WO2019114080A1 - 防松螺纹副及防松螺纹件 - Google Patents
防松螺纹副及防松螺纹件 Download PDFInfo
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- WO2019114080A1 WO2019114080A1 PCT/CN2018/072390 CN2018072390W WO2019114080A1 WO 2019114080 A1 WO2019114080 A1 WO 2019114080A1 CN 2018072390 W CN2018072390 W CN 2018072390W WO 2019114080 A1 WO2019114080 A1 WO 2019114080A1
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- thread
- groove
- threaded member
- mating
- lock
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- 230000000670 limiting effect Effects 0.000 claims abstract description 67
- 230000013011 mating Effects 0.000 claims description 239
- 238000006073 displacement reaction Methods 0.000 claims description 61
- 238000000034 method Methods 0.000 description 17
- 230000000737 periodic effect Effects 0.000 description 12
- 230000036961 partial effect Effects 0.000 description 9
- 230000003993 interaction Effects 0.000 description 7
- 239000000203 mixture Substances 0.000 description 5
- 238000010079 rubber tapping Methods 0.000 description 5
- 230000001788 irregular Effects 0.000 description 4
- 238000009826 distribution Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 3
- 238000003754 machining Methods 0.000 description 2
- 230000002265 prevention Effects 0.000 description 2
- 230000000717 retained effect Effects 0.000 description 2
- 230000001629 suppression Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002401 inhibitory effect Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000007769 metal material Substances 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 230000035939 shock Effects 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16B—DEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
- F16B39/00—Locking of screws, bolts or nuts
- F16B39/22—Locking of screws, bolts or nuts in which the locking takes place during screwing down or tightening
- F16B39/28—Locking of screws, bolts or nuts in which the locking takes place during screwing down or tightening by special members on, or shape of, the nut or bolt
- F16B39/30—Locking exclusively by special shape of the screw-thread
Definitions
- the present disclosure relates to the field of mechanical connection technology, and in particular to a lock thread pair and a lock screw.
- Threaded connection is one of the most widely used connection methods in the fields of machinery, construction, transportation, aviation, aerospace, shipbuilding, furniture, etc. It can produce a large connection force, easy to disassemble, easy to mass production, and low cost. .
- the present disclosure provides a lock-proof thread pair and a lock-proof screw.
- first threaded member having an inner hole, the inner wall surface of the inner hole being provided with a first thread extending along a spiral thereof;
- a second threaded member having a rod-like structure, the outer wall surface of the rod-shaped structure being provided with a second thread extending along a spiral thereof and corresponding to the first thread, the second thread a threaded member is threadedly coupled to the first threaded member;
- a side where the first thread and the second thread are pressed against each other are respectively formed as a bearing mating surface
- the first a threading tooth and a side of the second thread opposite to the bearing mating surface are respectively formed as non-bearing mating regions
- the bearing mating surface of the first threaded member and the second threaded member And the non-bearing mating area (including the bearing mating surface of the first threaded member, the non-bearing mating area of the first threaded member, the bearing mating surface of the second threaded member, and the non-loading fit of the second threaded member)
- At least one of the regions is provided with a limiting portion to limit radial displacement between the first threaded member and the second threaded member.
- the limiting portion is disposed on the bearing mating surface of the first threaded member and/or the second threaded member.
- the limiting portion is disposed on one of the first threaded member and the second threaded member.
- the limiting portion is disposed on the bearing mating surface of the first thread.
- the limiting portion is formed as a convex portion protruding toward the bearing-fit surface of the second thread, the protruding portion being at the first threaded member and the second threaded member Squeezing the bearing mating surface of the second thread to form a groove, the boss engaging the groove to limit between the first threaded member and the second threaded member Radial displacement.
- the raised portions are one or more.
- the limiting portion is respectively disposed on the first threaded member and the second threaded member.
- the limiting portion includes a first mating portion disposed on the first threaded member and a second mating portion disposed on the second threaded member, the first mating portion and the first portion The second mating portion cooperates to limit radial displacement between the first threaded member and the second threaded member.
- the first engaging portion is formed as a convex portion provided on the first thread
- the second engaging portion is formed as a groove provided on the second thread, the convex portion The upper portion is snapped into the recess.
- the first mating portion is formed as a groove provided on the first thread
- the second mating portion is formed as a protrusion provided on the second thread, the protrusion The upper portion is snapped into the recess.
- the first mating portions are respectively formed as protrusions and grooves provided on the first thread
- the second mating portions are respectively formed as recesses provided on the second thread a groove and a protrusion, the protrusion of the first thread is engaged in the groove of the second thread, and the protrusion of the second thread is snapped into the groove Within the groove of the first thread.
- the raised portion corresponds to the shape of the groove mated thereto and the raised portion and the groove engaged therewith are in close fitting.
- the protrusion and the groove are one or more.
- the first mating portion is formed as a first step portion provided on the first threaded member
- the second mating portion is formed as a second step portion provided on the second threaded member.
- the first step portion is one or more.
- the limiting portion is disposed on the non-load-fitted region of the first threaded member and/or the second threaded member.
- the limiting portion is disposed on the non-load-fitted region of the first threaded member and the second threaded member.
- the limiting portion includes a third mating portion disposed on the first threaded member and a fourth mating portion disposed on the second threaded member, the third mating portion and the first portion
- the four mating portions cooperate to limit radial displacement between the first threaded member and the second threaded member.
- the third engaging portion is formed as a convex portion provided on the first thread
- the fourth engaging portion is formed as a groove provided on the second thread, the convex portion The upper portion is snapped into the recess.
- the third fitting portion is formed as a groove provided on the first thread
- the fourth fitting portion is formed as a protrusion provided on the second thread, the protrusion The upper portion is snapped into the recess.
- the third mating portions are respectively formed as protrusions and grooves provided on the first thread
- the fourth mating portions are respectively formed as recesses provided on the second thread a groove and a protrusion, the protrusion of the first thread is engaged in the groove of the second thread, and the protrusion of the second thread is snapped into the groove Within the groove of the first thread.
- the raised portion corresponds to the shape of the groove mated thereto and the raised portion and the groove engaged therewith are in close fitting.
- the protrusion and the groove are one or more.
- the limiting portion is respectively disposed on the bearing mating surface and the non-bearing mating region of the first threaded member and/or the second threaded member.
- a lock screw according to an embodiment of the second aspect of the present disclosure includes all of the first screw member and the second screw member conforming to the first aspect embodiment; the first screw member or the second screw member The limiting portion is provided on the force mating surface and/or the non-load bearing mating region.
- the locking screw is formed as the first threaded member, and the limiting portion is disposed on the bearing mating surface of the first threaded member and/or the non-load bearing mating region .
- the locking screw is formed as the second threaded member, and the limiting portion is disposed on the bearing mating surface and/or the non-load-fit mating region of the second threaded member .
- the first screw member and the second portion are effectively prevented by providing the stopper portion on at least one of the bearing-fitted surface and the non-load-bearing mating region of the second screw member of the first screw member Radial displacement of the threaded mating face between the threads.
- the anti-loose screw according to the embodiment of the present disclosure may be used in combination with the set to form the above-mentioned anti-loose thread pair, or may each independently form a anti-loose structure.
- Figure 1 is a cross-sectional view showing a thread preventing pair of the embodiment 1 of the present disclosure
- Figure 2 is another cross-sectional view of the anti-loose thread pair of Embodiment 1 of the present disclosure
- Figure 3 is a partial enlarged view of A in Figure 2;
- Figure 4 is a cross-sectional view showing the thread preventing pair of the second embodiment of the present disclosure
- Figure 5 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 6 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 7 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 8 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 9 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 10 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 11 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 12 is another cross-sectional view of the anti-loose thread pair of Embodiment 2 of the present disclosure.
- Figure 13 is still another cross-sectional view of the anti-loose thread pair of the second embodiment of the present disclosure.
- Figure 14 is still another cross-sectional view of the anti-loose thread pair of the second embodiment of the present disclosure.
- Figure 15 is a cross-sectional view showing a lock thread pair according to Embodiment 3 of the present disclosure.
- Figure 16 is a cross-sectional view showing a thread preventing pair of Embodiment 4 of the present disclosure.
- Figure 17 is another cross-sectional view of the lock thread pair of Embodiment 4 of the present disclosure.
- Figure 18 is still another cross-sectional view of the anti-loose thread pair of Embodiment 4 of the present disclosure.
- Figure 19 is a cross-sectional view showing a thread preventing pair of Embodiment 5 of the present disclosure.
- Figure 20 is a cross-sectional view showing a thread preventing pair of Embodiment 6 of the present disclosure.
- the anti-loose thread pair 100 of the first aspect of the present disclosure will be specifically described below with reference to the accompanying drawings.
- a locking thread pair 100 includes a first threaded member 10 and a second threaded member 20.
- the first threaded member 10 has an inner hole, the inner wall surface of the inner hole is provided with a first thread extending along a spiral, the second threaded member 20 has a rod-like structure, and the outer wall surface of the rod-shaped structure of the second threaded member 20 is provided a second thread extending along the spiral and corresponding to the first thread, the second threaded member 20 is screwed with the first threaded member 10, in a direction in which the first threaded member 10 is tightened toward the second threaded member 20, A side of the first thread and the second thread are respectively formed as a bearing mating surface, and the side of the first thread and the second thread opposite to the bearing mating surface are respectively formed as non-load-bearing mating regions, The bearing mating surface and the non-bearing mating area of the first threaded member 10 and the second threaded member 20 (including the bearing mating surface of the first threaded member 10, the non-loading mating region of the first threaded member 10, the second thread) At least one of
- the lock thread pair 100 is mainly composed of the first screw member 10 and the second screw member 20.
- the first threaded member 10 may be machined with an inner bore, and the inner wall surface of the inner bore may be machined with a first thread extending along the helix.
- the second threaded member 20 can be processed with a rod-shaped structure, and the outer wall surface of the rod-shaped structure of the second threaded member 20 can be processed with a second thread extending along a spiral, and the second thread can correspond to the first thread .
- the second threaded member 20 can be screwed with the first threaded member 10, and during the tightening process, an interaction force can be formed between the first threaded member 10 and the second threaded member 20, and the force can be Includes pressure and friction.
- the side where the first thread and the second thread are pressed against each other may be respectively formed as a bearing mating surface, the first screw member 10 and The interaction force formed between the second screw members 20 is mainly generated on the bearing mating surface.
- the side of the first thread and the second thread opposite the bearing mating surface may be formed as a non-load-fit mating area, respectively.
- the non-bearing mating area there may be a geometric fit between the first threaded member 10 and the second threaded member 20, but no significant interaction force may be produced.
- no physical contact may be made between the first threaded member 10 and the second threaded member 20 on the non-load-bearing mating region, and a certain fitting gap 70 may be retained.
- the at least one of the bearing mating surface and the non-bearing mating region of the first threaded member 10 and the second threaded member 20 may process the limit portion, and the first threaded member 10 and the second threaded member 20 may be restricted by the processing limit portion Radial displacement between.
- the thread refers to a tooth having a certain tooth shape and periodically protruding along a spiral on a surface of a cylinder, a cone or other rotating body.
- Thread profile refers to the profile of the thread profile in a plane that passes through the axis of the cylinder, cone or other body of revolution described above.
- Conventional thread profiles are: triangular, trapezoidal, rectangular, zigzag, and the like. Threads can be left-handed or right-handed, either single-threaded or multi-threaded.
- the thread pair generally includes an internal thread and an external thread (referred to as internal and external threads).
- the thread pair includes a first threaded member 10 and a second threaded member 20, wherein the first threaded member 10 is disposed in the inner hole
- the thread of the wall (the inner hole is a cylinder, a cone or other rotating body) can be expressed as an internal thread
- the second threaded member 20 is provided with a thread on the outer surface of the rod-shaped structure (the rod-shaped structure is a cylinder, a cone or other rotating body). Expressed as an external thread.
- the central axes of the cylindrical, conical or other rotator features contained by the first threaded member 10 and the second threaded member 20 are referred to as the axes of the first threaded member 10 and the second threaded member 20, respectively, and ideally, the first threaded member 10 coincides with the axis of the second threaded member 20.
- the direction perpendicular to the axis of the first screw member 10 is referred to as the radial direction of the first screw member 10
- the direction perpendicular to the axis of the second screw member 20 is referred to as the radial direction of the second screw member 20.
- the first threaded member 10 can represent a complete part with internal threads, such as a nut, a nut, etc., and can also represent a partial area of a complex structure with internal thread features, such as an internal thread on the engine block.
- a partial area, or a partial area in which a female thread is machined on a large bridge structure, etc., can be regarded as the first threaded member 10, in short, whether it is a complete part or a partial area of the structure, as long as it contains
- the internal thread feature can be considered as the first threaded member 10.
- the second threaded member 20 can represent a complete part containing external threads, such as bolts, screws, etc., and can also represent a partial area of the complex structure containing external thread features, such as some end portions of the engine shaft with external threads. It can also be regarded as the second threaded member 20, and in general, whether it is a complete part or a structural partial area, it can be regarded as the second threaded member 20 as long as the external threaded feature is included.
- the internal and external threads will form mutual forces, including pressure and friction.
- the internal thread and the external thread form a bearing mating surface, and the interaction force between the internal and external threads is mainly generated on the bearing mating surface.
- the non-load bearing mating area the side of the inner and outer threads opposite to the bearing mating surface is referred to as the non-load bearing mating area.
- the non-load-bearing area there is a geometrical fit between the internal and external threads, but it does not necessarily produce significant interaction forces.
- the non-bearing mating area no physical contact may be made between the inner and outer threads, but a certain mating clearance 70 is retained.
- the bearing mating surface is also referred to as a thread mating surface, or simply a mating surface.
- the mating surface formed by the matching of the conventional internal and external threads is generally a flat surface.
- the thread pair formed by the thread of the present disclosure may have a matching surface.
- the radial displacement described in the embodiments of the present disclosure has the effect that the axis of the first threaded member 10 and the axis of the second threaded member 20 are offset from the normal coincident position.
- the radial displacement described in the embodiment of the present disclosure has an effect that the first screw member 10 and the second screw member 20 can be displaced in a direction perpendicular to the axis of the two, or laterally. Staggered.
- the stopper portion on at least one of the bearing-engagement surface and the non-load-bearing fitting region of the first screw member 10 and the second screw member 20, it is effectively prevented.
- the radial displacement between the first threaded member 10 and the second threaded member 20 improves the fastening of the loose threaded pair 100.
- the loose threaded pair 100 is easy to disassemble and is easy to reuse, and the locking thread pair 100 High fatigue strength, moderate tightening torque and wide application range.
- the bearing surface of the first threaded member 10 and/or the second threaded member 20 is provided with a limiting portion.
- the limiting portion can be machined on the bearing mating surface of the first threaded member 10 or on the bearing mating surface of the second threaded member 20.
- the bearing portions of the first threaded member 10 and the second threaded member 20 can also simultaneously process the limiting portion, thereby effectively preventing the locking thread pair 100 from being displaced radially.
- one of the first threaded member 10 and the second threaded member 20 is provided with a limit portion.
- the limiting portion can be machined on the bearing mating surface of the first threaded member 10 or can be machined on the bearing mating surface of the second threaded member 20 to achieve the purpose of suppressing the radial displacement of the locking thread pair 100.
- a bearing portion on the bearing surface of the first thread is provided with a limiting portion.
- the bearing mating surface of the second thread can be machined into a flat surface, a curved surface or other shape, and the limiting portion can be machined on the bearing mating surface of the first thread.
- the limiting portion can press the bearing mating surface of the second thread to deform the bearing mating surface of the second thread to ensure the first thread and the second thread.
- the nesting fit is realized on the bearing mating surface, so as to suppress the radial displacement of the anti-loose thread pair 100.
- the limiting portion is formed as a convex portion 30 protruding toward the bearing mating surface of the second thread, the convex portion 30 being When the first threaded member 10 and the second threaded member 20 are tightened, the bearing mating surface of the second thread is pressed to form a groove 40, and the boss 30 cooperates with the groove 40 to restrict the first threaded member 10 and the second thread Radial displacement between pieces 20.
- the limiting portion can be machined into a raised portion 30 that can protrude toward the bearing mating surface of the second thread.
- the boss portion 30 can press the bearing mating surface of the second thread to cause the bearing mating surface of the second thread to be concavely deformed to form the recess 40.
- the boss 30 can cooperate with the recess 40 to limit radial displacement between the first threaded member 10 and the second threaded member 20.
- the convex portion 30 is one.
- a bearing portion 30 can be formed on the bearing mating surface of the first thread, and the diameter between the first screw member 10 and the second screw member 20 can be restricted by machining a boss portion 30. To the wrong purpose.
- the plurality of raised portions 30 are plural.
- a plurality of convex portions 30 may be processed on the bearing mating surface of the first thread, and the plurality of convex portions 30 may be evenly spaced apart and may be unevenly distributed.
- the position and number of the portions 30 may be not fixed, and the distribution of the bosses 30 on the bearing mating surface may be periodic, and may be non-periodic as long as the radial displacement of the locking thread pair 100 can be
- the suppression effect is an effective design and belongs to the protection range of the anti-loose thread pair 100 of the embodiment of the present disclosure.
- the end faces of the bosses 30 are formed in a circular arc shape or an angular shape.
- the end surface of the convex portion 30 can be processed into a circular arc shape or an angular shape.
- the specific shape of the convex portion 30 can be various, such as a single curved shape and a sharp angle.
- the shape or the other shape, the specific shape of the convex portion 30 may also be a mixture of a plurality of different shapes, and the specific shape of the convex portion 30 can suppress the radial displacement of the locking thread pair 100. All belong to an effective design and belong to the protection range of the anti-loose thread pair 100 of the embodiment of the present disclosure.
- one of the inner and outer thread teeth employs a conventional profile and the other one includes a convex feature.
- the convex feature squeezes the corresponding thread surface, so that the corresponding thread surface has concave deformation, the convex feature and the concave deformation area are in contact, and the mating surface is the bearing mating surface, convex
- the feature and the concave deformation realize the nesting cooperation, so as to suppress the radial displacement of the thread pair.
- the shape of the convex features according to the embodiment may be various, such as an arc type, a sharp angle type, or the like, or may be a mixture of a plurality of shapes. This design has no limitation on the shape of the convex features, and it is an effective design as long as it can suppress the radial displacement.
- the convex features may be periodic or non-periodic as long as the radial displacement can be The suppression effect is an effective design.
- the first screw member 10 and the second screw member 20 are respectively provided with a limiting portion.
- the bearing portions of the first screw member 10 and the second screw member 20 can respectively process the limiting portion, and the cooperation between the limiting portion of the first screw member 10 and the limiting portion of the second screw member 20 can Effectively prevent the radial locking pair 100 from being displaced radially.
- the limiting portion includes a first fitting portion provided on the threaded mating surface of the first threaded member 10 and a second mating portion provided on the threaded mating surface of the second threaded member 20, the first The mating portion cooperates with the second mating portion to limit radial displacement between the first threaded member 10 and the second threaded member 20.
- the limiting portion mainly includes a first fitting portion that is machined on the threaded mating surface of the first threaded member 10 and a second mating portion that is machined on the threaded mating surface of the second threaded member 20, the first mating portion being engageable with the second mating portion
- the portions cooperate to limit radial displacement between the first threaded member 10 and the second threaded member 20.
- the first mating portion is formed as a boss portion 30 disposed on the first thread
- the second mating portion is formed to be disposed on the second thread.
- the convex portion 30 is caught in the groove 40.
- the first mating portion may be processed into a boss portion 30 on the first thread
- the second mating portion may be processed into a groove 40 on the second thread
- the boss portion 30 may be engaged in the recess 40
- the first mating portion is formed as a groove 40 disposed on the first thread, and the second mating portion is formed on the second thread.
- the boss 30 is engaged in the recess 40.
- the first mating portion may be processed into a groove 40 on the first thread
- the second mating portion may be processed into a boss 30 on the second thread, and the boss 30 may be snapped into the groove 40,
- the mutual nesting of the boss portion 30 and the groove 40 can suppress the radial displacement of the lock thread pair 100.
- the convex portion 30 is one.
- a convex portion 30 can be processed on the bearing mating surface of the first thread, and a groove matching the boss portion 30 can be processed on the bearing mating surface of the second thread. 40.
- a convex portion 30 may be processed on the bearing mating surface of the second thread, and a bearing mating surface of the first thread may be processed to cooperate with the boss portion 30.
- the groove 40 The purpose of limiting the radial displacement between the first threaded member 10 and the second threaded member 20 is achieved by machining a projection 30 and a groove 40 respectively on the bearing mating faces of the first thread and the second thread.
- both the raised portion 30 and the recess 40 are plural.
- a plurality of convex portions 30 of the same size or a plurality of different sizes can be processed on the bearing mating surface of the first thread, and the bearing surface of the second thread is supported.
- a plurality of grooves 40 respectively mating with the raised portions 30 on the first thread can be machined.
- a plurality of protrusions 30 of the same size or a plurality of different sizes may be processed on the bearing mating surface of the second thread, and the plurality of threads and the second thread may be processed on the bearing mating surface of the first thread.
- the distribution of the convex portion 30 and the groove 40 on the bearing mating surface may be periodic, and may be non-periodic, as long as it can be
- the radial displacement of the anti-loose thread pair 100 serves as an effective effect, and both belong to an effective design, and belong to the protection range of the anti-loose thread pair 100 of the embodiment of the present disclosure.
- the first mating portion on the first thread may include the boss 30 and the groove 40 at the same time, and the second thread on the second thread.
- the fitting portion may simultaneously include the groove 40 and the boss portion 30 that cooperate with the first fitting portion.
- the first mating portion may be machined into a raised portion 30 and a groove 40 on the first thread
- the second mating portion may be machined into a groove 40 and a raised portion 30 on the second thread, the first thread
- the upper protrusion 30 can be engaged in the groove 40 on the second thread
- the protrusion 30 on the second thread can also be engaged in the groove 40 on the first thread, the first thread
- the mutual nesting of the projections 30 and the grooves 40 on the teeth and the second thread can suppress the radial displacement of the thread pair 100.
- the position and number of the bosses 30 and the grooves 40 on the first thread and the second thread may be not fixed, and the distribution of the boss 30 and the groove 40 on the bearing mating surface may be periodic. It may be non-periodic, as long as it can suppress the radial displacement of the anti-loose thread pair 100, and is an effective design, which belongs to the protection range of the anti-loose thread pair 100 of the embodiment of the present disclosure.
- the size of the boss portion 30 may be inconsistent with the size of the recess 40 to which it fits, such that there is a mating gap 70 when the boss portion 30 and the recess 40 engaged therewith are fitted.
- the raised portion 30 corresponds to the shape of the groove 40 that mates therewith and the raised portion 30 mates with the groove 40 that mates therewith.
- the raised portion 30 can correspond to the shape of the recess 40 with which it fits, and a tight fit can be formed between the raised portion 30 and the recess 40 that mates therewith.
- the boss portion 30 and the groove 40 are formed in a triangular shape, a rectangular shape, a trapezoidal shape, a curved shape, a hook shape, a polygonal line shape, or an irregular shape, respectively.
- the convex portion 30 and the groove 40 may be respectively processed into a triangular shape, a rectangular shape, a trapezoidal shape, a curved shape, a hook shape, a polygonal line shape or an irregular shape, and the shape of the convex portion 30 and the groove 40. It can also be processed into a mixture of various shapes.
- the specific shape of the boss portion 30 and the groove 40 is an effective design as long as it can suppress the radial displacement of the lock thread pair 100, and belongs to the protection range of the lock thread pair 100 of the embodiment of the present disclosure.
- the internal thread and the external thread respectively have a convex feature and a concave feature that are nested with each other (ie, one having a convex feature and the other containing a corresponding concave feature), or an internal thread and an external thread
- the threaded teeth respectively have convex and concave features nested in each other (ie, the internal thread has both convex and concave features, and the external thread also has concave and convex features matching the internal thread), convex
- the feature and the concave feature are referred to as convex and concave features, and the nesting fit of the convex and concave features on the inner and outer threads can suppress the radial displacement.
- the shape of the convex-concave features according to the embodiment may be various, such as a triangle, a rectangle, a trapezoid, a curve, a hook, a line, or an irregular shape, or may be a mixture of a plurality of shapes.
- This design method has no limitation on the shape of the convex and concave features, and is effective as long as it can suppress the radial displacement.
- the convex and concave features involved in this embodiment are to withstand the main interaction forces between the internal and external threads, so that the bearing mating surface will exist in the region where the convex and concave features are located.
- the geometrical dimensions of the convex features and the geometrical dimensions of the concave features matched thereto may be identical or inconsistent. When the two are inconsistent, a discontinuous contact area may be formed between the internal thread and the external thread, but this does not violate this It is a core principle of the disclosed design method that an effective design can be achieved as long as it can suppress the radial displacement of the thread pair.
- the position and number of the convex-concave features of the embodiment on the threaded mating surface are not fixedly limited, and the convex-concave features may be periodic or non-periodic, as long as the diameter of the anti-loose thread pair 100 can be It is an effective design to suppress the displacement.
- the first mating portion is formed as a first step portion 50 disposed on the first threaded member 10
- the second mating portion is formed as a second step portion disposed on the second threaded member 20. 60.
- the first step portion 50 may be processed into a stepped shape
- the second step portion 60 may be processed into a stepped shape
- the first step portion 50 and the second step portion 60 are nested and fitted to each other. It is possible to suppress the radial displacement of the lock thread pair 100.
- the first step portion 50 is one or more, the plurality of first step portions 50 are evenly distributed or unevenly distributed, and the second step portion 60 is one or more.
- the plurality of second step portions 60 are evenly distributed or unevenly distributed.
- the first step portion 50 on the first mating portion may be processed into one or more, and the plurality of first step portions 50 may be evenly distributed or unevenly distributed, and the second mating portion may be
- the second step portion 60 may be processed into one or more, and the plurality of second step portions 60 may be evenly distributed or unevenly distributed, by nesting between the first step portion 50 and the second step portion 60, It is possible to effectively avoid the radial displacement of the lock thread pair 100.
- the size of the first step portion 50 may be different from the size of the second step portion 60, and a fitting gap 70 exists when the first step portion 50 and the second step portion 60 are fitted.
- the shapes of the first step portion 50 and the second step portion 60 correspond and closely fit.
- the first step portion 50 may correspond to the shape of the second step portion 60, and a close fit may be formed between the first step portion 50 and the second step portion 60.
- the internally threaded teeth and the externally threaded teeth respectively have stepped features nested within each other, and the nested fit of the stepped features can have an inhibitory effect on the radial displacement.
- This design method is not limited to the specific shape of the stepped feature, and is effective as long as it can suppress the radial displacement of the lock thread pair 100.
- the stepped features involved in this embodiment are to withstand the main interaction forces between the internal and external threads, so the bearing mating surface will exist in the region where the stepped features are located.
- the geometrical dimensions of the stepped features on the internal thread and the geometrical dimensions of the stepped features on the external thread may be identical or inconsistent. When the two are inconsistent, the internal and external threads may form a discontinuous contact area, but this It does not contradict the core principle of the design method provided by the present disclosure, that is, an effective design can be achieved as long as it can suppress the radial displacement of the thread pair.
- the position and number of the stepped features of the embodiment on the threaded mating surface are not fixedly limited, and the stepped features may be a single step or a plurality of periodic or non-periodic steps, as long as It is an effective design to suppress the radial displacement.
- the non-load bearing mating region of the first threaded member 10 and/or the second threaded member 20 is provided with a limiting portion.
- the limiting portion may be machined on the non-load-fitted region of the first threaded member 10 or may be machined on the non-load-bearing mating region of the second threaded member 20.
- the non-load-fitted area of the first threaded member 10 and the second threaded member 20 can also simultaneously process the limiting portion to effectively prevent radial displacement when the locking threaded pair 100 is tightened.
- the shape and number of the processing of the limiting portion on the non-bearing mating area may be similar to the shape and number of the limiting portion processing on the bearing mating surface.
- the non-bearing engagement regions of the first screw member 10 and the second screw member 20 are respectively provided with limiting portions.
- the limiting portion can be respectively processed on the non-bearing mating region of the first threaded member 10 and the second threaded member 20, and the fitting between the limiting portion of the first threaded member 10 and the limiting portion of the second threaded member 20 is It is possible to effectively prevent the radial lock pair 100 from being displaced radially.
- the limiting portion includes a third mating portion disposed on the non-load-fit mating region of the first threaded member 10 and a portion disposed on the non-load-fit mating region of the second threaded member 20
- the four mating portions cooperate with the fourth mating portion to limit radial displacement between the first threaded member 10 and the second threaded member 20.
- the third engaging portion may be formed as a boss portion 30 provided on the first thread
- the fourth mating portion may be formed as a groove 40 provided on the second thread, and the boss portion 30 is engaged Inside the groove 40.
- the third engaging portion may also be formed as a groove 40 provided on the first thread, and the fourth engaging portion may also be formed as a boss portion 30 provided on the second thread, and the boss portion 30 is stuck. Connected within the recess 40.
- the third mating portions may also be respectively formed as the protrusions 30 and the grooves 40 provided on the first thread, and the fourth mating portions may also be respectively formed as the grooves 40 provided on the second thread
- the raised portion 30 the raised portion 30 of the first thread is engaged in the groove 40 of the second thread
- the raised portion 30 of the second thread is engaged in the groove 40 of the first thread
- the limiting portion may include a third mating portion that is machined on the non-load-fit mating region of the first threaded member 10 and a fourth mating portion that is machined on the non-load-fit mating region of the second threaded member 20, the third mating portion and The fourth mating portions may cooperate to limit radial displacement between the first threaded member 10 and the second threaded member 20.
- the specific design of the third mating portion and the fourth mating portion may be substantially similar to the design of the first mating portion and the second mating portion.
- the design of the third mating portion on the non-bearing mating area may be substantially similar to the design of the first mating portion on the bearing mating surface, and the design of the fourth mating portion on the non-bearing mating area may be substantially similar to the bearing fit
- the design of the second engaging portion on the surface, the specific design of the third engaging portion and the fourth engaging portion are not specifically limited as long as the radial displacement between the first screw member 10 and the second screw member 20 can be restricted. All belong to an effective design.
- the third mating portion is formed as a boss portion 30 provided on the first thread
- the fourth mating portion is formed as a recess provided on the second thread. The groove 40, the boss 30 is snapped into the groove 40.
- the third mating portion can be processed into a convex portion 30 on the first thread, and the fourth mating portion can be processed into a groove 40 on the second thread, and the boss portion 30 can be engaged in the groove 40,
- the mutual nesting of the boss portion 30 and the groove 40 can suppress the radial displacement of the lock thread pair 100.
- the bearing portion and the non-load bearing portion of the first threaded member 10 and/or the second threaded member 20 are respectively provided with limiting portions.
- the finite portion can be simultaneously processed on the bearing mating surface and the non-bearing mating region of the first threaded member 10, and the finite portion can be simultaneously processed on the bearing mating surface and the non-bearing mating region of the second threading member 20.
- the bearing portion and the non-load bearing portion of the first threaded member 10 and the second threaded member 20 can also simultaneously process the limiting portion, thereby effectively preventing radial displacement when the locking thread pair 100 is tightened.
- the bearing portions and the non-bearing mating regions of the first screw member 10 and the second screw member 20 are respectively provided with limiting portions.
- the bearing mating faces of the first screw member 10 and the second screw member 20 can respectively process the limit portions.
- the limiting portions are respectively processed on the bearing mating surface and the non-load bearing mating region of the first screw member 10 and the second screw member 20, and the limiting portions on the bearing mating surface are respectively formed as the first mating portion and the second portion.
- the engaging portion is formed as a third engaging portion and a fourth engaging portion, respectively, in the non-load-fitted region.
- the first engaging portion can be processed into the convex portion 30 on the first thread
- the second engaging portion can be processed into the groove 40 on the second thread
- the third mating portion can be processed into the first thread
- the convex portion 30, the fourth fitting portion can be processed into the groove 40 on the second thread
- the convex portion 30 and the groove 40 on the bearing mating surface and the non-bearing mating region can be nested with each other to further prevent the protrusion
- the loose thread pair 100 is radially displaced during use.
- the sections of the first thread and the second thread are each formed substantially in a triangular shape, a trapezoidal shape, a rectangular shape, or a zigzag shape, and the limiting portion is included thereon.
- the sections of the first thread and the second thread may be substantially machined into a triangle, a trapezoid, a rectangle or a zigzag, respectively, on which the stop may be included.
- the specific shape of the first thread and the second thread is not limited to the several shapes described above, and as long as it can suppress the radial displacement of the thread preventing pair 100, it is an effective design and belongs to the present invention.
- the anti-loose thread pair 100 of the embodiment of the present disclosure by providing a limiting portion on at least one of the bearing-engagement surface and the non-load-bearing engagement region of the first screw member 10 and the second screw member 20, the first prevention portion is effectively prevented.
- the radial displacement between the threaded member 10 and the second threaded member 20 improves the fastening of the loose threaded pair 100.
- the loose threaded pair 100 is easy to disassemble and is easy to reuse, and the locking thread pair 100 is fatigued. High strength, moderate tightening torque and wide application range.
- the lock-proof screw member of the second aspect of the present disclosure will be specifically described below based on the lock-proof thread pair 100 of the above embodiment.
- the lock screw according to the embodiment of the present disclosure includes all of the first screw members 10 provided with the stoppers and all the second threads provided with the stoppers in the lock thread pair 100 according to the above embodiment.
- the lock screw member may be constituted by the first screw member 10 provided with the stopper portion, or may be constituted by the second screw member 20 provided with the stopper portion.
- the bearing portion and/or the non-load bearing portion of the first threading member 10 are provided with a limiting portion; when the locking screw member is second When the screw member 20 is constructed, the bearing portion and/or the non-load bearing portion of the second screw member 20 are provided with a limiting portion.
- the first screw member 10 and the second screw member 20 constituting the above-mentioned anti-loose thread pair 100 are referred to as a lock-proof screw member if the above-mentioned stopper portion is provided thereon, which is within the protection scope of the present disclosure.
- the anti-loose screw can be a complete part with thread features (internal or external), such as nuts, nuts, bolts, screws, etc., or it can be a complex structure with thread features (internal thread or A partial area of the external thread, such as a partial area on the engine block that is machined with internal threads, or an end area on the engine shaft that is machined with external threads.
- the lock-up screw member composed of the first screw member 10 and the lock-up screw member composed of the second screw member 20 can be used in combination to form the lock-proof thread pair 100 according to an embodiment of the present disclosure.
- the lock-up screw member composed of the first screw member 10 and the lock-up screw member composed of the second screw member 20 may each independently constitute a lock-proof structure.
- the first screw member 10 including the boss portion 30 may be formed as a separate nut structure, and the independent nut structure may be
- the anti-loose screw member can be matched with a common screw, and the radial displacement of the screw and the nut is restricted by the limiting portion on the nut.
- the first screw member 10 in FIGS. 1 to 3 is an anti-defense according to the embodiment. An example of a loose threaded piece.
- the second threaded member 20 including the raised portion 30 may be formed as a separate screw structure, the independent The screw structure can constitute a loose threaded member, which can be matched with a common nut, and the radial displacement of the screw and the nut is restricted by the limiting portion on the screw.
- the second threaded member 20 including the boss 30 and/or the groove 40 (on the bearing mating surface and/or the non-load bearing mating region) may also be formed as an independent Self-tapping thread structure
- the independent self-tapping thread structure can constitute a loose threaded part, which can be screwed directly into the part to be installed, such as wood, plastic, soft metal material, wall, etc., by pressing, etc., in the part to be installed
- the inner portion generally forms an internal thread feature (where the portion to be mounted functions as the first threaded member), and the engagement with the external thread on the self-tapping thread structure is achieved, and the limit portion on the self-tapping thread structure can be limited Self-tapping thread structure and radial displacement of the part to be installed to ensure installation stability.
- the first threaded member 10 provided with the limiting portion and the second threaded member 20 provided with the limiting portion in all of the above-mentioned locking thread pair 100 may constitute the locking screw, the specific structure and the above-mentioned locking thread pair 100 The related descriptions are the same and will not be described here.
- the lock thread pair 100 in Embodiment 1 is mainly composed of a first screw member 10 and a second screw member 20.
- the first threaded member 10 may be machined with an inner bore, and the inner wall surface of the inner bore may be machined with a first thread extending along the helix.
- the second threaded member 20 may be substantially machined into a rod shape, and the outer wall surface of the second threaded member 20 may be machined with a second thread extending along a spiral, and the second thread may correspond to the first thread.
- the first screw member 10 is screwed to the left with respect to the second screw member 20 to form a bearing-fitted surface and a non-load-bearing mating region.
- the bearing mating surface of the second thread can be processed into a plane, a curved surface or other shape, and the limiting portion can be processed on the bearing mating surface of the first thread, and the limiting portion can be formed as a bearing force toward the second thread.
- the number of the protrusions 30 on the first thread may be one or more, and the shape of the protrusions 30 may be curved or pointed.
- the boss portion 30 can press the bearing mating surface of the second thread to deform the bearing mating surface of the second thread to ensure the first thread and the second thread.
- the teeth are nested on the bearing mating surface, and the purpose of suppressing the radial displacement of the bearing mating surface of the anti-loose thread pair 100 is achieved. As shown in FIG.
- the main structure of the anti-loose thread pair 100 in the second embodiment is basically the same as that of the above embodiment.
- the first screw member 10 is opposite to the second screw member 20. Tighten to the left to form a bearing mating surface and a non-load bearing mating area.
- the bearing surfaces of the first thread and the second thread are respectively provided with limiting portions, which are respectively a first engaging portion and a second engaging portion, wherein the first engaging portion can be processed into a protrusion on the first thread
- the portion 30 can be processed into a groove 40 on the second thread.
- the number of the protrusion 30 and the groove 40 can be one or more, and the shape of the protrusion 30 can be processed into a triangle or a rectangle.
- the trapezoidal shape, the curved shape, the hook shape, the polygonal line shape or the irregular shape, the shape of the convex portion 30 can also be processed into a mixture of a plurality of shapes.
- the first mating portion can be machined into a raised portion 30 and a groove 40 on the first thread
- the second mating portion can be machined into a groove 40 on the second thread and
- the boss portion 30, the boss portion 30 on the first thread can be engaged in the groove 40 on the second thread
- the boss portion 30 on the second thread can also be engaged on the first thread. Inside the groove 40.
- the specific shape of the boss portion 30 is an effective design as long as it can suppress the radial displacement of the lock thread pair 100, and belongs to the protection range of the lock thread pair 100 of the embodiment of the present disclosure.
- the main structure of the lock thread pair 100 in the third embodiment is basically the same as that of the above embodiment.
- the first screw member 10 is screwed to the left with respect to the second screw member 20. Forming a bearing mating surface and a non-bearing mating area.
- the first mating portion may be machined into a raised portion 30 and a groove 40 on the first thread
- the second mating portion may be machined into a groove 40 and a raised portion 30 on the second thread, the first thread
- the upper convex portion 30 can be engaged in the groove 40 on the second thread
- the convex portion 30 on the second thread can also be engaged in the groove 40 on the first thread to limit the looseness.
- the size of the boss 30 may be inconsistent with the size of the recess 40, such that there is a mating gap 70 when the boss 30 and the recess 40 are mated.
- the main structure of the anti-loose thread pair 100 in the fourth embodiment is basically the same as that of the above embodiment.
- the first screw member 10 is oriented with respect to the second screw member 20. Tighten to the left to form a bearing mating surface and a non-load bearing mating area.
- the first mating portion is machined into a first step portion 50 of the first threaded member 10 and the second mating portion is machined into a second step portion 60 on the second threaded member 20.
- the shape of the first step portion 50 may be processed into a step shape, and the number of the first step portions 50 may be one or more, and the first step portion 50 and the second step portion 60 are matched to each other to limit the lock thread pair.
- the radial displacement of 100 is 100.
- each of the first step portions 50 may be the same or different, and the first step portion 50 may be coupled with the second step portion 60 to form a fitting gap 70.
- the main structure of the anti-loose thread pair 100 in the fifth embodiment is basically the same as that of the above embodiment.
- the first screw member 10 is screwed to the left with respect to the second screw member 20, Forming a bearing-fitted surface and a non-load-bearing mating area, the non-bearing mating regions of the first threaded member 10 and the second threaded member 20 can respectively process the limiting portions, respectively being the third mating portion and the fourth mating portion, wherein The third mating portion may be machined into a raised portion 30 on the first thread, and the fourth mating portion may be machined into a recess 40 in the second thread.
- the radial displacement of the lock thread pair 100 can be effectively restricted. As shown in FIG.
- the main structure of the anti-loose thread pair 100 in the sixth embodiment is basically the same as that of the above embodiment.
- the first screw member 10 is screwed to the left with respect to the second screw member 20, Forming a bearing mating surface and a non-bearing mating area, the bearing portion and the non-bearing mating region of the first threaded member 10 and the second threaded member 20 can respectively process the limiting portion, and the limit on the bearing mating surface
- the portions are respectively a first mating portion and a second mating portion, and the limiting portions on the non-bearing mating regions are respectively a third mating portion and a fourth mating portion.
- the first mating portion can be processed into the convex portion 30 on the first thread
- the second mating portion can be processed into the groove 40 on the second thread
- the third mating portion can be processed into the first thread
- the convex portion 30, the fourth engaging portion can be processed into the groove 40 on the second thread
- the convex portion 30 and the groove 40 on the bearing mating surface and the non-bearing mating region can be nested with each other, effectively limiting the prevention The radial displacement of the loose thread pair 100.
- All of the first screw member 10 provided with the stopper portion and the second screw member 20 provided with the stopper portion in the above embodiments 1 to 6 can be used as the embodiment of the lock screw according to the present disclosure.
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Abstract
Description
Claims (29)
- 一种防松螺纹副,包括:第一螺纹件,所述第一螺纹件具有内孔,所述内孔的内壁面设有沿其螺旋线延伸的第一螺纹牙;第二螺纹件,所述第二螺纹件具有杆状结构,所述杆状结构的外壁面设有沿其螺旋线延伸且与所述第一螺纹牙对应的第二螺纹牙,所述第二螺纹件与所述第一螺纹件实现螺纹连接;在所述第一螺纹件朝向所述第二螺纹件拧紧的方向上,所述第一螺纹牙和所述第二螺纹牙互相挤压的一侧分别形成为承力配合面,所述第一螺纹牙和所述第二螺纹牙的与所述承力配合面相对的一侧分别形成为非承力配合区域,所述第一螺纹件和所述第二螺纹件的所述承力配合面和所述非承力配合区域的至少一个上设有限位部以限制所述第一螺纹件和所述第二螺纹件间的径向错动。
- 根据权利要求1所述的防松螺纹副,其中,所述第一螺纹件和/或所述第二螺纹件的所述承力配合面上设有所述限位部。
- 根据权利要求2所述的防松螺纹副,其中,所述第一螺纹件和所述第二螺纹件中的一个上设有所述限位部。
- 根据权利要求3所述的防松螺纹副,其中,所述第一螺纹牙的所述承力配合面上设有所述限位部。
- 根据权利要求4所述的防松螺纹副,其中,所述限位部形成为朝向所述第二螺纹牙的所述承力配合面突出的凸起部,所述凸起部在所述第一螺纹件与所述第二螺纹件拧紧时挤压所述第二螺纹牙的所述承力配合面以形成凹槽,所述凸起部与所述凹槽配合以限制所述第一螺纹件和所述第二螺纹件间的径向错动。
- 根据权利要求5所述的防松螺纹副,其中,所述凸起部为一个或多个。
- 根据权利要求2所述的防松螺纹副,其中,所述第一螺纹件和所述第二螺纹件上分别设有所述限位部。
- 根据权利要求7所述的防松螺纹副,其中,所述限位部包括设在所述 第一螺纹件上的第一配合部和设在所述第二螺纹件上的第二配合部,所述第一配合部与所述第二配合部配合以限制所述第一螺纹件和所述第二螺纹件间的径向错动。
- 根据权利要求8所述的防松螺纹副,其中,所述第一配合部形成为设在所述第一螺纹牙上的凸起部,所述第二配合部形成为设在所述第二螺纹牙上的凹槽,所述凸起部卡接在所述凹槽内。
- 根据权利要求8所述的防松螺纹副,其中,所述第一配合部形成为设在所述第一螺纹牙上的凹槽,所述第二配合部形成为设在所述第二螺纹牙上的凸起部,所述凸起部卡接在所述凹槽内。
- 根据权利要求8所述的防松螺纹副,其中,所述第一配合部分别形成为设在所述第一螺纹牙上的凸起部和凹槽,所述第二配合部分别形成为设在所述第二螺纹牙上的凹槽和凸起部,所述第一螺纹牙的所述凸起部卡接在所述第二螺纹牙的所述凹槽内,所述第二螺纹牙的所述凸起部卡接在所述第一螺纹牙的所述凹槽内。
- 根据权利要求9-11中任意一项所述的防松螺纹副,其中,所述凸起部和与之配合的所述凹槽之间存在配合间隙。
- 根据权利要求9-11中任意一项所述的防松螺纹副,其中,所述凸起部和与之配合的所述凹槽的形状相对应且所述凸起部和与之配合的所述凹槽紧密配合。
- 根据权利要求9-11中任意一项所述的防松螺纹副,其中,所述凸起部和所述凹槽为一个或多个。
- 根据权利要求8所述的防松螺纹副,其中,所述第一配合部形成为设在所述第一螺纹件上的第一台阶部,所述第二配合部形成为设在所述第二螺纹件上的第二台阶部。
- 根据权利要求15所述的防松螺纹副,其中,所述第一台阶部为一个或多个。
- 根据权利要求1所述的防松螺纹副,其中,所述第一螺纹件和/或所述第二螺纹件的所述非承力配合区域上设有所述限位部。
- 根据权利要求17所述的防松螺纹副,其中,所述第一螺纹件和所述 第二螺纹件的所述非承力配合区域上设有所述限位部。
- 根据权利要求18所述的防松螺纹副,其中,所述限位部包括设在所述第一螺纹件上的第三配合部和设在所述第二螺纹件上的第四配合部,所述第三配合部与所述第四配合部配合以限制所述第一螺纹件和所述第二螺纹件间的径向错动。
- 根据权利要求19所述的防松螺纹副,其中,所述第三配合部形成为设在所述第一螺纹牙上的凸起部,所述第四配合部形成为设在所述第二螺纹牙上的凹槽,所述凸起部卡接在所述凹槽内。
- 根据权利要求19所述的防松螺纹副,其中,所述第三配合部形成为设在所述第一螺纹牙上的凹槽,所述第四配合部形成为设在所述第二螺纹牙上的凸起部,所述凸起部卡接在所述凹槽内。
- 根据权利要求19所述的防松螺纹副,其中,所述第三配合部分别形成为设在所述第一螺纹牙上的凸起部和凹槽,所述第四配合部分别形成为设在所述第二螺纹牙上的凹槽和凸起部,所述第一螺纹牙的所述凸起部卡接在所述第二螺纹牙的所述凹槽内,所述第二螺纹牙的所述凸起部卡接在所述第一螺纹牙的所述凹槽内。
- 根据权利要求20-22中任一项所述的防松螺纹副,其中,所述凸起部和与之配合的所述凹槽之间存在配合间隙。
- 根据权利要求20-22中任一项所述的防松螺纹副,其中,所述凸起部和与之配合的所述凹槽的形状相对应且所述凸起部和与之配合的所述凹槽紧密配合。
- 根据权利要求20-22中任一项所述的防松螺纹副,其中,所述凸起部和所述凹槽为一个或多个。
- 根据权利要求1所述的防松螺纹副,其中,所述第一螺纹件和/或所述第二螺纹件的所述承力配合面和非承力配合区域上分别设有所述限位部。
- 一种防松螺纹件,包括根据权利要求1的所述第一螺纹件或所述第二螺纹件,所述第一螺纹件或所述第二螺纹件的所述承力配合面和/或所述非承力配合区域上设有所述限位部。
- 根据权利要求27所述的防松螺纹件,其中,所述防松螺纹件形成为 所述第一螺纹件,所述第一螺纹件的所述承力配合面和/或所述非承力配合区域上设有所述限位部。
- 根据权利要求27所述的防松螺纹件,其中,所述防松螺纹件形成为所述第二螺纹件,所述第二螺纹件的所述承力配合面和/或所述非承力配合区域上设有所述限位部。
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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US16/079,950 US11268564B2 (en) | 2017-12-15 | 2018-01-12 | Anti-loosening screw pair and anti-loosening screw component |
EP18730209.6A EP3524833A4 (en) | 2017-12-15 | 2018-01-12 | THREADED ANTI-LOOSENING PAIR AND ANTI-LOOSEN THREADED PART |
US17/586,503 US11795990B2 (en) | 2017-12-15 | 2022-01-27 | Anti-loosening screw pair and anti-loosening screw component |
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CN201711346723.7 | 2017-12-15 | ||
CN201711346723 | 2017-12-15 | ||
CN201711443249.X | 2017-12-27 | ||
CN201711443249.XA CN108006051B (zh) | 2017-12-15 | 2017-12-27 | 防松螺纹副及防松螺纹件 |
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US16/079,950 A-371-Of-International US11268564B2 (en) | 2017-12-15 | 2018-01-12 | Anti-loosening screw pair and anti-loosening screw component |
US17/586,503 Continuation US11795990B2 (en) | 2017-12-15 | 2022-01-27 | Anti-loosening screw pair and anti-loosening screw component |
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WO2019114080A1 true WO2019114080A1 (zh) | 2019-06-20 |
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US (2) | US11268564B2 (zh) |
EP (1) | EP3524833A4 (zh) |
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WO (1) | WO2019114080A1 (zh) |
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CN108006051B (zh) * | 2017-12-15 | 2023-12-08 | 北京理工大学 | 防松螺纹副及防松螺纹件 |
CN109185323B (zh) * | 2018-11-27 | 2020-09-29 | 北京理工大学 | 可抑制界面滑移的防松螺纹副及防松螺纹件 |
CN113048135A (zh) * | 2021-03-12 | 2021-06-29 | 苏州迈特科技有限公司 | 一种导向防松螺纹副结构 |
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2017
- 2017-12-27 CN CN201711443249.XA patent/CN108006051B/zh active Active
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2018
- 2018-01-12 EP EP18730209.6A patent/EP3524833A4/en active Pending
- 2018-01-12 US US16/079,950 patent/US11268564B2/en active Active
- 2018-01-12 WO PCT/CN2018/072390 patent/WO2019114080A1/zh active Application Filing
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2022
- 2022-01-27 US US17/586,503 patent/US11795990B2/en active Active
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US7722304B2 (en) * | 2007-08-13 | 2010-05-25 | Research Engineering & Manufacturing Inc. | Thread locking/prevailing torque fastener and fastener assembly |
EP2224143B1 (de) * | 2009-02-26 | 2015-04-15 | FH-PAGE Profilverbindungstechnik GmbH | Mutter, Schraubverbindung, Profilverbindung sowie Verfahren zum Herstellen einer Mutter |
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Also Published As
Publication number | Publication date |
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CN108006051B (zh) | 2023-12-08 |
EP3524833A4 (en) | 2019-10-09 |
US20210190127A1 (en) | 2021-06-24 |
US11795990B2 (en) | 2023-10-24 |
US20220145927A1 (en) | 2022-05-12 |
US11268564B2 (en) | 2022-03-08 |
CN108006051A (zh) | 2018-05-08 |
EP3524833A1 (en) | 2019-08-14 |
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