CN210460253U - A kind of anchor - Google Patents

Abstract

The utility model belongs to the technical field of fixing device, especially, relate to a fixer, the fixer includes needle body and lock body, is provided with the tapered cavity in the lock body, is provided with the lock body structure that is used for fixing the needle body in the tapered cavity, and the lock body structure includes lock core, steel ball and the elastic component that the activity set up in the tapered cavity, the gomphosis has a plurality of steel balls on the lock core, and the lock core butt that will have the steel ball is in the tapered cavity through the elastic component, the center department of lock body and lock core has seted up the pinhole respectively, the needle body forms the friction auto-lock with tapered cavity and steel ball three after passing the pinhole of lock body and lock core in proper order; the lock is characterized in that a sliding part is formed on the lock cylinder and is arranged in the conical cavity in a sliding mode, the sliding part is driven to drive the lock cylinder and the embedded steel balls to be separated from the conical cavity, and the unlocking of the pin body is achieved. Therefore, the mechanical unlocking is realized to replace the magnetic unlocking, and the use cost of the fixer is greatly saved.

Description

A kind of anchor

Technical Field

The utility model belongs to the technical field of fixing device, especially, relate to a fixer.

Background

At present, the structure of current fixer refers to fig. 1, the fixer includes steel needle 6 and casing 7, and the inner chamber of casing 7 is trapezoidal form, is provided with steel ball 8, flexible set casing 9 and spring 10 in the casing 7, steel ball 8 is three and evenly sets up on the flexible set casing 9, the butt has between flexible set casing 9 and the casing 7 spring 10, flexible set casing 9 removes and sets up in casing 7, the trapezoidal inner chamber of casing 7 forms right the tightening up of steel ball 8 makes casing 7, steel ball 8 and steel needle 6 form the friction auto-lock to make steel ball 8 press from both sides tight steel needle 6. When unlocking, one side of the fixer, which is far away from the steel needle 6, needs to be close to the unlocking device, the magnet arranged in the unlocking device can attract the steel ball 8 to drive the telescopic fixing shell 9 to downwards move by overcoming the elastic force of the spring 10, at the moment, the shell 7, the steel ball 8 and the steel needle 6 are separated from friction self-locking, and the steel ball 8 has a transverse moving space, so that the steel needle 6 is unlocked. However, magnetic steel is needed for unlocking by adopting magnetic force, and the cost of the magnetic steel is high, so that the magnetic steel is not beneficial to popularization and application of the fixer.

Disclosure of Invention

The utility model aims at providing a fixer to mechanical structure drives the motion of lock core, and the lock core drives steel ball synchronous motion, makes lock body structure and needle body break away from the friction auto-lock, thereby realizes unblanking with mechanical structure and replaces magnetic force to unblank, has strengthened the convenience in the in-service use.

The purpose of the utility model is realized like this: a fixer comprises a needle body and a lock body, wherein a conical cavity is arranged in the lock body, a lock body structure for fixing the needle body is arranged in the conical cavity, the lock body structure comprises a lock cylinder, steel balls and an elastic part, the lock cylinder, the steel balls and the elastic part are movably arranged in the conical cavity, the lock cylinder is embedded with the steel balls, the lock cylinder with the steel balls is abutted against the inside of the conical cavity through the elastic part, a needle hole is formed in the center of the lock body, the needle body penetrates through the needle hole of the lock body and then forms friction self-locking with the conical cavity and the steel balls, namely the lock cylinder drives the steel balls to move to the narrowing position of the conical cavity, and the steel balls are close to; the lock is characterized in that a sliding part is formed on the lock cylinder and movably arranged in the conical cavity, and the sliding part is driven to drive the lock cylinder and the embedded steel balls to be separated from the conical cavity, so that the unlocking of the pin body is realized.

Furthermore, the lock body is formed by connecting an upper shell cover and a bottom shell, the intermediate body is rotatably arranged between the upper shell cover and the bottom shell, a spiral inclined surface matched with the sliding part is formed on the intermediate body, and when the intermediate body rotates, the spiral inclined surface drives the lock cylinder and the embedded steel balls to move axially through the sliding part.

Furthermore, the conical cavity is a coaxial cavity formed by a lock cap and a lock cylinder shell, and a sliding groove matched with the sliding part to slide is formed in the lock cylinder shell.

Furthermore, the sliding part is positioned on two sides of the lock cylinder, an arc inclined plane matched with the spiral inclined plane is formed on the sliding part, and when the spiral inclined plane is separated from the arc inclined plane, the lock body structure is in a locking state.

Furthermore, the bottom shell is formed with two positioning portions matched with the two spiral inclined planes, when the lowest position of each spiral inclined plane abuts against the arc inclined plane, the high-position side of each spiral inclined plane abuts against the positioning portions, and the lock body structure is in an unlocking state.

Furthermore, the positioning part is in the shape of a circular arc sheet, an obstruction part is formed on the positioning part, a matched convex part is formed on the intermediate body, and when the lower side of the spiral inclined plane abuts against the positioning part, the convex part is positioned on the right side of the obstruction part.

Further, the spacing collar includes first spacing collar, second spacing collar and third spacing collar, the outside shaping of spacing post has a limiting plate, works as when going up cap and drain pan connection, first spacing collar supports and leans on the locking cap, the second spacing collar supports and leans on limiting plate and spacing portion, the third spacing collar supports and leans on location portion.

Furthermore, a limiting column is formed in the bottom shell, the lock body structure is arranged in the limiting column, an inverted convex groove is formed in the limiting column, a limiting portion is formed in the lock cylinder shell and located at the upper portion of the inverted convex groove, the sliding portion is arranged at the lower portion of the inverted convex groove in a sliding mode, a limiting ring is formed in the upper shell cover, and the limiting ring fixes the lock body structure in the limiting column.

Furthermore, a plurality of first elliptical grooves are formed in the outer wall of the upper shell cover along the circumferential direction, a plurality of second elliptical grooves are formed in the outer wall of the intermediate body along the circumferential direction, and the outer wall of the upper shell cover and the outer wall of the intermediate body are arranged in an inclined mode in opposite directions.

Further, a reference portion is formed on the intermediate body, and the reference portion is located below the convex portion.

Compared with the prior art, the utility model outstanding and profitable technological effect is: the utility model discloses a shaping has sliding part on the lock core, and sliding part slides and sets up in the tapered cavity, drive sliding part drives the elastic force and the tapered cavity separation that elastic component was overcome to lock core and the steel ball of gomphosis on the lock core make tapered cavity, steel ball and needle body break away from the friction auto-lock, realize the unblock of needle body to the realization is unblanked with mechanical structure and is replaced magnetic force and unblanked, the utility model discloses a fixer adopts rotatory midbody that sets up between last cap and drain pan to realize locking and unblock, and it is more convenient to use, has saved the magnet steel that uses when unblanking to the use cost of fixer has been practiced thrift greatly.

Drawings

Fig. 1 is a schematic view of a prior art anchor.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is a sectional view in another direction of the present invention.

Fig. 5 is a transverse sectional view of the present invention.

Fig. 6 is an exploded view of the present invention.

Fig. 7 is a schematic structural diagram of the lock body structure of the present invention.

Fig. 8 is a schematic structural view of the lock cap of the present invention.

Fig. 9 is a schematic structural diagram of the lock cylinder of the present invention.

Fig. 10 is a schematic structural view of the lock cylinder housing of the present invention.

Fig. 11 is a schematic structural view of the upper housing cover of the present invention.

Fig. 12 is a schematic structural diagram of an intermediate of the present invention.

Fig. 13 is a schematic structural diagram of the bottom case of the present invention.

The reference numerals in the figures denote the meanings:

1-a needle body; 2-lock body structure; 211-locking cap; 2111-edge portion; 212-a lock cylinder; 2121-a sliding part;

2122-arc inclined plane; 2123-steel bead groove; 213-steel balls; 214-a resilient member; 215-cylinder housing;

2151-sliding groove; 2152-limit part; 2153-fixed slot; 3-an intermediate; 311-helical ramp;

312-a convex portion; 3132-a second elliptical trough; 314-reference part; 4-mounting a shell cover; 411-a spacing collar;

4111-a first stop collar; 4112-a second stop collar; 4113-a third stop collar;

4122-first elliptical trough; 5-a bottom shell; 511-a limiting column; 5111-inverted convex groove; 512-a positioning part;

5121-hindering part; 5112-limiting plate; 6-steel needle; 7-a housing; 8-steel balls; 9-a telescopic fixed shell;

10-spring.

Detailed Description

The invention will be further described with reference to specific embodiments below:

the first embodiment is as follows: referring to fig. 1-12, a fixer, the fixer includes a needle body 1 and a lock body, a conical cavity is provided in the lock body, a lock body structure 2 for fixing the needle body 1 is provided in the conical cavity, the lock body structure 2 includes a lock cylinder 212, steel balls 213 and an elastic member 214 movably provided in the conical cavity, the lock cylinder 212 is embedded with the steel balls 213, and the lock cylinder 212 with the steel balls is abutted against the conical cavity through the elastic member 214, the center of the lock body and the center of the lock cylinder 212 are respectively provided with a pinhole, the needle body 1 forms friction self-locking with the conical cavity and the steel balls 213 after passing through the pinhole of the lock body, that is, the lock cylinder 212 drives the steel balls 213 to move to the narrowing position of the conical cavity, and the steel balls 213 are close to each other to lock the; a sliding part 2121 is formed on the lock cylinder 212, the sliding part 2121 is movably arranged in the conical cavity, and the sliding part 2121 is driven to drive the lock cylinder 212 and the embedded steel ball 213 to be separated from the conical cavity, so that the unlocking of the needle body 1 is realized; the lock body is formed by connecting an upper shell cover 4 and a bottom shell 5, the intermediate body 3 is rotatably arranged between the upper shell cover 4 and the bottom shell 5, a spiral inclined surface 311 matched with the sliding part 2121 is formed on the intermediate body 3, and when the intermediate body 3 rotates, the spiral inclined surface 311 drives the lock core 212 and the embedded steel balls 213 to move along the axial direction through the sliding part 2121.

According to the technical scheme, after the needle body 1 is inserted into the lock body, the resistance of the steel ball 213 for clamping the needle body 1 is larger than the friction force between the conical cavity and the steel ball 213, so that the needle body 1 is locked, when the intermediate body 3 is rotated, the spiral inclined plane 311 of the intermediate body 3 presses the sliding part 2121 to drive the sliding parts 2121 on two sides of the lock core 212, so that the steel ball 213, the lock core 212 and the needle body 1 are separated from friction self-locking, the needle body 1 is separated from the lock body structure 2, and after the pressure of the spiral inclined plane 311 on the sliding parts 2121 on two sides of the lock core 212 is removed, the elastic part drives the lock core 212 and the steel ball 213.

Preferably, the tapered cavity is a coaxial cavity formed by the lock cap 211 and the lock cylinder housing 215, and the lock cylinder housing 215 is formed with a sliding groove 2151 for sliding in cooperation with the sliding portion 2121.

The above technical solution enables the lock body structure 2 to move in the coaxial conical cavity formed by the lock cap 211 and the lock cylinder shell 215, and the sliding part 2121 moves along the sliding groove 2151.

Preferably, the sliding portion 2121 is located at two sides of the key cylinder 212, and the sliding portion 2121 is formed with a circular arc inclined surface 2122 matched with the spiral inclined surface 311, and when the spiral inclined surface 311 is separated from the circular arc inclined surface 2122, the lock body structure 2 is in a locked state.

The intermediate body 3 is rotated in the above technical scheme, so that the spiral inclined surface 311 pushes the arc inclined surfaces 2122 on the sliding portions 2121 at the two sides of the lock cylinder 212 better, the lock cylinder 212 moves in a direction of self-locking from the steel ball 213, the lock cylinder 212 and the pin body 1, unlocking is realized, and when the spiral inclined surface 311 is separated from the arc inclined surface 2122, the lock body structure 2 is in a locking state.

Preferably, the bottom case 5 is formed with two positioning portions 512 matching with the two spiral inclined surfaces 311, when the lowest position of the spiral inclined surface 311 abuts against the arc inclined surface 2122, the high-position side of the spiral inclined surface 311 abuts against the positioning portions 512, and the lock body structure 2 is in an unlocking state.

The technical scheme enables the unlocking position and the locking position to be more accurate.

Preferably, the positioning portion 512 is in the shape of a circular arc-shaped plate, the blocking portion 5121 is formed on the positioning portion 512, the engaging protrusion 312 is formed on the intermediate body 3, and when the lower side of the spiral inclined surface 311 abuts against the positioning portion 512, the protrusion 312 is located on the right side of the blocking portion 5121.

Above-mentioned technical scheme makes the fixer have certain hindrance effect between "unblank", "shutting" two kinds of states, guarantees the reliability of product, can prevent simultaneously that children from unblanking the back and being pricked by needle body 1.

Preferably, the spacing collar 411 includes a first spacing collar 4111, a second spacing collar 4112 and a third spacing collar 4113, the outside of the spacing column 511 is formed with a spacing plate 5112, when the upper housing cover 4 and the bottom housing 5 are connected, the first spacing collar 4111 abuts against the locking cap 211, the second spacing collar 4112 abuts against the spacing plate 5112 and the spacing portion 2152, and the third spacing collar 4113 abuts against the positioning portion 512.

The above technical solution realizes that the lock body structure 2 is fixed in the limit column 511 by the limit collar 411.

Preferably, a limiting post 511 is formed in the bottom case 5, a central hole is formed in the center of the limiting post 511, the lock body structure 2 is disposed in the limiting post 511, an inverted convex groove 5111 is formed on the limiting post 511, a limiting portion 2152 is formed on the lock cylinder case 215, the limiting portion 2152 is located on the upper portion of the inverted convex groove 5111, the sliding portion 2121 is slidably disposed on the lower portion of the inverted convex groove 5111, a limiting ring 411 is formed on the upper case cover 4, and the limiting ring 411 fixes the lock body structure 2 in the limiting post 511.

According to the technical scheme, when the needle body 1 is inserted into the needle hole of the upper shell cover 4, the needle point of the needle body 1 is abutted to the central hole, and the lock body structure 2 is arranged in the limiting column 511, so that the lock body structure 2 is limited to move up and down along the axial direction in the range of the limiting column 511, and the phenomenon that the rail is deviated during movement to cause failure of the fixator is avoided; the bottom shell 5 is a smooth arc surface, and the fixer is not easy to collide after being installed; set up lock body structure 2 in the casing that last shell lid 4 and drain pan 5 are constituteed, the appearance is more graceful, prevents that needle body 1 from stinging the people.

Preferably, a plurality of first elliptical grooves 4122 are formed in the outer wall of the upper cover 4 along the circumferential direction, a plurality of second elliptical grooves 3132 are formed in the outer wall of the middle body 3 along the circumferential direction, and the outer wall of the upper cover 4 and the outer wall of the middle body 3 are arranged in an opposite inclined manner.

The technical scheme ensures that the upper shell cover 4 and the intermediate body 3 accord with the human engineering, increases the friction force, is convenient for manually rotating the intermediate body 3, and ensures that the fixer is switched between the unlocking state and the locking state.

Preferably, three steel ball grooves 2123 which are uniformly distributed along the circumferential direction and used for embedding the steel balls 213 are formed at the top of the lock cylinder 212.

The technical scheme has reasonable structure and realizes the synchronous motion of the lock cylinder 212 and the steel ball 213.

Preferably, the spiral slope 311 is located between the stopper 2152 and the sliding part 2121.

The above technical solution enables the spiral slope 311 to move between the stopper 2152 and the sliding part 2121, thereby avoiding the failure of the fixator.

Preferably, the intermediate body 3 is formed with a reference portion 314, and the reference portion 314 is located below the projection 312.

The reference portion 314 of the above-mentioned technical solution has two positions, which respectively represent the "unlocked" and "locked" positions, and are convenient for observing the "unlocked" and "locked" positions from the outside.

Preferably, a fixing groove 2153 is formed in the cylinder housing 215 along a circumferential direction, and a mating edge portion 2111 is formed on the locking cap 211.

According to the technical scheme, the lock cylinder 212 and the steel balls 213 are limited between the lock cylinder shell 215 and the lock cap 211, the lock cylinder 212 and the steel balls 213 are guaranteed to move up and down along the axial direction in the range between the lock cylinder shell 215 and the lock cap 211, and the phenomenon that the rail is deviated during movement to cause failure of the fixator is avoided.

The working principle is as follows: the utility model discloses a fixer includes needle body 1 and lock body, is provided with the tapered cavity in the lock body, and tapered cavity is internal to be provided with the lock body structure 2 that is used for fixed needle body 1, the lock body is formed by connecting upper cover 4 and drain pan 5, and midbody 3 is rotatory to be set up between upper cover 4 and the drain pan 5, has seted up the pinhole on the central line of lock core 212 and lock nut 211 among the lock body structure 2 respectively, and lock nut 211 and lock core 212 are the tapered cavity structure with the axle center, insert lock body structure 2 with the pinhole that needle body 1 passed through upper cover 4 behind the product to lock the fixer on the product. The lock body structure 2 is arranged in a limit column 511 of the bottom shell 5, the lock core 212 and the steel balls 213 move up and down along the range of the lock core shell 215 and the lock cap 211 under the action of the elastic part 214 and the intermediate body 3, when the needle body 1 is inserted into the lock body structure 2 for locking, the elastic part 214 at the bottom of the lock body structure 2 props against the lock core 212, the steel balls 213 embedded in the lock core 212 are jacked to the top of the lock cap 211, the section of the lock cap 211 is gradually reduced, the needle body 1 sequentially penetrates through needle holes of the lock body and the lock core 212 and then forms friction self-locking with a conical cavity and the steel balls 213, the resistance of the steel balls 213 for clamping the needle body 1 is greater than the friction between the lock cap 211 and the steel balls 213, the needle body 1 and the steel balls 213 are pulled outwards or/and rotated to drive the lock core 212 and the lock cap 211 to; by rotating the intermediate body 3, the spiral inclined surface 311 on the intermediate body 3 presses the sliding part 2121 to drive the lock cylinder 212 and the steel ball 213 embedded on the lock cylinder 212 to separate from the tapered cavity, so that the tapered cavity, the steel ball 213 and the needle body 1 are separated from friction and self-locked, the unlocking of the needle body 1 is realized, and the lock body structure 2 is in an unlocking state; the intermediate body 3 is rotated in the reverse direction and the lock body structure 2 is restored to the locked state.

Example two: the second embodiment is substantially the same as the first embodiment, and is different in that an operating rod is formed on the lock cylinder 212, and the head of the operating rod is exposed out of the lock body to conveniently drive the lock cylinder 212 to move, so that the steel ball 213, the lock cylinder 212 and the needle body 1 are separated from friction and self-lock, and the needle body 1 is separated from the lock body structure 2, and when the pressure acting on the head of the operating rod is removed, the elastic force of the elastic member drives the lock cylinder 212 and the steel ball 213 embedded on the lock cylinder 212 to reset, so that the lock body structure 2 is in a locked state.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A fixer is characterized by comprising a needle body (1) and a lock body, wherein a conical cavity is arranged in the lock body, a lock body structure (2) used for fixing the needle body (1) is arranged in the conical cavity, the lock body structure (2) comprises a lock cylinder (212), steel balls (213) and an elastic piece (214) which are movably arranged in the conical cavity, a plurality of steel balls (213) are embedded in the lock cylinder (212), the lock cylinder (212) with the steel balls is abutted to the conical cavity through the elastic piece (214), a pinhole is formed in the center of the lock body, the needle body (1) penetrates through the pinhole of the lock body to form friction self-locking with the conical cavity and the steel balls (213), namely the lock cylinder (212) drives the steel balls (213) to move to the narrowing position of the conical cavity, and the steel balls (213) approach to each other to lock the needle body (1); a sliding part (2121) is formed on the lock cylinder (212), the sliding part (2121) is movably arranged in the conical cavity, and the sliding part (2121) is driven to drive the lock cylinder (212) and the embedded steel balls (213) to be separated from the conical cavity, so that the unlocking of the needle body (1) is realized.

2. A fastening device according to claim 1, wherein the lock body is formed by connecting an upper housing cover (4) and a bottom housing (5), the intermediate body (3) is rotatably disposed between the upper housing cover (4) and the bottom housing (5), the intermediate body (3) is formed with a spiral bevel (311) engaged with the sliding portion (2121), and when the intermediate body (3) rotates, the spiral bevel (311) drives the lock cylinder (212) and the engaged steel balls (213) to move axially through the sliding portion (2121).

3. A fastener according to claim 2, wherein: the conical cavity is a coaxial cavity formed by a lock cap (211) and a lock cylinder shell (215), and a sliding groove (2151) matched with a sliding part (2121) to slide is formed in the lock cylinder shell (215).

4. A fastener according to claim 3, wherein: the sliding part (2121) is positioned at two sides of the lock cylinder (212), an arc inclined plane (2122) matched with the spiral inclined plane (311) is formed on the sliding part (2121), and when the spiral inclined plane (311) is separated from the arc inclined plane (2122), the lock body structure (2) is in a locking state.

5. A holder according to claim 4, wherein: the bottom shell (5) is formed with two positioning parts (512) matched with the two spiral inclined planes (311), when the lowest position of the spiral inclined plane (311) abuts against the arc inclined plane (2122), the high-position side of the spiral inclined plane (311) abuts against the positioning parts (512), and the lock body structure (2) is in an unlocking state.

6. A holder according to claim 5, wherein: the positioning part (512) is in a circular arc sheet shape, a blocking part (5121) is formed on the positioning part (512), a matched convex part (312) is formed on the intermediate body (3), and when the lower side of the spiral inclined plane (311) abuts against the positioning part (512), the convex part (312) is located on the right side of the blocking part (5121).

7. A holder according to claim 6, wherein: spacing circle (411) include first spacing circle (4111), second spacing circle (4112) and third spacing circle (4113), and the outside shaping of spacing post (511) has spacing board (5112), works as when going up shell cover (4) and drain pan (5) are connected, first spacing circle (4111) supports and leans on locking cap (211), second spacing circle (4112) supports and leans on limiting board (5112) and spacing portion (2152), third spacing circle (4113) supports and leans on location portion (512).

8. A holder according to claim 7, wherein: the lock is characterized in that a limiting column (511) is formed in the bottom shell (5), the lock body structure (2) is arranged in the limiting column (511), an inverted convex groove (5111) is formed in the limiting column (511), a limiting part (2152) is formed in the lock cylinder shell (215), the limiting part (2152) is located on the upper part of the inverted convex groove (5111), the sliding part (2121) is slidably arranged on the lower part of the inverted convex groove (5111), a limiting ring (411) is formed in the upper shell cover (4), and the limiting ring (411) fixes the lock body structure (2) in the limiting column (511).

9. A fastener according to claim 8, wherein: a plurality of first elliptical grooves (4122) are formed in the outer wall of the upper shell cover (4) along the circumferential direction, a plurality of second elliptical grooves (3132) are formed in the outer wall of the middle body (3) along the circumferential direction, and the outer wall of the upper shell cover (4) and the outer wall of the middle body (3) are arranged in an opposite inclined mode.

10. A fastener according to claim 9, wherein: a reference part (314) is formed on the intermediate body (3), and the reference part (314) is positioned below the convex part (312).

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