CN109520424A - A kind of positioning tool of optical coordinate measuring system - Google Patents

Abstract

The invention discloses a kind of positioning tools of optical coordinate measuring system, comprising: positioning screw；Adjustment axis, the both ends of adjustment axis are provided with positioning screw, and positioning screw runs through adjustment axis；First adjusting nut, the second adjusting nut, third adjusting nut, the 4th adjusting nut, first adjusting nut and the second adjusting nut are adapted to a positioning screw, and adjustment axis is locked from two sides, third adjusting nut and the 4th adjusting nut are adapted to another positioning screw, and lock adjustment axis from two sides；Vertical axis, vertical axis is vertical with adjustment axis to be connect.The first adjusting nut and third adjusting nut are screwed, or screws the second adjusting nut and third adjusting nut, to adjust the angle of adjustment axis.Adjusting angle in the present invention is easy to control, and degree of regulation is high, can rapidly adjust adjustment axis and vertical axis in place.Finally sample is placed on objective table, two sides of sample is made to be bonded adjustment axis and vertical axis respectively.

Description

A kind of positioning tool of optical coordinate measuring system

Technical field

The present invention relates to optical coordinate measuring technical fields, more specifically to a kind of optical coordinate measuring system Positioning tool.

Background technique

When being measured using optical coordinate measuring system to sample, sample is placed on objective table first, and is made The first side and second side of sample respectively with X-axis and Y-axis general parallel orientation.X-axis driving wheel is driven later, makes objective table in X It is moved in axis direction.If it is observed that first side is deviateed relative to X-axis, i.e., first side has occurred relative to X-axis along Y The displacement of axis direction, then illustrate the first side of sample and the depth of parallelism of X-axis, it is unqualified with the verticality of Y-axis.So It needs to rotate sample, so that the first side of sample is parallel with X-axis, keeps the second side of sample parallel with Y-axis.But it rotates Rotational angle when sample is not easy control, and operating personnel needs repeatedly the angle of adjusting sample, low so as to cause measurement efficiency.

Therefore, how sample is quickly located, to reduce manual labor amount, improves measurement efficiency, be art technology Personnel's critical problem urgently to be resolved.

Summary of the invention

The object of the present invention is to provide a kind of positioning tools, are specifically applied to optical coordinate measuring system, the positioning tool It can be realized the quick positioning to sample.

A kind of positioning tool of optical coordinate measuring system, comprising:

Positioning screw；

Adjustment axis, the both ends of the adjustment axis are provided with the positioning screw, and the positioning screw runs through the tune Nodal axisn；

First adjusting nut, the second adjusting nut, third adjusting nut and the 4th adjusting nut, described first adjusts spiral shell Female and described second adjusting nut is adapted to a positioning screw, and locks the adjusting from the two sides of the adjustment axis Axis, the third adjusting nut and the 4th adjusting nut are adapted to positioning screw described in another, and from the adjustment axis Two sides lock the adjustment axis；

Vertical axis, the vertical axis and the adjusting axis connection, and the two is vertical.

Preferably, the hole of the adjustment axis and positioning screw cooperation is strip hole, and the strip hole is along the adjusting The length direction of axis extends.

Preferably, the one end at middle part of the strip hole far from the adjustment axis forms in the end of the adjustment axis and opens Mouthful.

Preferably, first adjusting nut and/or second adjusting nut and/or the third adjusting nut, And/or the 4th adjusting nut, spring washer is provided between the adjustment axis.

It preferably, further include pedestal, the positioning screw is fixed on the base.

Preferably, the pedestal includes pedestal, further includes the support being arranged on the pedestal, and the positioning screw runs through The support, and the positioning screw is locked nut check on the support.

Preferably, the support is two, and two supports are distributed in the two sides of the adjustment axis.

Preferably, the pedestal is fixed on objective table by way of magnetic.

Preferably, the pedestal is fixed by screws on objective table.

It preferably, is to extend along the direction of the positioning screw with the screw hole of screw cooperation on the pedestal Waist-shaped hole.

It can be seen from the above technical proposal that positioning tool is placed on loading first before positioning to sample On platform, and adjustment axis and vertical axis is made with Y-axis and X-axis general parallel orientation, to move objective table along X-direction later, such as respectively Fruit observes that vertical axis deviates X-axis, i.e. displacement along the y axis has occurred relative to X-axis in vertical axis, then illustrate vertical axis with The depth of parallelism and adjustment axis of X-axis and the depth of parallelism of Y-axis are undesirable.So will by screw the first adjusting nut and Third adjusting nut makes adjustment axis rotate certain angle in one direction, or by screwing the second adjusting nut and the 4th Adjusting nut makes adjustment axis turn an angle to another way, to be seen to occur to vertical axis relative to X-axis along Y When the displacement of axis direction, the depth of parallelism of the depth of parallelism and adjustment axis and Y-axis that illustrate vertical axis and X-axis is met the requirements.

In invention, by screwing the first adjusting nut and third adjusting nut, or the second adjusting nut and are screwed Three adjusting nuts, to adjust the angle of adjustment axis.Manual adjustment in compared to the prior art, the present invention in adjusting angle it is easy In control, and degree of regulation is high, can rapidly adjust in place adjustment axis and vertical axis, sample is finally placed on objective table On, and two sides of sample is made to be bonded adjustment axis and vertical axis respectively.Positioning tool in the present invention can be realized pair The quick positioning of sample.

Detailed description of the invention

Scheme in order to illustrate the embodiments of the present invention more clearly, below will be required to describing in embodiment Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ability For field technique personnel, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the top view for the positioning tool that a specific embodiment of the invention provides；

Fig. 2 is the three-view diagram for the pedestal that a specific embodiment of the invention provides；

Fig. 3 is the three-view diagram of adjustment axis and vertical axis that a specific embodiment of the invention provides；

Fig. 4 is the flow chart that sample is positioned using positioning tool that a specific embodiment of the invention provides.

Wherein, 1 it is adjustment axis, 2 be vertical axis, 3 be positioning screw, 41 be the first adjusting nut, 42 is the second adjusting spiral shell It is female, 43 be third adjusting nut, 44 be the 4th adjusting nut, 5 be pedestal, 6 be support, 7 be locking nut, 8 be screw hole, 11 For strip hole.

Specific embodiment

The invention discloses a kind of positioning tools, are specifically applied to optical coordinate measuring system, which can be real Now to the quick positioning of sample.

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base In the embodiment of the present invention, those of ordinary skill in the art without making creative work it is obtained it is all its Its embodiment, shall fall within the protection scope of the present invention.

In a specific embodiment of the invention, the positioning tool of optical coordinate measuring system includes: positioning screw 3, adjusts Axis 1, vertical axis 2, the first adjusting nut 41, the second adjusting nut 42, third adjusting nut 43 and the 4th adjusting nut 44.

Wherein, the both ends of adjustment axis 1 are equipped with positioning screw 3.First adjusting nut 41 and the rotation of the second adjusting nut 42 It is screwed on a positioning screw 3.First adjusting nut 41 and the second adjusting nut 42 lock adjustment axis 1 from the two sides of adjustment axis 1 Tightly on positioning screw 3.Third adjusting nut 43 and the 4th adjusting nut 44 are screwed on another positioning screw 3.Third tune Adjustment axis 1 is locked on positioning screw 3 by section nut 43 and the 4th adjusting nut 44 from the two sides of adjustment axis 1.It is adjusted at four In nut, the first adjusting nut 41 and the pairs of linea angulata of third adjusting nut 43 arrangement.Second adjusting nut 42 and the 4th adjusts spiral shell The pairs of linea angulata arrangement of mother 44.Vertical axis 2 is connect with adjustment axis 1, and the two is mutually perpendicular to.

Before being positioned to sample, positioning tool is placed on objective table first, and makes adjustment axis 1 and vertical axis 2, respectively with Y-axis and X-axis general parallel orientation, move objective table along X-direction later, if it is observed that vertical axis 2 deviates X-axis, I.e. displacement along the y axis has occurred relative to X-axis in vertical axis 2, then illustrating the depth of parallelism of vertical axis 2 Yu X-axis, and adjusts Axis 1 and the depth of parallelism of Y-axis are undesirable.It will so be made by screwing the first adjusting nut 41 and third adjusting nut 43 Adjustment axis 1 rotates certain angle in one direction, or by screwing the second adjusting nut 42 and the 4th adjusting nut 44, makes Adjustment axis 1 turns an angle to another way, the position to be seen that will not occur to vertical axis 2 relative to X-axis along the y axis When shifting, illustrate that the depth of parallelism of vertical axis 2 and X-axis and adjustment axis 1 and the depth of parallelism of Y-axis are met the requirements.

Please refer to attached drawing 4, after objective table moves along the x axis, the first situation is: vertical axis 2 occurs relative to X-axis Along the displacement of Y-axis forward direction, then the second adjusting nut 42 and the 4th adjusting nut 44 will be screwed, to make 1 edge of adjustment axis It rotates in an anti-clockwise direction, the vertical axis 2 observed finally is made displacement along the y axis will not to occur relative to X again.Second Situation is: the displacement along Y-axis negative sense has occurred relative to X-axis in vertical axis 2, then the first adjusting nut 41 and third will be screwed Adjusting nut 43 finally makes the vertical axis 2 observed will not be again relative to X so that adjustment axis 1 be made to be rotated in the clockwise direction Displacement along the y axis occurs.

In addition, the movement of objective table generation along the y axis can also be made after it will position tool and be placed on objective table, Whether observation adjustment axis 1 can occur displacement along the x axis relative to Y-axis later.Its Principles of Regulation and above-mentioned Principles of Regulation Identical, therefore, this article will not repeat them here.

In the present embodiment, by screwing the first adjusting nut 41 and third adjusting nut 43, or the second adjusting is screwed Nut 42 and third adjusting nut 43, to adjust the angle of adjustment axis 1.Manual adjustment in compared to the prior art, the present invention In adjusting angle be easy to control, and degree of regulation is high, can rapidly adjust in place adjustment axis 1 and vertical axis 2, finally will Sample is placed on objective table, and two sides of sample is made to be bonded adjustment axis 1 and vertical axis 2 respectively.In the present embodiment Positioning tool can be realized the quick positioning to sample.

Further, the hole of adjustment axis 1 and the cooperation of positioning screw 3 is limited as strip hole 11, and the strip hole 11 is along tune The length direction of nodal axisn 1 extends, then positioning screw 3 can be located at position different in strip hole 11.It so can basis It is specific to require to arrange two positioning screws 3.

Further, the one end of strip hole 11 far from 1 middle part of adjustment axis is limited as open architecture.Strip hole 11 in other words One end far from 1 middle part of adjustment axis extends to the end of adjustment axis 1, and is formed and be open in the end of adjustment axis 1.It is installing When adjustment axis 1, positioning screw 3 can be directly set to enter in strip hole 11 from the opening of adjustment axis 1.In disassembly adjustment axis 1 When, positioning screw 3 can be made to be detached from adjustment axis 1 from the opening of adjustment axis 1.The setting of 1 upper opening of adjustment axis greatly simplifies The assembly of adjustment axis 1.

Further, the first adjusting nut 41 and/or the second adjusting nut 42 and/or third adjusting nut 43 are limited, And/or the 4th adjusting nut 44, it is provided with spring washer between the adjustment axis 1, to prevent screwing the first adjusting nut 41, Or second adjusting nut 42 or third adjusting nut 43 or when four adjusting nuts 44, weigh adjustment axis 1 wounded.

Further, for the ease of the fixation of positioning screw 3, it is additionally arranged pedestal in one embodiment, makes to position spiral shell Bar 3 is fixed on the base.

Further, pedestal includes pedestal 5 and support 6.Support 6 is arranged on pedestal 5.Hole is offered on support 6, is positioned Screw rod 3 is threaded through in the hole.Locking nut 7 is screwed on positioning screw 3, and positioning screw 3 is locked on support 6.More into One step, two are set by support 6.Two supports 6 are distributed in the two sides of adjustment axis 1.Two locking nuts 7 are by positioning screw 3 are locked on two supports 6, form firm locking to positioning screw 3.

It is possible to further which pedestal 5 is fixed on objective table by way of magnetic.

Further, pedestal 5 can also be locked on objective table by screw.It is provided on pedestal 5 and cooperates with screw Screw hole 8.Further, limiting the screw hole 8 is waist-shaped hole, which extends along the direction of positioning screw 3.Root According to the specific location of objective table upper screwed hole, to select for screw to be screwed in suitable position in waist-shaped hole.

Finally, it is to be noted that, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method, article or equipment not only include those elements, but also Further include other elements that are not explicitly listed, or further include for this process, method, article or equipment it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including described There is also other identical elements in the process, method, article or equipment of element.

Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, the same or similar parts in each embodiment may refer to each other.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (10)

1. a kind of positioning tool of optical coordinate measuring system characterized by comprising

Positioning screw (3)；

The both ends of adjustment axis (1), the adjustment axis (1) are provided with the positioning screw (3), and the positioning screw (3) passes through Wear the adjustment axis (1)；

First adjusting nut (41), the second adjusting nut (42), third adjusting nut (43) and the 4th adjusting nut (44), institute It states the first adjusting nut (41) and second adjusting nut (42) to be adapted to a positioning screw (3), and from the tune The two sides of nodal axisn (1) lock the adjustment axis (1), the third adjusting nut (43) and the 4th adjusting nut (44) with separately One positioning screw (3) adaptation, and the adjustment axis (1) is locked from the two sides of the adjustment axis (1)；

Vertical axis (2), the vertical axis (2) connect with the adjustment axis (1), and the two is vertical.

2. the positioning tool of optical coordinate measuring system according to claim 1, which is characterized in that the adjustment axis (1) With the positioning screw (3) cooperation hole be strip hole (11), the strip hole (11) along the adjustment axis (1) length direction Extend.

3. the positioning tool of optical coordinate measuring system according to claim 2, which is characterized in that the strip hole (11) The one end at the middle part far from the adjustment axis (1) forms opening in the end of the adjustment axis (1).

4. the positioning tool of optical coordinate measuring system according to claim 1, which is characterized in that described first adjusts spiral shell Female (41) and/or second adjusting nut (42) and/or the third adjusting nut (43) and/or the 4th adjusting spiral shell Female (44), are provided with spring washer between the adjustment axis (1).

5. the positioning tool of optical coordinate measuring system according to claim 1, which is characterized in that it further include pedestal, institute It is fixed on the base to state positioning screw (3).

6. the positioning tool of optical coordinate measuring system according to claim 5, which is characterized in that the pedestal includes base Seat (5) further includes the support (6) being arranged on the pedestal (5), and the positioning screw (3) runs through the support (6), and institute Positioning screw (3) nut (7) that is locked is stated to be locked on the support (6).

7. the positioning tool of optical coordinate measuring system according to claim 6, which is characterized in that the support (6) is Two, two supports (6) are distributed in the two sides of the adjustment axis (1).

8. the positioning tool of optical coordinate measuring system according to claim 6, which is characterized in that the pedestal (5) is logical The mode for crossing magnetic is fixed on objective table.

9. the positioning tool of optical coordinate measuring system according to claim 6, which is characterized in that the pedestal (5) is logical Screw is crossed to be fixed on objective table.

10. the positioning tool of optical coordinate measuring system according to claim 6, which is characterized in that on the pedestal (5) Screw hole (8) with screw cooperation is the waist-shaped hole extended along the direction of the positioning screw (3).