CN111486184A - Locking strip for limiting torque - Google Patents

Abstract

The invention discloses a locking strip with limited torque, which relates to the technical field of locking strips and comprises an adjusting screw rod, a fixed wedge block, a movable wedge block, a limiting adjusting head and a locking adjusting sleeve, wherein the fixed wedge block and the movable wedge block are connected in series on the adjusting screw rod, the limiting adjusting head is fixedly arranged at the end part of the adjusting screw rod and used for loosening and adjusting, the locking adjusting sleeve is sleeved on the outer wall of the limiting adjusting head and used for locking and adjusting, the outer wall of the limiting adjusting head is in a shape of a circular surface, the locking adjusting sleeve drives the limiting adjusting head and the adjusting screw rod to rotate in the circumferential direction relative to the axial direction of the adjusting screw rod by using the circular surface to realize locking, and the. According to the invention, the locking adjusting sleeve in a sleeving and rotating manner is arranged on the limiting adjusting head of the adjusting screw rod, so that the locking adjustment and the slipping after locking are realized, the adjusting mode of limited torque is changed, and the locking operation and the loosening operation are more convenient.

Description

Locking strip for limiting torque

Technical Field

The invention relates to the technical field of locking strips, in particular to a locking strip for limiting moment.

Background

The locking strip is a part which is commonly used on military equipment and ensures that the military electronic equipment can stably work under high-speed vibration. The limited moment locking strip is the series of the highest end in the locking strip series, meets the requirements of secondary maintenance and quick maintenance in military maintenance, and can meet the requirement of the consistency of the installation force of electronic equipment under severe conditions.

When the electronic equipment is reinforced, the torque limiting locking strip is used, a torque wrench is not needed, and the locking force can quickly reach a preset value by using a common wrench. And can not be because of the installer difference, the installation power is said differently, leads to not reaching the requirement of locking force, perhaps surpasss the requirement of locking force, appears installation error, leads to not locking, and electronic equipment is not hard up in vibrations, leads to damaging equipment. Or result in too tight a lock, the module deformation/locking bar locks, resulting in more time spent in equipment disassembly while servicing the equipment.

At present, the limited torque locking strip on the market is mainly imported from the United states (such as Calmark brand), and the limited torque locking strip is not available in China; the limited moment locking strip is imported completely, so that the price is very expensive, the shelf life is long (at least two months are needed), and the self-sufficient requirement on national defense and military industry can not be met. From the structural performance of the product, as shown in fig. 1 and 2, the limiting moment locking strip products of the inlets are realized by adopting a ratchet mechanism 7, the material strength is relatively depended, the ratchet mechanism realizes limiting by using a slipping mode after reaching a set locking limit, so that the tooth top height has a potential risk of abrasion, once the ratchet mechanism is abraded to a certain degree, the ratchet mechanism can be failed, the function of loosening the locking strip is caused to be failed, and even the whole module can be scrapped. Moreover, the moment limiting locking strip product of the inlet mainly depends on the elastic force of the compression spring 8 in the setting of moment force, the setting difference of the elastic force is limited by the assembly size, the elastic force of the fixed spring is certain, and the adjustable range is not very free.

Disclosure of Invention

In view of the above problems in the prior art, the present invention provides a torque limiting locking strip, which reduces the degree of wear and avoids the problem of functional failure after wear by changing the torque limiting adjustment mode.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a inject moment locking strip, includes adjusting screw, concatenates fixed voussoir and the activity voussoir on adjusting screw, fixed setting in adjusting screw tip and be used for relaxing the spacing regulation head of regulation to and the locking adjusting collar that spacing regulation head outer wall and be used for locking regulation are arranged in to the cover, wherein, the outer wall of spacing regulation head is the disc form, the locking adjusting collar drives spacing regulation head and adjusting screw rotation realization locking with this disc on for adjusting screw axial circumferencial direction, and presents the rotation trend of skidding with the spacing regulation head when reaching preset locking force.

Specifically, the end part of the limiting adjusting head, which deviates from the adjusting screw rod, is provided with a loosening adjusting opening.

Specifically, the outer wall of the limiting adjusting head is provided with a groove along the axial direction of the adjusting screw rod, the groove is used for transmitting locking adjusting force, and the locking adjusting sleeve slides when the locking adjusting force reaches preset locking force.

Specifically, the cross section of the groove is arc-shaped.

Specifically, both ends of the groove are provided with anti-falling pieces.

Specifically, the end part of the locking adjusting sleeve, which deviates from the fixed wedge block, is provided with a locking adjusting opening, and the end part of the limiting adjusting head is exposed through the locking adjusting opening.

Specifically, the part of the locking adjusting sleeve, which is in sleeve connection with the limiting adjusting head, is provided with at least two elastic force application mechanisms which are uniformly distributed on the circumference of the round surface outside the limiting adjusting head, and the elastic force application mechanisms apply force to the limiting adjusting head in the radial direction of the round surface so as to transmit the locking adjusting force and show a rotating and slipping trend with the limiting adjusting head when the locking adjusting force reaches the preset locking force.

Specifically, the elastic force application mechanism comprises a blind hole arranged on the inner wall of the locking adjusting sleeve, an elastic body arranged in the blind hole, and a ball body which is arranged in the blind hole, is acted by the elastic force of the elastic body and transmits locking adjusting force to the limiting adjusting head.

Further, the elastic force application mechanisms are arranged at least one group in the axial direction along the adjusting screw.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, the locking adjusting sleeve in a sleeving and rotating manner is arranged on the limiting adjusting head of the adjusting screw rod, so that the locking adjustment and the slipping after locking are realized, the adjusting mode of limited torque is changed, and the locking operation and the loosening operation are more convenient. The invention has the advantages of ingenious design, simple structure and convenient use, and is suitable for being applied to the locking strip for limiting the moment.

(2) The invention transmits the locking force of limited moment to the adjusting screw rod indirectly through the locking adjusting sleeve, and transmits the loosening acting force to the adjusting screw rod directly through the limiting adjusting head, thereby separating the operation surfaces in the locking and loosening processes skillfully, and avoiding the problem that the locking part cannot be loosened due to abrasion on the basis of ensuring convenient operation.

(3) According to the invention, the elastic force application mechanisms acting in the radial direction are utilized to transmit the locking adjusting force, and the subsequent adjustment of the moment setting can be facilitated through the increase and decrease matching of the plurality of elastic force application mechanisms uniformly distributed on the circumference, so that the problem that the elastic force of the spring cannot be adjusted in the past is solved.

(4) The invention skillfully adopts a ball-ball force transmission mode between the locking adjusting sleeve and the limiting adjusting head, the ball rolls in the adjusting slip process, the wear degree of parts is effectively reduced, the wear time of a force transmission surface can be greatly delayed, and the service life is obviously prolonged.

(5) The invention can be provided with a plurality of elastic force applying mechanisms on the circular surface and a plurality of groups along the axial direction, thereby greatly expanding the upper limit setting range of the limited torque, not relying on the limitation of the material strength of the spring, and reducing the cost to a certain extent.

Drawings

Fig. 1 is a schematic view of an overall structure of a conventional moment-limiting locking bar using a ratchet mechanism.

Fig. 2 is a partial structure diagram of the ratchet mechanism in fig. 1.

Fig. 3 is a schematic structural diagram of an embodiment of the present invention.

Fig. 4 is a partial structural schematic diagram of a limiting adjusting head and a locking adjusting sleeve in the embodiment of the invention.

Fig. 5 is a schematic structural diagram of the arrangement of the anti-dropping part on the spacing adjusting head in another embodiment of the invention.

Fig. 6 is a schematic end face structure diagram of a limiting adjusting head and a locking adjusting sleeve in the embodiment of the invention.

Fig. 7 is a schematic end face structure diagram of a limiting adjusting head and a locking adjusting sleeve in another embodiment of the invention.

Fig. 8 is a partial structural schematic view of another locking adjustment sleeve in an embodiment of the invention.

FIG. 9 is a schematic diagram illustrating force analysis of a single elastic force applying mechanism according to an embodiment of the present invention.

FIG. 10 is a schematic diagram of the use of an embodiment of the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

1-adjusting screw, 2-fixed wedge block, 3-movable wedge block, 4-limit adjusting head, 5-locking adjusting sleeve, 6-nut, 7-ratchet mechanism, 8-spring, 11-loosening adjusting opening, 12-groove, 13-locking adjusting opening, 14-anti-drop piece, 15-snap ring, 20-elastic force application mechanism, 21-blind hole, 22-elastic body and 23-ball.

Detailed Description

The present invention is further illustrated by the following figures and examples, which include, but are not limited to, the following examples.

Examples

As shown in fig. 3 to 10, the torque limiting locking strip comprises an adjusting screw 1, a fixed wedge 2 and a movable wedge 3 connected in series with the adjusting screw, a limiting adjusting head 4 fixedly arranged at the end of the adjusting screw and used for loosening adjustment, and a locking adjusting sleeve 5 sleeved on the outer wall of the limiting adjusting head and used for locking adjustment, wherein the fixed wedge, the movable wedge and the adjusting screw can adopt the same structure as the prior art in terms of form and number, for example, the middle of the adjusting screw is a polished rod, and the end of the adjusting screw is a lead screw, which is not improved in the art; typically, a nut 6 for integral fixing and adjustment is also arranged on the spindle of the adjusting screw.

The outer wall of the limit adjusting head is in a round surface shape, namely the limit adjusting head is a cylindrical outer wall, the locking adjusting sleeve drives the limit adjusting head and the adjusting screw to rotate in the axial circumferential direction of the adjusting screw by the round surface to realize locking, and the locking adjusting sleeve and the limit adjusting head are in a rotating and slipping trend when preset locking force is reached.

Specifically, a loosening adjusting opening 11 is arranged at the end part, deviating from the adjusting screw, of the limiting adjusting head, and the loosening adjusting opening can be in a hexagon socket, a cross groove, a straight groove and the like, preferably in a hexagon socket. The outer wall of the limiting adjusting head is provided with a groove 12 along the axial direction of the adjusting screw rod, the groove is used for transmitting locking adjusting force, and the locking adjusting sleeve slips when the locking adjusting force reaches preset locking force. This recess can lead to the groove form to the operation is put with the cover of locking adjusting collar in processing, also can be the groove that only forms on spacing regulation head outer wall and lack the form, so can regard the outer wall at recess both ends as anticreep spare, in order to carry out certain restriction to locking adjusting collar, reduce the slippage risk. The cross section of the groove can be in the form of arc, inverted trapezoid, rectangle, triangle and the like, and the arc is generally preferred so as to facilitate the rotation and the sliding when the preset locking force is achieved.

In another embodiment, in order to avoid the axial slipping of the locking adjusting sleeve, especially when the groove is provided in the form of a through groove, a retaining member 14 is fixedly arranged on the end of the spacing adjusting head far away from the adjusting bolt, and the retaining member protrudes from the outer wall of the spacing adjusting head, so as to block the end of the locking adjusting sleeve and the end of the groove at the side, as shown in fig. 5. In further configuration, the part that adjusting bolt and spacing regulation head are connected disposes snap ring 15, as the anticreep piece at this end of spacing regulation head, this snap ring can block arrange adjusting bolt in this and serve, also can block arrange spacing regulation head in this and serve, all guarantee snap ring outer fringe protrusion in spacing regulation head outer wall can, both guaranteed through this dismantled and assembled snap ring to locking adjusting collar axial spacing effect, made things convenient for the assembly and the dismantlement operation of locking adjusting collar again.

Specifically, the end part deviating from the fixed wedge block on the locking adjusting sleeve is provided with a locking adjusting opening 13 for the operation of an external tool on the locking adjusting sleeve, the locking adjusting opening is generally configured in a hexagon socket manner, and the locking adjusting opening exposes the loosening adjusting opening at the end part of the limiting adjusting head, namely, the caliber of the locking adjusting opening is larger than that of the loosening adjusting opening, so that the tool can be used for loosening and adjusting.

In another embodiment, in order to enable the external tool to perform the locking adjustment operation of the locking adjustment sleeve and the loosening adjustment operation of the loosening adjustment opening, the outer wall of the locking adjustment sleeve may be provided in the form of an outer corner, such as an outer hexagon, as shown in fig. 7, so that the locking adjustment operation may be performed using a tool such as a wrench. At the moment, a through hole is still needed to be arranged at the end part of the locking adjusting sleeve, which is far away from the fixed wedge block, so that an external tool can conveniently extend into the through hole to operate the loosening adjusting opening.

Specifically, the part of the locking adjusting sleeve sleeved with the limiting adjusting head is provided with a plurality of elastic force application mechanisms 20 which are uniformly distributed on the circumference of the round surface outside the limiting adjusting head, and the elastic force application mechanisms apply force to the limiting adjusting head in the radial direction of the round surface so as to transmit the locking adjusting force and show a rotating and slipping trend with the limiting adjusting head when the locking adjusting force reaches the preset locking force. The number of the elastic force applying mechanisms is determined by the matching relationship between the individually generated torque and the preset locking force, and 6 are taken as examples in the figure of the embodiment. The elastic force application mechanism 20 comprises a blind hole 21 which is arranged on the inner wall of the locking adjusting sleeve and faces the limiting adjusting head, an elastic body 22 which is arranged in the blind hole, and a ball 23 which is arranged in the blind hole, is acted by the elastic force of the elastic body and transmits the locking adjusting force to the limiting adjusting head, wherein the elastic body can be a spring, the ball can be a steel ball, the diameter of the steel ball is matched with that of the blind hole, and the arc on the surface of the steel ball is matched with the arc-shaped cross section of a groove on the limiting adjusting head so as to improve the transmission of. In actual manufacturing, the locking adjusting sleeve can be manufactured into a standard part with a plurality of blind holes, the required number of elastic bodies and spheres can be arranged when products with different preset locking forces are assembled, and redundant blind holes can be used as reserved holes.

In another embodiment, the blind hole provided in the locking adjustment sleeve may be configured in the form of a through hole penetrating the inner and outer walls, the inner wall of the through hole being configured as an internal thread, and the through hole being blocked from the direction of the outer wall by a screw matching the internal thread. By adopting the configuration, the torque generated by one elastic force application mechanism can be adjusted by adjusting the screwing-in depth of the screw, so that the relatively free preset locking force configuration is realized.

In another embodiment, as shown in fig. 8, the elastic forcing mechanisms are arranged in two or even more sets in the axial direction of the adjusting screw, thereby increasing the preset range of the preset locking force.

As shown in fig. 9, the moment Fout generated between the locking adjusting sleeve and the limit adjusting head for a single elastic forcing mechanism is calculated by the following formula:

Fout＝F*R*cos(α/2)-F*R*sin(α/2)*μ

where μ is a friction coefficient of a surface of the ball, α is a contact surface angle in a cross-sectional direction where the ball contacts the groove, F is an input rotational force, and R is a moment length of the contact surface angle.

The moment Fout and the elastic force F generated by the elastic body_BulletIs associated with, F_BulletThe material characteristics of the elastomer are directly related to the material characteristics of the elastomer and indirectly related to the depth of the blind hole, generally speaking, the depth of the blind hole is a fixed parameter after the locking adjusting sleeve and the blind hole in the product are manufactured into a standard part, and the material characteristics of the elastomer are also a fixed parameter after the elastomer is manufactured according to the standard part, so that F_BulletTypically a fixed value; when Fout is less than F_BulletWhen the Fout is larger than F, the ball body can be kept in the groove, so that the locking adjusting sleeve rotates to drive the limiting adjusting head to rotate together_BulletDuring the time, the spheroid can be impressed the blind hole for locking adjusting sleeve rotates and can produce the condition of skidding between the two.

For a defined torque of the entire locking adjusting sleeve, the predetermined locking force is F_Bullet*N-f，

Wherein N is the number of elastic force application mechanisms, F is the internal friction force of the locking strip, and F is the internal friction force of the locking strip_BulletAlso corresponding to the maximum value of Fout. That is, the input rotation force F can be rotated and slipped only by overcoming the locking force generated by all the elastic force applying mechanisms, and the upper limit is the preset locking force and can be flexibly configured by the number of the elastic force applying mechanisms.

When the limited moment locking strip is produced and processed, the maximum Fout value, namely the force required by the sliding of the ball body, can be calculated according to the specific parameters of the ball body and the groove, the elastic force of the elastic body, the contact condition and the like, and then the phase is assembled according to the requirement of preset locking forceAnd completing assembly by using a corresponding number of elastic force application mechanisms. The locking process when using does: as shown in fig. 10, the locking strip is first installed on the component to be locked and placed in the corresponding locking groove; then use the instrument (like big allen key) that matches with the locking regulation mouth to rotate the locking adjustment sleeve, because the elastomer makes the spheroid keep in the recess of spacing regulation head outer wall to spheroidal elastic action, make spacing regulation head rotate along with the locking adjustment sleeve, realize the locking process to the locking strip. When the locking strip is locked to reach the preset locking force, the locking adjusting sleeve continues to rotate, and the Fout is larger than F_BulletThe ball can roll out of the groove to realize slipping, so that the locking strip cannot be locked continuously. The relaxing process is as follows: the locking strip can be loosened conveniently by inserting a tool (such as a small inner hexagonal wrench) matched with the loosening adjusting opening into the loosening adjusting opening and directly rotating the limiting adjusting head.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, but all changes that can be made by applying the principles of the present invention and performing non-inventive work on the basis of the principles shall fall within the scope of the present invention.

Claims (9)

1. The utility model provides a inject moment locking strip, includes adjusting screw to and concatenate fixed voussoir and the activity voussoir on adjusting screw, its characterized in that still including fixed set up in adjusting screw tip and be used for relaxing the spacing regulation head of regulation to and the locking adjusting collar that spacing regulation head outer wall and be used for locking regulation are arranged in to the cover, wherein, the outer wall of spacing regulation head is the disc form, the locking adjusting collar drives spacing regulation head and adjusting screw rotation realization locking with this disc on the circumferencial direction for adjusting screw axial to appear rotating the slip trend with the spacing regulation head when reaching and predetermineeing the locking force.

2. Moment-limiting locking strip according to claim 1, wherein a loosening adjustment opening is provided at the end of the limiting adjustment head facing away from the adjustment screw.

3. The torque-limiting locking strip according to claim 1, wherein the outer wall of the position-limiting adjusting head is provided with a groove running in the axial direction of the adjusting screw, the groove is used for transmitting the locking adjusting force and enabling the locking adjusting sleeve to slip when the locking adjusting force reaches the preset locking force.

4. A torque-limiting locking bar as claimed in claim 3 wherein said groove is arcuate in cross-section.

5. Moment-limiting locking strip according to claim 3, wherein both ends of the groove are provided with a release prevention.

6. A moment-limiting locking strip according to any one of claims 1 to 5, wherein a locking adjusting opening is formed in an end of the locking adjusting sleeve facing away from the fixed wedge, and exposes an end of the limiting adjusting head.

7. The torque-limiting locking strip according to any one of claims 1 to 5, wherein at least two elastic force applying mechanisms are circumferentially and uniformly distributed on a circular surface outside the position-limiting adjusting head at a portion where the locking adjusting sleeve is sleeved with the position-limiting adjusting head, and the elastic force applying mechanisms apply force to the position-limiting adjusting head in a radial direction of the circular surface so as to transmit the locking adjusting force and have a tendency of rotating and slipping with the position-limiting adjusting head when the locking adjusting force reaches a preset locking force.

8. The torque-limiting locking strip according to claim 7 wherein the resilient force applying mechanism comprises a blind hole formed in the inner wall of the locking adjustment sleeve, an elastomer disposed in the blind hole, and a ball disposed in the blind hole and acted on by the elasticity of the elastomer to transmit the locking adjustment force to the spacing adjustment head.

9. Moment-limiting locking strip according to claim 7, wherein said elastic forcing means are arranged in at least one group in the axial direction along the adjustment screw.

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