阅读说明：本技术 一种防松螺栓紧固件 (Check bolt fastener ) 是由 余志壮 陈禹 杨峥 李乔森 赵铭晗 夏士淼 于 2020-07-22 设计创作，主要内容包括：本发明涉及机械连接紧固件技术领域,具体是一处防松螺栓紧固件。包括螺栓、螺母和螺旋弹簧,所述螺旋弹簧为弹簧沿圆周方向盘绕而成多层结构,整体为上粗下细的圆锥形,所述螺旋弹簧被夹持在螺栓外壁和螺母内壁之间,并嵌入螺栓外壁的螺牙中,所述螺母内壁没有螺纹,螺母内壁上部为上大下小的喇叭状,下部为竖直筒状。本发明的技术方案在螺栓和螺母之间设置螺旋弹簧,螺旋弹簧可以提供远大于普通螺栓和螺母之间的紧固压力和摩擦力,进而防止螺母的松动,提供有效的紧固力。(The invention relates to the technical field of mechanical connecting fasteners, in particular to a check bolt fastener. Including bolt, nut and coil spring, coil spring coils the multilayer structure that forms for the spring along the circumferencial direction, wholly is thick conical down, coil spring is by the centre gripping between bolt outer wall and nut inner wall to during the thread of embedding bolt outer wall, the nut inner wall does not have the screw thread, and nut inner wall upper portion is big-end-up's loudspeaker form, and the lower part is vertical tube-shape. According to the technical scheme, the spiral spring is arranged between the bolt and the nut and can provide fastening pressure and friction force which are far larger than those of the ordinary bolt and the nut, so that the nut is prevented from loosening, and effective fastening force is provided.)

1. The utility model provides a check bolt fastener, its characterized in that includes bolt (1), nut (2) and coil spring (3), coil spring (3) coil along the circumferencial direction for the spring and form multilayer structure, wholly be big-end-up's conical shape, coil spring (3) are by the centre gripping between bolt (1) outer wall and nut (2) inner wall to in the thread of embedding bolt (1) outer wall, nut (2) inner wall does not have the screw thread, and nut (2) inner wall upper portion is big-end-up's loudspeaker form, and the lower part is vertical tube-shape.

2. A lockbolt fastener as claimed in claim 1, characterised in that the nut (2) is provided with a boss (21) on its upper end face, the helical spring (3) being trapped under the boss (21).

3. A lockbolt fastener according to claim 1, characterized in that the coil spring (3) is a multi-strand coil spring (3) wound from a multi-strand spring wire.

4. A lockbolt fastener as claimed in claim 3 wherein the wire diameter of the spring wire is 0.05mm-0.15 mm.

Technical Field

The invention relates to the technical field of mechanical connecting fasteners, in particular to a check bolt fastener.

Background

The threaded fastener has become one of the widest mechanical connection modes of application range due to the characteristics of compact structure, large connecting force, convenient assembly and disassembly and unique self-locking characteristic since birth, and brings great convenience to the production and life of people. However, threaded connections are not "seamless," and the complexity of the actual operating environment makes threaded fasteners often subject to severe external factors such as high loads, high vibration, acid and alkali corrosion, which creates a serious safety problem with the threads coming loose. As the threaded connection is often applied to key parts of mechanical equipment in a large number, once the threaded connection is loosened and fails, serious safety accidents are often caused

On the premise of ensuring the detachability of the fastener, the fastener anti-loosening method can be mainly divided into two categories of friction anti-loosening and mechanical anti-loosening. Compared with mechanical anti-loosening, the anti-loosening capability of the friction anti-loosening has larger difference when facing transverse vibration; however, the mechanical anti-loosening is often not easy to disassemble and assemble, damages workpieces, is easy to wear and the like. If the wedging principle is tried to be utilized, and the two principles are utilized to prevent looseness at the same time, the corresponding defects can be reduced.

Disclosure of Invention

In view of the above disadvantages, the invention provides a locking bolt fastener, wherein a coil spring is arranged between a bolt and a nut, and the coil spring can provide a fastening pressure and a friction force which are far greater than those between a common bolt and a common nut, so that the nut is prevented from loosening and an effective fastening force is provided.

The technical scheme of the invention is as follows:

the utility model provides a check bolt fastener, includes bolt, nut and coil spring, coil spring coils the multilayer structure that forms for the spring along the circumferencial direction, wholly is big-end-up's taper shape, coil spring is by the centre gripping between bolt outer wall and nut inner wall to during the thread of embedding bolt outer wall, the nut inner wall does not have the screw thread, and nut inner wall upper portion is big-end-up's loudspeaker form lower part and is vertical tube-shape.

The upper end face of the nut is provided with a boss, and the spiral spring is blocked below the boss.

The spiral spring is a multi-strand spiral spring and is formed by coiling a plurality of strands of spring wires.

The wire diameter of the spring wire is 0.05mm-0.15 mm.

The spiral spring is in a multilayer structure formed by coiling the spring along the circumferential direction, a conical structure with a large upper part and a small lower part is formed, the spiral spring is clamped between a bolt and a nut and is embedded into threads on the outer wall of the bolt, the inner wall of the nut is not provided with threads, the upper part of the inner wall is in a horn shape matched with the conical spring, and the conical spring is limited by the inclined surface of the horn to relatively slide so as to fix the spiral spring. After the nut is screwed, the conical spring is wedged downwards into the thread of the bolt, and the wedge is filled between the bolt and the nut. According to the inclined plane principle, under the same pretightning force condition, the pressure between the thread of conical spring and bolt external screw thread is far greater than the pressure between the ordinary fastener, and the maximum frictional force that provides is also far greater than the maximum frictional force between the ordinary fastener, and then prevents effectively that the nut is not hard up, reaches better fastening effect.

Drawings

FIG. 1 is a schematic cross-sectional view of a lockbolt fastener of the present invention;

FIG. 2 is a perspective view of the coil spring of the present invention;

FIG. 3 is a comparison of the taper of the flare of the nut of the present invention and the taper of the common tangent on the outside of the spring;

fig. 4 is a schematic cross-sectional view of the lockbolt fastener of the present invention in a tilted state.

Detailed Description

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, the features and the effects of the present invention.

Referring to fig. 1 and 2, the check bolt fastener of the present invention includes a bolt 1, a nut 2, and a coil spring 3, wherein the coil spring 3 is a multi-layered structure formed by winding the spring in a circumferential direction, and has a conical shape with a large top and a small bottom as a whole, as shown in fig. 2. Coil spring 3 is by the centre gripping between 1 outer wall of bolt and 2 inner walls of nut to in the thread of embedding 1 outer wall of bolt, 2 inner walls of nut do not have 2 inner walls of screw nut upper portions for big-end-up's horn shape, with conical coil spring 3 looks adaptations, the lower part is vertical tube-shape.

Before tightening, the helical spring 3 is located inside the nut 2. When the rotary nut 2 is screwed, the spiral spring 3 enters the threads of the bolt 1 along with rotation, in order to prevent the spiral spring 3 from being extruded to slide upwards along the inner wall of the nut 2, the upper end surface of the nut 2 is provided with a boss 21, and the boss 21 blocks the spiral spring 3 below and pushes the spiral spring 3 to be wedged downwards into the threads of the bolt 1. The spiral spring 3 is a multi-strand spiral spring 3 which is formed by coiling a plurality of strands of steel cables or spring wires. The wire diameter of the spring wire is 0.05mm-0.15mm, and the wire diameter can be thickened in a proper range to ensure the strength of the spring.

The multi-strand spiral spring 3 is formed by winding a plurality of steel ropes, has higher strength compared with a common spring, is not easy to break, and has unique vibration absorption capacity because each strand of steel wire is in close contact with each other and has friction. In this patent design, stranded spring winding is on the thread, and is extruded between 2 taper holes of nut inside and 1 thread of bolt, and coil spring 3 itself is not as the elastic component, can not reciprocating vibration, and consequently outer steel wire tail end can not scatter and cause the inefficacy, can keep the state of coiling and spiral all the time, prevents the relative slip between nut 2 and the bolt 1.

In this patent, the 2 holes of nut do not have the screw thread, utilize the mode of through hole division horn mouth fixed coil spring 3 and bolt 1, the inclined plane restriction toper coil spring 3 relative slip of loudspeaker makes coil spring 3 fixed. When the nut 2 is tightened, the conical coil spring 3 is wedged down into the thread of the bolt 1, corresponding to a wedge filled between the bolt 1 and the nut 2. According to the inclined plane principle, under the same pretightning force condition, the pressure between the thread of conical spring and 1 external screw thread of bolt is far greater than the pressure between the ordinary fastener, and the maximum frictional force that provides is also far greater than the maximum frictional force between the ordinary fastener, and then prevents effectively that nut 2 from becoming flexible, reaches better fastening effect.

When the tilt occurs, the nut 2 restricts the relative sliding of the bearing surfaces by the tilt mechanism. As shown in figure 3, the inclination of the bell-mouth generatrix of the nut 2 is smaller than the inclination of the common tangent coplanar with the axis on the outside of the helical spring 3 after tightening. After being screwed, the spiral spring 3 is strongly pressed by a plurality of turns of the end part of the bolt 1, is weakly pressed or not pressed by a plurality of turns of the connected part, and the bolt 1 which is not matched with the spiral spring 3 is not contacted with the nut 2 and leaves enough clearance. It can be seen that the stress on the bolt 1 and the coil spring 3 is concentrated at the upper end. Referring to fig. 4, when the coupled members slide relatively to each other, the axis of the bolt 1 is inclined at a certain angle relative to the nut 2, and the fastener system is equivalent to a passive tilting mechanism, and sufficient inclined space is reserved for the bolt 1 to absorb the relative displacement of the coupled members to prevent the bearing surface from being forced to slide.

The above disclosure is only an example of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.