spiral, reexamine level(l)ing bubble placed in the middle.

The ultimate principle of the present invention, principal character and advantage have more than been shown and described. Skilled person will appreciate that of the industry; the present invention is not restricted to the described embodiments; described in above-described embodiment and description is that principles of the invention is described; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements both fall within the claimed scope of the invention. Claimed scope is defined by appending claims and equivalent thereof.

Claims (6)

1. A building engineering measuring device based on photoelectric technology, comprising a housing, a signal processing module, an electronic compensation module and a battery, characterized in that: the signal processing module, the electronic compensation module and the battery are located inside the housing; the housing It is equipped with a handle, self-collimating telescope, measurement adjustment device, input and output device and base. 2. A kind of building engineering surveying equipment based on photoelectric technology according to claim 1, is characterized in that: described signal processing module comprises signal acquisition original, microprocessor and signal output original, microprocessor and signal output original electrical connection. 3. A construction engineering measurement device based on optoelectronic technology according to claim 1, characterized in that: said self-collimating telescope is installed in the center of the casing, including an eyepiece, an objective lens and a telescope focusing handwheel. 4. A construction engineering measurement device based on photoelectric technology according to claim 1, characterized in that: said measurement adjustment device includes a vertical stop manual wheel, a vertical micro-motion manual wheel, a horizontal stop manual wheel, a horizontal micro-motion Manual wheel and lower counterpointer. 5. A construction engineering measurement device based on optoelectronic technology according to claim 1, characterized in that: said input and output device includes a display screen, a keyboard and a communication interface. 6. A construction engineering measurement device based on photoelectric technology according to claim 1, characterized in that: the base is provided with a base adjustment knob and a circular level.