CN109489523A - A kind of portable main shaft height detecting device - Google Patents

Abstract

The present invention provides a kind of portable main shaft height detecting devices, comprising: bottom plate；Sampling unit is arranged on the bottom plate, several calibrated altitude blocks is provided on the sampling unit；Fixture unit is arranged on the bottom plate, and the fixture unit is used to clamp each eccentric body shaft on main shaft；Measuring unit, it is slidably disposed on the bottom plate, and the measuring unit can be slided between the sampling unit and the fixture unit, after the sampling unit measures the data of the calibrated altitude block, then slides on the fixture unit and the height of each eccentric body shaft on main shaft is measured.The invention has the benefit that high degree of automation, can improve the detection efficiency of main shaft, and detection accuracy is also higher.

Description

A kind of portable main shaft height detecting device

Technical field

The invention belongs to eccentric shaft field of measuring technique, are related to a kind of portable main shaft height detecting device.

Background technique

Existing axis body, generally column structure, when dimensional measurement, are more convenient, so can usually be carried out with slide calliper rule Measurement, and some special main shafts are directed to, such as the eccentric shaft with multistage axis structure, it is just more troublesome in measurement, And it is time-consuming and laborious.

Above-mentioned multisection type eccentric shaft is usually that main shaft is used as to use, so its required precision to each axis body It is all very high, when detecting, need to measure each axis body, but each axis body is eccentric setting, so very difficult With measurement, and this main shaft is difficult to position, and carries out detection to each main shaft and requires to devote a tremendous amount of time and energy, this Sample greatly reduces the detection efficiency of main shaft, and detection accuracy is relatively low, and whole detection means are relatively backward, the degree of automation It is lower, so having certain room for improvement.

Summary of the invention

The purpose of the present invention is in view of the above-mentioned problems existing in the prior art, propose a kind of portable main shaft height detection Device.

Object of the invention can be realized by the following technical scheme: a kind of portable main shaft height detecting device, comprising:

Bottom plate；

Sampling unit is arranged on the bottom plate, several calibrated altitude blocks is provided on the sampling unit；

Fixture unit is arranged on the bottom plate, and the fixture unit is used to clamp each eccentric shaft on main shaft Body；

Measuring unit is slidably disposed on the bottom plate, and the measuring unit can be in the sampling unit It is slided between the fixture unit, after the sampling unit measures the data of the calibrated altitude block, then slides into the folder The height of each eccentric body shaft on main shaft is measured on tool unit.

Preferably, further including driving unit, the driving unit is arranged on the bottom plate and connects with the measuring unit It connects, and the driving unit drives the measuring unit to slide on the bottom plate.

Preferably, being provided with guide groove on bottom plate, the driving unit includes lead screw and driving motor, and the measurement is single Member includes nut seat, and the nut seat is slidably disposed in the guide groove, and the lead screw and the nut seat screw thread connect It connects, the driving motor is fixed on the bottom plate and connect with the lead screw linkage.

Preferably, the sampling unit includes sampling seat, several mounting holes are provided on the sampling seat, the standard is high Degree block is cylindrical-shaped structure, and the calibrated altitude block is worn in the mounting hole.

Preferably, the fixture unit includes fixing seat, conflict block, movable grip slipper and end grip slipper, it is described solid Reservation is arranged on the bottom plate, and on the fixing seat, the conflict block is arranged at the end for the end grip slipper setting In portion's grip slipper, on the fixing seat, the lower part of the eccentric body shaft on main shaft is contradicted described for the activity grip slipper setting In conflict block, the activity grip slipper is used to contradict the top of the eccentric body shaft on main shaft.

Preferably, end grip slipper setting there are two end-fixture, is provided with caging bolt in the end-fixture, The both ends of main shaft are arranged in two end-fixtures, and the caging bolt is for contradicting in the end of main shaft.

Preferably, the activity grip slipper includes adjusting bolt, briquetting and gag lever post, item is provided in the fixing seat The limiting slot of shape, the gag lever post is threaded through on the briquetting and the lower end of the gag lever post is located in the limiting slot, institute It states and is provided with strip-shaped hole on briquetting, the adjusting bolt is threaded through in the strip-shaped hole and connect with the fixing seat, the pressure The front end of block is located at the top of the conflict block.

Preferably, be equipped with reset spring in the adjusting bolt, the both ends of the reset spring respectively with the briquetting And the fixing seat contradicts connection.

Preferably, the measuring unit further includes sliding shoe, sliding groove is provided on the nut seat, the sliding shoe is set It sets in the sliding groove and can be slided towards the fixture unit.

Preferably, the measuring unit further includes fixed link, elevator and Centigrade scale, the fixed link is arranged described On sliding shoe, the elevator is arranged in the fixed link and can slide up and down along the fixed link, and the Centigrade scale is fixed On the elevator.

Compared with prior art, the invention has the benefit that

1, high degree of automation can improve the detection efficiency of main shaft, and detection accuracy is also higher.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of portable main shaft height detecting device of the invention.

Fig. 2 is the structural schematic diagram of measuring unit of the invention.

Fig. 3 is the structural schematic diagram of fixture unit and main shaft of the invention.

In figure, 100, main shaft；110, eccentric body shaft；200, bottom plate；210, guide groove；310, calibrated altitude block；320, it takes Sample seat；330, mounting hole；410, lead screw；420, driving motor；510, fixing seat；511, limiting slot；520, conflict block；530, living Dynamic grip slipper；531, bolt is adjusted；532, briquetting；533, strip-shaped hole；534, gag lever post；540, end grip slipper；541, end Fixture；542, caging bolt；610, nut seat；611, sliding groove；620, sliding shoe；630, fixed link；640, elevator；650, Centigrade scale.

Specific embodiment

Following is a specific embodiment of the present invention in conjunction with the accompanying drawings, technical scheme of the present invention will be further described, However, the present invention is not limited to these examples.

As shown in Figure 1, Figure 2, Figure 3 shows, a kind of portable main shaft height detecting device, comprising: bottom plate 200, sampling unit, folder Have unit and measuring unit, above-mentioned 100 height detecting device of this main shaft has Multi-section eccentric axis body 110 for detecting 100 structure of main shaft, whether the height and position that can measure each eccentric body shaft 110 on main shaft 100 accurate, and by height position It sets and is converted to corresponding size, to show whether the size of the main shaft 100 complies with standard.

Furthermore, it is understood that the structure of main shaft 100 is that main shaft 100 is different from tradition, this main shaft 100 has multiple and different axis Eccentric body shaft 110, it is preferred that with 2 or more eccentric body shafts 110 on the main shaft 100, these axis bodies are needed with card Ruler measures, but this measurement method is not only slow, but also is easy to appear mistake, leads to duplicate measurements or measurement Precision is lower, so it is quick, smart to need one kind that can carry out to this main shaft 100 with 110 structure of multi-eccentric axis body at present The device really measured.

Wherein, bottom plate 200 is smooth slab construction；Sampling unit, fixture unit and measuring unit are arranged at this On bottom plate 200.

The basic principle of entire measurement 100 size of main shaft is that main shaft 100 is fixed on fixture unit first, so that respectively The height and position of a eccentric body shaft 110 and bottom plate 200 is fixed, and then measuring unit measures sampling unit, to make measuring unit On calibrated altitude, then the height of the calibrated altitude and eccentric body shaft 110 to be measured is compared again, obtains difference, The difference is exactly the scale error of the eccentric body shaft 110 on main shaft 100, cleverly by the eccentric body shaft 110 on main shaft 100 Size conversion is at the height value between eccentric body shaft 110 and bottom plate 200, consequently facilitating sampling and measuring, and also have survey in this way Amount speed is fast, and measurement result is accurate, additionally it is possible to which whether the position of effectively measurement eccentric body shaft 110 is correct, and this point is traditional What calliper to measure was unable to measure, because slide calliper rule can only be measured size enough, and 100 height detecting device of main shaft can Whether position and the size for measuring eccentric body shaft 110 simultaneously are correct.

Wherein, sampling unit is arranged on the bottom plate 200, and several calibrated altitude blocks are provided on the sampling unit 310, the quantity of calibrated altitude block 310 can be consistent with eccentric body shaft 110 to be measured, for example, there are three partially for tool on main shaft 100 Spindle body 110, then three calibrated altitude blocks 310 can be arranged, the height of calibrated altitude block 310 can actually be according to mark The height of each eccentric body shaft 110 on quasi- sample is configured, and calibrated altitude block 310 also can according to need and be replaced It changes, when use is very convenient.

Fixture unit is arranged on the bottom plate 200, and the fixture unit is used to clamp each bias on main shaft 100 Axis body 110；Preferably, main shaft 100 can be clamped and be fixed by fixture unit, herein it is worth noting that, fixture unit, It is not to fix main shaft 100 just, but each eccentric body shaft 110 on main shaft 100 is also fixed, so that each Height and position between eccentric body shaft 110 and bottom plate 200 is fixed, and the result measured in this way is just more accurate.

Measuring unit is slidably disposed on the bottom plate 200, and the measuring unit can be in the sampling unit It slides between the fixture unit, after the sampling unit measures the data of the calibrated altitude block 310, then slides into described The height of each eccentric body shaft 110 on main shaft 100 is measured on fixture unit.

Preferably, measuring unit is capable of the height of measurement standard height block 310, and is located at the height and position, then with Main shaft 100 on fixture unit compares, to measure specific 100 height of main shaft.

The high degree of automation of this detection device, can improve the detection efficiency of main shaft 100, and detection accuracy also compared with It is high, additionally it is possible to which that whether position and the size that eccentric body shaft 110 is indirectly measured by measuring the principle of height are correct.

It as shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, further include driving unit, the driving unit It is arranged on the bottom plate 200 and is connect with the measuring unit, and the driving unit drives the measuring unit in institute It states and is slided on bottom plate 200.

Preferably, driving unit can be cylinder, or lead screw 410 and screw rod are able to drive measuring unit It is mobile between sampling unit and fixture unit, the operating procedure of personnel can be greatly reduced in this way, improve automation Degree.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, guide groove 210, institute are provided on bottom plate 200 Stating driving unit includes lead screw 410 and driving motor 420, and the measuring unit includes nut seat 610, the nut seat 610 It is slidably disposed in the guide groove 210, the lead screw 410 is threadedly coupled with the nut seat 610, the driving motor 420 are fixed on the bottom plate 200 and are connected with the lead screw 410.

Preferably, in actual driving unit, there is lead screw 410 and driving motor 420, lead screw 410 is located to leading Into slot 210, and the both ends of guide groove 210, respectively close to sampling unit and fixture unit, the cross section of nut seat 610 is T-shaped, lower end is located in guide groove 210, and lead screw 410 passes through nut seat 610, the output shaft and lead screw of driving motor 420 410 connections are able to drive lead screw 410 when driving motor 420 rotates and rotate, to drive nut seat 610 in guide groove 210 Sliding；And in actual operational process, screw block is firstly moved to the side of sampling unit, and then personnel are to calibrated altitude After block 310 is sampled, driving motor 420 works, and measuring unit is driven to fixture unit, is then compared, and measures The error for the calibrated altitude that the height and measuring unit of some eccentric body shaft 110 on main shaft 100 measure is how many, thus once Property obtain the eccentric body shaft 110 size and position with the presence or absence of problem, greatly reduce working strength.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, the sampling unit includes sampling seat 320, institute It states and is provided with several mounting holes 330 on sampling seat 320, the calibrated altitude block 310 is cylindrical-shaped structure, and the standard is high Degree block 310 is threaded through in the mounting hole 330.

Preferably, sampling unit has the sampling seat 320 of a box-shaped, and sampling has row's mounting hole on seat 320 330, mounting hole 330 is interior, and there is calibrated altitude block 310 can replace some mounting hole 330 at any time in this way in actual structure Interior calibrated altitude block 310, and the structure design of seat 320 is sampled, actual sampling can be convenient for, for example, set in a row Mounting hole 330, position be it is fixed, screw block can slide into 330 front of corresponding mounting hole according to setting, thus In actual sampling process, screw block slides into the front of first mounting hole 330 first, is sampled, after measurement has compared, The front for sliding into second mounting hole 330 from fixture unit again, to the calibrated altitude block 310 on second mounting hole 330 into Row sampling, then slides into fixture unit again and measures comparison, to enormously simplify personnel's operating procedure, and avoid The problem of duplicate measurements.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, the fixture unit includes fixing seat 510, supports Contact block 520, movable grip slipper 530 and end grip slipper 540, the fixing seat 510 is arranged on the bottom plate 200, described End grip slipper 540 is arranged in the fixing seat 510, and the conflict block 520 is arranged in the end grip slipper 540, institute It states movable grip slipper 530 to be arranged in the fixing seat 510, the lower part of the eccentric body shaft 110 on main shaft 100 is contradicted to be supported described On contact block 520, the activity grip slipper 530 is used to contradict the top of the eccentric body shaft 110 on main shaft 100.

Preferably, fixture unit can clamp entire main shaft 100, and make the eccentric body shaft on each main shaft 100 110 height is all in fixed value, and structurally, end grip slipper 540 can clamp columned the two of main shaft 100 End, and when one of eccentric body shaft 110 is fixed by conflict block 520 and movable grip slipper 530, entire main shaft 100 is just Thoroughly fixed, so as to easily efficiently be measured to each eccentric body shaft 110, also, this method of clamping, Each eccentric body shaft 110 and the height of bottom plate 200 can be made to fix, once have the size of some eccentric body shaft 110 abnormal or Malposition will be fed back in the measurement difference of measuring unit, thus the problem of detecting main shaft 100 rapidly.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, there are two the settings of end grip slipper 540 End-fixture 541, caging bolt 542 is provided in the end-fixture 541, and the both ends of main shaft 100 are arranged at two ends On portion's fixture 541, and the caging bolt 542 is for contradicting in the end of main shaft 100.

Preferably, end grip slipper 540 is mainly used to clamp the column axis body portion at 100 both ends of main shaft, passes through opening It for the positioning of the end-fixture 541 of V-arrangement or rectangle, is then withstood again by caging bolt 542, to realize the first of main shaft 100 Step is fixed.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, the movable grip slipper 530 includes adjusting spiral shell Bolt 531, briquetting 532 and gag lever post 534 are provided with the limiting slot 511 of bar shaped, the gag lever post 534 in the fixing seat 510 It is threaded through on the briquetting 532 and the lower end of the gag lever post 534 is located in the limiting slot 511, set on the briquetting 532 It is equipped with strip-shaped hole 533, the adjusting bolt 531 is threaded through in the strip-shaped hole 533 and connect with the fixing seat 510, described The front end of briquetting 532 is located at the top of the conflict block 520.

Preferably, movable grip slipper 530 is able to carry out adjustment, and gag lever post 534 can be moved along limiting slot 511, and be adjusted Section bolt 531 can turn, thus contradict briquetting 532 in the upper end of eccentric body shaft 110, and strip-shaped hole 533 can make briquetting 532 relative adjustment bolts 531 are mobile, furthermore, it is understood that in actual use, it is first that briquetting 532 is mobile along strip-shaped hole 533 It is moved to the top of eccentric body shaft 110, then depresses briquetting 532 by adjusting bolt 531, so that briquetting 532 is contradicted in bias On axis body 110, to realize the positioning of each eccentric body shaft 110 on main shaft 100.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, reset is equipped in the adjusting bolt 531 Spring, the both ends of the reset spring contradict with the briquetting 532 and the fixing seat 510 connect respectively.

Preferably, reset spring can give briquetting 532 upward elastic force, when adjusting bolt 531 turns, be able to drive Briquetting 532 moves down, and when adjusting bolt 531 reversely turns, briquetting 532 is separated with eccentric body shaft 110, at this time adjustment spring top Briquetting 532 is played, so that briquetting 532 is located at the top for adjusting bolt 531.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, the measuring unit further includes sliding shoe 620, Sliding groove 611 is provided on the nut seat 610, the sliding shoe 620 is arranged in the sliding groove 611 and can be towards the folder Has unit sliding.

Preferably, measuring unit can move in both directions, and specifically, guide groove 210 opens up direction and can see Work is X-direction, and the direction that opens up of sliding groove 611 can be regarded as Y direction, and in the actual working process, measurement is single Member is mobile first along X-direction, is moved in calibrated altitude block 310, then measures height, is moved to then along X-axis The front of fixture unit, sliding shoe 620 is moved along Y direction at this time, and measuring unit is enabled to touch eccentric body shaft 110, to measure, also, only need to allow personnel control sliding shoe 620 in this way, by pushing sliding shoe 620, just It can complete to measure, greatly reduce the manipulation strength and step of personnel, optimize entire measurement procedure.

As shown in Figure 1, Figure 2, Figure 3 shows, on the basis of the above embodiment, the measuring unit further include fixed link 630, Elevator 640 and Centigrade scale 650, the fixed link 630 are arranged on the sliding shoe 620, and the setting of elevator 640 exists It can slide up and down in the fixed link 630 and along the fixed link 630, the Centigrade scale 650 is fixed on the elevator 640 On.

Preferably, Centigrade scale 650 can be gone up and down in fixed link 630 by elevator 640, in actual measurement, percentage Ruler 650 is adjusted by elevator 640 first, contradicts it in calibrated altitude block 310, then by screw block drive to It is measured on eccentric body shaft 110.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (10)

1. a kind of portable main shaft height detecting device characterized by comprising

Bottom plate；

Sampling unit is arranged on the bottom plate, several calibrated altitude blocks is provided on the sampling unit；

Fixture unit is arranged on the bottom plate, and the fixture unit is used to clamp each eccentric body shaft on main shaft；

Measuring unit is slidably disposed on the bottom plate, and the measuring unit can be in the sampling unit and institute It states and is slided between fixture unit, after the sampling unit measures the data of the calibrated altitude block, then slide into the fixture list The height of each eccentric body shaft on main shaft is measured in member.

2. portable main shaft height detecting device as described in claim 1, it is characterised in that: it further include driving unit, institute It states driving unit to be arranged on the bottom plate and connect with the measuring unit, and the driving unit drives the measurement single Member is slided on the bottom plate.

3. portable main shaft height detecting device as described in claim 2, it is characterised in that: be provided with guiding on bottom plate Slot, the driving unit include lead screw and driving motor, and the measuring unit includes nut seat, and the nut seat is slidable It is arranged in the guide groove, the lead screw is threadedly coupled with the nut seat, and the driving motor is fixed on the bottom plate And it is connect with the lead screw linkage.

4. portable main shaft height detecting device as described in claim 1, it is characterised in that: the sampling unit includes taking Sample seat, is provided with several mounting holes on the sampling seat, and the calibrated altitude block is cylindrical-shaped structure, and the calibrated altitude Block is worn in the mounting hole.

5. portable main shaft height detecting device as described in claim 1, it is characterised in that: the fixture unit includes solid Reservation, conflict block, movable grip slipper and end grip slipper, the fixing seat are arranged on the bottom plate, the end clamping On the fixing seat, the conflict block is arranged in the end grip slipper for seat setting, and the activity grip slipper is arranged in institute It states in fixing seat, the lower part of the eccentric body shaft on main shaft contradicts in the conflict block, and the activity grip slipper is for contradicting The top of eccentric body shaft on main shaft.

6. portable main shaft height detecting device as described in claim 5, it is characterised in that: the end grip slipper setting There are two end-fixture, caging bolt is provided in the end-fixture, the both ends of main shaft are arranged in two end-fixtures On, and the caging bolt is for contradicting in the end of main shaft.

7. portable main shaft height detecting device as described in claim 6, it is characterised in that: it is described activity grip slipper include Bolt, briquetting and gag lever post are adjusted, the limiting slot of bar shaped is provided in the fixing seat, the gag lever post is threaded through the pressure On the block and lower end of the gag lever post is located in the limiting slot, and strip-shaped hole, the adjusting bolt are provided on the briquetting It is threaded through in the strip-shaped hole and is connect with the fixing seat, the front end of the briquetting is located at the top of the conflict block.

8. portable main shaft height detecting device as described in claim 7, it is characterised in that: worn in the adjusting bolt There is reset spring, the both ends of the reset spring contradict with the briquetting and the fixing seat connect respectively.

9. portable main shaft height detecting device as described in claim 3, it is characterised in that: the measuring unit further includes Sliding shoe, sliding groove is provided on the nut seat, and the sliding shoe is arranged in the sliding groove and can be towards the fixture list Member sliding.

10. portable main shaft height detecting device as described in claim 9, it is characterised in that: the measuring unit is also wrapped Fixed link, elevator and Centigrade scale are included, the fixed link is arranged on the sliding shoe, and the elevator is arranged described solid It can slide up and down in fixed pole and along the fixed link, the Centigrade scale is fixed on the elevator.