CN214855490U

CN214855490U - Buffering bounce-back locking means

Info

Publication number: CN214855490U
Application number: CN202023207080.8U
Authority: CN
Inventors: 方碧云
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-26
Filing date: 2020-12-26
Publication date: 2021-11-26
Anticipated expiration: 2030-12-26

Abstract

The utility model provides a buffering bounce-back locking means, including fixed block and movable block, movable block and fixed block sliding connection, be equipped with the support body on the fixed block, still include the buffering slider, the bounce-back slider, the peg, first elastic component, the second elastic component, be equipped with first spout and second spout on the support body, the peg is equipped with first axis body and second axis body, be equipped with third axis body and fourth axis body on the peg, the end of second spout is equipped with the locking position and the first position of dodging, the top of second spout is equipped with the second and dodges the position, be equipped with ejector pad and buffering couple on the movable block. The utility model discloses a buffering bounce-back locking means presses down the movable block after fixed block and movable block buffering are closed, can realize the auto-eject of movable block, when using on the drawer, presses the drawer again after the drawer is closed, and the drawer will auto-eject, and the drawer need not set up the handle for the appearance of drawer is more pleasing to the eye, and this buffering bounce-back locking means simple structure, and used part is less, can simplify processing technology, more saves the cost, and the stable performance.

Description

Buffering bounce-back locking means

Technical Field

The utility model particularly relates to a buffering bounce-back locking means.

Background

To solve the problem that the appearance of the drawer is attractive due to the fact that a handle is generally arranged on the outer side of the traditional drawer and is pulled out through the handle, a device for realizing rebound self-locking buffering through pressing is disclosed in China patent document No. CN211961454U in 11 months and 20 days in 2020, and comprises a rebound self-locking main frame, a self-locking sliding block, a rebound resetting starting mechanism, a self-locking starting shifting fork, a rebound swinging hook, a self-locking hook, a rebound self-locking shifting rod, a self-locking spring, a rebound spring and an automatic extending oil cylinder. When the drawer is in a closed state, a user slightly presses the drawer panel by hand, the drawer can slightly move forwards by about 33.5mm at the moment, and the rebounding reset starting mechanism fixed in the rebounding self-locking starting mechanism touches the rebounding swinging hook, so that the rebounding swinging hook is separated from the limiting bayonet of the through groove, under the action of the rebound spring, the rebound slide block is forced to freely spring outwards, the rebound slide block pushes the self-locking slide block to spring out simultaneously, the self-locking hook in the self-locking slide block is hooked with the self-locking starting shifting fork in the rebound self-locking shifting rod to force the drawer to freely spring outwards simultaneously, when the auto-lock couple pops out extreme position in the "L" style of calligraphy guide way in the auto-lock body frame, the auto-lock couple breaks away from the auto-lock and starts the shift fork, auto-lock couple stop motion, and bounce-back auto-lock poker rod and drawer can continue outside free popping out under inertial action, realize the utility model discloses a bounce-back function, the drawer can freely be opened completely. According to the structure, when the drawer is closed, the drawer panel is lightly pressed by hands, so that the drawer can be automatically popped, a handle is not needed, the appearance of the drawer is more attractive, the structure of the device for realizing rebound self-locking buffering through pressing is complex, the number of related parts is large, the manufacturing cost is high, and the performance stability of the device is general.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, longe-lived, the operation is smooth and easy, low in manufacturing cost, stable performance, little, the strong buffering bounce-back locking means of practicality to overcome the weak point among the prior art.

According to a buffering bounce-back locking means of this purpose design, including fixed block and movable block, movable block and fixed block sliding connection, be equipped with support body, its characterized in that on the fixed block: the hanging pin is provided with a third shaft body and a fourth shaft body, the hanging pin is arranged on the first sliding groove in a sliding manner through the second shaft body, the hanging pin is arranged on the second sliding groove in a sliding manner through the fourth shaft body, the tail end of the second sliding groove is provided with a locking position and a first avoidance position, the starting end of the second sliding groove is provided with a second avoidance position, and the movable block is provided with a pushing block and a buffering hook; the front end of the buffer slide block is provided with a pushing part;

when the fixed block and the movable block are closed, the front end of a push block on the movable block acts on a third shaft body to enable the peg to slide on a second chute through a fourth shaft body and drive the rebound slider to slide on the frame body, the fourth shaft body slides into a locking position through a first avoiding position along the second chute to enable the third shaft body to avoid the push block, the push block passes over the peg to continue to advance, the bottom of a buffer hook on the movable block acts on the first shaft body to enable the peg to slide on the first chute through the second shaft body and drive the buffer slider to slide on the frame body, and the buffer slider is close to the rebound slider; when the fixed block and the movable block are opened, the movable block drives the buffer slide block to continue to advance, the pushing part acts on the third shaft body, so that the fourth shaft body slides back to the first avoidance position from the locking position to unlock the rebounding slide block, the buffering slide block and the rebounding slide block are mutually abutted, under the action of the elastic force of the second elastic piece, the buffer slide block and the rebound slide block retreat to ensure that the second shaft body returns to the initial end of the first chute and the fourth shaft body returns to the initial end of the second chute, the buffer slide block acts on the buffer hook through the hanging pin when retreating, so that the movable block retreats, after the movable block retreats for a certain distance, the rear end of the push block acts on the third shaft body, so that the fourth shaft body slides into the second avoidance position, the third shaft body avoids the push block, the push block continuously retreats after crossing the hanging nail, the movable block continuously retreats until being completely popped up, and the fourth shaft body slides back to the starting end of the second sliding chute from the second avoidance position after the push block crosses the hanging nail.

The first sliding groove comprises a curve area and a linear sliding area, the curve area is arranged at the initial end of the first sliding groove, a first arc area is arranged on the buffer sliding block, and the first shaft body slides on the first arc area when the second shaft body slides on the curve area.

The second spout includes the slide, and the second dodges the position and sets up in the top of slide, and first dodge position and locking position set up in the end of slide, and the slide is dodged between the position with the second, first dodge between position and the locking position be connected through the curve section, is equipped with the second arc district on the bounce-back slider, and the third axis body slides on the second arc district when the fourth axis body slides on the curve section.

The front end of promotion portion is equipped with first rake, and when fixed block and movable block opened, the movable block drove the buffering slider and continues to advance, and promotion portion acts on the third axis body through first rake to make the fourth axis body slide back first dodge the position from the locking position along first rake.

The bottom of buffering couple is equipped with the spout, is equipped with trigger end and promotion end on the spout, and when fixed block and movable block closed, the trigger end acted on first axis body to make the second axis body slide along the curve district, the second axis body slides on the spout along the gliding while first axis body in the curve district, and the promotion end acted on first axis body when the second axis body slided to the curve district end, so that the second axis body slides along linear sliding district.

The fourth shaft body slides into the second avoidance position, the third elastic part elastically acts on the hanging nail, and after the push block crosses the hanging nail, the fourth shaft body slides back to the initial end of the slideway from the second avoidance position.

Still include the attenuator, the attenuator setting is on bounce-back slider, including cylinder body and piston rod, and piston rod one end sets up in the cylinder body, the other end stretches out outside the cylinder body, and is connected with the buffering slider, and when buffering slider and bounce-back slider relative motion, the piston rod is telescopic motion in the cylinder body to realize the damping effect.

The bottom of buffering slider is equipped with the fifth axis body, is equipped with first shaft hole on the peg, and the fifth axis body rotates with first shaft hole to be connected, and the top of peg is equipped with the sixth axis body, is equipped with the second shaft hole on the bounce-back slider, and the sixth axis body rotates with the second shaft hole to be connected.

The frame body is provided with a first guide edge and a second guide edge, the buffer slide block slides along the first guide edge, and the rebound slide block slides along the second guide edge.

The first elastic piece is a tension spring, the second elastic piece is a pressure spring, and the third elastic piece is a torsion spring.

The utility model discloses a buffering bounce-back locking device presses the movable block after fixed block and movable block buffering are closed, the buffering slider can shovel the peg open, realize the unblock of bounce-back slider, at this moment under the spring action of pressure spring, bounce-back slider and buffering slider are come out by the bounce-back, realize the auto-eject of movable block, this buffering bounce-back locking device can be applied to the drawer, push-and-pull moves the door, the car, product such as closestool, when using on the drawer, the drawer is pressed again after the drawer is closed, buffering bounce-back self-locking device will pop out the drawer automatically, the drawer need not set up the handle, make the appearance of drawer more pleasing to the eye, this buffering bounce-back locking device when fixed block and movable block are closed, the peg firmly locks on the locking position of support body spout, guarantee that the bounce-back slider can not popped out by the spring, and lead to the movable block to be popped out, the stable performance, and this bounce-back buffering locking device is very little noise when rebounding, the user experience is improved, the buffering rebounding locking device only relates to the sliding block, the hanging pin, the hanging nail and the spring, the structure is simple, the number of parts is small, the processing technology is greatly simplified, and therefore the manufacturing cost can be greatly reduced.

Drawings

Fig. 1-4 are schematic diagrams illustrating a variation process of the buffer closing of the movable block and the fixed block according to an embodiment of the present invention.

Fig. 5-8 are schematic views illustrating a variation process of the buffer opening of the movable block and the fixed block according to an embodiment of the present invention.

Fig. 9 is a top view of a fixing block according to an embodiment of the present invention.

Fig. 10 is a top view of a movable block according to an embodiment of the present invention.

Fig. 11 is a top view of a frame body according to an embodiment of the present invention.

Fig. 12 is a schematic view of an overall structure of a frame body according to an embodiment of the present invention.

Fig. 13 is a top view of the rebounding slider according to an embodiment of the present invention.

Fig. 14 is a schematic view of an overall structure of the rebound slider according to an embodiment of the present invention.

Fig. 15 is a top view of the cushion slider according to an embodiment of the present invention.

Fig. 16 is a schematic view of an overall structure of the buffer slider according to an embodiment of the present invention.

Fig. 17 is a top view of the buffer hook according to an embodiment of the present invention.

Fig. 18 is a schematic view of an overall structure of the buffer hook according to an embodiment of the present invention.

Fig. 19 is a top view of the pushing block according to an embodiment of the present invention.

Fig. 20 is a schematic view of an overall structure of the push block according to an embodiment of the present invention.

Fig. 21 is a top view of a peg according to an embodiment of the present invention.

Fig. 22 is a side view of a peg in an embodiment of the invention.

Fig. 23 is a side view of a hanger pin according to an embodiment of the present invention.

Fig. 24 is a top view of a peg according to an embodiment of the present invention.

Fig. 25 is a side view of a torsion spring according to an embodiment of the present invention.

Fig. 26 is a schematic view of an overall structure of the torsion spring according to an embodiment of the present invention.

Fig. 27 is a side view of a damper according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1-27, the buffering rebounding locking device applied to a drawer includes a fixed slide rail 1 and a movable slide rail 2, the fixed slide rail 1 is fixed on a side plate of the drawer, the movable slide rail 2 is connected with the fixed slide rail 1 in a sliding manner, a frame body 3 is arranged on the fixed slide rail 1, the buffering slide block 4, a rebounding slide block 5, a hanging pin 6, a hanging nail 7, a first elastic member 8, a second elastic member 9, the buffering slide block 4 and the rebounding slide block 5 are arranged on the frame body 3 in a sliding manner, the hanging pin 6 is connected with the buffering slide block 4 in a rotating manner, the hanging nail 7 is connected with the rebounding slide block 5 in a rotating manner, the buffering slide block 4 is connected with the rebounding slide block 5 through the first elastic member 8, the rebounding slide block 5 is connected with the frame body 3 through the second elastic member 9, the frame body 3 is provided with a first sliding chute 3.1 and a second sliding chute 3.2, the hanging pin 6 is provided with a first shaft body 6.1 and a second shaft body 6.2, the hanging nail 7 is provided with a third shaft body 7.1 and a fourth shaft body 7.2, the hanging pin 6 slides through the second shaft body 6.2 and sets up on first spout 3.1, and peg 7 slides through the fourth shaft body 7.2 and sets up on second spout 3.2, and the end of second spout 3.2 is equipped with locking position 3.2.1 and the first position 3.2.2 of dodging, and the top of second spout 3.2 is equipped with the second and dodges position 3.2.3, is equipped with ejector pad 10 and buffering couple 11 on the movable slide rail 2, and the front end of buffering slider 4 is equipped with promotion portion 4.3.

The first sliding chute 3.1 comprises a curve area 3.1.1 and a linear sliding area 3.1.2, the curve area 3.1.1 is arranged at the initial end of the first sliding chute 3.1, the buffer sliding block 4 is provided with a first arc area 4.1, and the first shaft body 6.1 slides on the first arc area 4.1 when the second shaft body 6.2 slides on the curve area 3.1.1.

The second spout 3.2 includes slide 3.2.4, the second dodges position 3.2.3 and sets up in the top of slide 3.2.4, first dodge position 3.2.2 and locking position 3.2.1 and set up in the end of slide 3.2.4, slide 3.2.4 and second dodge between the position 3.2.3, first dodge between position 3.2.2 and the locking position 3.2.1 and be connected through the curve section, be equipped with second arc district 5.1 on the bounce-back slider 5, third axis body 7.1 slides on second arc district 5.1 when fourth axis body 7.2 slides on the curve section. The slide 3.2.4 and locking position 3.2.1 wholly are "L" type setting, and fourth axis body 7.2 can tightly block on locking position 3.2.1 after slipping into locking position 3.2.1, realizes the locking of bounce-back slider 5 for bounce-back slider 5 can not be popped out by second elastic component 9.

The front end of promotion portion 4.3 is equipped with first rake 4.4, and when the drawer was opened, it moved slide rail 2 and drove buffering slider 4 and continue to advance, and promotion portion 4.3 is acted on third axis body 7.1 through first rake 4.4 to make fourth axis body 7.2 slide back first dodge position 3.2.2 along first rake 4.4 from locking position 3.2.1, realize the unblock of peg 7, thereby unblock bounce-back slider 5.

The bottom of the buffer hook 11 is provided with a sliding groove 11.1, the sliding groove 11.1 is provided with a trigger end 11.2 and a pushing end 11.3, when the drawer is closed, the trigger end 11.2 acts on the first shaft body 6.1 to enable the second shaft body 6.2 to slide along the curve area 3.1.1, the first shaft body 6.1 slides on the sliding groove 11.1 while the second shaft body 6.2 slides along the curve area 3.1.1, and the pushing end 11.3 acts on the first shaft body 6.1 to enable the second shaft body 6.2 to slide along the linear sliding area 3.1.2 when the second shaft body 6.2 slides to the tail end of the curve area 3.1.1.

The front end of the push block 10 is provided with a second inclined part 10.1, and the rear end is provided with a third inclined part 10.2; when the drawer is closed, the second inclined part 10.1 acts on the third shaft body 7.1, so that the peg 7 slides on the slideway 3.2.4 through the fourth shaft body 7.2, and when the fourth shaft body 7.2 slides to the first avoidance position 3.2.2, the fourth shaft body 7.2 slides into the locking position 3.2.1 along the first inclined part 10.1; when the drawer is opened, the fourth shaft body 7.2 slides to the starting end of the slide rail 3.2.4, and then the fourth shaft body 7.2 slides into the second avoidance position 3.2.3 along the second inclined part 10.2.

The elastic slide rail further comprises a third elastic part 12, one end of the third elastic part 12 is elastically connected with the hanging nail 7, the other end of the third elastic part is elastically connected with the rebounding slide block 5, when the fourth shaft body 7.2 slides into the second avoidance position 3.2.3, the third elastic part 12 elastically acts on the hanging nail 7, and after the push block 10 crosses the hanging nail 7, the fourth shaft body 7.2 slides back to the initial end of the slide rail 3.2.4 from the second avoidance position 3.2.3.

The damping device further comprises a damper 13, the damper 13 is arranged on the rebound slider 5 and comprises a cylinder body 13.1 and a piston rod 13.2, one end of the piston rod 13.2 is arranged in the cylinder body 13.1, the other end of the piston rod extends out of the cylinder body 13.1 and is connected with the rebound slider 4, when the rebound slider 4 and the rebound slider 5 move relatively, the piston rod 13.2 does telescopic motion in the cylinder body 13.1 to realize damping effect, the rebound slider 5 can be prevented from being collided with the rebound slider 4 vigorously when the rebound slider 4 contacts the rebound slider 5, the slider is damaged, the damper 13 is fixed on the rebound slider 5 instead of the fixed slide rail 1, when the rebound slider 5 and the rebound slider 4 are popped out, the damper 13 and the rebound slider 4 run synchronously, loss caused by pulling out of damping when the rebound slider is avoided, the movable slide rail 2 is popped out farther, and the internal structure of the damper 13 is also simplified.

The bottom of the buffer sliding block 4 is provided with a fifth shaft body 4.2, the hanging pin 6 is provided with a first shaft hole 6.3, the fifth shaft body 4.2 is rotatably connected with the first shaft hole 6.3, the top of the hanging nail 7 is provided with a sixth shaft body 7.3, the rebounding sliding block 5 is provided with a second shaft hole 5.2, and the sixth shaft body 7.3 is rotatably connected with the second shaft hole 5.2.

The frame body 3 is provided with a first guide edge 3.3 and a second guide edge 3.4, the buffer slide block 4 slides along the first guide edge 3.3, and the rebound slide block 5 slides along the second guide edge 3.4.

The first elastic member 8 is a tension spring, the second elastic member 9 is a compression spring, and the third elastic member 12 is a torsion spring. When the rebounding slide block 5 moves forward, the rebounding slide block 5 can pull the buffering slide block 4 to move forward through the tension spring, so that the manual slide rail 2 can continue to move forward for a certain distance even if a hand is loosened when the drawer is closed, and therefore, when the fourth shaft body 7.2 is clamped on the locking position 3.2.1, the drawer can be closed to the bottom even if the hand is loosened at the moment.

When the drawer is closed, the movable slide rail 2 drives the push block 10 to advance, the second inclined part 10.1 acts on the third shaft body 7.1, so that the hanging nail 7 slides on the slide way 3.2.4 through the fourth shaft body 7.2, and drives the rebound slider 5 to slide on the frame body 3, when the fourth shaft body 7.2 slides to the first avoidance position 3.2.2 along the slide way 3.2.4, the rebound slider 5 cannot move along the second inclined part 10.1, so that the third shaft body 7.1 avoids the push block 10, the push block 10 continues to advance over the hanging nail 7, when the triggering end 11.2 at the bottom of the buffer hook 11 acts on the first shaft body 6.1, so that the hanging pin 6 slides on the curve area 3.1.1 through the second shaft body 6.2, and drives the buffer slider 4 to slide on the frame body 3, when the second shaft body 6.2 slides to the tail end of the curve area 3.1.1, when the second shaft body 6.2 slides on the curve area 3.1, the second shaft body 6.1, so that the second shaft body 6.2 slides on the line through the slide area 3.1, so that the hanging pin 6.1, and the second shaft 6.2, so that the damping slider 4 is close to the rebounding slider 5, at which point the drawer is completely closed.

When the drawer is opened, the drawer is pressed by hand, the movable sliding rail 2 drives the buffer sliding block 4 to continue to advance, after the buffer sliding block 4 advances by 4mm, the pushing part 4.3 acts on the third shaft body 7.1 through the first inclined part 4.4, so that the fourth shaft body 7.2 slides back to the first avoidance position 3.2.2 along the first inclined part 4.4 from the locking position 3.2.1 to unlock the rebounding sliding block 5, the buffer sliding block 4 and the rebounding sliding block 5 abut against each other, under the elastic force of the pressure spring, the buffer sliding block 4 and the rebounding sliding block 5 retreat, so that the second shaft body 6.2 returns to the initial end of the first sliding chute 3.1 and the curve area 3.1.1 along the line, the fourth shaft body 7.2 returns to the initial end of the second sliding chute 3.2 along the slide way 3.2.4, when the buffer sliding block 4 retreats, the first shaft body 6.1 of the hanging pin 6 acts on the pushing end 11.3 of the buffer hook 11 to retreat, so that the movable sliding rail 2 retreats, the movable sliding rail 2 moves back, and the third shaft body 10.1 acts on the third shaft body 7.2, so that the fourth shaft body 7.2 slides into the second avoidance position 3.2.3 along the third inclined part 10.2, and the third shaft body 7.1 avoids the push block 10, the push block 10 goes over the peg 7 (at this time, under the action of the torsion spring, the peg 7 rotates to return to the original position, so that the fourth shaft body 7.2 slides back to the second chute 3.2 from the second avoidance position 3.2.3), the movable slide rail 2 continues to retreat (at this time, the drawer is popped out for a certain distance), and at this time, the drawer can be completely pulled out by pulling the drawer with a hand.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a buffering bounce-back locking means, includes fixed block (1) and movable block (2), movable block (2) and fixed block (1) sliding connection, be equipped with support body (3) on fixed block (1), its characterized in that: the anti-bouncing support is characterized by further comprising a buffer slide block (4), a bouncing slide block (5), a hanging pin (6), a hanging nail (7), a first elastic piece (8), a second elastic piece (9), the buffer slide block (4) and the bouncing slide block (5) are arranged on the support body (3) in a sliding mode, the hanging pin (6) is connected with the buffer slide block (4) in a rotating mode, the hanging nail (7) is connected with the bouncing slide block (5) in a rotating mode, the buffer slide block (4) and the bouncing slide block (5) are connected through the first elastic piece (8), the bouncing slide block (5) and the support body (3) are connected through the second elastic piece (9), a first sliding groove (3.1) and a second sliding groove (3.2) are arranged on the support body (3), the hanging pin (6) is provided with a first shaft body (6.1) and a second shaft body (6.2), a third shaft body (7.1) and a fourth shaft body (7.2) are arranged on the hanging nail (7), the hanging pin (6) is arranged on the first sliding groove (3.1) through the second shaft body (6.2), the hanging nail (7) is arranged on the second sliding groove (3.2) in a sliding mode through the fourth shaft body (7.2), the tail end of the second sliding groove (3.2) is provided with a locking position (3.2.1) and a first avoidance position (3.2.2), the starting end of the second sliding groove (3.2) is provided with a second avoidance position (3.2.3), the movable block (2) is provided with a push block (10) and a buffer hook (11), and the front end of the buffer sliding block (4) is provided with a pushing part (4.3);

when the fixed block (1) and the movable block (2) are closed, the front end of a push block (10) on the movable block (2) acts on the third shaft body (7.1), so that the peg (7) slides on the second sliding groove (3.2) through the fourth shaft body (7.2), and drives the rebound slide block (5) to slide on the frame body (3), the fourth shaft body (7.2) slides into the locking position (3.2.1) along the second chute (3.2) through the first avoiding position (3.2.2), so that the third shaft body (7.1) avoids the push block (10), the push block (10) goes over the hanging nail (7) to continue to advance, the bottom of the buffer hook (11) on the movable block (2) acts on the first shaft body (6.1), so that the hanging pin (6) slides on the first sliding chute (3.1) through the second shaft body (6.2), and drives the buffer slide block (4) to slide on the frame body (3) so as to enable the buffer slide block (4) to be close to the rebound slide block (5); when the fixed block (1) and the movable block (2) are opened, the movable block (2) drives the buffer slide block (4) to continue to advance, the pushing part (4.3) acts on the third shaft body (7.1) to enable the fourth shaft body (7.2) to slide back to the first avoidance position (3.2.2) from the locking position (3.2.1) to unlock the rebounding slide block (5), the buffer slide block (4) and the rebounding slide block (5) are abutted against each other, under the action of the elastic force of the second elastic element (9), the buffer slide block (4) and the rebounding slide block (5) retreat to enable the second shaft body (6.2) to return to the initial end of the first chute (3.1) and the fourth shaft body (7.2) to the initial end of the second chute (3.2), when the buffer slide block (4) retreats, the buffer slide block (4) acts on the buffer hook (11) through the hanging pin (6) to enable the movable block (2) to retreat, after the movable block (2) retreats for a distance, the rear end of the pushing block (10) acts on the third shaft body (7.1), so that the fourth shaft body (7.2) slides into the second avoidance position (3.2.3), the third shaft body (7.1) avoids the pushing block (10), the pushing block (10) passes over the hanging nail (7) to continuously retreat, the movable block (2) continuously retreats to be completely ejected, and after the pushing block (10) passes over the hanging nail (7), the fourth shaft body (7.2) slides back to the starting end of the second sliding chute (3.2) from the second avoidance position (3.2.3).

2. The cushion-bounce locking apparatus of claim 1, wherein: first spout (3.1) include curve district (3.1.1) and linear gliding district (3.1.2), and curve district (3.1.1) sets up the top in first spout (3.1), is equipped with first arc district (4.1) on buffering slider (4), and first axis body (6.1) slides on first arc district (4.1) when second axis body (6.2) slide on curve district (3.1.1).

3. The cushion-bounce locking apparatus of claim 2, wherein: second spout (3.2) include slide (3.2.4), the second is dodged position (3.2.3) and is set up in the top of slide (3.2.4), first dodge position (3.2.2) and locking position (3.2.1) set up in the end of slide (3.2.4), slide (3.2.4) and second are dodged between position (3.2.3), first dodge position (3.2.2) and locking position (3.2.1) between be connected through the curve section, be equipped with second arc district (5.1) on bounce-back slider (5), third axis body (7.1) slides on second arc district (5.1) when fourth axis body (7.2) slide on the curve section.

4. The cushion-bounce locking apparatus of claim 3, wherein: the front end of promotion portion (4.3) is equipped with first rake (4.4), and when fixed block (1) and movable block (2) were opened, movable block (2) drove buffering slider (4) and continue to advance, and promotion portion (4.3) are used on third axis body (7.1) through first rake (4.4) to make fourth axis body (7.2) along first rake (4.4) from locking position (3.2.1) the slip back first position of dodging (3.2.2).

5. The cushion-bounce locking apparatus of claim 4, wherein: the bottom of buffering couple (11) is equipped with spout (11.1), be equipped with trigger end (11.2) and promotion end (11.3) on spout (11.1), when fixed block (1) and movable block (2) are closed, trigger end (11.2) are used in on first axis body (6.1), so that second axis body (6.2) slide along curve district (3.1.1), first axis body (6.1) slides on spout (11.1) when second axis body (6.2) slide along curve district (3.1.1) slip, promote end (11.3) and act on first axis body (6.1) when second axis body (6.2) slide to curve district (3.1.1) terminal, so that second axis body (6.2) nature slide district (3.1.2) slide along the line.

6. The cushion-bounce locking apparatus of claim 5, wherein: the elastic anti-skid device is characterized by further comprising a third elastic piece (12), one end of the third elastic piece (12) is elastically connected with the hanging nail (7), the other end of the third elastic piece is elastically connected with the rebounding sliding block (5), when the fourth shaft body (7.2) slides into the second avoidance position (3.2.3), the third elastic piece (12) elastically acts on the hanging nail (7), and after the pushing block (10) crosses the hanging nail (7), the fourth shaft body (7.2) slides back to the initial end of the sliding way (3.2.4) from the second avoidance position (3.2.3).

7. The cushion-rebound locking mechanism of claim 6, further comprising: still include attenuator (13), attenuator (13) set up on bounce-back slider (5), including cylinder body (13.1) and piston rod (13.2), piston rod (13.2) one end sets up in cylinder body (13.1), the other end stretches out outside cylinder body (13.1), and is connected with buffering slider (4), when buffering slider (4) and bounce-back slider (5) relative motion, piston rod (13.2) are the concertina movement in cylinder body (13.1) to realize the damping action.

8. The cushion-rebound locking mechanism of claim 7, further comprising: the bottom of buffering slider (4) is equipped with fifth axis body (4.2), is equipped with first shaft hole (6.3) on peg (6), and fifth axis body (4.2) rotate with first shaft hole (6.3) to be connected, and the top of peg (7) is equipped with sixth axis body (7.3), is equipped with second shaft hole (5.2) on bounce-back slider (5), and sixth axis body (7.3) rotate with second shaft hole (5.2) to be connected.

9. The cushion-rebound locking mechanism of claim 8, further comprising: the frame body (3) is provided with a first guide edge (3.3) and a second guide edge (3.4), the buffering slide block (4) slides along the first guide edge (3.3), and the rebounding slide block (5) slides along the second guide edge (3.4).

10. The cushion-bounce locking apparatus of any one of claims 6 to 9, wherein: the first elastic piece (8) is a tension spring, the second elastic piece (9) is a compression spring, and the third elastic piece (12) is a torsion spring.