CN105180748B - Cubing - Google Patents

Abstract

The invention discloses a kind of cubing of detection means, including main scale, arm is determined in rotation, rotate displacement arm and vernier, the main scale includes the first scale, second scale, first mounting blocks and the second mounting blocks, the two ends of first scale and the second scale respectively with the first mounting blocks, second mounting blocks are fixedly connected, and constitute the frame-shaped construction with medial launder, one end that arm is arranged on main scale is determined in the rotation, arm is determined in rotation has rotatable first measuring arm, the rotation displacement arm is arranged on main scale, and be slidably matched with medial launder, rotating displacement arm has rotatable second measuring arm, the vernier is arranged on main scale, and be slidably matched with medial launder.The present invention can quickly, conveniently, accurately measure the intersection or intersection point that there is fillet, the two sides of chamfering or multiaspect apart from size.

Description

Cubing

Technical field

The present invention relates to a kind of size detecting device.

Background technology

There is fillet, the two sides of chamfering or multiaspect in current casting forging blank, mold cavity and some workpieces Intersection or intersecting point dimension measurement mainly have three kinds of methods.First, the workpiece for needing to measure is put on three-coordinates measuring machine and surveyed Amount, the advantage of this method is that measurement data is accurately reliable, has the disadvantage the three-coordinates measuring machine of needs costliness, measurement cost is very high, Efficiency is very low, is not suitable for batch detection；2nd, the detection model of profiling is made at the workpiece position detected as needed, by sample card To measured position, clearance gauge is coordinated to measure.The advantage of this method is that measurement efficiency is high, has the disadvantage that a sample plate can only An a kind of size of workpiece is measured, the product of batch production needs substantial amounts of detection model, and the examined people of accuracy of detection The influence of member's qualification is larger, and the Stability and dependability of testing result is relatively low；3rd, using vernier caliper measurement fillet, fall The cut-off spot size at angle, calculates intersecting point dimension afterwards.This method has the disadvantage measured piece fillet, the cut off of chamfering can not be accurate Positioning, measurement error is very big.

Currently, the blank size detection of batch production, the detection of critical size generally relies on detection model, other sizes Detection is less, and product has larger quality risk.

The content of the invention

It is an object of the invention to propose one kind can quickly, conveniently, low cost, accurately measurement there is fillet, chamfering Two sides or multiaspect intersection or intersection point apart from size cubing.

In order to reach object above, the technical scheme is that：A kind of cubing, including main scale, rotation determine arm, rotation Displacement arm and vernier, the main scale include the first scale, the second scale, the first mounting blocks and the second mounting blocks, first mark The two ends of chi and the second scale are fixedly connected with the first mounting blocks, the second mounting blocks respectively, and constitute the frame shape with medial launder One end that arm is arranged on main scale is determined in structure, the rotation, and arm is determined in rotation has rotatable first measuring arm, and the rotation is moved Arm is arranged on main scale, and is slidably matched with medial launder, and rotating displacement arm has rotatable second measuring arm, the vernier peace It is slidably matched on main scale, and with medial launder.

The rotation determine arm also including the first sliding pin, clutch shaft bearing, the first pad, the first connecting bolt, the first briquetting, the One screw, the first elastic component and the first pin, first sliding pin are slidably fitted in the centre between the first scale and the second scale In groove, the rear-face contact of one end of the first sliding pin and the first scale and the second scale, the cylindrical portion and first in the middle part of the first sliding pin The inner ring of bearing coordinates, and the outer ring of clutch shaft bearing coordinates with the first measuring arm, the other end of the first sliding pin and the first connecting bolt Threaded connection, the first connecting bolt is pressed in outer ring one end of clutch shaft bearing by the first briquetting, the first pad, clutch shaft bearing it is interior The circle other end is offseted with the first scale and the second scale, and first screw thread is connected in the first measuring arm, the first screw Offseted by the first elastic component and main scale, first pin is inserted on the first measuring arm and main scale corresponding pin-and-hole or cotter way In, the side of first sliding pin is fixed by screws on the first mounting blocks or the second mounting blocks.

The rotation displacement arm also includes the second sliding pin, second bearing, the second pad, the second connecting bolt, the second briquetting, the Two screws, the second elastic component and the second pin, second sliding pin are slidably fitted in the centre between the first scale and the second scale In groove, the rear-face contact of one end of the second sliding pin and the first scale and the second scale, the cylindrical portion and second in the middle part of the second sliding pin The inner ring of bearing coordinates, and the outer ring of second bearing coordinates with the second measuring arm, the other end of the second sliding pin and the second connecting bolt Threaded connection, the second connecting bolt is pressed in outer ring one end of second bearing by the second briquetting, the second pad, second bearing it is interior The circle other end is offseted with the first scale and the second scale, and second screw thread is connected in the second measuring arm, the second screw Offseted by the second elastic component and main scale, second pin is inserted on the second measuring arm and main scale corresponding pin-and-hole or cotter way In.

The vernier includes being slidably fitted in the middle part of the 3rd scale, the 3rd briquetting and the 3rd bolt, the 3rd scale In medial launder between first scale and the second scale, one end and the back side of the first scale and the second scale of the 3rd scale connect Touch, the other end is connected with the 3rd bolt thread, and the 3rd bolt is pressed in the back side of the first scale and the second scale by the 3rd briquetting.

3rd scale of the vernier is transparent scale.

The technique effect of the present invention：Using the present invention cubing can quick detection various sizes, it is different by changing First measuring arm, the second measuring arm, the present invention can exchange general with slide measure completely.Extract after the first pin and the second pin, First measuring arm, the second measuring arm can be rotated freely, quickly can accurately measure a face and other two sides joint chis It is very little, even if the angle on other two sides and the face can also be measured when inconsistent；Measured using the cubing of the present invention, measurement cost Far below three-coordinates measuring machine is used, measurement efficiency, which is far above, uses three-coordinates measuring machine；Surveyed using the cubing of the present invention Amount, measurement cost, measurement efficiency and measurement accuracy are suitable with slide measure, and measurement range is bigger than slide measure.

By taking the detection of track traffic gear forging mould as an example, used in testing cost using the cubing full inspection ratio of the present invention The sampling observation of the ratio of three-coordinates measuring machine 5% will save more than 95%；In size detection scope, trip is used using the cubing ratio of the present invention Mark slide calliper rule are higher by more than 100%；In accuracy of detection, ± 0.005mm can be accurate to using the cubing of the present invention, far above making With ± the 0.5mm of detection model.It is easy to operate.

Brief description of the drawings

The present invention is further detailed explanation for the embodiment provided below in conjunction with accompanying drawing.

Fig. 1 is the structural front view of the cubing of the present invention；

Fig. 2 is Fig. 1 rearview；

Fig. 3 is Fig. 1 along line B-B sectional view；

Fig. 4 is Fig. 1 right view；

Fig. 5 is Fig. 1 along line A-A sectional view；

Fig. 6 is Fig. 5 P portions zoomed-in view；

Fig. 7 is Fig. 1 left view；

Fig. 8 is Fig. 1 sectional view along line C-C；

Fig. 9 is the use state schematic diagram of the present invention.

Embodiment

As shown in figures 1-8, a kind of cubing, including main scale 1, rotation determine arm 3, rotate displacement arm 4 and vernier 5, the principal mark Chi 1 include the first scale 1-1, the second scale 1-4, the first mounting blocks 1-2 and the second mounting blocks 1-3, the first scale 1-1 and Second scale 1-4 two ends are fixedly connected with the first mounting blocks 1-2, the second mounting blocks 1-3 respectively, and are constituted with medial launder 6 Frame-shaped construction, the rotation determine arm 3 be arranged on main scale 1 one end, rotation determine arm 3 have rotatable first measuring arm 3- 1, the rotation displacement arm 4 is arranged on main scale 1, and is slidably matched with medial launder 6, and rotating displacement arm 4 has rotatable second Measuring arm 4-1, the vernier 5 is arranged on main scale 1, and is slidably matched with medial launder 6.

As Figure 1-4, the rotation determine arm 3 also including the first sliding pin 3-2, clutch shaft bearing 3-3, the first pad 3-4, the One connecting bolt 3-5, the first briquetting 3-6, the first screw 3-7, the pins of the first elastic component 3-8 and first 3-9, the first sliding pin 3- 2 are slidably fitted in the medial launder 6 between the first scale 1-1 and the second scale 1-4, the first sliding pin 3-2 one end and the first mark Cylindrical portion and clutch shaft bearing 3-3 inner ring in the middle part of chi 1-1 and the second scale 1-4 rear-face contact, the first sliding pin 3-2 coordinate, Clutch shaft bearing 3-3 outer ring coordinates with the first measuring arm 3-1, the first sliding pin 3-2 other end and the first connecting bolt 3-5 screw threads Connection, the first connecting bolt 3-5 is pressed in clutch shaft bearing 3-3 outer ring one end, first by the first briquetting 3-6, the first pad 3-4 The bearing 3-3 inner ring other end offsets with the first scale 1-1 and the second scale 1-4, and the first screw 3-7 is threaded in On one measuring arm 3-1, the first screw 3-7 is offseted by the first elastic component 3-8 with main scale 1, and the first pin 3-9 is inserted in first On measuring arm 3-1 and main scale 1 in corresponding pin-and-hole or cotter way, the side of the first sliding pin 3-2 is fixed on the by screw 2 On one mounting blocks 1-2 or the second mounting blocks 1-3.

As shown in Fig. 1,2,5,6,7, the rotation displacement arm 4 also includes the second sliding pin 4-2, second bearing 4-3, the second pad 4-4, the second connecting bolt 4-5, the second briquetting 4-6, the second screw 4-7, the second elastic component 4-8 and second sell 4-9, described second Sliding pin 4-2 is slidably fitted in the medial launder 6 between the first scale 1-1 and the second scale 1-4, the second sliding pin 4-2 one end with Cylindrical portion and second bearing 4-3 inner ring in the middle part of first scale 1-1 and the second scale 1-4 rear-face contact, the second sliding pin 4-2 Coordinate, second bearing 4-3 outer ring coordinates with the second measuring arm 4-1, the second sliding pin 4-2 other end and the second connecting bolt 4- 5 threaded connections, the second connecting bolt 4-5 is pressed in second bearing 4-3 outer ring one by the second briquetting 4-6, the second pad 4-4 End, the second bearing 4-3 inner ring other end offsets with the first scale 1-1 and the second scale 1-4, the second screw 4-7 screw threads It is connected on the second measuring arm 4-1, the second screw 4-7 is offseted by the second elastic component 4-8 with main scale 1, the second pin 4-9 It is inserted on the second measuring arm 4-1 and main scale 1 in corresponding pin-and-hole or cotter way.

As shown in Fig. 1,2,8, the vernier 5 includes the 3rd scale 5-1, the 3rd briquetting 5-2 and the 3rd bolt 5-3, described It is slidably fitted in the middle part of 3rd scale 5-1 in the medial launder 6 between the first scale 1-1 and the second scale 1-4, the 3rd scale 5- 1 one end and the first scale 1-1 and the second scale 1-4 rear-face contact, the other end are threadedly coupled with the 3rd bolt 5-3, and the 3rd Bolt 5-3 is pressed in the first scale 1-1 and the second scale 1-4 back side by the 3rd briquetting 5-2.

As shown in Fig. 1,8, the 3rd scale 5-1 of the vernier 5 is transparent scale.

As shown in Fig. 1,2,9, the B faces of certain part are measured with A faces intersection away from C faces and A faces intersection using the cubing of the present invention Size.There is angle in the B faces of the part with C faces with A faces, and angle is unequal, and at the intersection in A faces with there are fillet, C faces and A in B faces There is chamfering at the intersection of face.The pin 4-9 of the first pin 3-9 and second are removed first, will rotate displacement arm 4 and vernier 5 is slided to the left, reserve foot Enough measurement spaces.Above the A faces that main scale 1 is adjacent to measured piece, move left and right main scale 1 and rotate the first measuring arm 3- 1 until the first scale 1-1 or the second scale 1-4 lower surface is adjacent to the B of measured piece with the first measuring arm 3-1 medial surface completely Face, tightens the first screw 3-7 until the first measuring arm 3-1 can not be rotated, the angle of arm 3 and main scale 1 is determined in fixed rotation.Simultaneously Main scale 1 is kept no longer to move.Slide and rotate displacement arm 4, while coordinating to rotate the second measuring arm 4-1 until the second measuring arm 4-1 Medial surface be adjacent to the C faces of measured piece completely, tighten the second screw 4-7 until the second measuring arm 4-1 can not be rotated.Slide to the left Vernier 5 is until the 3rd scale 5-1 is adjacent to the second measuring arm 4-1 completely.Read near the first measuring arm 3-1 and the second measuring arm 4-1 numerical value L1 and L2, reads the 3rd vernier 5-1 high scales and the second scale 1-4 high scale registration highest numerical value X, then The B faces of part are away from C faces and the measured value of A faces intersection size with A faces intersection | L1-L2 | in+X*l, formula l for vernier measurement essence Degree.

Claims (4)

1. a kind of cubing, including main scale (1), rotation determine arm (3), rotate displacement arm (4) and vernier (5), it is characterised in that：

A, the main scale (1) include the first scale (1-1), the second scale (1-4), the first mounting blocks (1-2) and second and installed Installed respectively with the first mounting blocks (1-2), second at the two ends of block (1-3), first scale (1-1) and the second scale (1-4) Block (1-3) is fixedly connected, and frame-shaped construction of the composition with medial launder (6),

B, the rotation determine one end that arm (3) is arranged on main scale (1), and rotation determines arm (3) with rotatable first measuring arm (3-1),

C, the rotation displacement arm (4) are arranged on main scale (1), and are slidably matched with medial launder (6), and rotating displacement arm (4) has Rotatable second measuring arm (4-1),

D, the vernier (5) are arranged on main scale (1), and are slidably matched with medial launder (6),

E, the rotation, which determine arm (3), also includes the first sliding pin (3-2), clutch shaft bearing (3-3), the first pad (3-4), the first connection Bolt (3-5), the first briquetting (3-6), the first screw (3-7), the first elastic component (3-8) and the first pin (3-9), described first slides Pin (3-2) is slidably fitted in the medial launder (6) between the first scale (1-1) and the second scale (1-4), the first sliding pin (3-2) One end and the first scale (1-1) and the second scale (1-4) rear-face contact, cylindrical portion in the middle part of the first sliding pin (3-2) and the The inner ring of one bearing (3-3) coordinates, and outer ring and the first measuring arm (3-1) of clutch shaft bearing (3-3) coordinate, the first sliding pin (3-2) The other end be threadedly coupled with the first connecting bolt (3-5), the first connecting bolt (3-5) pass through the first briquetting (3-6), first pad Piece (3-4) is pressed in outer ring one end of clutch shaft bearing (3-3), the inner ring other end and the first scale (1-1) of clutch shaft bearing (3-3) and Second scale (1-4) is offseted, and first screw (3-7) is threaded in the first measuring arm (3-1), the first screw (3-7) Offseted by the first elastic component (3-8) with main scale (1), first pin (3-9) is inserted in the first measuring arm (3-1) and main scale (1) in corresponding pin-and-hole or cotter way, the side of first sliding pin (3-2) is fixed on the first mounting blocks (1- by screw (2) 2) or on the second mounting blocks (1-3).

2. cubing according to claim 1, it is characterised in that：It is described rotation displacement arm (4) also include the second sliding pin (4-2), Second bearing (4-3), the second pad (4-4), the second connecting bolt (4-5), the second briquetting (4-6), the second screw (4-7), Two elastic components (4-8) and the second pin (4-9), second sliding pin (4-2) are slidably fitted in the first scale (1-1) and the second scale In medial launder (6) between (1-4), one end and the first scale (1-1) and the back of the body of the second scale (1-4) of the second sliding pin (4-2) Face is contacted, and the inner ring of the cylindrical portion in the middle part of the second sliding pin (4-2) and second bearing (4-3) coordinates, the outer ring of second bearing (4-3) Coordinate with the second measuring arm (4-1), the other end of the second sliding pin (4-2) is threadedly coupled with the second connecting bolt (4-5), second connects Connecting bolt (4-5) is pressed in outer ring one end of second bearing (4-3), the second axle by the second briquetting (4-6), the second pad (4-4) The inner ring other end and the first scale (1-1) and the second scale (1-4) for holding (4-3) offset, and the second screw (4-7) screw thread connects It is connected in the second measuring arm (4-1), the second screw (4-7) is offseted by the second elastic component (4-8) with main scale (1), described Two pins (4-9) are inserted on the second measuring arm (4-1) and main scale (1) in corresponding pin-and-hole or cotter way.

3. cubing according to claim 1, it is characterised in that：The vernier (5) includes the 3rd scale (5-1), the 3rd pressure The first scale (1-1) and the second mark are slidably fitted in the middle part of block (5-2) and the 3rd bolt (5-3), the 3rd scale (5-1) In medial launder (6) between chi (1-4), one end of the 3rd scale (5-1) and the first scale (1-1) and the second scale (1-4) Rear-face contact, the other end is threadedly coupled with the 3rd bolt (5-3), and the 3rd bolt (5-3) is pressed in first by the 3rd briquetting (5-2) The back side of scale (1-1) and the second scale (1-4).

4. cubing according to claim 1, it is characterised in that：3rd scale (5-1) of the vernier (5) is transparent mark Chi.