CN202582530U - Construction positioning laser distance measuring device - Google Patents
Construction positioning laser distance measuring device Download PDFInfo
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- CN202582530U CN202582530U CN 201120499204 CN201120499204U CN202582530U CN 202582530 U CN202582530 U CN 202582530U CN 201120499204 CN201120499204 CN 201120499204 CN 201120499204 U CN201120499204 U CN 201120499204U CN 202582530 U CN202582530 U CN 202582530U
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- 238000010276 construction Methods 0.000 title claims abstract description 29
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- 230000000149 penetrating effect Effects 0.000 claims description 42
- 230000001105 regulatory effect Effects 0.000 claims description 21
- 238000005259 measurement Methods 0.000 claims description 12
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- 238000006073 displacement reaction Methods 0.000 claims description 2
- 238000013507 mapping Methods 0.000 abstract description 16
- 230000011218 segmentation Effects 0.000 description 5
- 238000006243 chemical reaction Methods 0.000 description 4
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Abstract
A construction positioning laser ranging device comprises: a seat body for accommodating the bearing seat of the mechanism component; the automatic horizontal and gradient adjusting mechanism can automatically adjust to absolute horizontal or preset gradient; a base point laser for downwards emitting laser light and aligning the laser light with the reference point; a laser ranging structure for displaying a laser ranging light spot; the mapping object reflects laser rays emitted by the laser ranging structure or directly receives the laser rays to measure the distance and the lofting mark; a control circuit, which sets corresponding integrated circuit according to the level and gradient automatic adjusting mechanism, the base point laser and the laser ranging structure; a manual operation structure, which is arranged on the seat body and is used for controlling the sequential action of the components; a remote control device, which can transmit operation signals to remotely control the operation circuit to display the distance and the sequential action of the components on the screen.
Description
Technical field
The utility model is to make the accurate device that shows to the distance of predetermine one of surveying of basic point about a kind of the aligning with laser point; Especially refer to that this device is provided with gradient and adjusts automatically and constitute the aligning predetermine one make the range finding laser beam be accurate level or predetermined slant; And survey apparent distance simultaneously at object place and basic point place; And can show in the survey of the conversion of coaxial online different distance, to demonstrate the different distance of continuous object connection.
Background technology
Known construction place is for example: the graticule of building lot or indoor decoration etc. and span are as rising when making basic point with connection angle, distance, the gradient; The gage and the angle square that used in the past; And heavily hang down, the metrology operation of people's Work tool such as horizon equipment; The equidistant size of levelness, verticality or angle that often measures the orientation because of the sum of errors of measurer is difficult for ajusting, and place environmental factor or artificial error and be difficult for accurately; Even; Having warp and weft laser to show injection device is indicated on the predetermine one with accurate levelness and apparent the penetrating of verticality; But make basic point and need operate more than two people to the distance of this desired object with to the measurement of the position or the gradient by rising, one-shot measurement has only data, can not contiguous segmentation or measurement piecemeal; And have only a display screen on the basic point instrument, to show; Then be often to put straight degree in the place to be difficult for, or gage repeatedly prolongs the add up error of survey, the artificial operation that measures the distance and the gradient is perplexed because of gage; And then, there is the hand-held distance measuring equipment development of laser beam to use.
Yet; Locate when making building the place, aimed at hand-held this laser ranging system of manual work and made reference point, and levelness of handing and isoazimuth degree aligning predetermine one up and down; Be to be difficult to accurate operation in fact, and make us to confirm the precision that measures; And if need have the connection of the conversion of orientation or distance and position to measure the time; Promptly do not have piecemeal obtain a segment distance with segmentation can setting-out, the function of locating, engraving; And have no way of confirming the degree of accuracy of its association, cause this hand-held laser ranging system not have practical usefulness and show its disappearance.
In view of this utility model creator still studies in detail and improves, and discloses a kind of construction locating laser of the utility model distance measuring equipment.
The utility model content
The purpose of the utility model is to provide a kind of construction locating laser distance measuring equipment, to overcome the defective that exists in the known technology.
For realizing above-mentioned purpose, the construction locating laser distance measuring equipment that the utility model provides comprises:
One pedestal is provided with ccontaining each mechanism of a pedestal and a barrel shell and assembly;
One level and gradient automatic mechanism are placed on and one group of above warp and weft is set on the calibration console shows and penetrate structure, are adjusted into abswolute level and predetermined slope in uneven building site;
One basic point laser instrument, its laser beam show vertically downward to be penetrated, and adjustment has been aimed at and made reference point;
One laser ranging structure, its laser beam horizontal direction show penetrates the range finding luminous point;
One control circuit, according to this level and gradient automatic mechanism, this basic point laser instrument and this laser ranging structure sequential operation campaign, each corresponding integrated circuit is arranged in this pedestal;
One manual operative configuration is arranged at this control circuit order start of enable manual operation on this pedestal.
Described construction locating laser distance measuring equipment; A regulating ring dish wherein is pivoted in the pedestal of this pedestal; Four location shrinkage pools are established in digging of these regulating ring tray bottom equal portions; And pivot connects a swivel eye seat four location shrinkage pool equal portions that should the regulating ring dish is provided with four latches, four location shrinkage pools of the flexible fastening that can when turn, operate and this pedestal regulating ring dish of triping in this regulating ring dish.
Described construction locating laser distance measuring equipment further comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, can launch this control circuit order start of operation signal remote control of this key groups; The bottom surface, hole that these pedestal regulating ring dish equal portions dig four location shrinkage pools establishing respectively is provided with a sensory rod; Can be when this rotary body ring seat turn displacement make that these four latches are flexible to buckle in the shrinkage pool of four location of this pedestal regulating ring dish, press and touch this each sensory rod and transmit the signal that puts in place.
Described construction locating laser range unit further comprises a mapping object and a remote control; This mapping object shows the horizontal laser light light of penetrating for this laser ranging of reflection structure or directly receives this laser ranging structure and shows the horizontal laser light amount of light range finding of penetrating and leave; This remote control is provided with key groups and digitlization screen, can launch this control circuit order start of operation signal remote control of this key groups; This basic point laser instrument is installed on the calibration console of level and gradient automatic mechanism; Its laser beam pass downwards this pedestal show penetrate in outside; And this laser ranging structure also is installed on this level and the gradient automatic mechanism calibration console; The laser rays of its this basic point laser instrument of horizontal laser light light quadrature, the barrel shell that also passes this pedestal show penetrate in outside.
Described construction locating laser range unit further comprises a mapping object and a remote control; This mapping object shows the horizontal laser light light of penetrating for this laser ranging of reflection structure or directly receives this laser ranging structure and shows the horizontal laser light amount of light range finding of penetrating and leave; This remote control is provided with key groups and digitlization screen, can launch this control circuit order start of operation signal remote control of this key groups; Be provided with on this mapping object that reflecting plate or laser collector are mobile to be placed on the scheduled measurement distance and position; Adjust this laser ranging structure and show the reflection angle of the horizontal laser light light of penetrating, or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave.
Described construction locating laser range unit further comprises a mapping object and a remote control; This mapping object shows the horizontal laser light light of penetrating for this laser ranging of reflection structure or directly receives this laser ranging structure and shows the horizontal laser light amount of light range finding of penetrating and leave; This remote control is provided with key groups and digitlization screen, can launch this control circuit order start of operation signal remote control of this key groups; The operation keyboard of this manual operation structure with apart from display screen be arranged at according to each corresponding integrated circuit of this pedestal, level and operation in tandem campaigns such as gradient automatic mechanism, basic point laser instrument and laser ranging structure be shown on this pedestal barrel shell outside.
Described construction locating laser distance measuring equipment; It is to construct with moving with this basic point laser instrument, this laser ranging that one group of apparent structure of penetrating of above warp and weft wherein is set on the calibration console of this level and gradient automatic mechanism; And the barrel shell that the laser rays of its level and vertical laser beam pass this pedestal show penetrate in outside, and control by this manual operation structure and telechiric device.
Described construction locating laser distance measuring equipment further comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, can launch this control circuit order start of operation signal remote control of this key groups; It is that vertical laser rays with this basic point laser instrument is an angle of 90 degrees position that is placed at center that this warp and weft shows each the vertical laser beam penetrate structure.
Described construction locating laser distance measuring equipment further comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, can launch this control circuit order of operation signal remote control start person of this key groups; It is to coincide with the projection of the vertical laser rays coaxial cable of this basic point laser instrument that this warp and weft shows each the vertical laser beam penetrate structure.
Described construction locating laser distance measuring equipment further comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, can launch this control circuit order start of operation signal remote control of this key groups; It is the horizontal laser light light that is parallel to this laser ranging structure that this warp and weft shows each horizontal laser light light of penetrating structure.
Described construction locating laser range unit further comprises a mapping object and a remote control; This mapping object shows the horizontal laser light light of penetrating for this laser ranging of reflection structure or directly receives this laser ranging structure and shows the horizontal laser light amount of light range finding of penetrating and leave; This remote control is provided with key groups and digitlization screen, can launch this control circuit order start of operation signal remote control of this key groups; It is that the horizontal laser light point of constructing with this laser ranging coincides that this graticule shows the vertical laser beam penetrate structure.
The effect of the utility model is:
1) makes this laser beam range finding tectonic energy accurate levelness of adjustment and the predetermined gradient automatically, and penetrate the laser dotted line with location apparent and aimed at and make basic point and guarantee the accurate distance of finding range.
2) make this laser ranging structure survey object and be positioned over the scheduled volume location and put, can locate and engrave setting-out according to this according to the associated numerical value that multi-spot segmentation is measured with mark movably.
3) rotation that this laser ranging structure can be controlled keeps the accurate levelness or the predetermined gradient and accurately to the distance measuring and location setting-out of bit map.
Description of drawings
Fig. 1 is the schematic appearance of the utility model.
Fig. 2 is the combination dissected figure of the utility model.
Fig. 3 is along the diagrammatic cross-section of I-I direction among Fig. 2.
Fig. 4 is along the diagrammatic cross-section of II-II direction among Fig. 2.
Fig. 5 is that one of the utility model uses synoptic diagram.
Fig. 6 is another use synoptic diagram of the utility model.
Fig. 7 is the schematic appearance of another embodiment of the utility model.
Fig. 8 is the combination dissected figure of Fig. 7 embodiment.
Fig. 9 is the use synoptic diagram of Fig. 7 embodiment.
Primary clustering symbol description in the accompanying drawing:
The utility model
1 pedestal, 11 pedestals, 111 fine setting legs, 112 fenestras, 12 regulating ring dishes; 121 wrom tooths wheel, 122 worm screws, 123 fine setting buttons, 124 location shrinkage pools, 125 sensory rods; 13 swivel eye seats, 131 bulge loop dishes, 132 latches, 133 annular wheels, 14 gear motors; 141 pinion wheels, 15 barrel shells, 151 windows, 16 electrical source of power rooms;
2 levels and gradient automatic mechanism, 21 support seat, 211 central hole, 22 calibration consoles, 23 horizontal inclination detector, 24 pillars, 25 dynamic equipments;
3 basic point laser instruments, 31 laser beams, 311 laser point;
4 laser rangings structure, 41 laser projecting apparatuss, 411 laser beams, 412 laser point, 42 reflected light collectors;
5 marks are surveyed object, 51 reflecting plates, 52 laser collectors;
6 control circuits, 61 integrated circuit, 62 receivers;
7 manual operations structure, 71 manual operation keyboards, 72 distance display screens;
8 telechiric devices, 81 key groups, 82 digitizing screens;
Other embodiment of the utility model
The 1a pedestal; The 15a barrel shell; The 151a window; The 3a warp and weft shows penetrates structure; 31a horizon light ray device; 32a horizontal laser light light; 33a vertical light ray device; The vertical laser beam of 34a.
Embodiment
The technical scheme of the utility model is:
A kind of construction locating laser distance measuring equipment comprises:
One pedestal, the bearing of ccontaining mechanism and assembly;
One level and gradient automatic mechanism can be adjusted into abswolute level or predetermined slope automatically;
One basic point laser instrument shows downwards and penetrates laser beam and aimed at and make reference point;
One laser ranging structure shows and penetrates laser beam range finding luminous point;
One mapping object, reflector laser range finding structure show the laser beam of penetrating or directly receive laser beam measurement distance with its distance of screen display;
One control circuit is provided with corresponding integrated circuit according to this level and gradient automatic mechanism, basic point laser instrument and laser ranging structure etc.;
One manual operative configuration is located on this pedestal and is controlled sequentially-operating;
One telechiric device can firing operation remote controlled with signals this control circuit order and the start of setting-out mark.
Following conjunction with figs. elaborates, and the embodiment that the utility model is feasible further specifies and is able to specifically distinct.
See also Fig. 1-shown in Figure 6, the utility model mainly comprises: a pedestal 1, one level and gradient automatic mechanism 2; One basic point laser instrument, 3, one laser rangings structure, 4, one marks are surveyed object 5; One control circuit, 6, one manual operative configuration 7, one telechiric devices 8 grades partly constitute.
See also Fig. 2-shown in Figure 4, these pedestal 1 pedestal 11 bottom equal portions are provided with three fine setting legs 111, the inside regulating ring dish 12 that is pivoted.These regulating ring dish 12 outer peripheral edges faces set firmly wrom tooth wheel 121 engagement hub settings corresponding worm screw 122 that is pivoted on this pedestal 11; And extend two fine setting buttons 123 outside this pedestal 11; And in the inner peripheral edge surfaces of this regulating ring dish 12 bottom digging of equal portions established four location shrinkage pools 124; Shrinkage pool 124 positions, these four location are to be 90 degree symmetry angle settings accurately, but also can be subdivided into greater than the equal portions angle more than 4, and respectively these location shrinkage pool 124 bottom surfaces respectively are provided with a sensory rod 125.
These regulating ring dish 12 inner peripheral edge surfaces top pivots connect a swivel eye seat 13, and these swivel eye seat 13 end faces are connected with a bulge loop dish 131 and are positioned at this suitable spacing in pedestal 11 tops.These swivel eye seat 13 nearly root edge face equal portions 132 pairs of four latches are set should 12 4 on regulating ring dish location shrinkage pool 124, operable flexible these four latches 132 stretch out and fasten and each is pressed and touches this sensory rod 125, or contract to move back and trip and leave this each sensory rod 125.
These swivel eye seat 13 inner peripheral edge surfaces tops set firmly an annular wheel 133 engagements and are installed in the pinion wheel 141 transmissions rotation that the gear motor 14 on this pedestal 11 turns.These bulge loop dish 131 end faces are nested with a barrel shell 15 and contain each assembly such as these levels and gradient automatic mechanism 2, basic point laser instrument 3, laser ranging construct 4, control circuit 6, and electrical source of power room 16 is set.
This level and gradient automatic mechanism 2 are supported this pedestal 1 swivel eye seat 13 end faces that are installed in of seat 21 symmetries; Its calibration console 22 is provided with a horizontal inclination detector 23; This horizontal inclination detector 23 can be traditional bubble type or digitized horizontal gradient detects formation; Pivot by three pillars, 24 symmetrical equal portions is connected on this support seat 21; And can control dynamic equipment 25 by these horizontal inclination detector 23 sensings, this dynamic equipment 25 can use the device of stepping or servo motor to drive the levelness of adjusting this calibration console 22 automatically that this each pillar 24 goes up and down.
One basic point laser instrument 3 is installed with calibration console 22 central points at this level and gradient automatic mechanism 2, its laser beam 31 through this level and gradient automatic mechanism 2 support seat 21 central hole 211 and this pedestal 1 pedestal 11 fenestras 112 to show downwards to penetrate in outside.
This laser ranging structure 4 is fixedly arranged in this level and gradient automatic mechanism 2 calibration consoles 22; The laser beam of its laser projecting apparatus 41 is laser beams of this basic point laser instrument 3 of quadrature; The laser beam that reaches a reflected light collector 42 and this laser throwing device 41 is the predetermined angular setting, and is equipped with window 151 in these barrel shell 15 correspondence positions.
See also shown in Figure 6; This mark survey object 5 is provided with a reflecting plate 51 and constructs 4 laser projecting apparatuss, the 41 apparent laser beams of penetrating 411 to this reflected light collector 42 receptions for this laser ranging of reflection, or the laser point 412 that a laser collector 52 directly receives these laser projecting apparatuss 41 are set.
This control circuit 6 is according to the sequential operation and the motion of this swivel eye seat 13, level and gradient automatic mechanism 2, basic point laser instrument 3 and laser ranging structure 4 etc.; Its corresponding integrated circuit 61 is set on this swivel eye seat 13, and the signal that a receiver 62 is accepted these telechiric device 8 each assembly starts of operation is set.This manual operation constitute 7 pairs should each assembly scheduled operation job procedure, a manual operation keyboard 71 and a distance display screen 72 are set on this barrel shell 15, enable manual is controlled this control circuit 6 sequentially-operatings.
This telechiric device 8 is provided with key groups 81 and digitizing screen 82, each assembly of operation of these control circuit 6 orders of remote control that can transmit.
When using the utility model; Can be positioned on foot rest or other support body (consults shown in Figure 5); Can this three fine settings leg 111 be finely tuned level of approximation in advance in response to the placement situation; After start, can operate by the key groups 81 of this telechiric device 8 or the manual operation keyboard 71 that is arranged on this barrel shell 15; The horizontal inclination detector 23 of this level and gradient automatic mechanism 2 promptly earlier detects horizontality automatically, operates the corresponding pillar 24 of each dynamic equipment 25 up-down respectively, and these calibration console 22 motions are levelness accurately; And this basic point laser instrument 3 of interlock and this laser ranging constitute 4 also be vertical accurately and horizontality after; The laser point 311 of these basic point laser instrument 3 laser beams 31 aimed at made basic point location, shown again and penetrate laser beam 411 that this laser ranging constructs 4 laser projecting apparatuss 41 and be projeced on the precalculated position span and engrave, also can control predetermined slope that this each dynamic equipment 25 makes this calibration console 22 be the plus or minus angle and show and penetrate the laser beam 411 that 4 laser projecting apparatuss 41 are constructed in this laser ranging.
If the position that the laser projecting apparatus 41 of this laser ranging structure 4 is projeced on the precalculated position has skew slightly; Then can rotate these swivel eye seat 13 these laser rangings of orientation interlock and construct the predetermined measurement position of 4 laser beams, 411 alignings by the manual operation keyboard that is provided with on these telechiric device 8 key groups 81 or the barrel shell 15 71 operations.
If still have error slightly; The rotatable fine setting button 123 accurate visual alignings that are somebody's turn to do; And when aiming at another azimuthal measuring of bearing change that measures back desire 90 angles and engraving; It is that common buildings or indoor decoration are the most often used that the bearing change that can control this swivel eye seat 13 rotation (consulting shown in Fig. 5 dotted line) an angle of 90 degrees is measured again; And earlier these swivel eye seat 13 each latches 132 are contracted automatically and withdraw from this regulating ring dish 12 and respectively locate after shrinkage pool 124 trips,, and remove contracting of this each latch 132 in the rotation back and move back operation and flexible stretching out promptly by these swivel eye seat 13 rotations of gear motor 14 drive pinions 141 interlocks; When these each latch 132 turns buckle into this when respectively locating shrinkage pool 124 once more; Press this and respectively locate the sensory rod 125 in the shrinkage pool 124; Promptly transmitting the signal that puts in place controls the motion that stops this gear motor 14 for the integrated circuit 61 of this control circuit 6; Make the measurement in another orientation that continues, can with 90 degree bearing change detected level distances accurately with engrave mark.
If the utility model is when being used in same multiple point distance measurement to the position shown in (consulting Fig. 6 imaginary line); This mapping object 5 is placed near the predetermined position that measures; The laser point 412 of being constructed 41 projections of the 4 light ray projectors by the reflecting plate 51 that is provided with in this mapping object 5 or 52 direct these laser rangings of reception of laser collector measures distance; And that complies with these remote control 8 digitlization screens 82 or this manual operation structure 7 shows numerical value apart from display screen 72; But one man operation directly this mapping object 5 is moved to accurate position fast; Make and exempt the time that reflection angle is operated and shortening is moved that the 4 light ray projectors, 41 laser point, 412 these reverberation collectors 42 of aligning are constructed in this laser ranging, and can put obvious immediately distance values at existing location; And behind the calculation procedure in engraving and be stored into this remote control 8; Move this mapping object 5 again to the predetermined second place that measures; Operate these remote control 8 intended function buttons and for example can show required distance values: make zero with accumulate mode piecemeal or segmentation range finding, and can obtain distance values arbitrarily in the different interval position; Or during the multiple point distance measurement of different azimuth (consulting shown in Fig. 6 dotted line); After the measurement of the precalculated position of mapping object 5; Move the orientation again to the second measurement position; Can move accurate position promptly according to these laser ranging structure 4 complete third constellations theorem measuring functions that include according to the numerical value of these remote control 8 demonstration hypotenuses and minor face, and can obtain distance values in arbitrarily angled orientation.
Another embodiment of the utility model (consulting figure, shown in Figure 8) adjusts the apparent structure 3a that penetrates of the warp and weft of setting up on the structure 2 more than a group automatically in this level and the gradient; The window 151a that this warp and weft is shown penetrate the vertical laser beam 34a of each horizon light ray device 31a, horizontal laser light light 32a and vertical light ray device 33a that structure 3a contains to wear through this pedestal 1a barrel shell 15a correspondence shows and penetrates; And this each vertical light ray device 33a is to be the center with these basic point laser instrument 3 laser beams 31; An angle of 90 degrees position accurately is placed in; And its vertical laser beam 34a is a laser beam 31 with this basic point laser instrument 3 is that the projection of coaxial cable coincides; And this each horizon light ray device 31a horizontal laser light light 32a is parallel to this laser ranging to construct 4 laser projecting apparatuss, 41 laser beams 411, and the vertical laser beam 34a that makes this laser ranging construct laser point 412 and a vertical light ray device 32a of 4 laser projecting apparatuss 41 coincide (consulting shown in Figure 9).
Comprehensive institute is old; The utility model according to above-mentioned formation, function and projects narration; Thereby make full use of automatic alignment light ray distance measuring equipment and show the jetting Pingdu and the gradient accurately; And cooperate the conversion usefulness in the light ray orientation of warp and weft horizontal vertical, can reach with laser same or different azimuth accurately piecemeal with segmentation distance measuring function.
The spirit and the category of function outward appearance, configuration, quantity and the overall utility of each structure assembly that thought the utility model is disclosed for convenience of explanation can be done impartial change and conversion, also should be regarded as the identical performance category of the utility model.
Claims (11)
1. a construction locating laser distance measuring equipment is characterized in that, comprising:
One pedestal is provided with ccontaining each mechanism of a pedestal and a barrel shell and assembly;
One is adjusted into the level and the gradient automatic mechanism of abswolute level and predetermined slope in uneven building site, be placed on one group of above warp and weft is set on the calibration console shows and penetrate structure;
The basic point laser instrument of making reference point has been aimed in one adjustment, and its laser beam shows vertically downward to be penetrated;
One laser ranging structure, its laser beam horizontal direction show penetrates the range finding luminous point;
One control circuit, according to this level and gradient automatic mechanism, this basic point laser instrument and this laser ranging structure sequential operation campaign, each corresponding integrated circuit is arranged in this pedestal;
The manual operation structure of this control circuit order start of one enable manual operation is arranged on this pedestal.
2. construction locating laser distance measuring equipment according to claim 1; Wherein, A regulating ring dish is pivoted in the pedestal of this pedestal; The digging of this regulating ring tray bottom equal portions established four location shrinkage pools, and pivot connects be provided with four latches of a swivel eye seat to four location shrinkage pool equal portions that should the regulating ring dish in this regulating ring dish, and operation is flexible when turn fastens and four location shrinkage pools of this pedestal regulating ring dish of triping.
3. construction locating laser distance measuring equipment according to claim 2 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; The bottom surface, hole that these pedestal regulating ring dish equal portions dig four location shrinkage pools establishing respectively is provided with a sensory rod; When this rotary body ring seat turn displacement makes that these four latches are flexible to buckle in the shrinkage pool of four location of this pedestal regulating ring dish, press and touch this each sensory rod and transmit the signal that puts in place.
4. construction locating laser distance measuring equipment according to claim 1 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; This basic point laser instrument is installed on the calibration console of level and gradient automatic mechanism; Its laser beam pass downwards this pedestal show penetrate in outside; And this laser ranging structure also is installed on this level and the gradient automatic mechanism calibration console; The laser beam of its this basic point laser instrument of horizontal laser light light quadrature, the barrel shell that also passes this pedestal show penetrate in outside.
5. construction locating laser distance measuring equipment according to claim 1 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; This mark is surveyed and on object reflecting plate is set or the laser collector is mobile is placed on the scheduled measurement distance and position; Adjust this laser ranging structure and show the reflection angle of the horizontal laser light light of penetrating, or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave.
6. construction locating laser distance measuring equipment according to claim 1 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order of operation signal remote control start person of this key groups; The operation keyboard of this manual operation structure construct each corresponding integrated circuit of sequential operation campaign with the distance display screen according to this pedestal, level and gradient automatic mechanism, basic point laser instrument and laser ranging and be arranged at be shown on this pedestal barrel shell outside.
7. construction locating laser distance measuring equipment according to claim 1; Wherein, One group of above warp and weft is set on the calibration console of this level and gradient automatic mechanism to be shown and penetrates structure and this basic point laser instrument, this laser ranging structure with moving; And the barrel shell that the laser beam of its level and vertical laser beam pass this pedestal show penetrate in outside, and control by this manual operation structure and telechiric device.
8. construction locating laser distance measuring equipment according to claim 7 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; It is an angle of 90 degrees position that is placed at center with the vertical laser beam of this basic point laser instrument that this warp and weft shows each the vertical laser beam penetrate structure.
9. construction locating laser distance measuring equipment according to claim 7 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; It is to coincide with the projection of the vertical laser beam coaxial cable of this basic point laser instrument that this warp and weft shows each the vertical laser beam penetrate structure.
10. construction locating laser distance measuring equipment according to claim 7 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; It is the horizontal laser light light that is parallel to this laser ranging structure that this warp and weft shows each horizontal laser light light of penetrating structure.
11. construction locating laser distance measuring equipment according to claim 7 wherein, comprises a mark survey object and a telechiric device; This mark is surveyed object and is shown the horizontal laser light light of penetrating for this laser ranging structure of reflection or directly receive this laser ranging structure and show the horizontal laser light amount of light range finding of penetrating and leave; This telechiric device is provided with key groups and digitizing screen, launches this control circuit order start of operation signal remote control of this key groups; It is that the horizontal laser light point of constructing with this laser ranging coincides that this warp and weft shows the vertical laser beam penetrate structure.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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TW100209333U TWM417538U (en) | 2011-05-25 | 2011-05-25 | Laser positioning and distance measurement device for construction |
TW100209333 | 2011-05-25 |
Publications (1)
Publication Number | Publication Date |
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CN202582530U true CN202582530U (en) | 2012-12-05 |
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CN 201120499204 Expired - Fee Related CN202582530U (en) | 2011-05-25 | 2011-12-05 | Construction positioning laser distance measuring device |
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TW (1) | TWM417538U (en) |
Cited By (9)
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CN103076000A (en) * | 2013-01-30 | 2013-05-01 | 陈健 | Three-dimensional range finder |
US8848180B1 (en) | 2013-09-05 | 2014-09-30 | Laserline Mfg., Inc. | Reference systems for indicating slope and alignment and related devices, systems, and methods |
CN104422431A (en) * | 2013-09-03 | 2015-03-18 | 罗伯特·博世有限公司 | Mobile marking system |
CN104713532A (en) * | 2015-03-10 | 2015-06-17 | 浙江新蓝达实业股份有限公司 | Laser marking instrument with automatic correcting function |
CN104764446A (en) * | 2014-01-03 | 2015-07-08 | 江苏莱赛激光装备有限公司 | Laser marking instrument and working method thereof |
US10011969B2 (en) | 2010-12-08 | 2018-07-03 | Laserline Mfg., Inc. | System for laying out and installing a solar array |
CN108613657A (en) * | 2018-05-07 | 2018-10-02 | 浙江省隧道工程公司 | A kind of plotting board and a kind of mapping method based on municipal works |
CN108828614A (en) * | 2018-08-23 | 2018-11-16 | 重庆光大网络技术有限公司 | Information acquisition terminal for house registration |
CN112284269A (en) * | 2020-10-23 | 2021-01-29 | 吴义洋 | Floor board measuring equipment for engineering of convenient operation |
-
2011
- 2011-05-25 TW TW100209333U patent/TWM417538U/en not_active IP Right Cessation
- 2011-12-05 CN CN 201120499204 patent/CN202582530U/en not_active Expired - Fee Related
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10011969B2 (en) | 2010-12-08 | 2018-07-03 | Laserline Mfg., Inc. | System for laying out and installing a solar array |
CN103076000A (en) * | 2013-01-30 | 2013-05-01 | 陈健 | Three-dimensional range finder |
CN103076000B (en) * | 2013-01-30 | 2015-09-02 | 陈健 | three-dimensional range finder |
CN104422431A (en) * | 2013-09-03 | 2015-03-18 | 罗伯特·博世有限公司 | Mobile marking system |
CN104422431B (en) * | 2013-09-03 | 2019-10-25 | 罗伯特·博世有限公司 | Movement indicia system |
US8848180B1 (en) | 2013-09-05 | 2014-09-30 | Laserline Mfg., Inc. | Reference systems for indicating slope and alignment and related devices, systems, and methods |
CN104764446A (en) * | 2014-01-03 | 2015-07-08 | 江苏莱赛激光装备有限公司 | Laser marking instrument and working method thereof |
CN104764446B (en) * | 2014-01-03 | 2017-06-16 | 江苏莱赛激光装备有限公司 | Laser Line Marker and its method of work |
CN104713532A (en) * | 2015-03-10 | 2015-06-17 | 浙江新蓝达实业股份有限公司 | Laser marking instrument with automatic correcting function |
CN108613657A (en) * | 2018-05-07 | 2018-10-02 | 浙江省隧道工程公司 | A kind of plotting board and a kind of mapping method based on municipal works |
CN108828614A (en) * | 2018-08-23 | 2018-11-16 | 重庆光大网络技术有限公司 | Information acquisition terminal for house registration |
CN112284269A (en) * | 2020-10-23 | 2021-01-29 | 吴义洋 | Floor board measuring equipment for engineering of convenient operation |
Also Published As
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TWM417538U (en) | 2011-12-01 |
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