CN105643368A - Extension method and device for machine tool three-coordinate measurement range - Google Patents

Abstract

The invention discloses an extension method and device for the machine tool three-coordinate measurement range. The method comprises the steps that lengthened measuring arms with the known lengths being Xb, Yb and Zb are fixed to sliding scaleplates in the X direction, the Y direction and the Z direction correspondingly; under the condition that the 0 scale of each sliding scaleplate is aligned with the 0 scale of a corresponding fixed scaleplate, the fixed ends of the lengthened measuring arms are made to be aligned with the extension references X0, Y0 and Z0 of the fixed scaleplates in the X direction, the Y direction and the Z direction correspondingly; the other end of each lengthened measuring arm serves as an extension measuring point, so that measurement of parts and components, with the three-dimensional sizes being larger than the maximum measuring range of a machine tool, to be measured is completed, and extension of the three-coordinate measurement range of the machine tool is achieved. According to the extension method and device, the extension of the three-coordinate measurement range of the machine tool is achieved by additionally arranging the lengthened measuring arms on a sliding frame, the measurement of the parts and components with the three-dimensional sizes being larger than the maximum measuring range of the machine tool can be completed through the small-measuring-range machine tool on the premise that the original stroke of the machine tool is not changed, and the application range for measuring the three-dimensional sizes of objects through three coordinates of the machine tool is widened.

Description

The extended method of a kind of lathe three-dimensional coordinates measurement scope and device

Technical field

The present invention relates to the extended method of a kind of lathe three-dimensional coordinates measurement scope and device, belong to by the super component technical field of machine tool measuring.

Background technology

The way adopting metal cutting machine processing parts Yi Shi factory general, but in some cases, during in order to the three-dimensional dimension of some component of Measurement accuracy, it is possible to component are fixed on lathe, utilize the three-dimensional display characteristic function of lathe to be measured by the three-dimensional dimension of component. But at present the range indication range of lathe three-dimensional is limited, can only measure the component that some three-dimensional dimensions are less than below the maximum range of lathe three-dimensional, the component of the maximum range of lathe three-dimensional cannot be exceeded by Measurement accuracy three-dimensional dimension. Therefore, the three-dimensional coordinates measurement scope of existing lathe or not ideal enough, still can not meet the needs of use.

Summary of the invention

It is an object of the invention to, extended method and the device of a kind of lathe three-dimensional coordinates measurement scope are provided, to realize the object exceeding the maximum range component of lathe with little range machine tool measuring three-dimensional dimension under the prerequisite not changing the original range of lathe, thus overcome the deficiencies in the prior art.

The technical scheme of the present invention:

The extended method of a kind of lathe three-dimensional coordinates measurement scope of the present invention is that described lathe is X, Y, Z three-dimensional lathe, and each coordinate is respectively equipped with fixing scale and slide scale; Fixing scale is provided with integer scale, and slide scale is provided with decimal scale; The method fixes a known length X on the slide scale in X, Y, Z tri-directions _b ��Y _b ��Z _b Lengthening measure arm; When 0 scale on slide scale aligns with 0 scale on fixing scale, lengthening is made to measure the inboardend expansion benchmark X on fixing scale with X, Y, Z tri-directions respectively of arm ₀ ��Y ₀ ��Z ₀ Alignment; To lengthen the other end measuring arm as expansion measurement point, complete the measurement by measurement component that three-dimensional dimension is greater than the maximum range of lathe, it is achieved the expansion of lathe three-dimensional coordinates measurement scope.

In aforementioned method, described lengthening is measured arm and is adopted the good material of rigidity to make, and length is adjustable.

In aforementioned method, the expansion benchmark X in described three directions ₀ ��Y ₀ ��Z ₀ Numerical value be the fixing scale in three directions integer scale range in arbitrary value.

In aforementioned method, the expansion benchmark X in described three directions ₀ ��Y ₀ ��Z ₀ Numerical value be the arbitrary value of the integer scale maximum value of fixing scale close to three directions.

In aforementioned method, the unit length of described decimal scale is the 1-1/10 of integer scale unit length ⁿ Doubly.

The expansion device of a kind of lathe three-dimensional coordinates measurement scope of the present invention formed according to the method described above is, this device comprises the fixing scale being separately positioned on lathe X, Y, Z tri-directions and the slide scale being slidably connected with fixing scale, fixing scale is provided with integer scale, and slide scale is provided with decimal scale; Slide scale on X, Y, Z tri-directions is respectively equipped with known length X _b ��Y _b ��Z _b Lengthening measure arm, lengthen the expansion benchmark X measured on arm one end and fixing scale ₀ ��Y ₀ ��Z ₀ Alignment; Lengthen and measure the arm the other end for expansion measurement point.

In aforementioned means, it is length-adjustable rigid material product that arm is measured in described lengthening.

In aforementioned means, described expansion benchmark X ₀ ��Y ₀ ��Z ₀ It is positioned at the integer scale range any point of fixing scale.

In aforementioned means, described expansion benchmark X ₀ ��Y ₀ ��Z ₀ The integer scale being positioned at fixing scale is close to maximum scale value place any point.

In aforementioned means, the unit length of described decimal scale is the 1-1/10 of integer scale unit length ⁿ Doubly.

Compared with prior art, the present invention lengthens, by increasing on balladeur train, the expansion that the method measuring arm achieves lathe three-dimensional coordinates measurement scope, under the prerequisite not changing the original stroke of lathe, can complete, with little range lathe, the measurement that three-dimensional dimension exceedes the maximum range component of lathe, extend the scope of application of lathe three-dimensional coordinates measurement object dimensional size.

Accompanying drawing explanation

Fig. 1 is the virgin state schematic diagram of the expansion example of X-coordinate of the present invention;

Fig. 2 is the structural representation during expansion measurement of X-coordinate of the present invention;

Fig. 3 is the mobile scope schematic diagram of jig boring machine workplatform in embodiment;

Fig. 4 sets up the schematic diagram lengthening and measuring arm on boring machine workplatform slide scale;

Fig. 5 is the schematic diagram measuring arm expansion useful range by lengthening.

Being labeled as in accompanying drawing: 1-is measured component, and 2-fixes scale, 3-slide scale, 4-integer scale, 5-decimal scale, and 6-lengthens and measures arm, and 7-expands measurement point, 8-inboardend.

Embodiment

Below in conjunction with drawings and Examples, the present invention is described in further detail, but not as any limitation of the invention.

The extended method of a kind of lathe three-dimensional coordinates measurement scope of the present invention is that as depicted in figs. 1 and 2, lathe described in the method is X, Y, Z three-dimensional lathe, and each coordinate is respectively equipped with fixing scale and slide scale; Fixing scale is provided with integer scale, and slide scale is provided with decimal scale; It is characterized in that: the method fixes a known length X on the slide scale in X, Y, Z tri-directions _b ��Y _b ��Z _b Lengthening measure arm; When 0 scale on slide scale aligns with 0 scale on fixing scale, lengthening is made to measure the inboardend expansion benchmark X on fixing scale with X, Y, Z tri-directions respectively of arm ₀ ��Y ₀ ��Z ₀ Alignment; To lengthen the other end measuring arm as expansion measurement point, complete the measurement by measurement component that three-dimensional dimension is greater than the maximum range of lathe, it is achieved the expansion of lathe three-dimensional coordinates measurement scope. Lengthen and measure the good material making of arm employing rigidity, and length is adjustable. The expansion benchmark X in three directions ₀ ��Y ₀ ��Z ₀ Numerical value be the fixing scale in three directions integer scale range in arbitrary value. The expansion benchmark X in three directions ₀ ��Y ₀ ��Z ₀ Numerical value be the arbitrary value of the integer scale maximum value of fixing scale close to three directions.The unit length of decimal scale is integer scale unit length (1-1/10 ⁿ ) doubly.

The expansion device of a kind of lathe three-dimensional coordinates measurement scope of the present invention formed according to the method described above is, as depicted in figs. 1 and 2, this device comprises the fixing scale 2 being separately positioned on lathe X, Y, Z tri-directions and the slide scale 3 being slidably connected with fixing scale 2, fixing scale 2 is provided with integer scale 4, and slide scale 3 is provided with decimal scale 5; Slide scale 3 on X, Y, Z tri-directions is respectively equipped with known length X _b ��Y _b ��Z _b Lengthening measure arm 6, lengthen the expansion benchmark X measured on arm 6 one end and fixing scale 2 ₀ ��Y ₀ ��Z ₀ Alignment; Lengthen and measure arm 6 the other end for expansion measurement point 7. Lengthening and measuring arm is length-adjustable rigid material product. Expansion benchmark X ₀ ��Y ₀ ��Z ₀ It is positioned at the integer scale 4 scope any point of fixing scale 2. Expansion benchmark X ₀ ��Y ₀ ��Z ₀ The integer scale 4 being positioned at fixing scale 2 is close to maximum scale value place any point. The unit length of decimal scale 5 is integer scale 4 unit length (1-1/10 ⁿ ) doubly.

Embodiment

Lathe described in this example refers to the lathe with X, Y, Z tri-vertical coordinates in direction, such as equipment such as jig boring machines. The workplatform of jig boring machine can move left and right, and is considered as X, the coordinate of lathe, and the main shaft of jig boring machine can move forward and backward the Y-coordinate being considered as lathe, and the main shaft of jig boring machine can stretch up and down and be considered as the Y-coordinate of lathe. Hereinafter only with the example that expands to of X-coordinate, the principle of work of the present invention is described:

Fig. 3 is the mobile scope schematic diagram of slide scale on jig boring machine workplatform, and as seen from Figure 3, on jig boring machine workplatform, the mobile scope of slide scale is a, can the maximum length of Measuring Object be that is a on jig boring machine; Fig. 4 sets up the schematic diagram lengthening and measuring arm on boring machine workplatform slide scale; As seen from Figure 4, lengthening and measuring arm is be connected with the slide scale on jig boring machine workplatform, and lengthening the length measuring arm is b, when expansion is measured, it is possible to lengthening the end points O ' measuring arm is measurement point; Fig. 5 is the schematic diagram measuring arm expansion useful range by lengthening, and as seen from Figure 5, has set up after lengthening measurement arm, the mobile scope of workplatform is constant, but useful range changes into b��c by 0 original��a, wherein the length of c is b+a, therefore can measure the object that length is greater than a.

Fig. 1 is the device of the present invention, the slide scale 3 comprising the fixing scale 2 in lathe X-coordinate and can slide on fixing scale 2, fixing scale 2 is provided with integer scale 4, and slide scale 3 is provided with decimal scale 5, and the unit length of decimal scale 5 is integer scale 4 unit length (1-1/10 ⁿ ) doubly, as n=2, measuring accuracy is mono-percent; As n=3, measuring accuracy is thousandth. The numerical value of n is more big, and measuring accuracy is more high, can require to determine according to measuring accuracy. The integral part of observed value can be read from fixing scale 2, the mantissa of observed value can be read from slide scale 3. Slide scale 3 is fixed with known length X _b Lengthening measure arm 6. When 0 scale on decimal scale 5 aligns with 0 scale on fixing scale 2, the inboardend 8 and the expansion benchmark X on fixing scale 2 of measuring arm 6 will be lengthened ₀ It is fixedly connected with after alignment, to lengthen the other end measuring arm 6 as measuring junction. Theoretically, benchmark X is expanded ₀ Can be any number of integer scale 4 on fixing scale 2, but from expansion efficiency, expand benchmark X ₀ Preferably near the maximum value of integer scale 4.

Fig. 2 is the practical measuring examples figure of this example, as seen from Figure 2, is measured the length of component 1 in X-direction much larger than the maximum range 100mm of fixing scale 2, and existing lathe cannot be measured.

The device of this example comprises the fixing scale 2 being fixed on lathe and the slide scale 3 that can slide on fixing scale 2, slide scale 3 is fixed with lengthen and measures arm 6, and lengthening the length measuring arm 6 is 60mm. When 0 scale on slide scale 3 aligns with 0 scale on fixing scale 2, lengthen the inboardend 8 and the expansion benchmark X on fixing scale 2 of measuring arm 6 ₀ Alignment, expansion benchmark X ₀ For 90mm. To lengthen the other end measuring arm 6 as expansion measurement point 7.

When measuring with said apparatus, will be measured on component 1 chuck that is fixed on lathe or worktable, and 0 scale being fixed scale 2 with lathe by the reference plane measuring component 1 is alignd. Then moving slide scale 3 drives lengthening measurement arm 6 to move together, when lengthening the expansion measurement point 7 of measuring arm 6 with right alignment most by measurement component 1, check that on slide scale 2,0 scale is between 48 and the 49 of fixing scale 2 scale, it may be determined that integer is 48; Check that the scale marks that slide scale 2 high scale aligns with fixing scale 2 scale is 48 again, it may be determined that mantissa is 0.48. Integral part and mantissa combination can be determined to read observed value X _r For 48.48mm.

As seen from Figure 2, reading observed value X should be equaled by measurement component 1 in the physical length of X-direction _r Add expansion benchmark X ₀ With the length X lengthening measurement arm 6 _b . Wherein expand benchmark X ₀ For 90mm, lengthen the length X measuring arm 6 _b For 60mm, therefore, the physical length=48.48+90+60=198.48mm of component 1 in X-direction is measured. Extend the scope of application of lathe three-dimensional coordinates measurement object dimensional size.

The method determines that in the scope of the fixing scale 2 of lathe three-dimensional arm 6 is measured in expansion benchmark and firm and that length is a known lengthening accurately. Expansion benchmark has a fixing accurately known size on fixing scale 2, it is known that the maximum range being dimensioned slightly smaller than on lathe to fix scale 2 scale, if lengthening the maximum range that the brachium measuring arm 6 about equals lathe scale. When the stroke range of machine tool chief axis is constant, machine tool chief axis moves to extreme limit of travel, utilizes the size lengthening and measuring arm measure section, it is possible to by useful range enlarged proximal one times. If the length lengthening measurement arm about equals the words of the twice of the maximum range of lathe scale, it is also possible to by useful range enlarged proximal twice.

The method of this example theoretically, measures arm lengths X by changing to lengthen _b Value by useful range expansion to any length, but can measure the impact of arm rigidity owing to being subject to lengthening, and general expanded range is no more than the maximum range X of benchmark coordinate _max 3 times be advisable.

Claims (10)

1. an extended method for lathe three-dimensional coordinates measurement scope, described lathe is X, Y, Z three-dimensional lathe, and each coordinate is respectively equipped with fixing scale and slide scale; Fixing scale is provided with integer scale, and slide scale is provided with decimal scale; It is characterized in that: the method fixes a known length X on the slide scale in X, Y, Z tri-directions_b��Y_b��Z_bLengthening measure arm; When 0 scale on slide scale aligns with 0 scale on fixing scale, lengthening is made to measure the inboardend expansion benchmark X on fixing scale with X, Y, Z tri-directions respectively of arm₀��Y₀��Z₀Alignment;To lengthen the other end measuring arm as expansion measurement point, complete the measurement by measurement component that three-dimensional dimension is greater than the maximum range of lathe, it is achieved the expansion of lathe three-dimensional coordinates measurement scope.

2. method according to claim 1, it is characterised in that: described lengthening is measured arm and is adopted the good material of rigidity to make, and length is adjustable.

3. method according to claim 1, it is characterised in that: the expansion benchmark X in described three directions₀��Y₀��Z₀Numerical value be the fixing scale in three directions integer scale range in arbitrary value.

4. method according to claim 3, it is characterised in that: the expansion benchmark X in described three directions₀��Y₀��Z₀Numerical value be the arbitrary value of the integer scale maximum value of fixing scale close to three directions.

5. method according to claim 1, it is characterised in that: the unit length of described decimal scale is integer scale unit length (1-1/10ⁿ) doubly.

6. the expansion device of the lathe three-dimensional coordinates measurement scope formed according to method described in claim 1-5 any claim, the slide scale (3) comprising the fixing scale (2) being separately positioned on lathe X, Y, Z tri-directions and be slidably connected with fixing scale (2), fixing scale (2) is provided with integer scale (4), and slide scale (3) is provided with decimal scale (5); It is characterized in that: the slide scale (3) on X, Y, Z tri-directions is respectively equipped with known length X_b��Y_b��Z_bLengthening measure arm (6), lengthen the expansion benchmark X measured on arm (6) one end and fixing scale (2)₀��Y₀��Z₀Alignment; Lengthen and measure arm (6) the other end for expansion measurement point (7).

7. device according to claim 6, it is characterised in that: it is length-adjustable rigid material product that arm is measured in described lengthening.

8. device according to claim 6, it is characterised in that: described expansion benchmark X₀��Y₀��Z₀It is positioned at integer scale (4) the scope any point of fixing scale (2).

9. device according to claim 6, it is characterised in that: described expansion benchmark X₀��Y₀��Z₀The integer scale (4) being positioned at fixing scale (2) is close to maximum scale value place any point.

10. device according to claim 9, it is characterised in that: the unit length of described decimal scale (5) is integer scale (4) unit length (1-1/10ⁿ) doubly.