CN204439077U - Total powerstation monitoring prism - Google Patents

Abstract

The utility model discloses a kind of total powerstation monitoring prism, comprise be provided with laser pick-off portion prism body, this is external for assisting the luminaire that throws light on and for regulating the light control system of luminaire luminance to be located at prism; The laser induced sensor that light control system comprises processor and is connected with processor; Laser pick-off portion receives the laser beam information of total powerstation transmitting and by after laser induced sensor transmissions to processor, processor controls luminaire conversion luminescence state; The illumination of luminaire can guide total powerstation quick position prism apparatus position under the condition of low visibility, conveniently in comparatively dark environment, carries out surveying work; The luminance that luminaire can realize receiving before and after laser at prism body under the control of light control system is simultaneously changed, and makes to have information interaction feedback between prism apparatus and total powerstation; The utility model can make up the defect of existing measuring technique, ensure photoenvironment inclement condition when surveying work smooth, efficiently carry out.

Description

Total powerstation monitoring prism

Technical field

The utility model relates to a kind of device being applicable to the monitoring of auxiliary total powerstation, particularly a kind of total powerstation monitoring prism.

Background technology

In surveying work, the use of total powerstation is not limited only to the basic measurement tasks such as Coordinate setting-out, and it also has and uses widely in the deformation monitoring of the capital construction such as bridge, tunnel and building, structure; The most important condition that total powerstation uses requires intervisibility between observation station, and its measuring accuracy and efficiency are not only relevant, more inseparable with observing environment condition to the skill level of operator and working experience; Especially with total powerstation carry out newly built tunnels Vault settlement come of age Liang Sicheng monitoring or the greasy weather carry out building or structures tilt monitoring time, the reason such as low and greasy weather low visibility based on tunnel illumination intensity, total powerstation is at searching target prism and sight that prism spended time is more and alignment prism center difficult, the interchange of metrical information, the propelling of measurement progress affect greatly by electromagnetic wave signal in tunnel, thus cause measurement difficulty larger, measuring accuracy is difficult to be guaranteed, limit the finding range of total powerstation, reduce measurement efficiency.At present, must have during testing to measure under the condition of low visibility and run mirror personnel and total station prism is illuminated just can complete measurement, compare labor intensive like this, also more time-consuming when total powerstation looks for target, add the difficulty of measurement, also can cause simultaneously and sight deviation.

Therefore, in order to solve the problems of the technologies described above, a kind of total powerstation is just needed to monitor prism, total powerstation quick position prism location under the condition of low visibility can be guided, and can and total powerstation between carry out information interaction feedback, to make up the defect of existing measuring technique, ensure photoenvironment inclement condition when surveying work smooth, efficiently carry out.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of total powerstation to monitor prism, total powerstation quick position prism location under the condition of low visibility can be guided, and can and total powerstation between carry out information interaction feedback, to make up the defect of existing measuring technique, ensure photoenvironment inclement condition when surveying work smooth, efficiently carry out.

Total powerstation of the present utility model monitoring prism, comprise be provided with laser pick-off portion prism body, this is external for assisting the luminaire that throws light on and for regulating the light control system of luminaire luminance to be located at prism; The laser induced sensor that described light control system comprises processor and is connected with processor; Described laser pick-off portion receives the laser beam information of total powerstation transmitting and by after laser induced sensor transmissions to processor, described processor controls luminaire conversion luminescence state.

Further, this device also comprises the observation board for measuring identification, and described luminaire is installed on observation board surface and is positioned at the periphery of prism body.

Further, described luminaire is LED group, and described observation board is provided with for embedding the light trough connected for LED group.

Further, described laser pick-off portion receives laser beam information that total powerstation launches and by after laser induced sensor transmissions to processor, described processor controls luminaire and is converted to normal bright state from blink states.

Further, described observation board is provided with centering instruction unit, described centering instruction unit is connected with can be luminous indicator; Described laser pick-off portion receive total powerstation launch laser beam information and by after laser induced sensor transmissions to processor, described processor Control director conversion luminescence state.

Further, described laser pick-off portion receive total powerstation launch laser beam information and by after laser induced sensor transmissions to processor, described processor Control director generation colour switching.

Further, described prism body comprises Jing Gai, and described Jing Gai forms laser pick-off portion.

Further, described light control system also comprises the power module for powering to each power unit be connected with processor, and described power module is the one or more kinds of combinations in general dry battery, Li-Ion rechargeable battery, nickel-hydrogen chargeable cell and solar energy charging battery.

Further, this device also comprises the pedestal for supporting described prism body, and described processor is placed in pedestal.

Further, this device also comprises sound production prompt device, and described laser pick-off portion receives the laser beam information of total powerstation transmitting and by after laser induced sensor transmissions to processor, described processor controls sound production prompt device and sends prompting sound.

The beneficial effects of the utility model: total powerstation monitoring prism of the present utility model, the illumination of luminaire can guide total powerstation quick position prism apparatus position under the condition of low visibility, conveniently in comparatively dark environment, carries out surveying work; The luminance that luminaire can realize receiving before and after laser at prism body under the control of light control system is simultaneously changed, and makes to have information interaction feedback between prism apparatus and total powerstation; The utility model can make up the defect of existing measuring technique, ensure photoenvironment inclement condition when surveying work smooth, efficiently carry out.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further described:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the control structure figure of light control system of the present utility model.

Embodiment

Fig. 1 is structural representation of the present utility model, Fig. 2 is the control structure figure of light control system of the present utility model, as shown in the figure: the total powerstation of the present embodiment monitoring prism, comprise be provided with laser pick-off portion 1a prism body 1, be located at outside prism body 1 for assisting the luminaire 2 that throws light on and for regulating the light control system of luminaire 2 luminance; The laser induced sensor 32 that described light control system comprises processor 31 and is connected with processor 31; Described laser pick-off portion 1a receives the laser beam information of total powerstation transmitting and after being transferred to processor 31 by laser induced sensor 32, described processor 31 controls luminaire 2 conversion luminescence state; Prism body 1 is the reflective body parts having coordinated measurement with total powerstation, and total powerstation can launch the laser such as infrared laser for measuring, and laser pick-off portion 1a then senses this laser when measuring laser and arriving prism body 1; Luminaire 2 can select existing illuminating lamp, and " this is external to be located at prism " refers to that the position of luminaire 2 can not affect the laser measurement between prism body 1 and total powerstation, but its light sent then is conducive to the visual effect improving prism body 1; Luminaire 2 preferably coordinates with a light-operated switch, and the light intensity of light-operated switch induced environment also regulates the luminous power of luminaire 2 automatically; Processor 31 can be miniature central processing element, arranges light looped system in chip; The luminance of luminaire 2 refers to the information that the color of the light sent from luminaire 2, brightness, colour temperature or dim light cycle etc. are relevant; The conversion of luminance should so that survey crew be recognized as principle; The illumination of luminaire 2 can guide total powerstation quick position prism apparatus position under the condition of low visibility, conveniently in comparatively dark environment, carries out surveying work; The luminance that luminaire 2 can realize receiving before and after laser at prism body 1 under the control of light control system is simultaneously changed, make that there is between prism apparatus and total powerstation information interaction feedback, ensure photoenvironment inclement condition when surveying work smooth, efficiently carry out, the conversion of such as luminance also mean that our station is measured and terminates, prompting prism vertical rod staff moves to next observation station vertical rod, so both avoid causing the delayed of surveying work process when Signal transmissions is not smooth in tunnel, also farthest achieve independent communication between people and instrument.

In the present embodiment, this device also comprises the observation board 4 for measuring identification, and described luminaire 2 is installed on observation board 4 surface and is positioned at the periphery of prism body 1; As shown in Figure 1, observation board 4 is removably connected with prism body 1, and observation board 4 pairs of prism body 1 forming sections contain; Observation board 4 preferably has characteristic reflective by force, is equipped with the prism apparatus of observation board 4, measurement operating personnel can be made to recognize measurement target easily, search out prism body 1, improves the efficiency of surveying work; In the present embodiment, described luminaire 2 is LED group, and described observation board 4 is provided with for embedding the light trough connected for LED group; Light trough can be the groove being located at edge, observation board 4 front, and depth of groove is greater than LED height, after LED group embeds light trough, can cover a transparency protected shell, to prevent LED from damaging, increase the service life; In addition, for ease of dismounting and the raising stable connection degree of LED, the top mouth of light trough is evenly equipped with the elastic card that can block LED along its length, elastic card is by two panels symmetrically arranged spring plate group forming V-shape structure, spring leaf top is connected by screw with light trough edge, bottom extends to light trough inside and touches, and when LED embeds in light trough, elastic card can stuck fast LED.

In the present embodiment, described laser pick-off portion 1a receives the laser beam information of total powerstation transmitting and after being transferred to processor 31 by laser induced sensor 32, described processor 31 controls luminaire 2 and is converted to normal bright state from blink states; Blink states is converted to normal bright state, and survey crew is easily recognized; Receive at laser pick-off portion 1a and measure before laser, luminaire 2 blinking illumination, make total powerstation can quick position prism apparatus position; After laser pick-off portion 1a receives measurement laser, luminaire 2 is made to keep continuing illumination, to point out the alignment of survey crew prism body 1 by the processor 31 with light looped system; Certainly, these two kinds of luminances also can be exchanged, and do not affect the realization of its floor light and indication function.

In the present embodiment, described observation board 4 is provided with centering instruction unit 4a, described centering instruction unit 4a is connected with can be luminous indicator 5; Described laser pick-off portion 1a receive total powerstation launch laser beam information and after being transferred to processor 31 by laser induced sensor 32, described processor 31 Control director 5 conversion luminescence state; As shown in Figure 1, centering instruction unit 4a can be triangle and assists centering Warning Mark, use three point to respectively top, prism body 1 front, left end and right-hand member isosceles triangle as mark, be convenient to survey crew rapid alignment prism body 1; Indicator 5 is preferably LED color-changing lamp belt, under processor 31 controls, colour switching can occur, survey crew is easily recognized; Before laser pick-off portion 1a receives measurement laser, indicator 5 is in green display; Receive at laser pick-off portion 1a and measure after laser, indicator 5 takes on a red color display; Certainly, also can be that other easily identifies the color of identification.

In the present embodiment, described prism body 1 comprises mirror lid 11, and described mirror lid 11 forms laser pick-off portion 1a; The main body reflecting part of mirror lid 11 pairs of prism bodies 1 plays a protective role; Laser pick-off portion 1a both can be the one deck in mirror lid, also can be that mirror lid is overall; Such as, mirror lid 11 can select the material that induction sensitivity is high, laser-transmitting is strong to make laser induced minute surface.

In the present embodiment, described light control system also comprises the power module 33 for powering to each power unit be connected with processor 31, and described power module 33 is the one or more kinds of combinations in general dry battery, Li-Ion rechargeable battery, nickel-hydrogen chargeable cell and solar energy charging battery; Preferably, power module 33 is for being connected to the thin film solar cell sheet at observation board 4 back side, energy-conservation and be beneficial to environmental protection; Now also need to arrange power storage module and a-c transducer.

In the present embodiment, this device also comprises the pedestal 6 for supporting described prism body 1, and described processor 31 is placed in pedestal 6; Pedestal 6 is in box-like, and the upper end of pedestal 6 connects prism body 1, lower end connects prism bar (not shown); Rely on prism bar to be supported by prism body 1 during use, relevant switch can be located on prism bar, handled easily; Processor 31 and other important electric elements all can be placed in pedestal 6, to form protection to electric elements, extend their serviceable life.

In the present embodiment, this device also comprises sound production prompt device 7, and described laser pick-off portion 1a receives the laser beam information of total powerstation transmitting and after being transferred to processor 31 by laser induced sensor 32, described processor 31 controls sound production prompt device 7 and sends prompting sound; Strengthen the prompting effect of this device.

What finally illustrate is, above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify to the technical solution of the utility model or equivalent replacement, and not departing from aim and the scope of technical solutions of the utility model, it all should be encompassed in the middle of right of the present utility model.

Claims (10)

1. a total powerstation monitoring prism, is characterized in that: comprise be provided with laser pick-off portion prism body, this is external for assisting the luminaire that throws light on and for regulating the light control system of luminaire luminance to be located at prism; The laser induced sensor that described light control system comprises processor and is connected with processor; Described laser pick-off portion receives the laser beam information of total powerstation transmitting and by after laser induced sensor transmissions to processor, described processor controls luminaire conversion luminescence state.

2. total powerstation monitoring prism according to claim 1, is characterized in that: this device also comprises the observation board for measuring identification, and described luminaire is installed on observation board surface and is positioned at the periphery of prism body.

3. total powerstation monitoring prism according to claim 2, it is characterized in that: described luminaire is LED group, described observation board is provided with for embedding the light trough connected for LED group.

4. total powerstation monitoring prism according to claim 1, it is characterized in that: described laser pick-off portion receives the laser beam information of total powerstation transmitting and by after laser induced sensor transmissions to processor, described processor controls luminaire and is converted to normal bright state from blink states.

5. the total powerstation monitoring prism according to any one of claim 2 to 4, is characterized in that: described observation board is provided with centering instruction unit, described centering instruction unit is connected with can be luminous indicator; Described laser pick-off portion receive total powerstation launch laser beam information and by after laser induced sensor transmissions to processor, described processor Control director conversion luminescence state.

6. total powerstation according to claim 5 monitoring prism, is characterized in that: described laser pick-off portion receives laser beam information that total powerstation launches and by after laser induced sensor transmissions to processor, described processor Control director generation colour switching.

7. total powerstation monitoring prism according to claim 5, it is characterized in that: described prism body comprises Jing Gai, described Jing Gai forms laser pick-off portion.

8. total powerstation monitoring prism according to claim 5, it is characterized in that: described light control system also comprises the power module for powering to each power unit be connected with processor, and described power module is the one or more kinds of combinations in general dry battery, Li-Ion rechargeable battery, nickel-hydrogen chargeable cell and solar energy charging battery.

9. total powerstation monitoring prism according to claim 5, is characterized in that: this device also comprises the pedestal for supporting described prism body, and described processor is placed in pedestal.

10. total powerstation monitoring prism according to claim 5, it is characterized in that: this device also comprises sound production prompt device, described laser pick-off portion receives the laser beam information of total powerstation transmitting and by after laser induced sensor transmissions to processor, described processor controls sound production prompt device and sends prompting sound.