CN109398297B - Portable safety belt height adjuster - Google Patents

Abstract

The invention discloses a portable safety belt height adjuster, which belongs to the technical field of automobiles and comprises a guide rail, a sliding block, a guide frame, a button and a locking mechanism, wherein the sliding block is sleeved on the guide rail and can slide along the height direction of the guide rail; the guide rail is provided with a plurality of limiting grooves which are distributed along the height direction of the guide rail; the button is provided with a guide wall; the locking mechanism penetrates through the sliding block and is elastically connected with the guide frame, one end of the locking mechanism is movably contacted with the guide wall, and the other end of the locking mechanism can extend into the limiting groove and extend out of the limiting groove. The locking mechanism is simple in structure and light, when the heights of the sliding block and the guide frame need to be adjusted upwards, the sliding block and the guide frame can be directly pushed to slide upwards, and when the sliding block and the guide frame need to be adjusted downwards, the locking mechanism is unlocked by pressing the button, so that the positions of the sliding block and the guide frame on the guide rail can be adjusted downwards.

Description

Portable safety belt height adjuster

Technical Field

The invention relates to the technical field of automobiles, in particular to a portable safety belt height adjuster.

Background

A car seat belt height adjuster is typically mounted on the B-pillar of a vehicle for adjusting the height of the seat belt, i.e. the height of the seat ring of the seat belt relative to the body, to accommodate occupants of different heights.

The existing push-button type safety belt height adjuster needs to press the push button by hand in the whole adjusting process, and is inconvenient to use. As patent numbers: the CN106608243A patent discloses a "double-sided push button seat belt height adjuster" comprising a mounting bracket, a sliding unit, a catch pin located in the sliding unit, a return spring and a push button. The sliding block support comprises a support top plate and a pair of support side plates extending downwards from two sides of the support top plate, the support sliding rail abuts against the inner surface of the support top plate, the pair of support side plates are clamped on the outer surfaces of the pair of support side plates, the upper end of the clamping pin is clamped in the clamping pin fixing piece, and lifting shoulders are arranged on two sides of the clamping pin fixing piece; the button comprises a pair of side pressure buttons, a button spring is arranged between the side pressure buttons, an inclined surface is formed on each side pressure button, and the lifting shoulders are respectively lapped on the inclined surfaces. The support sliding rail is respectively embraced from the upper direction and the lower direction through the sliding block and the sliding block support, so that the whole structure is compact and stable, the connection strength is high, and the deformation resistance is strong. However, when the height adjuster is used for adjusting the height, the sliding slide block is required to always press the lateral pressure buttons on the two sides for upward adjustment and downward adjustment, and the use is inconvenient.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a portable safety belt height adjuster which is used for solving the problem that when a sliding block is adjusted upwards, the sliding block cannot be directly pushed to slide upwards, and the inconvenience of gear shifting due to excessive gears is avoided.

The technical scheme adopted by the invention for solving the technical problem is a portable safety belt height adjuster, which is characterized by comprising the following components:

a guide rail; the guide rail is provided with a plurality of limiting grooves which are distributed along the height direction of the guide rail;

the sliding block is sleeved on the guide rail and can slide along the height direction of the guide rail;

a guide frame fixed on the slide block;

a button elastically connected with the guide frame; the button is provided with a guide wall;

and the locking mechanism penetrates through the sliding block, the locking mechanism is elastically connected with the guide frame, one end of the locking mechanism is movably contacted with the guide wall, and the other end of the locking mechanism can extend into and extend out of the limiting groove.

Preferably, the leading truck is provided with a through groove for the button to extend into, and the side body of the leading truck is provided with a through hole for the locking mechanism to pass through and communicate with the through groove.

Preferably, the locking mechanism is sleeved with an outer spring; one end of the outer spring is abutted against the locking mechanism, and the other end of the outer spring is abutted against the guide frame.

Preferably, a guide edge extends axially from the periphery of the through hole to the through hole, and the guide edge is provided with a plurality of first guide grooves axially; the outer wall of the locking mechanism is provided with a plurality of first protrusions extending along the radial direction of the locking mechanism, and the first protrusions extend into the first guide grooves.

Preferably, the locking mechanism comprises a main pin, a lock pin and an inner spring; the main pin is sleeved on the lock pin; the inner spring is arranged in the main pin, and two ends of the inner spring are respectively propped against the main pin and the lock pin.

Preferably, the main pin is provided with a limit groove along the axial direction, and the outer wall of the lock pin is provided with a limit block extending into the limit groove.

Preferably, the limiting groove comprises a groove inner wall, a groove bottom surface capable of abutting against the locking mechanism and a guide surface capable of allowing the locking mechanism to slide upwards; the inner wall of the groove is used for limiting the locking mechanism to slide upwards, leftwards and rightwards; the guide surface is smoothly connected with the bottom surface of the groove.

Preferably, the inner wall that leads to the groove is equipped with a plurality of second guide slots and a plurality of third guide slot, every be equipped with spacing post and reset spring in the second guide slot, the outer wall of button is equipped with a plurality of second that stretch into the second guide slot respectively and a plurality of third that stretch into the third guide slot respectively are protruding, reset spring's pot head is on spacing post, and the other end offsets with the second is protruding.

Preferably, a fourth protrusion abutting against the guide wall is arranged at one end, far away from the lock pin, of the main pin, and the guide wall comprises a first locking wall contact part, a first unlocking contact part and a first transition guide part for receiving the first locking wall contact part and the first unlocking contact part.

Preferably, the guide wall is in movable contact with the first protrusion, and the guide wall includes a second locking wall contact portion, a second unlocking contact portion, and a second transition guide portion that receives the second locking wall contact portion and the second unlocking contact portion.

The locking mechanism is simple in structure and light, when the heights of the sliding block and the guide frame need to be adjusted upwards, the sliding block and the guide frame can be directly pushed to slide upwards, and when the sliding block and the guide frame need to be adjusted downwards, the locking mechanism is unlocked by pressing the button, so that the positions of the sliding block and the guide frame on the guide rail can be adjusted downwards.

Drawings

Fig. 1 is a schematic perspective view of a portable seatbelt height adjuster according to embodiment 1;

FIG. 2 is a schematic perspective view of FIG. 1 from another perspective;

fig. 3 is an exploded schematic view of a breakaway guide of the portable seatbelt height adjuster in embodiment 1;

FIG. 4 is an exploded view of the release button of the portable seatbelt height adjuster in embodiment 1;

fig. 5 is a schematic structural view of a guide rail in the portable seatbelt height adjuster of embodiment 1;

FIG. 6 is a schematic perspective view of a portable seatbelt height adjuster locking mechanism according to embodiment 1;

FIG. 7 is an exploded view of FIG. 6;

FIG. 8 is a schematic view showing the structure of a push button in embodiment 1;

fig. 9 is a schematic perspective view of the portable seatbelt height adjuster according to embodiment 2;

FIG. 10 is a schematic view showing the contact between the locking mechanism and the push button according to embodiment 2;

FIG. 11 is a schematic view of the structure of a push button according to embodiment 2.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example 1

Referring to fig. 1 to 11, the present invention discloses a portable seat belt height adjuster, which includes a guide rail 100, a slider 200, a guide frame 300, a button 400, and a locking mechanism 500; the slider 200 can be connected with a safety belt, the slider 200 slides on the guide rail 100, and the tightness of the safety belt can be adjusted by adjusting the height of the slider 200 on the guide rail 100.

The guide rail 100 is provided with a plurality of limiting grooves 110 arranged along the height direction of the guide rail 100; the position of the sliding block 200 on the guide rail 100 is locked by the cooperation of the limiting groove 110 and the locking mechanism 500; specifically, a plurality of stopper grooves 110 are provided on the guide rail 100 to set a plurality of shift positions.

A slider 200 which is sleeved on the guide rail 100 and can slide along the height direction of the guide rail 100; specifically, guide edges 120 are disposed at two sides of the guide rail 100, two sides of the slider 200 are bent, and the bent portions of the slider 200 are sleeved on the guide edges 120. In this embodiment, the plurality of limiting grooves 110 are located between the guiding edges 120 on both sides of the sliding block 200.

A guide frame 300 fixed to the slider 200; in this embodiment, the guide frame 300 is fastened to the sliding block 200, so that the processing and installation are convenient, the sliding block 200 may be fixedly connected to the guide frame 300 in other manners, and the sliding block 200 may be integrally connected to the guide frame 300.

A button 400 elastically coupled to the guide frame 300; the button 400 is provided with a guide wall 410; the button 400 is movably connected with the guide frame 300, and when the button 400 is pressed, the button 400 can automatically reset (in an elastic connection relationship).

The locking mechanism 500 penetrates through the sliding block 200, the locking mechanism 500 is elastically connected with the guide frame 300, one end of the locking mechanism 500 is movably contacted with the guide wall 410, and the other end of the locking mechanism 500 can extend into and extend out of the limiting groove 110. Specifically, one end of the locking mechanism 500 is limited in the guide frame 300, and the other end of the locking mechanism 500 movably extends into and out of the limiting groove 110, when the position of the slider 200 on the guide rail 100 is locked, the locking mechanism 500 extends into the limiting groove 110, when the position of the locking mechanism 500 on the guide rail 100 is unlocked, the locking mechanism 500 extends out of the limiting groove 110, specifically, in an initial state, the locking mechanism 500 extends into the limiting groove 110, and the position of the slider 200 on the slide rail is locked; when the button 400 is pressed, the locking mechanism 500 slides along the guide wall 410, the locking mechanism 500 is ejected from the limiting groove 110, and the sliding block 200 can slide on the sliding rail.

The guide frame 300 is provided with a through groove 310 for the button 400 to extend into, and the side of the guide frame 300 is provided with a through hole 320 for the locking mechanism 500 to pass through and communicate with the through groove 310. In this embodiment, the button 400 is located in the through groove 310, the locking mechanism 500 extends into the through groove 310 from the through hole 320 to be in movable contact with the guide wall 410 of the button 400, and the locking mechanism 500 is directly controlled to extend into or extend out of the limiting groove 110 by pressing the button 400.

The locking mechanism 500 is sleeved with an outer spring 510; the one end of outer spring 510 with locking mechanism 500 offsets, and the other end offsets with leading truck 300, and specifically speaking, locking mechanism 500 with leading truck 300 elasticity links to each other is realized through outer spring 510, and when locking mechanism 500 stretched into in the spacing groove 110 (locking mechanism 500 was when guide rail 100 position), outer spring 510 was in compression state, and after button 400 was pressed, outer spring 510 extended, locking mechanism 500 followed the guide wall 410 slides, locking mechanism 500 followed pop out in the spacing groove 110.

A guide edge 330 extends axially from the periphery of the through hole 320 to the through hole 320, and the guide edge 330 is provided with a plurality of first guide grooves 331 along the axial direction; the outer wall of the locking mechanism 500 is provided with a plurality of first protrusions 520 extending along the radial direction of the locking mechanism 500, the first protrusions 520 extend into the first guide grooves 331, so that the locking mechanism 500 extends into and extends out of the limiting grooves 110 more stably, the movement direction of the locking mechanism 500 is limited by the guide edges 330, the locking mechanism 500 can be prevented from moving in directions other than the axial direction of the through hole 320 during movement, the movement stability of the locking mechanism 500 is improved, and in the embodiment, the first protrusions 520 are arranged on the outer wall of the kingpin 530.

The locking mechanism 500 comprises a main pin 530, a lock pin 540 and an inner spring 550; the main pin 530 is sleeved on the lock pin 540; the inner spring 550 is disposed in the main pin 530, and both ends of the inner spring respectively abut against the main pin 530 and the lock pin 540. Relative movement of the main pin 530 and the lock pin 540 may occur, the lock pin 540 may move in an axial direction thereof and compress the inner spring 550, and the inner spring 550 may be naturally extended to restore the lock pin 540.

The main pin 530 is provided with a limiting groove 531 along an axial direction, the outer wall of the lock pin 540 is provided with a limiting block 541 extending into the limiting groove 531, the limiting groove 531 is used for limiting the relative position of the lock pin 540 and the main pin 530, in this embodiment, the outer spring 510 is sleeved on the main pin 530, when the outer spring 510 extends (the button 400 is pressed), the main pin 530 moves along the axial direction of the through hole 320 and drives the lock pin 540, and the lock pin 540 extends out of the limiting groove 110.

The limiting groove 110 comprises a groove inner wall 111, a groove bottom surface 112 capable of abutting against the locking mechanism 500 and a guide surface 113 capable of allowing the locking mechanism 500 to slide upwards; the inner wall 111 of the groove is used for limiting the locking mechanism 500 to slide upwards, leftwards and rightwards; the guide surface 113 is smoothly connected with the groove bottom surface 112, when the sliding block 200 is moved upwards for gear shifting, the sliding block 200 or the guide frame 300 can be directly pushed without pressing the button 400, the guide frame 300 or the sliding block 200 is pushed upwards, therefore, the locking mechanism 500 passes through the sliding block 200, the sliding block 200 gives the upward pushing force to the locking mechanism 500, the locking mechanism 500 slides along the guide surface 113, in the sliding process of the locking mechanism 500, the lock pin 540 moves and compresses the inner spring 550 until the locking mechanism 500 slides out of the limit groove 110, the inner spring 550 is not compressed any more, the locking mechanism 500 continues to slide until the locking mechanism 500 extends into the limit groove 110 above the original limit groove 110, the inner spring 550 extends, the lock pin 540 extends into the limit groove 110, the groove inner wall 111 of the limit groove 110 is used for limiting the locking mechanism 500 to slide downwards, slide left and slide right, and people are prevented from pulling a safety belt, the locking mechanism 500 slides out of the limiting groove 110 (when people use the safety belt normally, the safety belt is usually given downward, leftward or rightward force), and in order to lock the height position of the safety belt connected with the sliding block 200, the groove inner wall 111 is used for limiting the sliding direction of the locking mechanism 500.

The inner wall of the through groove 310 is provided with a plurality of second guide grooves 332 and a plurality of third guide grooves 333, each second guide groove 332 is provided with a limiting column and a reset spring 335, the outer wall of the button 400 is provided with a plurality of second protrusions 420 extending into the second guide grooves 332 respectively and a plurality of third protrusions 430 extending into the third guide grooves 333 respectively, one end of the reset spring 335 is sleeved on the limiting column, the other end of the reset spring is abutted against the second protrusions 420, specifically, the button 400 is elastically connected with the guide frame 300 through the reset spring 335, the button 400 is pressed, the locking mechanism 500 is automatically ejected out of the limiting groove 110 through the outer spring 510, and when the button 400 is loosened, the reset spring 335 enables the button 400 to automatically reset.

The end of the main pin 530 remote from the lock pin 540 is provided with a fourth protrusion 532 abutting against the guide wall 410, and the guide wall 410 includes a first locking wall contact portion 411, a first unlocking contact portion 412, and a first transition guide portion 413 receiving the first locking wall contact portion 411 and the first unlocking contact portion 412. Specifically, the fourth protrusion 532 abuts against the guide wall 410, when the locking mechanism 500 extends into the retaining groove 110, the fourth protrusion 532 abuts against the first locking wall contact portion 411, when the button 400 is pressed, the locking mechanism 500 is gradually ejected from the retaining groove 110, and during the ejection process, the fourth protrusion 532 gradually slides from the first locking wall contact portion 411 to the first unlocking contact portion 412 through the first transition guide portion 413.

Example 2

The difference from embodiment 1 is that the locking mechanism 500 of this embodiment does not have the fourth protrusion 532, the guide wall 410 is movably contacted with the first protrusion 520, the guide wall 410 includes a second locking wall contact portion 411 ', a second unlocking contact portion 412', and a second transition guide portion 413 'for receiving the second locking wall contact portion 411' and the second unlocking contact portion 412 ', specifically, when the locking mechanism 500 is inserted into the limiting groove 110, the first protrusion 520 is contacted with the second locking contact portion 413, when the button 400 is pressed, the locking mechanism is gradually ejected from the limiting groove 110, and in the ejection process, the first protrusion 520 gradually slides from the second locking wall contact portion 411' to the second unlocking contact portion 412 'through the second transition guide portion 413'.

In the adjusting process of the portable safety belt height adjuster, when the sliding block 200 is adjusted upwards, the sliding block 200 or the guide frame 300 is directly pushed, the lock pin 540 in the locking mechanism 500 moves in the direction close to the guide frame 300 and compresses the inner spring 550, the locking mechanism 500 slides out upwards from the limiting groove 110 to continue pushing the sliding block 200 or the guide frame 300, and the locking mechanism 500 can extend into the limiting groove 110 which is above the original limiting groove 110 and adjacent to the original limiting groove 110.

When the position of the slider 200 on the guide rail 100 is adjusted downwards, the button 400 is pressed, the locking mechanism 500 slides along the guide wall 410, the outer spring 510 extends to make the locking mechanism 500 pop out of the limiting groove 110, the slider 200 and the guide frame 300 are pushed to move downwards along the guide rail 100, when the locking mechanism 500 moves to the limiting groove 110 below the original limiting groove 110, the button 400 is released, and the locking mechanism 500 extends into the limiting groove 110.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (4)

1. A portable seatbelt height adjuster, comprising:

a guide rail; the guide rail is provided with a plurality of limiting grooves which are distributed along the height direction of the guide rail;

the sliding block is sleeved on the guide rail and can slide along the height direction of the guide rail;

a guide frame fixed on the slide block;

a button elastically connected with the guide frame; the button is provided with a guide wall;

the locking mechanism penetrates through the sliding block, the locking mechanism is elastically connected with the guide frame, one end of the locking mechanism is movably contacted with the guide wall, and the other end of the locking mechanism can extend into and extend out of the limiting groove;

the guide frame is provided with a through groove for the button to extend into, and the side body of the guide frame is provided with a through hole for the locking mechanism to pass through and be communicated with the through groove;

the locking mechanism is sleeved with an outer spring; one end of the outer spring abuts against the locking mechanism, and the other end of the outer spring abuts against the guide frame;

the locking mechanism comprises a main pin, a lock pin and an inner spring; the main pin is sleeved on the lock pin; the inner spring is positioned in the main pin, and two ends of the inner spring are respectively propped against the main pin and the lock pin;

the main pin is provided with a limit groove along the axial direction, and the outer wall of the lock pin is provided with a limit block extending into the limit groove;

the limiting groove comprises a groove inner wall, a groove bottom surface capable of abutting against the locking mechanism and a guide surface capable of allowing the locking mechanism to slide upwards; the inner wall of the groove is used for limiting the locking mechanism to slide upwards, leftwards and rightwards; the guide surface is smoothly connected with the bottom surface of the groove;

and a fourth protrusion abutting against the guide wall is arranged at one end of the main pin, which is far away from the lock pin, and the guide wall comprises a first locking wall contact part, a first unlocking contact part and a first transition guide part for bearing the first locking wall contact part and the first unlocking contact part.

2. A portable seatbelt height adjuster according to claim 1, wherein: a guide edge extends towards the axial direction of the through hole from the periphery of the through hole, and a plurality of first guide grooves are formed in the guide edge along the axial direction; the outer wall of the locking mechanism is provided with a plurality of first protrusions extending along the radial direction of the locking mechanism, and the first protrusions extend into the first guide grooves.

3. A portable seatbelt height adjuster according to claim 2, wherein: the inner wall that leads to the groove is equipped with a plurality of second guide slots and a plurality of third guide slot, every be equipped with spacing post and reset spring in the second guide slot, the outer wall of button is equipped with a plurality of second that stretch into the second guide slot respectively and a plurality of third that stretch into the third guide slot respectively are protruding, reset spring's a pot head is on spacing post, and the other end offsets with the second is protruding.

4. A portable seatbelt height adjuster according to claim 2, wherein: the guide wall is in movable contact with the first protrusion, and the guide wall comprises a second locking wall contact part, a second unlocking contact part and a second transition guide part for receiving the second locking wall contact part and the second unlocking contact part.

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