CN205192391U - Quick aligning device of three -coordinate measuring machine part measuring - Google Patents

Abstract

The utility model discloses a quick aligning device of three -coordinate measuring machine part measuring installs the workstation in three -coordinate measuring machine, including mutually perpendicular and connecting gradually horizontal migration mechanism as an organic whole, perpendicular adjustment mechanism and scale positioning mechanism, horizontal migration mechanism is including setting up the spout and fixing the mounting bar in three -coordinate measuring machine workstation side, and adjustment mechanism is perpendicular setting with the mesa of three -coordinate measuring machine workstation perpendicularly, and scale positioning mechanism is the level setting with the mesa of three -coordinate measuring machine workstation, scale positioning mechanism's bottom is provided with mobilizable probe and visits the top of needle position in the three -coordinate measuring machine workstation. The utility model discloses quick alignment when the typical aircraft structure three -coordinate measuring machine that can be applied to two basic holes measures reduces the step of corresponding parameter in the regulation procedure, improves measurement of efficiency.

Description

The fast calibrating device of three coordinate measuring machine parts measurement

Technical field

The utility model relates to measurement mechanism field, specifically refers to the fast calibrating device of three coordinate measuring machine parts measurement.

Background technology

Be all be principal character with free form surface due to part most in aircraft structure, to the evaluation of this kind of part morpheme quality, three coordinate measuring machine can only be adopted at present to detect the part to be measured presetting two datum holes.Existing metering system mainly contains two kinds, and one is record this program after manual measurement, for the measurement of identical parts, i.e. and self-built program; Two is in digital-to-analogue, get the measure batch that dot generation process of measurement carries out identical parts.These two kinds of metering systems all cause process of measurement not solidify because the putting position of part is unfixing, must carry out the change of relevant parameter, measure efficiency low along with the difference of placing part position.

Utility model content

The purpose of this utility model is the fast calibrating device providing three coordinate measuring machine parts measurement, can be applicable to the fast aligning during Typical Aircraft structural member three coordinate measuring engine measurement of two datum holes, reduce the step of relevant parameter in adjustment program, improve and measure efficiency.

The utility model is achieved through the following technical solutions: the fast calibrating device of three coordinate measuring machine parts measurement, be installed on three-dimensional coordinates measurement machine worktable, comprise vertical horizontal mobile mechanism, vertically modulating mechanism and the scale detent mechanism also connected as one successively mutually, horizontal mobile mechanism comprises and arranges chute and the mounting bar being fixed on three-dimensional coordinates measurement machine worktable side, the table top of vertically modulating mechanism and three-dimensional coordinates measurement machine worktable is vertical setting, and the table top of scale detent mechanism and three-dimensional coordinates measurement machine worktable is in being horizontally disposed with; The bottom of described scale detent mechanism is provided with moveable probe and probe is positioned at the top of three-dimensional coordinates measurement machine worktable.

The utility model adopts orthogonal horizontal mobile mechanism, vertically modulating mechanism and scale detent mechanism, regulating measured piece putting position on the table, realizing the object of fast aligning by positioning two datum holes that part to be measured is preset.

Further, described vertically modulating mechanism comprises foundation and the joint pin of flexible connection, and foundation is connected with horizontal mobile mechanism.

Further, described joint pin is provided with multiple adjustable pilot hole be equally spaced, and foundation is provided with the datum hole corresponding with adjustable pilot hole, and foundation and joint pin are by being fixedly connected with through the register pin of datum hole, adjustable pilot hole simultaneously.

Further, the bottom of described scale detent mechanism is provided with the slide rail of probe movement.

Further, be provided with keeper in described slide rail, probe is stretched into setting hollow cavity on the positioning element and is connected with keeper by spring; Described probe is provided with protuberance; Described slide rail both sides are provided with multiple locating slot corresponding with protuberance.

Further, the side of described scale detent mechanism is also provided with the graduated scale of background transparent.Through the graduated scale of background transparent, the accurate location of probe can be observed more intuitively.

Further, described probe is cone towards one end of three-dimensional coordinates measurement machine worktable.

Further, also comprise for vertically modulating mechanism and scale detent mechanism hinge connected vertically.

Further, the vertically modulating mechanism at described gemel connection place, scale detent mechanism are all set to 45 ° of oblique angles.

Further, described horizontal mobile mechanism also comprises and being arranged in chute and the cross sliding clock be connected with vertically modulating mechanism.

The utility model compared with prior art, has the following advantages and beneficial effect:

(1) the utility model structure is simple, can carry out fast aligning by simple operations to the part to be measured be placed on three coordinate measuring machine workplace, saves the step that in program, parameter regulates, and greatly improves and measures efficiency;

(2) scale detent mechanism of the present utility model is provided with the graduated scale of background transparent, handled easily, improves centering efficiency further.

Accompanying drawing explanation

Fig. 1 is the structural representation of its chute opening upwards of the utility model.

Fig. 2 is the structural representation of its chute lateral openings of the utility model.

Fig. 3 is the structural representation of vertically modulating mechanism.

Fig. 4 is the structural representation of scale detent mechanism.

Fig. 5 is the structural representation of probe.

Fig. 6 is the structural representation that probe is connected with keeper by spring.

Fig. 7 is that probe is when packing up and the annexation schematic diagram of keeper.

Fig. 8 is that the utility model is for view during to be measured centering.

Wherein: 1-horizontal mobile mechanism, 11-mounting bar, 12-chute, 13-cross sliding clock, 2-vertically modulating mechanism, 21-foundation, 22-joint pin, 23-adjustable pilot hole, 24-datum hole, 25-register pin, 3-scale detent mechanism, 31-probe, 311-protuberance, 32-slide rail, 33-keeper, 34-graduated scale, 35-spring, 36-locating slot, 4-hinge, 100-three-dimensional coordinates measurement machine worktable.

Embodiment

Below in conjunction with embodiment, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

In the utility model with three coordinate measuring machine set up coordinate axis for XYZ coordinate axle, wherein: vertically modulating mechanism 2 is parallel with X-axis along the direction of chute movement, the direction of scale detent mechanism 3 middle probe 31 movement is parallel with Y-axis, and in vertically modulating mechanism 2, the direction of telescopic adjustment is parallel with Z axis.The utility model by regulating horizontal mobile mechanism 1, vertically modulating mechanism 2 and scale detent mechanism 3 to make on part to be measured the line of two datum hole hole hearts and the X-axis of three coordinate measuring machine or Y-axis or Z axis parallel, realizes the fast aligning of part to be measured.

Each part to be measured is provided with the datum hole of two location, two datum holes are the first datum hole and the second datum hole.After part to be measured is placed in the table top of three-dimensional coordinates measurement machine worktable 100, first probe 31 is aimed at the first datum hole, obtain the three-dimensional value of the first datum hole, keep the first datum hole motionless, then lock any two parts in horizontal mobile mechanism 1, vertically modulating mechanism 2, scale detent mechanism 3 and only regulate another one parts, and adjust part to be measured putting position on the table, second datum hole is aimed at probe 31, and now on part to be measured, the line of two datum hole hole hearts is parallel to the X-axis of three coordinate measuring machine or Y-axis or Z axis.Without the need to adjusting the parameter in process of measurement, three coordinate measuring machine can be used to carry out follow-up surveying work, improving and measuring efficiency.

Embodiment 1:

The fast calibrating device of the three coordinate measuring machine parts measurement in the present embodiment, as Fig. 1, shown in Fig. 2, mainly be achieved through the following technical solutions: the fast calibrating device of three coordinate measuring machine parts measurement, be installed on three-dimensional coordinates measurement machine worktable 100, comprise the vertical horizontal mobile mechanism 1 also connected as one successively mutually, vertically modulating mechanism 2 and scale detent mechanism 3, horizontal mobile mechanism 1 comprises and arranges chute 12 and the mounting bar 11 being fixed on three-dimensional coordinates measurement machine worktable 100 side, vertically modulating mechanism 2 is vertical setting with the table top of three-dimensional coordinates measurement machine worktable 100, the table top of scale detent mechanism 3 and three-dimensional coordinates measurement machine worktable 100 is in being horizontally disposed with, the bottom of described scale detent mechanism 3 is provided with moveable probe 31 and probe 31 is positioned at the top of three-dimensional coordinates measurement machine worktable 100.

The utility model is installed on three-dimensional coordinates measurement machine worktable 100, comprises the horizontal mobile mechanism 1, vertically modulating mechanism 2, the scale detent mechanism 3 that connect successively.Described horizontal mobile mechanism 1 is arranged on the side of worktable, vertically modulating mechanism 2 and scale detent mechanism 3 connect as one, vertically modulating mechanism 2 can move along the chute in horizontal mobile mechanism 1 and the scalable adjustment of vertically modulating mechanism 2 self, and the probe 31 in scale detent mechanism 3 is removable.Described probe 31 is for carrying out locating the heart with the datum hole on part to be measured, and the three-dimensional value of its positioning end central point of probe 31 regulates by the movement along scale detent mechanism 3 of the movement of vertically modulating mechanism 2, the flexible of vertically modulating mechanism 2 and probe 31.The utility model can remove from fast dismantling worktable, can be removed and do not affect the normal operation of three coordinate measuring machine when not using alignment device.

As shown in Figure 1, the mounting bar 11 in horizontal mobile mechanism 1 is fixed on the side of three-dimensional coordinates measurement machine worktable 100, chute 12 opening upwards.As shown in Figure 2, the mounting bar 11 in horizontal mobile mechanism 1 is fixed on the side of three-dimensional coordinates measurement machine worktable 100, chute 12 lateral openings.During described chute 12 opening upwards, vertically modulating mechanism 2 running precision is higher.

Described horizontal mobile mechanism 1 also comprises and being arranged in chute 12 and the cross sliding clock 13 be connected with vertically modulating mechanism 2.The bottom of described vertically modulating mechanism 2 directly can be embedded chute 12 and also can be connected with mounting bar 11 by the cross sliding clock 13 embedding chute 12, realizes the movement of vertically modulating mechanism 2 along its X-axis of three-dimensional coordinates measurement machine worktable 100.

Embodiment 2:

The present embodiment does further optimization on the basis of embodiment 1, and as shown in Figure 3, further, described vertically modulating mechanism 2 comprises foundation 21 and the joint pin 22 of flexible connection, and foundation 21 is connected with horizontal mobile mechanism 1.Foundation 21 in described vertically modulating mechanism 2 and joint pin 22 can adopt register pin or intelligent lock structure highly to fix.Other parts of the present embodiment are identical with embodiment 1, therefore repeat no more.

Embodiment 3:

The present embodiment does further optimization on the basis of embodiment 2, as shown in Figure 3, further, described joint pin 22 is provided with multiple adjustable pilot hole 23 be equally spaced, foundation 21 is provided with the datum hole 24 corresponding with adjustable pilot hole 23, and foundation 21 and joint pin 22 are by being fixedly connected with through the register pin 25 of datum hole 24, adjustable pilot hole 23 simultaneously.Other parts of the present embodiment are identical with embodiment 2, therefore repeat no more.

Embodiment 4:

The present embodiment does further optimization on the basis of any one of embodiment 1-3, and as shown in Figure 4, further, described scale detent mechanism 3 is provided with the slide rail 32 of probe 31 movement.Described slide rail 32 can be arranged on bottom or the side of scale detent mechanism 3.

Other parts of the present embodiment are identical with any one of embodiment 1-3, therefore repeat no more.

Embodiment 5:

The present embodiment does further optimization on the basis of embodiment 4, as shown in the figure, further, is provided with keeper 33 in described slide rail 32, and probe 31 is stretched into the hollow cavity that is arranged on keeper 33 and is connected with keeper 33 by spring 35; Described probe 31 is provided with protuberance 311; Described slide rail 32 both sides are provided with multiple locating slot 36 corresponding with protuberance 311.Position and lock when described locating slot 36 stretches out use for probe 31.

As shown in Figure 5, probe 31 is provided with protuberance 311.As shown in Figure 6, probe 31 is connected by spring 35 with keeper 33.When probe 31 stretches out, protuberance 311 embeds in locating slot 36 and locks.As shown in Figure 7, when keeper 33 taken in by probe 31, protuberance 311 is connected with the bottom of keeper 33 is spacing.

Probe 31 in the utility model on scale detent mechanism 3 is stretched into the hollow cavity that is arranged on keeper 33 and is connected with keeper 33 by spring 35.As shown in Figure 7, when the hollow cavity of keeper 33 taken in completely by probe 31, the protuberance 311 of probe 31 is positioned at the bottom of keeper 33; As shown in Figure 5, Figure 6, probe 31 pulls out and half-twist by the elastic force overcoming spring 35, makes protuberance 311 be connected in the locating slot 36 of slide rail 32 both sides, i.e. lockable probe; From locating slot 36, pull out probe 31 half-twist loose one's grip, probe 31 can be retracted the hollow cavity of keeper 33 under the effect of spring 35 elastic force, and now probe 31 is packed up.

Other parts of the present embodiment are identical with embodiment 4, therefore repeat no more.

Embodiment 6:

The present embodiment does further optimization on the basis of any one of embodiment 1-5, and as shown in Figure 4, further, the side of described scale detent mechanism 3 is also provided with the graduated scale 34 of background transparent.Other parts of the present embodiment are identical with any one of embodiment 1-5, therefore repeat no more.

Embodiment 7:

The present embodiment does further optimization on the basis of any one of embodiment 1-6, and as shown in Figure 2, further, described probe 31 is cone towards one end of three-dimensional coordinates measurement machine worktable 100.The positioning end of described probe 31 is cone, facilitate probe 31 and datum hole to the heart, reduce error.Other parts of the present embodiment are identical with any one of embodiment 1-6, therefore repeat no more.

Embodiment 8:

The present embodiment does further optimization on the basis of any one of embodiment 1-7, as shown in Figure 1 and Figure 2, further, also comprises for vertically modulating mechanism 2 and scale detent mechanism 3 hinge 4 connected vertically.Vertically connect with hinge 4 between described vertically modulating mechanism 2 and scale detent mechanism 3, simple to operate and stable connection.Other parts of the present embodiment are identical with any one of embodiment 1-7, therefore repeat no more.

Embodiment 9:

The present embodiment does further optimization on the basis of embodiment 8, and further, vertically modulating mechanism 2, the scale detent mechanism 3 of described hinge 4 junction are all set to 45 ° of oblique angles.Described vertically modulating mechanism 2 is set to 45 ° of oblique angles with the junction of scale detent mechanism 3, scale detent mechanism 3 is also set to 45 ° of oblique angles with the junction of vertically modulating mechanism 2 simultaneously, then vertically modulating mechanism 2 is connected rear just in 90 ° of right angles with scale detent mechanism 3, reinforcing the connection again through right angle hinge 4, ensures the connection that vertically modulating mechanism 2 is mutually vertical and stable with scale detent mechanism 3.Other parts of the present embodiment are identical with embodiment 8, therefore repeat no more.

Embodiment 10:

The present embodiment does further optimization on the basis of any one of embodiment 1-9, and further, described cross sliding clock 13 is square body.Cross sliding clock 13 is corresponding with chute 12 to be arranged, and cross sliding clock 13 linearly slides in chute 12, drives vertically modulating mechanism 2 and scale detent mechanism 3 to move, is convenient to the stable regulation of X-direction.Other parts of the present embodiment are identical with any one of embodiment 1-9, therefore repeat no more.

Embodiment 11:

The present embodiment does further optimization on the basis of any one of embodiment 1-10, and alignment device only arranges one group of horizontal mobile mechanism 1, vertically modulating mechanism 2 and scale detent mechanism 3 one to one.

In the present embodiment, horizontal mobile mechanism 1 is arranged on the side of three-dimensional coordinates measurement machine worktable 100, when fast aligning is carried out to the part to be measured presetting two datum holes: the height adjustment first carrying out vertically modulating mechanism 2 according to the height of part to be measured, and carry out the fixing of Z-direction; Then the probe 31 on scale detent mechanism 3 is moved to the first datum hole of part to be measured, and lock probe 31 and carry out the fixing of Y direction; Then the first datum hole invariant position is kept, slip vertically modulating mechanism 2 regulate the position of the second datum hole simultaneously, second datum hole is overlapped with probe 31 position, and the line that now the first datum hole is hollow with the second datum hole is parallel with the X-axis of three coordinate measuring machine, completes centering.

As shown in Figure 8, be provided with P, the part to be measured of Q two datum holes is placed on three-dimensional coordinates measurement machine worktable 100, P is the first datum hole, Q is the second datum hole: when placing part position to be measured is A, alignment device is in M state and probe 31 and the first datum hole P coincide, keep the first datum hole P motionless and table top along worktable rotates part to be measured to putting position B, lock the invariant position that probe 31(keeps the relative scale detent mechanism 3 of alignment device middle probe 31 simultaneously) and vertically modulating mechanism 2, namely probe 31 is at V axle, the coordinate figure of W axle is all constant, only regulate horizontal mobile mechanism 1, when making alignment device be in N state, probe 31 and the second datum hole Q coincide, now, P, the hollow line of Q two datum holes is parallel with U axle, also parallel with the X-axis of three coordinate measuring machine, part to be measured completes and ajusts on three-dimensional coordinates measurement machine worktable 100, three coordinate measuring machine can be used to carry out follow-up surveying work.

Other parts of the present embodiment are identical with embodiment 1, therefore repeat no more.

Embodiment 12:

The present embodiment does further optimization on the basis of any one of embodiment 1-10, and alignment device only arranges one group of horizontal mobile mechanism 1, vertically modulating mechanism 2 and scale detent mechanism 3 one to one.

In the present embodiment, horizontal mobile mechanism 1 is arranged on the side of three-dimensional coordinates measurement machine worktable 100, when fast aligning is carried out to the part to be measured presetting two datum holes: the height adjustment first carrying out vertically modulating mechanism 2 according to the height of part to be measured, and be fixed in Z-direction; Then the probe 31 on scale detent mechanism 3 is moved to the first datum hole of part to be measured, and lock horizontal mobile mechanism 1 and carry out the fixing of X-direction; Then keep the first datum hole invariant position and regulate the position of the second datum hole, and the probe 31 in slide scale detent mechanism 3, second datum hole is overlapped with probe 31 position, and the line that now the first datum hole is hollow with the second datum hole is parallel with the Y-axis of three coordinate measuring machine, completes centering.

Other parts of the present embodiment are identical with any one of embodiment 1-10, therefore repeat no more.

Embodiment 13:

The present embodiment does further optimization on the basis of any one of embodiment 1-12, and alignment device arranges two groups of horizontal mobile mechanism 1, vertically modulating mechanism 2 and scale detent mechanisms 3 one to one.

In the present embodiment, two horizontal mobile mechanisms 1 are installed in the side of three-dimensional coordinates measurement machine worktable 100, when fast aligning is carried out to the part to be measured presetting two datum holes: first regulate first group of horizontal mobile mechanism 1, vertically modulating mechanism 2, scale detent mechanism 3 one to one, the probe 31 making this organize is corresponding with the first datum hole position, locks first group of horizontal mobile mechanism 1, vertically modulating mechanism 2, scale detent mechanism 3 keep the first datum hole motionless; Then, regulate second group of horizontal mobile mechanism 1, vertically modulating mechanism 2, scale detent mechanism 3 one to one, make two groups of vertically modulating mechanisms 2, scale detent mechanism 3 state identical; Then, part to be measured is rotated and horizontal mobile mechanism 1 in mobile second group centered by the first datum hole, make the probe 31 in second group corresponding with the second datum hole position, the line that now the first datum hole is hollow with the second datum hole is parallel with the X-axis of three coordinate measuring machine.

Other parts of the present embodiment are identical with any one of embodiment 1-12, therefore repeat no more.

The above; it is only preferred embodiment of the present utility model; not do any pro forma restriction to the utility model, every any simple modification, equivalent variations done above embodiment according to technical spirit of the present utility model, all falls within protection domain of the present utility model.

Claims (10)

1. the fast calibrating device of three coordinate measuring machine parts measurement, be installed on three-dimensional coordinates measurement machine worktable (100), it is characterized in that: comprise the vertical horizontal mobile mechanism (1) also connected as one successively mutually, vertically modulating mechanism (2) and scale detent mechanism (3), horizontal mobile mechanism (1) comprises and arranges chute (12) and the mounting bar (11) being fixed on three-dimensional coordinates measurement machine worktable (100) side, vertically modulating mechanism (2) is vertical setting with the table top of three-dimensional coordinates measurement machine worktable (100), the table top of scale detent mechanism (3) and three-dimensional coordinates measurement machine worktable (100) is in being horizontally disposed with, the bottom of described scale detent mechanism (3) is provided with moveable probe (31) and probe (31) is positioned at the top of three-dimensional coordinates measurement machine worktable (100).

2. the fast calibrating device of three coordinate measuring machine parts measurement according to claim 1, it is characterized in that: described vertically modulating mechanism (2) comprises foundation (21) and the joint pin (22) of flexible connection, and foundation (21) is connected with horizontal mobile mechanism (1).

3. the fast calibrating device of three coordinate measuring machine parts measurement according to claim 2, it is characterized in that: described joint pin (22) is provided with multiple adjustable pilot hole (23) be equally spaced, foundation (21) is provided with the datum hole (24) corresponding with adjustable pilot hole (23), and foundation (21) and joint pin (22) are by being fixedly connected with through the register pin (25) of datum hole (24), adjustable pilot hole (23) simultaneously.

4. the fast calibrating device of the three coordinate measuring machine parts measurement according to any one of claim 1-3, is characterized in that: described scale detent mechanism (3) is provided with the slide rail (32) of probe (31) movement.

5. the fast calibrating device of three coordinate measuring machine parts measurement according to claim 4, it is characterized in that: be provided with keeper (33) in described slide rail (32), probe (31) is stretched into the hollow cavity be arranged on keeper (33) and is also connected with keeper (33) by spring (35); Described probe (31) is provided with protuberance (311); Described slide rail (32) both sides are provided with multiple locating slot (36) corresponding with protuberance (311).

6. the fast calibrating device of three coordinate measuring machine parts measurement according to claim 4, is characterized in that: the side of described scale detent mechanism (3) is also provided with the graduated scale (34) of background transparent.

7. the fast calibrating device of the three coordinate measuring machine parts measurement according to any one of claim 1-3, is characterized in that: described probe (31) is cone towards one end of three-dimensional coordinates measurement machine worktable (100).

8. the fast calibrating device of the three coordinate measuring machine parts measurement according to any one of claim 1-3, is characterized in that: also comprise for vertically modulating mechanism (2) and scale detent mechanism (3) hinge connected vertically (4).

9. the fast calibrating device of three coordinate measuring machine parts measurement according to claim 8, is characterized in that: vertically modulating mechanism (2), the scale detent mechanism (3) of described hinge (4) junction are all set to 45 ° of oblique angles.

10. the fast calibrating device of the three coordinate measuring machine parts measurement according to any one of claim 1-3, is characterized in that: described horizontal mobile mechanism (1) also comprises and being arranged in chute and the cross sliding clock (13) be connected with vertically modulating mechanism (2).