CN212779116U - Non-contact thickness measuring device - Google Patents

Abstract

The utility model discloses a non-contact's thickness measurement device, including the measuring station, the lower extreme fixed mounting of measuring station has the support base, the middle part fixed mounting of measuring station upper end has the measuring plate, the measuring plate is the U-shaped structure, the middle part fixed mounting of measuring inboard upper end has laser gauge head A, the middle part fixed mounting of measuring inboard lower extreme has laser side head B, laser gauge head A and laser side head B are the same kind of structure, the front end movable mounting of measuring station upper end has places pole A, the rear end movable mounting of measuring station upper end has places pole B. The utility model discloses have the object and can insert through the standing groove and carry out quick fixed placing pole A and the inside of placing pole B, slide or skew appear when having avoided detecting and lead to detecting unsafe phenomenon, then make the object that needs measurement thickness can be quick insert and take out through the smooth plate, improved work efficiency, improved the device's detection effect simultaneously.

Description

Non-contact thickness measuring device

Technical Field

The utility model relates to a thickness measurement technical field specifically is a non-contact's thickness measurement device.

Background

The optical element is widely applied to high-power laser devices and semiconductor industries, the thickness detection of the optical element is an important link in the advanced optical manufacturing process, the surface of the optical element is easily damaged by using contact measuring devices such as a micrometer, the non-contact measuring devices such as a laser interference device and the like have complex structures, and the measuring result is easily influenced by the external environment.

At present, non-contact measurement is used for thickness measurement, but the existing non-contact thickness measurement device only places an object to be measured on a measuring table for detection, the phenomenon of inaccurate measurement caused by sliding deviation often occurs, meanwhile, the object cannot be fixed, and the laser detection cannot be shielded, so that strong illumination is influenced on measurement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thickness measurement device of non-contact to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides a non-contact's thickness measurement device, includes the measuring station, the lower extreme fixed mounting of measuring station has the support base, the middle part fixed mounting of measuring station upper end has the measuring plate, the measuring plate is the U-shaped structure, the middle part fixed mounting of measuring inboard upper end has laser gauge head A, the middle part fixed mounting of measuring inboard lower extreme of board has laser side head B, laser gauge head A and laser side head B are the same kind of structure.

Preferably, the front end movable mounting of measuring station upper end has and places pole A, the rear end movable mounting of measuring station upper end has and places pole B, it is the same kind of structure to place pole A and place pole B, the inboard fixed standing groove that is provided with of placing pole A and placing pole B, the inboard lower extreme fixed mounting of standing groove has the smooth plate, places pole A, places pole B and smooth plate through the installation for the object that needs to measure thickness can insert in the inside of placing pole A and placing pole B through the standing groove, then makes the object that needs to measure thickness can be quick insert and take out through the smooth plate, has improved the device's detection effect, has improved work efficiency simultaneously, has solved current thickness measurement device and can not place unstable problem to the object.

Preferably, the fixed slot that is provided with in the upper end of placing pole A and placing pole B, the fixed slot is symmetric distribution in the upper end of placing pole A and placing pole B, the inboard movable mounting of fixed slot has the dead lever, the upper end fixed mounting of dead lever has fixed button, the lower extreme fixed mounting of dead lever has fixed clamp plate, fixed clamp plate is located the inboard of placing pole A and placing pole B, through installation dead lever and fixed clamp plate for the object that needs to measure thickness inserts and can further increase fixed after placing pole A and placing pole B in, slide or skew appear when having avoided detecting once more and lead to detecting inaccurate phenomenon, thereby further improvement the detection effect of the device, solved current thickness measurement device can not be to the object problem that can not fix.

Preferably, the upper end movable mounting of measuring table has the heel post, the heel post is symmetric distribution in the upper end of measuring table, the heel post is located the lower extreme of placing pole A and placing pole B, through installing the heel post, can play the effect of support to placing pole A and placing pole B, avoids the phenomenon that the object that length differs can not be placed, has made things convenient for the staff to change, and the heel post can be installed according to the weight of object simultaneously for the object that needs measured thickness is more stable, thereby has improved the device's supporting effect.

Preferably, the upper end fixed mounting of heel post has the bearing plate, the fixed bearing groove that is provided with in middle part of bearing plate, bearing groove and the lower extreme looks adaptation of placing pole A and placing pole B, through installing the bearing plate to set up bearing groove, make and place pole A and place pole B and take it up when changing, then place in the bearing groove, need not fix, further improvement the device's portability, make things convenient for the device packing transportation.

Preferably, the outer side fixed mounting of laser gauge head A and laser side head B has the photophobic board, the photophobic board is ring structure, through the installation photophobic board, can block outside light for laser gauge head A and laser side head B can not receive strong illumination influence when detecting thickness to the object, thereby further improvement the device's detection effect, solved current thickness measurement device can not be to the problem that light sheltered from.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is: the non-contact thickness measuring device is characterized in that the placing rod A, the placing rod B and the smooth plate are installed, so that an object needing to be measured in thickness can be inserted into the placing rod A and the placing rod B through the placing groove, the phenomenon of inaccurate detection caused by sliding or deviation in detection is avoided, then the object needing to be measured in thickness can be rapidly inserted and taken out through the smooth plate, the detection effect of the device is improved, the working efficiency is improved, the object needing to be measured in thickness can be further increased and fixed after being inserted into the placing rod A and the placing rod B through the installation of the fixing rod and the fixing pressing plate, the phenomenon of inaccurate detection caused by sliding or deviation in detection is avoided again, the detection effect of the device is further improved, the bearing column is installed, and the placing rod A and the placing rod B can be supported, the phenomenon that objects with different lengths cannot be placed is avoided, workers can replace the objects conveniently, and meanwhile the bearing columns can be installed according to the weight of the objects, so that the objects needing to be measured for thickness are more stable, and the supporting effect of the device is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic view of a front view structure of the bearing plate of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the placement rod of the present invention;

fig. 4 is a schematic view of the front view structure of the measuring plate of the present invention;

in the figure: 1. a measuring table; 2. a support base; 3. measuring a plate; 4. a laser probe A; 5. a laser side head B; 6. placing a rod A; 7. placing a rod B; 8. a placement groove; 9. a smooth plate; 10. fixing grooves; 11. fixing the rod; 12. a fixed button; 13. fixing the pressing plate; 14. a load-bearing column; 15. a bearing plate; 16. a load bearing groove; 17. a light-proof plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a non-contact's thickness measurement device, includes measuring station 1, and the lower extreme fixed mounting of measuring station 1 has support base 2, and the middle part fixed mounting of measuring station 1 upper end has measurement board 3, and measurement board 3 is the U-shaped structure, and the middle part fixed mounting of measuring 3 inboard upper ends has laser gauge head A4, and the middle part fixed mounting of measuring 3 inboard lower extremes of board has laser side head B5, and laser gauge head A4 and laser side head B5 are the same kind of structure.

Further, front end movable mounting of measuring station 1 upper end has places pole A6, rear end movable mounting of measuring station 1 upper end has places pole B7, it is the same kind of structure to place pole A6 and place pole B7, the inboard fixed standing groove 8 that is provided with of placing pole A6 and placing pole B7, the inboard lower extreme fixed mounting of standing groove 8 has smooth plate 9, place pole A6 through the installation, place pole B7 and smooth plate 9, make the object that needs measure thickness can insert in the inside of placing pole A6 and placing pole B7 through standing groove 8, slide or skew appear when having avoided detecting and lead to detecting inaccurate phenomenon, then make the object that needs measure thickness can be quick insert and take out through smooth plate 9, the detection effect of the device is improved, and the work efficiency is improved simultaneously.

Further, the fixed slot 10 that is provided with in upper end of placing pole A6 and placing pole B7, fixed slot 10 is symmetric distribution in the upper end of placing pole A6 and placing pole B7, the inboard movable mounting of fixed slot 10 has dead lever 11, the upper end fixed mounting of dead lever 11 has fixed button 12, the lower extreme fixed mounting of dead lever 11 has fixed clamp plate 13, fixed clamp plate 13 is located the inboard of placing pole A6 and placing pole B7, through installation dead lever 11 and fixed clamp plate 13, it is fixed to make the object that needs to measure thickness insert and can further increase after placing pole A6 and placing pole B7, slide or skew appear when having avoided detecting once more and lead to detecting inaccurate phenomenon, thereby further the detection effect of the device has been improved.

Further, the upper end movable mounting of measuring station 1 has heel post 14, heel post 14 is symmetric distribution in the upper end of measuring station 1, heel post 14 is located the lower extreme of placing pole A6 and placing pole B7, through installing heel post 14, can play the effect of support to placing pole A6 and placing pole B7, avoid the phenomenon that the object that length differs can not be placed, made things convenient for the staff to change, heel post 14 can install according to the weight of object simultaneously, make the object of measuring thickness more stable, thereby the support effect of the device has been improved.

Further, the upper end fixed mounting of heel post 14 has bearing plate 15, the fixed bearing groove 16 that is provided with in middle part of bearing plate 15, bearing groove 16 with place pole A6 and place the lower extreme looks adaptation of pole B7, through installing bearing plate 15, and bearing groove 16 has been set up, make and place pole A6 and place pole B7 and take it up when changing, then place in bearing groove 16, need not fix, further improvement the portability of the device, convenience of installation packing transportation.

Further, the light-proof plate 17 is fixedly mounted on the outer sides of the laser measuring head A4 and the laser side head B5, the light-proof plate 17 is of a circular ring-shaped structure, and light outside can be blocked by mounting the light-proof plate 17, so that the laser measuring head A4 and the laser side head B5 cannot be influenced by strong illumination when the thickness of the object is detected, and the detection effect of the device is further improved.

The utility model discloses a theory of operation: firstly, an object to be measured in thickness is placed on the inner sides of a placing rod A6 and a placing rod B7 through a placing groove 8 and a smooth plate 9, then a worker manually adjusts a fixing button 12 to drive a fixing rod 11 to rotate in a fixing groove 10, at the moment, the object to be measured in thickness is further strengthened and fixed through a fixing pressing plate 13, the phenomenon that the object to be measured in thickness is inaccurate to be detected due to sliding or deviation in detection is avoided, then the object to be measured in thickness can be detected through a laser measuring head A4 and a laser side head B5, and external light can be blocked through installing a light-proof plate 17, so that the laser measuring head A4 and the laser side head B5 cannot be influenced by strong illumination when the object is detected in thickness, the detection effect of the device is further improved, then when the placing rod A6 and the placing rod B7 need to be replaced, the placing rod A6 and the placing rod B7 are taken up from a bearing groove 16, need not fix, further improvement the device's portability, make things convenient for the device packing transportation, simultaneously through installing heel post 14, can play the effect of support placing pole A6 and placing pole B7, avoid the object that length differs to place the phenomenon, made things convenient for the staff to change, heel post 14 can be installed according to the weight of object simultaneously, make the object of measuring thickness more stable, thereby improved the device's supporting effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A non-contact thickness measuring device comprising a measuring table (1), characterized in that: the lower extreme fixed mounting of survey table (1) has support base (2), middle part fixed mounting of survey table (1) upper end has measurement board (3), measurement board (3) are the U-shaped structure, the middle part fixed mounting of measuring inboard upper end of board (3) has laser gauge head A (4), the middle part fixed mounting of measuring inboard lower extreme of board (3) has laser side head B (5), laser gauge head A (4) and laser side head B (5) are the same kind of structure.

2. A non-contact thickness measuring device according to claim 1, wherein: front end movable mounting of measuring table (1) upper end has places pole A (6), rear end movable mounting of measuring table (1) upper end has places pole B (7), it is the same kind of structure to place pole A (6) and place pole B (7), the inboard of placing pole A (6) and placing pole B (7) is fixed and is provided with standing groove (8), the lower extreme fixed mounting of standing groove (8) inboard has smooth plate (9).

3. A non-contact thickness measuring device according to claim 2, wherein: the utility model discloses a fixing device for the electric heating wire of motor vehicle, including placing pole A (6) and placing pole B (7), the upper end of placing pole A (6) and placing pole B (7) is fixed and is provided with fixed slot (10), fixed slot (10) are symmetric distribution in the upper end of placing pole A (6) and placing pole B (7), the inboard movable mounting of fixed slot (10) has dead lever (11), the upper end fixed mounting of dead lever (11) has fixed button (12), the lower extreme fixed mounting of dead lever (11) has fixed clamp plate (13), fixed clamp plate (13) are located the inboard of placing pole A (6) and placing pole B (7).

4. A non-contact thickness measuring device according to claim 2, wherein: the upper end movable mounting of measurement platform (1) has heel post (14), heel post (14) are the symmetric distribution in the upper end of measurement platform (1), heel post (14) are located the lower extreme of placing pole A (6) and placing pole B (7).

5. A non-contact thickness measuring device according to claim 4, wherein: the upper end fixed mounting of heel post (14) has heel plate (15), the fixed bearing groove (16) that is provided with in middle part of heel plate (15), bearing groove (16) with place pole A (6) and place the lower extreme looks adaptation of pole B (7).

6. A non-contact thickness measuring device according to claim 1, wherein: the laser measuring head A (4) and the laser side head B (5) are fixedly provided with light-proof plates (17) at the outer sides, and the light-proof plates (17) are of circular structures.

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