CN205537468U - Pipeline angle measuring device - Google Patents

Pipeline angle measuring device Download PDF

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Publication number
CN205537468U
CN205537468U CN201620093876.XU CN201620093876U CN205537468U CN 205537468 U CN205537468 U CN 205537468U CN 201620093876 U CN201620093876 U CN 201620093876U CN 205537468 U CN205537468 U CN 205537468U
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China
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connecting elements
pipeline
revolving part
pivot
component
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CN201620093876.XU
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Chinese (zh)
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严曰
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Beiqi Foton Motor Co Ltd
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Beiqi Foton Motor Co Ltd
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Abstract

The utility model discloses a pipeline angle measuring device. Pipeline angle measuring device includes: the connecting elements, two pin joint component (1), its with the both ends pin joint of connecting elements, rotating member (2), its both ends are passed through respectively connecting elements and one pin joint component (1) is connected, and can make two pin joint component (1) relative rotation, and the angular surveying component, it is used for measuring pin joint component (1) with contained angle between the connecting elements and two relative rotation angle between pin joint component (1). The utility model discloses a pipeline angle measuring device can detect the pipeline of difference trend, and the commonality is strong, test efficiency is higher and practice thrift the cost.

Description

A kind of pipeline angle measurement unit
Technical field
The utility model relates to automobile technical field, particularly relates to a kind of pipeline angle measurement unit.
Background technology
On the automobile using hydraulic power-assisted steering, steering oil pipe (includes turning to high-low pressure oil pipe, oil pump The minor diameter tubings such as oil inlet pipe) have various different trend (such as, steering oil pipe according to the layout in cabin The bending angle of bending part is different or the space angle of adjacent two bending parts of steering oil pipe is different), and Every steering oil pipe trend in cabin is fixing.For checking steering oil pipe to move towards in prior art Cubing be on workpiece processing groove, and groove trend and need walking of the steering oil pipe being arranged in cabin To unanimously.If steering oil pipe to be tested can be completely embedded into so far groove, then this steering oil to be tested Pipe meets examination requirements.But, the steering oil pipe that a set of cubing is only capable of for having same trend is examined Test.When difference being moved towards oil pipe and detecting, need to change the cubing that making is different, make checkability relatively Low and cost of idleness.
Thus, it is desirable to have a kind of technical scheme overcomes or at least alleviates the drawbacks described above of prior art.
Utility model content
The purpose of this utility model is provide a kind of pipeline angle measurement unit to overcome or at least alleviate existing There is the drawbacks described above of technology.
For achieving the above object, the utility model provides a kind of pipeline angle measurement unit.Described pipeline angle Degree measurement apparatus includes: connecting elements;Two Pivot components, itself and the two ends pivot joint of described connecting elements; Rotating member, its two ends are connected by described connecting elements and a described Pivot component respectively, and can make Two described Pivot components rotate against;And angular surveying component, its be used for measuring described Pivot component with The relative rotation angle between angle and two described Pivot components between described connecting elements.
Preferably, described rotating member includes the first revolving part and the second revolving part, wherein: described first One end of revolving part and one end of described second revolving part are can connect in the way of relatively rotating with respect to each other, described The other end of the first revolving part and the other end of described second revolving part are all by described connecting elements and one Described Pivot component connects.
Preferably, the other end of described first revolving part and/or the other end of described second revolving part are with described Connecting elements is connected in the adjustable mode in position on the length direction of described connecting elements.
Preferably, the other end of described first revolving part and/or the other end of described second revolving part have edge The chute that the length direction of described connecting elements is offered, by running through the lead of described connecting elements along described The slip of chute and regulate described connecting elements and the other end of described first revolving part and/or described second rotation Turn the relative position of the other end of part.
Preferably, described angular surveying component includes: Plane Angle measuring instrument, and it includes being located at described pivot The first dial on the pivotal axis of connection member and described connecting elements and the axis side along described Pivot component To the first pointer being located on described Pivot component;And measuring instrument for space angle, it includes being located at described Second dial of one end of one revolving part and be located at second pointer of one end of described second revolving part.
Preferably, described connecting elements includes the subsegment that at least two concatenates along its length.
Preferably, adjacent described subsegment is linked together by attachment means.
Preferably, described pipeline angle measurement unit farther includes pipeline claw, for by described pivot joint Component and described connecting elements are arranged on the outer wall of pipeline.
Preferably, described pipeline claw includes: accommodating chamber, it is used for housing described Pivot component or described Connecting elements;First bolt assembly, it stretches to the inside in described receiving chamber, and can be by described pivot joint structure Part or described connecting elements are pressed in described receiving chamber;Claw, it is connected, at pipeline with described receiving chamber Radially by accommodating for described pipeline therein;Second bolt assembly, it runs through and is screwed to described claw, So that described pipeline is clamped in described claw.
Preferably, the longitudinal section shape of described Pivot component is U-shaped.
Two Pivot components in pipeline angle measurement unit of the present utility model and the two ends pivot of connecting elements Connect and correspondence installs adjacent two bending parts to pipeline, and measure two pivot joint structures by angular surveying component Two angles between part and the two ends of connecting elements are to measure two bending folders of two bending parts of pipeline Angle.Meanwhile, the two ends of rotating member are connected by connecting elements and two Pivot components respectively, and can make Two Pivot components spatially rotate against with adjacent two bending parts of pipeline, and by angular surveying structure Part measures the relative rotation angle between two Pivot components to measure adjacent two bending parts of pipeline at sky Space angle between.Enable pipeline angle measurement unit of the present utility model that difference to be moved towards pipeline to carry out Detection, highly versatile, checkability are higher and cost-effective.
Accompanying drawing explanation
Showing when Fig. 1 is the use state of the pipeline angle measurement unit according to the utility model one embodiment It is intended to.
Fig. 2 is that the Pivot component in pipeline angle measurement unit shown in Fig. 1, connecting elements and angle are surveyed The Plane Angle measuring instrument in the amount component schematic diagram when connection status.
Fig. 3 is that the rotating member in pipeline angle measurement unit shown in Fig. 1, connecting elements and angle are surveyed The measuring instrument for space angle in the amount component schematic diagram when connection status.
Fig. 4 is the schematic diagram when the state of use of the pipeline claw in pipeline angle measurement unit shown in Fig. 1.
Reference:
1 Pivot component 31 Accommodate chamber
11 First pointer 32 First bolt assembly
2 Rotating member 33 Claw
21 First revolving part 34 Second bolt assembly
211 First end 41 First subsegment
2111 Chute 42 Second subsegment
212 Second end 43 3rd subsegment
22 Second revolving part 5 Lead
221 3rd end 6 First dial
222 4th end 7 Steering oil pipe
2221 Second pointer 8 Attachment means
3 Pipeline claw 9 Bending angle
Detailed description of the invention
In the accompanying drawings, use same or similar label represent same or similar element or have identical or The element of similar functions.Below in conjunction with the accompanying drawings embodiment of the present utility model is described in detail.
In description of the present utility model, term " " center ", " longitudinally ", " laterally ", "front", "rear", The orientation of the instruction such as "left", "right", " vertically ", " level ", " top ", " end " " interior ", " outward " or position Relation of putting, for based on orientation shown in the drawings or position relationship, is for only for ease of description the utility model and letter Change and describe rather than indicate or imply that the device of indication or element must have specific orientation, with specifically Azimuth configuration and operation, therefore it is not intended that restriction to the utility model protection domain.
Seeing Fig. 1, pipeline angle measurement unit includes connecting elements, two Pivot components 1, rotating members 2, angular surveying component and pipeline claw 3.Wherein, connecting elements includes first subsegment the 41, first son Section 42 and the 3rd subsegment 43, rotating member 2 includes the first revolving part 21 and the second revolving part 22, angle Degree is measured component and is included that Plane Angle measuring instrument and measuring instrument for space angle, pipeline claw 3 include accommodating chamber 31, the first bolt assembly 32, claw the 33, second bolt assembly 34.
It is pointed out that of the present utility model in pipeline generally refer to the steering oil pipe 7 shown in Fig. 1. Pipeline angle measurement unit of the present utility model is mainly to the bending angle 9 of the bending part of steering oil pipe 7 with turn Measure to adjacent two bending parts of oil pipe 7 space angle spatially.It is understood that this Other type of pipeline can also be measured by the pipeline angle measurement unit of utility model.Shown in Fig. 1 Embodiment in, steering oil pipe 7 includes left section of oil pipe, stage casing oil pipe and the right section of oil pipe being sequentially connected with. It is respectively provided with bending angle 9 between left section of oil pipe and stage casing oil pipe and between stage casing oil pipe and right section of oil pipe.And The most in one plane, left section of oil pipe and right section of oil pipe are spatially for left section of oil pipe and right section of oil pipe The angle formed i.e. refers to adjacent two bending parts space angle spatially.
From above-described embodiment, steering oil pipe 7 has two bending parts, and to there being two bending folders Angle 9.When having three, four or multiple bending part on steering oil pipe 7, and to should have three, four or During multiple bending angle 9, it is only necessary to the folding to adjacent two bending parts successively by pipeline angle measurement unit Angle coupling angle 9 and space angle measure, and can realize turning having three, four or multiple bending part Trend to oil pipe 7 measures.
See Fig. 1, connecting elements be shaped as tabular.In the trend to pipeline (i.e. steering oil pipe 7) When measuring, connecting elements is arranged on one section of oil pipe that adjacent two bending parts of steering oil pipe 7 share The outer wall of (i.e. horizontal-extending stage casing oil pipe shown in Fig. 1), and its bearing of trend is parallel to stage casing oil pipe Central axis so that measuring accurately.
Advantageously, connecting elements includes at least two (i.e. right and left shown in Fig. 1 along its length To) subsegment that concatenates.It is to say, the quantity of the subsegment in connecting elements can be three sections, four sections or its Its multistage.In the present embodiment, the quantity of subsegment is three sections.So that the quantity of subsegment in connecting elements is permissible Arbitrarily add according to the actual measurement length of steering oil pipe 7, to increase the length of connecting elements in good time.And Meet the two ends of following rotating member 2 respectively by connecting elements and the connection of a Pivot component 1.With Time, make pipeline angle measurement unit can segmentation deposit when not in use, effectively reduce pipeline angular surveying dress That puts takes up room.Multiple subsegments are serially connected, and the most multiple subsegments are arranged in approximately the same plane, and Link together, so that measuring accurately.
Seeing Fig. 1, adjacent sub-section is linked together by attachment means 8, sets meeting adjacent two subsegments Put in approximately the same plane, and installing/dismounting is simple and convenient.Such as, the first subsegment 41 He shown in Fig. 1 Second subsegment 42 is linked together by attachment means 8.
In the embodiment shown in Fig. 1 and Fig. 2, the quantity of Pivot component 1 is two, two pivot joint structures Part 1 and the two ends pivot joint of connecting elements.Specifically, it is positioned at the Pivot component 1 of connecting elements left end and is connected The left end (i.e. the left end of the first subsegment 41 shown in Fig. 1) of component is with can in the plane at its place relatively The mode rotated connects.It is positioned at the Pivot component 1 of connecting elements right-hand member and right-hand member (i.e. Fig. 1 of connecting elements The right-hand member of the 3rd shown subsegment 43) with can in the plane at its place in relative rotation mode connect.? When measuring the trend of steering oil pipe 7, Pivot component 1 correspondence of left end is arranged on steering oil pipe 7 The outer wall of left section of oil pipe, and its bearing of trend is parallel to the central axis of left section of oil pipe.Similarly, right-hand member Pivot component 1 correspondence be arranged on the outer wall of right section of oil pipe of steering oil pipe 7, and its bearing of trend is parallel to The central axis of right section of oil pipe.So that the bending angle 9 of the left end of steering oil pipe 7 is equal to the pivot joint structure of left end The plane included angle formed between part 1 and the first subsegment 41, the bending angle 9 etc. of the right-hand member of steering oil pipe 7 The plane included angle formed between Pivot component 1 and the 3rd subsegment 43 of right-hand member.By to two pivot joint structures Two angles between part 1 and the two ends of connecting elements measure, and i.e. can measure steering oil pipe 7 Two bending angles 9 of two bending parts.
Seeing Fig. 2, longitudinal direction (being i.e. parallel on the above-below direction of the paper) cross sectional shape of Pivot component 1 is big Body is U-shaped.It is to say, the inside of Pivot component 1 is hollow, and there is opening.The company of being capable of 360 degree of Plane Rotations between first subsegment 41 and the Pivot component 1 of connection member.Meanwhile, do not carrying out During measurement, make Pivot component 1 first subsegment 41 of connecting elements can be contained in Pivot component 1 completely In, effectively to save space.
Seeing Fig. 1, the two ends of rotating member 2 are connected by connecting elements and a Pivot component 1 respectively, And two Pivot components 1 can be made to rotate against.Specifically, the left end of rotating member 2 be positioned on the left of it Pivot component 1 be connected with the second subsegment 42 by the first subsegment 41 of connecting elements, rotating member 2 Right-hand member be connected by the 3rd subsegment 43 of connecting elements with the Pivot component 1 being positioned on the right side of it.Due to Two Pivot components 1 being arranged on left section of oil pipe of steering oil pipe 7 and right section of oil pipe can be with steering oil pipe Left section of oil pipe and the right section of oil pipe of adjacent two bending parts of 7 spatially rotate against.Therefore, left section of oil The angle that pipe and right section of oil pipe are spatially formed is equal to the relative rotation angle between two Pivot components 1. By measuring the relative rotation angle between two Pivot components 1, the adjacent of steering oil pipe 7 can be measured Two bending parts space angle spatially.
Referring specifically to Fig. 1 and Fig. 3, one end (i.e. Fig. 1 institute of the first revolving part 21 in rotating member 2 The second end 212 shown) and rotating member 2 in one end (i.e. shown in Fig. 1 of the second revolving part 22 Four ends 222) can connect in the way of relatively rotating with respect to each other.Wherein, the second end of the first revolving part 21 212 be shaped as is discoid, and the shape of the 4th end 222 of the second revolving part 22 is also correspondingly arranged as disk Shape.
The other end (i.e. the first end 211 shown in Fig. 1) of the first revolving part 21 is by connecting elements (tool Body is the first subsegment 41 shown in Fig. 1 and the second subsegment 42) it is connected, with by the first subsegment 41 He Second subsegment 42 is connected with a Pivot component 1 (i.e. the Pivot component 1 being positioned at left side shown in Fig. 1). And first the plane at revolving part 21 place be parallel to the plane at Pivot component 1 place and first son in left side Section 41 and the plane at the second subsegment 42 place.The other end (i.e. shown in Fig. 1 of the second revolving part 22 Three ends 221) it is connected by connecting elements (specially the 3rd subsegment 43 shown in Fig. 3), with by the Three subsegments 43 are connected with another Pivot component 1 (i.e. the Pivot component 1 being positioned at right side shown in Fig. 1). And second the plane at the 3rd end 221 place of revolving part 22 be parallel to Pivot component 1 place flat on right side Face and the plane at the 3rd subsegment 43 place.Thus, make to be arranged on left section of oil pipe of steering oil pipe 7 and the right side Two Pivot components 1 on section oil pipe are with left section of oil pipe of adjacent two bending parts of steering oil pipe 7 and right section When oil pipe spatially rotates against, it is possible to drive connected first revolving part 21 and the second revolving part 22 relatively rotate, to realize the space angle spatially of adjacent two bending parts to steering oil pipe 7 Accurately measure.
In the embodiment shown in Fig. 1 and Fig. 3, the other end (the i.e. first end 211) of the first revolving part 21 With connecting elements (the i.e. second subsegment 42) in length direction (the i.e. right and left shown in Fig. 1 of connecting elements To) on be connected in the adjustable mode in position, and the other end (the i.e. the 3rd end 221) of the second revolving part 22 Also it is connected in the adjustable mode in position with connecting elements (the i.e. the 3rd subsegment 43), so that connecting elements Total length adjustable, to facilitate pipeline angle measurement unit that the steering oil pipe 7 of different length is measured, Thus improve the versatility of pipeline angle measurement unit.It is understood that individually by the first revolving part 21 The first end 211 be connected in the adjustable mode in position with the second subsegment 42, or individually by the second revolving part The embodiment that 3rd end 221 of 22 and the 3rd subsegment 43 are connected in the adjustable mode in position is all in this practicality In novel protection domain.
Referring specifically to Fig. 3, the other end (the i.e. first end 211) of the first revolving part 21 is socketed in connection structure The outside of part (the i.e. second subsegment 42), makes the second subsegment 42 at the first end 211 of the first revolving part 21 Interior insertion can be adjusted.And first first end 211 of revolving part 21 there is chute 2111, sliding The length direction of groove 2111 is along length direction (the i.e. left and right shown in Fig. 1 of the second subsegment 42 of connecting elements Direction) offer.Being provided with connecting hole on connecting elements, connecting hole correspondence chute 2111 is arranged.Lead 5 run through connecting hole, drive the second subsegment of connecting elements by lead 5 along the slip of chute 2111 First end 211 of 42 relative first revolving parts 21 moves, with regulate the second subsegment 42 of connecting elements with The relative position of the first end 211 of the first revolving part 21, and then the first end of regulation the first revolving part 21 Distance between 211 and the second subsegment 42 of connecting elements.Similarly, the 3rd end of the second revolving part 22 The Principles of Regulation of the relative position between 221 and the 3rd subsegment 43 of connecting elements and above-mentioned first revolving part First end 211 of 21 is identical with the Principles of Regulation of the relative position of the second subsegment 42 of connecting elements.
Angular surveying component is for measuring the angle between Pivot component 1 and connecting elements and two pivot joints Relative rotation angle between component 1.Angular surveying component and above-mentioned connecting elements, two Pivot components 1 and rotating member 2 match, enable pipeline angle measurement unit of the present utility model to difference move towards Oil pipe 7 detects.Compared with prior art, the versatility of pipeline angle measurement unit of the present utility model By force, checkability is higher and cost-effective.
Specifically, the Plane Angle measuring instrument in angular surveying component includes that the first dial 6 and first refers to Pin 11.First dial 6 is located on the pivotal axis of Pivot component 1 and connecting elements.Pivot component 1 energy Enough at initial position and measure Plane Rotation between position around the first dial 6.First pointer 11 is along pivot joint The axis direction (centerline direction extended the most along its length) of component 1 is located on Pivot component 1. Wherein, at initial position, the bearing of trend of Pivot component 1 and connecting elements (the i.e. first subsegment 41) Bearing of trend is identical, and the first subsegment 41 can be contained in Pivot component 1 completely.On Pivot component 1 Reset on first pointer 11 and the first dial 6 is on same straight line;Measuring position, peace It is contained between Pivot component 1 and the first subsegment 41 on left section of oil pipe of steering oil pipe 7 or right section of oil pipe and has Having angle, this angle is equal to the steering oil pipe 7 bending angle 9 at bending part.Now, the first pointer 11 Numerical value i.e. steering oil pipe 7 indicated on the first dial 6 is in the angle of the bending angle 9 of bending part.
Measuring instrument for space angle in angular surveying component includes the second dial and the second pointer 2221.The Two dials are located at the circumferential exterior surface of one end (the i.e. second end 212) of the first revolving part 21.Second refers to Pin 2221 is located at one end (the i.e. the 4th end 222) of the second revolving part 22, and with the quarter on the second dial Degree is correspondingly arranged.
The measurement process of measuring instrument for space angle is: before carrying out the measurements, the first of the first revolving part 21 End the 3rd end 221 of the 211, second revolving part 22, the Pivot component 1 in left side, the Pivot component 1 on right side, The plane at first subsegment the 41, second subsegment 42 and the 3rd subsegment 43 place is parallel to each other.Simultaneously the 4th Zeromark on the second pointer 2221 arranged on end 222 and the second end 212 is arranged on same straight line On.When measuring, due to the Pivot component 1 in left side, connected first subsegment 41 and with When the second subsegment 42 that first subsegment 41 is connected carries out bending with left section of oil pipe of steering oil pipe 7, simultaneously The second subsegment 42 being connected with the first end 211 of the first revolving part 21 in rotation rotating member 2 can drive First revolving part 21 rotates.Similarly, due to Pivot component 1, connected 3rd subsegment on right side 43 when carrying out bending with right section of oil pipe of steering oil pipe 7, simultaneously with the second rotation in rotation rotating member 2 The 3rd subsegment 43 that 3rd end 221 of part 22 is connected can drive the second revolving part 22 to rotate.So that Relatively rotating between first revolving part 21 and the second revolving part 22 and form space angle, now, second refers to Adjacent two bending parts of the i.e. steering oil pipe 7 of numerical value that pin 2221 is indicated on the second end 212 are in space On space angle.
Seeing Fig. 1, pipeline claw 3 (i.e. turns to for Pivot component 1 and connecting elements are arranged on pipeline Oil pipe 7) outer wall, and then rotating member 2 is arranged on the outer wall of steering oil pipe 7, so that pipeline angle The trend of steering oil pipe 7 is accurately measured by measurement apparatus.
Referring specifically to Fig. 4, the receiving chamber 31 in pipeline claw 3 is used for housing Pivot component 1 or connecting structure Part.The first bolt assembly 32 in pipeline claw 3 include the first bolt and with under the screw rod of the first bolt The pressure strip that end is connected.The first bolt in first bolt assembly 32 extends vertically through the upper end accommodating chamber 31, By being screwed downwards by the first bolt, and drive pressure strip to move downward, make pressure strip against to Pivot component 1 or connecting elements, Pivot component 1 or connecting elements are pressed in receiving chamber 31.
Claw 33 in pipeline claw 3 is connected, at pipeline (i.e. steering oil pipe 7) with accommodating chamber 31 one The inside that radially pipeline (i.e. steering oil pipe 7) is contained in claw 33.In pipeline claw 3 Two bolt assemblies 34 include the second bolt and the nut being matched therewith.In second bolt assembly 34 second Bolt-through claw 33, and by tightening the nut in the second bolt assembly 34, so that steering oil pipe 7 is pressed from both sides Tight in claw 33.It is understood that the claw in the present embodiment can adapt to turning to of different tube diameters Oil pipe 7, to improve the versatility of pipeline angle measurement unit.It is pointed out that the knot of attachment means 8 Structure and the upper end for Pivot component 1 or connecting elements being pressed on pipeline claw 3 in pipeline claw 3 Structure is identical, including accommodating chamber 31 and the first bolt assembly 32.
Two Pivot components in pipeline angle measurement unit of the present utility model and the two ends pivot of connecting elements Connect and correspondence installs adjacent two bending parts to pipeline, and measure two pivot joint structures by angular surveying component Two angles between part and the two ends of connecting elements are to measure two bending folders of two bending parts of pipeline Angle.Meanwhile, the two ends of rotating member are connected by connecting elements and two Pivot components respectively, and can make Two Pivot components spatially rotate against with adjacent two bending parts of pipeline, and by angular surveying structure Part measures the relative rotation angle between two Pivot components to measure adjacent two bending parts of pipeline at sky Space angle between.Enable pipeline angle measurement unit of the present utility model to difference trend and length Pipeline detects, and highly versatile, checkability are higher and cost-effective.
Last it is noted that above example is only in order to illustrate the technical solution of the utility model, and Non-to its restriction.It will be understood by those within the art that: can be to described in foregoing embodiments Technical scheme is modified, or wherein portion of techniques feature is carried out equivalent;These are revised or replace Change, do not make the essence of appropriate technical solution depart from spirit and the model of the utility model each embodiment technical scheme Enclose.

Claims (10)

1. a pipeline angle measurement unit, it is characterised in that including:
Connecting elements;
Two Pivot components (1), itself and the two ends pivot joint of described connecting elements;
Rotating member (2), its two ends are respectively by described connecting elements and a described Pivot component (1) Connect, and two described Pivot components (1) can be made to rotate against;And
Angular surveying component, it is used for measuring the folder between described Pivot component (1) and described connecting elements Relative rotation angle between angle and two described Pivot components (1).
2. pipeline angle measurement unit as claimed in claim 1, it is characterised in that described rotating member (2) the first revolving part (21) and the second revolving part (22) are included, wherein: described first revolving part (21) One end and one end of described second revolving part (22) can connect in the way of relatively rotating with respect to each other, described The other end of the first revolving part (21) and the other end of described second revolving part (22) are all by described connection Component and a described Pivot component (1) connect.
3. pipeline angle measurement unit as claimed in claim 2, it is characterised in that described first rotates The other end of part (21) and/or the other end of described second revolving part (22) and described connecting elements are in institute State and be connected in the adjustable mode in position on the length direction of connecting elements.
4. pipeline angle measurement unit as claimed in claim 3, it is characterised in that described first rotates The other end of part (21) and/or the other end of described second revolving part (22) have along described connecting elements The chute (2111) offered of length direction, by running through the lead (5) of described connecting elements along described The slip of chute (2111) and regulate described connecting elements and described first revolving part (21) the other end and / or the relative position of the other end of described second revolving part (22).
5. the pipeline angle measurement unit as according to any one of claim 2 to 4, it is characterised in that Described angular surveying component includes:
Plane Angle measuring instrument, it includes the pivot being located at described Pivot component (1) with described connecting elements The first dial (6) on axle and the axis direction along described Pivot component (1) are located at described Pivot component (1) the first pointer (11) on;And
Measuring instrument for space angle, it the second scale including being located at one end of described first revolving part (21) Dish and be located at second pointer (2221) of one end of described second revolving part (22).
6. pipeline angle measurement unit as claimed in claim 1, it is characterised in that described connecting elements The subsegment concatenated along its length including at least two.
7. pipeline angle measurement unit as claimed in claim 6, it is characterised in that adjacent described subsegment Linked together by attachment means (8).
8. pipeline angle measurement unit as claimed in claim 7, it is characterised in that farther include pipe An outpost of the tax office's pawl (3), for being arranged on the outer wall of pipeline by described Pivot component (1) and described connecting elements.
9. pipeline angle measurement unit as claimed in claim 8, it is characterised in that described pipeline claw (3) including:
Accommodating chamber (31), it is used for housing described Pivot component (1) or described connecting elements;
First bolt assembly (32), it stretches to the inside of described receiving chamber (31), and can be by described Pivot component (1) or described connecting elements are pressed in described receiving chamber (31);
Claw (33), it is connected with described receiving chamber (31), radially being held by described pipeline at pipeline Put therein;
Second bolt assembly (34), it runs through and is screwed to described claw (33), with by described tubing clamp Tight in described claw (33).
10. pipeline angle measurement unit as claimed in claim 1, it is characterised in that described pivot joint structure The longitudinal section shape of part (1) is U-shaped.
CN201620093876.XU 2016-01-29 2016-01-29 Pipeline angle measuring device Active CN205537468U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106568374A (en) * 2016-10-20 2017-04-19 安徽江淮汽车集团股份有限公司 Transmission shaft angle measurement device
CN108592741A (en) * 2018-04-19 2018-09-28 中船黄埔文冲船舶有限公司 A kind of ship school pipe data dispensing device
CN112629381A (en) * 2020-10-27 2021-04-09 北京星航机电装备有限公司 Pipe bending measuring scale and measuring method
CN112620430A (en) * 2020-10-27 2021-04-09 北京星航机电装备有限公司 Guide pipe sample tube, guide pipe bending measuring scale and guide pipe sample tube forming method
RU2802456C1 (en) * 2022-12-28 2023-08-29 Общество с ограниченной ответственностью "Газпром трансгаз Самара" Angle meter with sliding supports

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106568374A (en) * 2016-10-20 2017-04-19 安徽江淮汽车集团股份有限公司 Transmission shaft angle measurement device
CN108592741A (en) * 2018-04-19 2018-09-28 中船黄埔文冲船舶有限公司 A kind of ship school pipe data dispensing device
CN112629381A (en) * 2020-10-27 2021-04-09 北京星航机电装备有限公司 Pipe bending measuring scale and measuring method
CN112620430A (en) * 2020-10-27 2021-04-09 北京星航机电装备有限公司 Guide pipe sample tube, guide pipe bending measuring scale and guide pipe sample tube forming method
CN112620430B (en) * 2020-10-27 2023-03-14 北京星航机电装备有限公司 Guide pipe sample tube, guide pipe bending measuring scale and guide pipe sample tube forming method
RU2802456C1 (en) * 2022-12-28 2023-08-29 Общество с ограниченной ответственностью "Газпром трансгаз Самара" Angle meter with sliding supports

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