CN208536707U - A kind of micrometer caliper - Google Patents
A kind of micrometer caliper Download PDFInfo
- Publication number
- CN208536707U CN208536707U CN201821227391.0U CN201821227391U CN208536707U CN 208536707 U CN208536707 U CN 208536707U CN 201821227391 U CN201821227391 U CN 201821227391U CN 208536707 U CN208536707 U CN 208536707U
- Authority
- CN
- China
- Prior art keywords
- differential
- main scale
- screw rod
- axle sleeve
- graduation mark
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Length-Measuring Instruments Using Mechanical Means (AREA)
Abstract
The utility model discloses a kind of micrometer calipers, belong to micrometer technical field, and ruler frame, anvil block and screw thread axle sleeve are an integral structure;The screw rod being used cooperatively is equipped on the inside of screw thread axle sleeve, in the periphery of screw thread axle sleeve, differential pipe is set, differential pipe is an integral structure with screw rod, in the periphery of differential pipe, main scale casing is set, main scale casing is the cylindricality groove body equipped with opening, and exposes the reading part of differential pipe by the opening of main scale casing.The utility model exposes the reading part of differential pipe by the opening of main scale casing, can directly be read by estimating, convenient and efficient;By the way that differential pipe and screw rod setting are an integral structure, screw rod rotates a circle in screw thread axle sleeve, screw rod drives differential pipe to rotate a circle, and each evenly divided indicates 0.002mm on differential pipe, improves measurement accuracy, simultaneously, the utility model has the advantages of simple structure, and cost is relatively low, of less demanding to use environment, application easy to spread has good practicability.
Description
Technical field
The utility model belongs to micrometer technical field, and in particular to a kind of micrometer caliper.
Background technique
Micrometer caliper, which surveys length, can be accurate to 0.01mm, reads one due to that can also estimate again, can read thousand points of millimeter
Position, it is also known as micrometers.Currently, the precise measure measurement of the fields such as processing manufacturing industry, laboratory mostly uses micrometer caliper, it is used for
The measurement of object length precision size.
Micrometer caliper is divided into two class of mechanical micrometer and electronic microcalliper.Mechanical micrometer is to utilize accurate spiral shell
Line pair principle surveys the long general dimensional measuring instrument of portable, can be used for measuring internal diameter, the pitch diameter of thread, gear common normal or depth
Deng.Electronic microcalliper, such as digital display outside micrometer apply Optical grating technique in dimensional metrology and integrated circuit etc. in measuring system.Electricity
Sub- micrometer is that mid-term the 1970s occurs, and is used for outside diameter measuring, but because of its higher cost and to use environment requirement
Strictly, difficulty is popularized in conventional teaching and application.
Traditional mechanical micrometer is made of the principle according to spiral amplification, i.e., screw rod rotates a circle in nut,
Screw rod just moves forward or back the distance of a screw pitch along rotation axis direction.Therefore, the slight distance moved in the axial direction,
It can be showed with the reading on circumference.The screw pitch of the accurate thread of micrometer caliper is 0.5mm, and movable mark has 50 etc.
Scale division, movable mark rotate a circle, and micrometric screw can move forward or back 0.5mm, therefore rotate each small indexing, are equivalent to survey
Micro- screw rod advance postpones 0.5/50=0.01mm.As it can be seen that each small indexing of movable mark indicates 0.01mm, so spiral micrometer
Device can precision be 0.01mm.
With the development of modern technologies, there is further requirement to object length dimensional measurement precision, and existing spiral is surveyed
Micro- device precision is that 0.01mm is not able to satisfy modern surveying requirement.
Utility model content
Purpose of utility model: the purpose of this utility model is to provide a kind of micrometer calipers, can not only pass through range estimation
Directly read, it is convenient and efficient, and improve measurement accuracy.
Technical solution: to realize above-mentioned purpose of utility model, the utility model adopts the following technical solution:
Anvil block is arranged in ruler frame one end in a kind of micrometer caliper, including ruler frame, anvil block and screw thread axle sleeve, another in ruler frame
End setting screw thread axle sleeve, the ruler frame, anvil block and screw thread axle sleeve are an integral structure;It is equipped on the inside of the screw thread axle sleeve
Differential pipe is arranged in the periphery of the screw thread axle sleeve in the screw rod being used cooperatively, and the differential pipe and screw rod are integral type knot
Structure is arranged main scale casing in the periphery of the differential pipe, main scale graduation mark is equipped on the main scale casing;The master
Ruler casing is the cylindricality groove body equipped with opening, and exposes the reading part of differential pipe by the opening of main scale casing.
Further, the differential pipe is column construction, and alignment line, helix and micro- are equipped on the differential pipe
Scale division line, alignment line are the lines of the perimeter expansion of two cylindricality bottom surfaces of column construction, and helix is ten and mutually puts down
Row, the both ends of helix are separately positioned on alignment line, and upper head and the tail are concordant in the axial direction for adjacent two helixes, in every spiral shell
Set up separately in spin line etc. and sets differential graduation mark.
Further, corresponding differential scale value is arranged in the top of the differential graduation mark described in every.
Further, the screw pitch of the screw rod is 0.5mm, and 25 equal part differential scales are equipped on every helix
Line, i.e., share 250 equal part differential graduation marks on differential pipe, every lattice differential graduation mark indicates 0.002mm.
Further, the helix is at an acute angle with the angle of main scale graduation mark in reading.
Further, the opening of the main scale casing is fan-shaped region, and the length of opening is 6 range of main scale graduation mark
Twice or more.
Further, one end of the screw rod is directed at setting with anvil block after stretching out ruler frame, passes through screw thread in the middle part of screw rod
Cooperation is rotatably arranged in screw thread axle sleeve, and the other end of screw rod is connected after being pierced by main scale casing with dynamometry knob.
Further, the screw rod rotates a circle in screw thread axle sleeve, screw rod just along rotation axis direction advance or
The distance of a screw pitch is retreated, screw rod drives differential pipe to rotate a circle.
Further, the main scale casing is rotatably arranged on ruler frame.
Further, the main scale graduation mark is parallel with the axis direction of differential pipe, and main scale graduation mark and differential
The side of pipe is tangent.
The utility model has the advantages that compared with prior art, a kind of micrometer caliper of the utility model is arranged in the periphery of differential pipe
The main scale casing of open pilar groove body type is exposed the reading part of differential pipe by the opening of main scale casing, can pass through mesh
It surveys and directly reads, it is convenient and efficient;By the way that ruler frame, anvil block and thread spindle are arranged the formula structure that sets as one, differential pipe is set with screw rod
The formula that sets as one structure, screw rod rotate a circle in screw thread axle sleeve, and screw rod drives differential pipe to rotate a circle, each etc. on differential pipe
Scale division indicates 0.002mm, improves measurement accuracy, meanwhile, the utility model has the advantages of simple structure, and cost is relatively low, to using ring
Border is of less demanding, and application easy to spread has good practicability.
Detailed description of the invention
Fig. 1 is the cross-sectional view of micrometer caliper;
Fig. 2 is the A-A view of Fig. 1;
Fig. 3 is the main view of micrometer caliper;
Fig. 4 is the periphery expanded schematic diagram of differential pipe;
Fig. 5 is the reading schematic diagram of embodiment 1;
Fig. 6 is the reading schematic diagram of embodiment 2.
Specific embodiment
The utility model is described further with specific implementation example with reference to the accompanying drawing.
As shown in figures 1 to 6, appended drawing reference are as follows: ruler frame 1, anvil block 2, screw rod 3, screw thread axle sleeve 4, differential pipe 5, main scale graduation mark
6, main scale casing 7, dynamometry knob 8, alignment line 9, helix 10, differential graduation mark 11 and differential scale value 12.
As shown in Figure 1, a kind of micrometer caliper, including ruler frame 1, anvil block 2 and screw thread axle sleeve 4, in 1 one end of ruler frame, anvil is set
Screw thread axle sleeve 4 is arranged in 1 other end of ruler frame in seat 2, and ruler frame 1, anvil block 2 and screw thread axle sleeve 4 are an integral structure.In screw thread axle sleeve 4
Inside is equipped with the screw rod 3 being used cooperatively, and differential pipe 5 is arranged in the periphery of screw thread axle sleeve 4, differential pipe 5 and screw rod 3 are integral type knot
Structure, the rotation of screw rod 3 will drive differential pipe 5 and rotate with, and main scale casing 7 is arranged in the periphery of differential pipe 5.7 turns of main scale casing
Dynamic to be fixed on ruler frame 1, main scale casing 7 can be used in the case where firmly rotating in the micro rotation of radial direction on ruler frame 1
Carry out zeroing calibration.
Wherein, one end of screw rod 3 is directed at setting with anvil block 2 after stretching out ruler frame 1, and the middle part of screw rod 3 is turned by being threadedly engaged
Dynamic to be arranged in screw thread axle sleeve 4, the other end of screw rod 3 is connected after being pierced by main scale casing 7 with dynamometry knob 8.
As shown in Fig. 2, main scale casing 7 is the cylindricality groove body of opening, the differential pipe 5 of 7 inside of main scale casing is rotated in screw rod 3
During rotate with, and by main scale casing 7 opening expose differential pipe 5 reading part, convenient for user read.It is main
The opening of ruler casing 7 is fan-shaped region, and the length of opening is twice or more of 6 range of main scale graduation mark, is rotated convenient for differential pipe 5
It reads, the angle of fan-shaped region is 90 ° in embodiment.
As shown in figure 3, being equipped with main scale graduation mark 6 on main scale casing 7, main scale graduation mark 6 is this micrometer caliper
Range can be configured according to the actual situation, this time carry out example using 25mm.The axis side of main scale graduation mark 6 and differential pipe 5
To parallel, and main scale graduation mark 6 and the side of differential pipe 5 are tangent.
As shown in figure 4, alignment line 9, helix 10, differential graduation mark 11 and differential scale value 12 are equipped on differential pipe 5,
Differential pipe 5 is column construction, and alignment line 9 is the lines of the perimeter expansion of two cylindricality bottom surfaces;Set up separately on differential pipe 5 etc. and sets
Ten helixes 10, the both ends of helix 10 are separately positioned on alignment line 9, and adjacent two helixes 10 are upper first in the axial direction
Tail is concordant, and 10 direction of rotation of helix is right-hand helix, i.e., helix 10 is in sharp with the angle of main scale graduation mark 6 in reading
Angle;Set up separately on every helix 10 etc. and set differential graduation mark 11, corresponding differential is set in the top of every differential graduation mark 11
Scale value 12, this is because differential pipe 5 is during rotation, when actual read number, reading is helix 10 and main scale graduation mark
The differential scale value 12 of point of intersection, for convenient for reading, differential scale value 12 to be arranged in the top of differential graduation mark 11.
In Fig. 3, one end of screw rod 3 is bonded after stretching out ruler frame 1 with anvil block 2, can carry out zeroing calibration at this time: firmly rotation master
Ruler casing 7, so that helix 10 and the reading of 6 point of intersection of main scale graduation mark are 500, as 000, at this moment on the left of differential pipe 5
Alignment line 9 is overlapped with 7 zero point of main scale casing, and calibration finishes.
Screw rod 3 rotates a circle in screw thread axle sleeve 4, and screw rod 3 just moves forward or back a screw pitch along rotation axis direction
Distance, screw rod 3 drive differential pipe 5 rotate a circle, differential pipe 5 be equipped with ten helixes 10 being parallel to each other, every spiral
Line 10 is equipped with 25 equal part differential graduation marks 11, that is, 25 × 10=250 equal part differential graduation mark 11 is shared on differential pipe 5.
When screw pitch is 0.5mm, differential pipe 5 rotates a circle, and screw rod 3 can move forward or back 0.5mm, therefore every lattice differential is carved on differential pipe 5
Line 11 is spent, the advance of screw rod 3 is equivalent to or steps back 0.5/250=0.002mm.As it can be seen that every 11 table of lattice differential graduation mark on differential pipe 5
Show 0.002mm, so a kind of measurement accuracy of micrometer caliper is 0.002mm.The length of differential pipe 5 can be 25-35mm, phase
The length for the opening answered is twice or more of 5 length of differential pipe.
Number reading method: first carry out zeroing calibration to micrometer caliper before measurement object: rotation dynamometry knob 8 screws screw rod 3
So that screw rod 3 one end stretch out ruler frame 1 after be bonded with anvil block 2, at this moment can firmly rotation main scale casing 7 so that helix 10 and
The reading of 6 point of intersection of main scale graduation mark is 500, as 000, while the alignment line 9 and 7 zero point of main scale casing in 5 left side of differential pipe
It is overlapped, calibration finishes, and can measure object.
When measuring object, first rotates dynamometry knob 8 and unscrews screw rod 3, object to be measured is placed between anvil block 2 and screw rod 3,
Screwing dynamometry knob 8 makes screw rod 3 and anvil block 2 clamp object to be measured, at this time according to the scale on main scale casing 7 and differential pipe 5
It is read.
Embodiment 1
As shown in figure 5, main scale graduation mark is first read, main scale scale value of the alignment line 9 on differential pipe 5 on main scale casing 7
Behind 11mm, reading is denoted as 11mm;Then differential scale value, the differential scale of helix 10 and main scale graduation mark point of intersection are read again
Value 12 is 426 at this time, and reading is denoted as 0.426mm, therefore the length dimension of the object under test is 11mm+0.426mm=
11.426mm。
Embodiment 2
As shown in fig. 6, main scale graduation mark is first read, main scale scale value of the alignment line 9 on differential pipe 5 on main scale casing 7
Behind 6.5mm, reading is denoted as 6.5mm;Then differential scale value, the differential quarter of helix 10 and main scale graduation mark point of intersection are read again
Angle value 12 is 184 at this time, and reading is denoted as 0.184mm, therefore the length dimension of the object under test is 6.5mm+0.184mm=
6.684mm。
Claims (10)
1. anvil block is arranged in ruler frame (1) one end in a kind of micrometer caliper, including ruler frame (1), anvil block (2) and screw thread axle sleeve (4)
(2), screw thread axle sleeve (4) are set in ruler frame (1) other end, it is characterised in that: ruler frame (1), anvil block (2) and the screw thread axle sleeve
(4) it is an integral structure;The screw rod (3) being used cooperatively is equipped on the inside of the screw thread axle sleeve (4), in the screw thread axle sleeve
(4) differential pipe (5) are arranged in periphery, and the differential pipe (5) is an integral structure with screw rod (3), in the differential pipe (5)
Periphery be arranged main scale casing (7), on the main scale casing (7) be equipped with main scale graduation mark (6);The main scale casing
(7) it is the cylindricality groove body equipped with opening, and exposes the reading part of differential pipe (5) by the opening of main scale casing (7).
2. a kind of micrometer caliper according to claim 1, it is characterised in that: the differential pipe (5) is column construction,
Alignment line (9), helix (10) and differential graduation mark (11) are equipped on the differential pipe (5), alignment line (9) is cylindricality knot
The lines of the perimeter expansion of two cylindricality bottom surfaces of structure, helix (10) is ten and is parallel to each other, the both ends of helix (10)
It is separately positioned on alignment line (9), upper head and the tail are concordant in the axial direction for adjacent two helixes (10), in every helix (10)
It is first-class set up separately set differential graduation mark (11).
3. a kind of micrometer caliper according to claim 2, it is characterised in that: the differential graduation mark (11) described in every
Top corresponding differential scale value (12) are set.
4. a kind of micrometer caliper according to claim 2, it is characterised in that: the screw pitch of the screw rod (3) is
0.5mm is equipped with 25 equal part differential graduation marks (11) on every helix (10), i.e., shares 250 equal parts on differential pipe (5)
Differential graduation mark (11), every lattice differential graduation mark (11) indicate 0.002mm.
5. a kind of micrometer caliper according to claim 2, it is characterised in that: the helix (10) reading when with
The angle of main scale graduation mark (6) is at an acute angle.
6. a kind of micrometer caliper according to claim 2, it is characterised in that: the opening of the main scale casing (7) is
Fan-shaped region, the length of opening are twice or more of main scale graduation mark (6) range.
7. a kind of micrometer caliper according to claim 1, it is characterised in that: ruler is stretched out in one end of the screw rod (3)
Frame (1) is directed at setting with anvil block (2) afterwards, and the middle part of screw rod (3) is rotatably arranged in screw thread axle sleeve (4) by being threadedly engaged, spiral shell
The other end of bar (3) is pierced by main scale casing (7) and is connected afterwards with dynamometry knob (8).
8. a kind of micrometer caliper according to claim 1, it is characterised in that: the screw rod (3) is in screw thread axle sleeve (4)
In rotate a circle, screw rod (3) just along rotation axis direction move forward or back a screw pitch distance, screw rod (3) drive differential
Pipe (5) rotates a circle.
9. a kind of micrometer caliper according to claim 1, it is characterised in that: the main scale casing (7) rotates setting
On ruler frame (1).
10. a kind of micrometer caliper according to claim 1, it is characterised in that: the main scale graduation mark (6) and differential
The axis direction for managing (5) is parallel, and main scale graduation mark (6) and the side of differential pipe (5) are tangent.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821227391.0U CN208536707U (en) | 2018-08-01 | 2018-08-01 | A kind of micrometer caliper |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821227391.0U CN208536707U (en) | 2018-08-01 | 2018-08-01 | A kind of micrometer caliper |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208536707U true CN208536707U (en) | 2019-02-22 |
Family
ID=65386507
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821227391.0U Expired - Fee Related CN208536707U (en) | 2018-08-01 | 2018-08-01 | A kind of micrometer caliper |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208536707U (en) |
-
2018
- 2018-08-01 CN CN201821227391.0U patent/CN208536707U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101706242B (en) | Duplex measuring scale of internal ring groove | |
CN206756055U (en) | A kind of instrument for the measurement of auger pore structure size factor | |
CN203672291U (en) | Cylindricity measuring device for large-size cylinder body | |
CN208536707U (en) | A kind of micrometer caliper | |
CN201748874U (en) | Multifunctional inside micrometer | |
CN108592730B (en) | A kind of micrometer caliper | |
CN211503956U (en) | Dipperstick for machining | |
CN203672284U (en) | Special gauge for measuring length bar distance of annular gear | |
CN102109307A (en) | Multipurpose digital display internal micrometer | |
CN104501850B (en) | Calibration camshaft measuring instrument etalon and using method thereof | |
CN202074898U (en) | Multi-purpose digimatic internal micrometer | |
CN102967240B (en) | A kind of sizing position axis is to depth calibrator | |
CN201016678Y (en) | Measuring caliper | |
CN202452943U (en) | Device for detecting symmetry of inner hole double key groove | |
CN215338115U (en) | Surface difference measuring tool and measuring device | |
CN201748876U (en) | High-precision micrometer caliper | |
CN103557769B (en) | A kind of tip diameter measurement meter | |
CN109506553B (en) | Angle measuring instrument for LED display panel | |
CN203744884U (en) | Part height dimension measurement mechanism | |
CN203323699U (en) | Annular surface worm rod pair detection device | |
CN208282726U (en) | A kind of high-precision measuring motion | |
CN204944341U (en) | A kind of dial gauge | |
CN201280008Y (en) | Multifunctional mapping tool | |
CN204788102U (en) | Bearing is external micrometer for measurement | |
CN205655785U (en) | Detachable gravel dip meter |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190222 Termination date: 20210801 |