CN216822381U - Double-function buffering rebound synchronizer for drawer slide rail - Google Patents

Abstract

The utility model provides a difunctional buffering bounce-back synchronizer that drawer slide rail used, including left bounce-back part, right bounce-back part, left bounce-back part and right bounce-back part all are equipped with and dial piece, bounce-back sliding subassembly, synchronous drive part includes synchronous drive pole, synchronous connecting rod, synchronous linkage subassembly, bounce-back sliding subassembly is equipped with the elasticity restriction piece, plays left bounce-back part and right bounce-back part and is equipped with the restriction guide route; the rebounding sliding assembly respectively pushes the sliding part of the synchronous linkage assembly to move forwards, the front end parts of the left rebounding component and the right rebounding component are provided with transmission guide paths, the synchronous transmission rod pushes the sliding part of the synchronous linkage assembly to move backwards while directionally rebounding and sliding on the transmission guide paths, the structure is compact, synchronous locking and unlocking are achieved, pushing and pressing rebounding actions are enhanced to be stably connected, the problems of blocking and the like are effectively avoided, the opening and closing double-buffering effect is achieved, and the product quality is guaranteed.

Description

Double-function buffering rebound synchronizer for drawer slide rail

Technical Field

The utility model relates to a technical field of drawer slide rail, a difunctional buffering bounce-back synchronizer that drawer slide rail was used specifically says so.

Background

The functional accessory who is often used for the slide rail has damping device and presses the bounce-back device, utilizes damping device to make the slide rail energy storage when opening, closes automatic buffering after certain degree at the slide rail and draws back the slide rail and close, and presses the bounce-back device and make the slide rail energy storage when closing to leave and be used for pressing the space of unblock, through pressing the drawer, make pull furniture unblocks such as drawers bounce-back, realize that the automatic bullet of pull furniture is opened, and it is very convenient to use, and improves the safety in utilization.

According to the working principle of the damping device and the rebounding device, the existing slide rail simultaneously realizes the damping closing and pressing rebounding functions, and the damping device and the rebounding device are required to be structurally matched.

However, the existing press rebound device and the damping device have the following defects when being matched:

1) press bounce-back device structure complicacy, structural cooperation poor stability when leading to bounce-back device and damping device cooperation appears the card fast scheduling problem easily.

2) The rebounding device is easy to cause over-high speed under the rebounding effect, and potential safety hazards exist.

3) The pressing rebounding devices of the two groups of slide rails do not move synchronously, so that the slide rails cannot be locked or unlocked synchronously, the slide rails are not stressed evenly and are blocked obliquely, the stability is poor, and the fault rate of the slide rails is increased.

4) Because the actions of the pressing rebounding devices of the slide rails on the two sides are asynchronous, the pressing rebounding devices are easy to cause unstable connection of pushing and pressing rebounding actions, mutual interference exists between components, and the phenomenon of blocking of the pressing rebounding devices can also occur.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a difunctional buffering bounce-back synchronizer that drawer slide rail was used, its compact structure locks in step and unblock, strengthens to impel and presses the resilience action and link up stably, avoids appearing the card dead scheduling problem effectively, has simultaneously and opens and close two buffering effects, reduces the potential safety hazard, guarantees the service quality of product.

The invention aims to realize the following steps: a dual-function buffering rebounding synchronizer for a drawer slide rail comprises a left rebounding component and a right rebounding component which are arranged between the slide rail and a drawer, wherein the left rebounding component and the right rebounding component are respectively provided with a stirring sheet, a rebounding sliding assembly and a synchronous transmission component, the synchronous transmission component comprises a synchronous transmission rod, a synchronous connecting rod and a synchronous linkage assembly,

the left rebounding component and the right rebounding component are provided with limiting guide paths for the elastic limiting part to directionally slide, lock at a fixed point and slide;

the utility model discloses a synchronous linkage assembly, including synchronous connecting rod, bounce-back subassembly, synchronous linkage subassembly, synchronous drive pole, synchronous connecting rod's both ends head is installed respectively on the swing portion of synchronous linkage subassembly, and synchronous linkage subassembly's sliding part sliding connection is on left bounce-back part, right bounce-back part, bounce-back subassembly promotes synchronous linkage subassembly's sliding part forward movement respectively when left bounce-back part, right bounce-back part forward movement, the preceding tip of left side bounce-back part and right bounce-back part is equipped with transmission guide path, and synchronous drive pole installs on bounce-back subassembly's elasticity end and directional rebound slip on transmission guide path under bounce-down effect of bounce-back sliding subassembly to promote synchronous linkage subassembly's sliding part backward movement.

Optimize according to the aforesaid, be equipped with the buffer of closing that has the buffering function of closing on the slide rail, close the cylinder body of buffer and install on the fixed rail of slide rail, close the catch bar of buffer and the movable rail lock joint of slide rail, bounce-back slip subassembly is equipped with the bounce-back deceleration block that has the bounce-back deceleration function, and bounce-back deceleration block sliding connection is on left bounce-back part and right bounce-back part.

The left bouncing component and the right bouncing component both comprise a bouncing fixing plate and a bouncing base plate, the bouncing fixing plate is mounted on a fixing rail of the sliding rail, the bouncing base plate is connected to the bouncing fixing plate in a sliding manner, the toggling piece and the bouncing sliding assembly are respectively connected to the bouncing base plate in a sliding manner, and the bouncing base plate is provided with a limiting guide path and a transmission guide path.

According to the optimization, the rebounding base plate is provided with a first guide rail for the poking sheet to slide and a second guide rail for the rebounding sliding assembly to slide, the limiting guide path is arranged between the first guide rail and the second guide rail, and the transmission guide path is arranged above the second guide rail.

According to the optimization, the limiting and guiding path is provided with an elastic sheet, the elastic sheet divides the limiting and guiding path into an oriented guide groove for the elastic limiting piece to close along with the sliding rail so as to directionally slide, an inclined sliding groove for the elastic limiting piece to directionally compress so as to freely slide, a fixed point clamping groove for the elastic limiting piece to stay at a fixed point so as to lock the rebounding sliding assembly, and an inclined guide groove for the elastic limiting piece to rebound and unlock so as to directionally rebound and slide,

the elastic limiting piece is provided with limiting pins which sequentially slide in the directional guide groove, the inclined sliding groove, the fixed-point clamping groove and the inclined guide groove along with the opening and closing of the sliding rail.

According to the optimization, the poking piece is provided with an initial upper connecting level for being connected with the elastic limiting piece in an initial opening state and a rebounding lower connecting level for being connected with the rebounding sliding assembly in the rebounding opening process, and the initial upper connecting level and the rebounding lower connecting level are sequentially distributed on the inner side of the poking piece from inside to outside.

Optimize according to the aforesaid, bounce-back slip subassembly includes bounce-back sliding block, spring part, bounce-back sliding block sliding connection is at the second guided way, spring part one end lock joint is on the bounce-back fixed plate, and the spring part other end lock joint is on the bounce-back sliding block, elasticity restriction spare elasticity is flexible on the bounce-back sliding block, the bounce-back sliding block is equipped with along with the promotion connecting rod that the synchronous linkage subassembly of slide rail closure promotion moved forward and used.

According to the optimization, the synchronous linkage assembly comprises a synchronous sliding block, a linkage swing rod and a synchronous connecting sleeve, the synchronous sliding block slides on the rebounding base plate of the left rebounding component, the lower swinging end of the linkage swing rod is connected to the synchronous sliding block in a clamping mode, the upper swinging end of the linkage swing rod is installed on the synchronous connecting sleeve, and the synchronous connecting sleeves are respectively sleeved at the left end and the right end of the synchronous connecting rod.

According to the optimization, the transmission guide path comprises a transmission orientation groove for the forward oriented sliding of the synchronous transmission rod, a transmission positioning groove for the rebounding sliding of the synchronous transmission rod and the connection of the positioning point and the synchronous slide block, and a transmission inclined groove for the dislocation separation of the synchronous transmission rod and the synchronous slide block, wherein the transmission orientation groove, the transmission positioning groove and the transmission inclined groove are sequentially communicated,

the synchronous transmission rod is provided with a transmission positioning pin which is connected with the transmission orientation groove, the transmission positioning groove and the transmission inclined groove in a sliding manner.

Optimize according to the aforesaid, the bounce-back fixed plate is equipped with the position control spare that adjustment bounce-back base plate mounted position used, and position control spare is including adjusting the swiveling wheel and adjusting the projection, adjust the projection and locate on the bounce-back fixed plate, adjust swiveling wheel swivelling joint on the bounce-back base plate, and adjust the swiveling wheel be equipped with adjust projection phase and sliding connection's regulation helicla flute.

The utility model has the advantages that:

1) the limiting guide path is matched with the structures of the poking piece and the rebounding sliding assembly, so that in the closing process of the drawer, the poking piece drives the rebounding sliding assembly to slide, when the rebounding sliding assembly is moved to the designated position, the poking piece and the elastic limiting piece are dislocated and moved away, the poking piece is closed under the matching of the closing buffer, the phenomenon that the closing buffer and the pressing rebounding device are stuck in the matching process is avoided, the structure is compact, the structural stability is improved, and the use quality of the pressing rebounding device is guaranteed.

2) Under the action of the closing buffer and the rebounding speed reducing block, the rebounding synchronizer has the opening and closing double-buffering effect in the closing and rebounding unlocking operation, and the use safety is improved.

3) By adopting the structure, the synchronous transmission rod, the synchronous connecting rod and the synchronous linkage assembly are matched, so that the left rebounding component and the right rebounding component can be synchronously locked and synchronously unlocked, the sliding rail is prevented from being obliquely locked due to unbalanced stress, the operation stability is improved, and the fault rate of the sliding rail is reduced.

4) The structure cooperation of the transmission guide path and the synchronous transmission rod can ensure smooth connection of the locking or pressing rebound actions, reduce unnecessary action interference among components, operate stably and reliably and ensure the use quality of products.

Drawings

Fig. 1 is an assembly diagram of the preferred embodiment of the present invention.

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

Fig. 3 is a schematic structural view of the preferred embodiment of the present invention in an open initial state.

Fig. 4 is a schematic structural diagram of the push state of the preferred embodiment of the present invention.

Fig. 5 is a sectional view showing the pushed state of the preferred embodiment of the present invention.

Fig. 6 is a schematic structural diagram of the dislocation state according to the preferred embodiment of the present invention.

Fig. 7 is a cross-sectional view of the preferred embodiment of the present invention in a misaligned state.

Fig. 8 is a partially enlarged view of fig. 6 according to the preferred embodiment of the present invention.

Fig. 9 is a schematic structural diagram of the closed state of the preferred embodiment of the present invention.

Fig. 10 is a cross-sectional view of the closed position of the preferred embodiment of the invention.

Fig. 11 is a schematic structural diagram of a pressing operation state according to a preferred embodiment of the present invention.

Fig. 12 is a sectional view showing a pressing operation state according to a preferred embodiment of the present invention.

Fig. 13 is an exploded view of the timing drive assembly according to the preferred embodiment of the present invention.

Detailed Description

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

According to fig. 1 to fig. 13, the utility model discloses a difunctional buffering bounce-back synchronizer that drawer slide rail was used, including installing left bounce-back part 1, the right bounce-back part 2 between slide rail and drawer, left bounce-back part 1 and right bounce-back part 2 all are equipped with stir piece 3, bounce-back sliding assembly 4, synchronous drive part.

The poking sheet 3 is movably connected to the left rebounding component 1 and the right rebounding component 2 and is buckled with or separated from the movable rail of the sliding rail along with the opening and closing of the drawer. The rebounding sliding assembly 4 is provided with an elastic limiting piece 8 for limiting the shifting piece 3 to move and separate from the dislocation, and the elastic limiting piece 8 elastically stretches on the rebounding sliding assembly 4 and is connected with or separated from the shifting piece 3. The left and right resilient members 1 and 2 are provided with a restricting guide path 9 for the elastic restricting member 8 to slide in a fixed direction, lock at a fixed point, and slide in a resilient manner.

By utilizing the structural matching of the limiting guide path 9, the poking sheet 3 and the rebounding sliding component 4, the drawer can be closed, the poking sheet 3 drives the rebounding sliding component 4 to slide, when the drawer is moved to a specified position, the poking sheet 3 and the elastic limiting component 8 are dislocated and moved away, the phenomenon that the left rebounding component 1, the right rebounding component 2 and other components are stuck in the matching process during the opening and closing of the sliding rail is avoided, the structure is compact, the structural stability is improved, and the use quality of the pressing rebounding device is ensured.

And the synchronous transmission part comprises a synchronous transmission rod 5, a synchronous connecting rod 6 and a synchronous linkage assembly 7. Two ends of the synchronous connecting rod 6 are respectively installed on the swinging part of the synchronous linkage assembly 7, the sliding part of the synchronous linkage assembly 7 is connected to the left rebounding component 1 and the right rebounding component 2 in a sliding mode, and the rebounding sliding assembly 4 respectively pushes the sliding part of the synchronous linkage assembly 7 to move forwards while the left rebounding component 1 and the right rebounding component 2 move forwards. The front end parts of the left rebound component 1 and the right rebound component 2 are provided with transmission guide paths 10, and the synchronous transmission rod 5 is installed on the elastic end head of the rebound sliding assembly 4 and directionally rebounds and slides on the transmission guide paths 10 under the pressing rebound effect of the rebound sliding assembly 4 so as to push the sliding part of the synchronous linkage assembly 7 to move backwards.

Through the structural cooperation of the synchronous transmission component and the transmission guide path 10, the left rebound component 1 and the right rebound component 2 can be synchronously locked and unlocked, the sliding rail is prevented from being obliquely locked due to unbalanced stress, meanwhile, the locking or pressing rebound action is smoothly connected, unnecessary action interference generated between the components is reduced, the operation is stable and reliable, and the use quality of a product is ensured.

Referring to fig. 1 and 13, in further detail, each of the left and right rebounding elements 1 and 2 includes a rebounding fixing plate 13 and a rebounding base plate 14, the rebounding fixing plate 13 is mounted on a fixing rail of a slide rail, the rebounding base plate 14 is slidably connected to the rebounding fixing plate 13, the toggling piece 3 and the rebounding sliding assembly 4 are respectively slidably connected to the rebounding base plate 14, and the rebounding base plate 14 is provided with a limiting guide path 9 and a transmission guide path 10.

In practical applications, the rebounding base plate 14 is provided with a first guide rail 141 for the sliding of the toggle piece 3 and a second guide rail 142 for the sliding of the rebounding sliding assembly 4, the limit guide path 9 is provided between the first guide rail 141 and the second guide rail 142, and the transmission guide path 10 is provided above the second guide rail 142.

Further, the restricting guide path 9 is provided with an elastic piece 15. The elastic sheet 15 divides the restriction guide path 9 into an orientation guide groove 91 for the elastic restriction member 8 to slide in an orientation direction when the slide rail is closed, an inclined slide groove 92 for the elastic restriction member 8 to compress in an orientation direction and for the movement of the dial 3 freely, a fixed point engaging groove 93 for the elastic restriction member 8 to stay at a fixed point to lock the rebounding slide assembly 4, and an inclined guide groove 94 for the elastic restriction member 8 to rebound and unlock in an orientation direction and slide. The elastic limiting piece 8 is provided with a limiting pin 16 which slides on the directional guide groove 91, the inclined sliding groove 92, the fixed point clamping groove 93 and the inclined guide groove 94 in sequence along with the opening and closing of the sliding rail.

The dial piece 3 is provided with an initial upper connecting level 31 for connecting with the elastic limiting piece 8 in an initial opening state and a rebound lower connecting level 32 for connecting with the rebound sliding assembly 4 in a rebound opening process, and the initial upper connecting level 31 and the rebound lower connecting level 32 are sequentially distributed on the inner side of the dial piece 3 from inside to outside.

And, bounce-back sliding subassembly 4 includes bounce-back sliding block 41, spring part 42, bounce-back sliding block 41 sliding connection is at second guided way 142, spring part 42 one end lock joint is on bounce-back fixed plate 13, and the other end lock joint of spring part 42 is on bounce-back sliding block 41, elasticity limiter 8 elasticity is flexible on bounce-back sliding block 41, bounce-back sliding block 41 is equipped with along with the closed promotion connecting rod 43 that promotes synchronous linkage subassembly 7 forward movement and use of slide rail.

In addition, be equipped with on the slide rail and close buffer 11 that has the buffering function of closing, close the cylinder body of buffer 11 and install on the fixed rail of slide rail, close catch bar and the movable rail lock joint of slide rail of buffer 11. The rebound sliding assembly 4 is provided with a rebound deceleration block 12 having a rebound deceleration function, and the rebound deceleration block 12 is slidably connected to the left rebound member 1 and the right rebound member 2.

The working principle of the buffering rebounding device with the structure is as follows:

when the drawer is closed, the pulling plate 3 is buckled with the movable rail of the slide rail and slides on the first guide rail 141 along with the closing of the movable rail. During the period, the elastic limiting part 8 is connected with the initial upper connecting level 31 of the dial piece 3 under the elastic action thereof, and enters an initial limiting state, so that the limiting block slides towards the closing direction of the slide rail along with the pushing of the dial piece 3, thereby driving the limiting pin 16 to slide in the directional guide groove 91, and the rebound sliding component 4 slides on the second guide rail 142.

When the restricting pin 16 slides to the top of the inclined slide groove 92, the elastic restricting member 8 is compressed toward the inside of the rebound slide block 41, so that the elastic restricting member 8 gradually moves away from the initial upper connecting level 31. When the limiting pin 16 goes over the inclined sliding slot 92, under the elastic action of the elastic sheet 15, the limiting pin 16 is clamped on the fixed point clamping slot 93, and the elastic limiting piece 8 and the dial piece 3 form a dislocation state, so that the dial piece 3 is in a free sliding state on the first guide rail 141. Because the shifting piece 3 and the movable rail are buckled, the closing buffer 11 is installed on the sliding rail of the structure, and the shifting piece 3 slowly moves inwards on the first guide rail under the damping action of the closing buffer 11. Meanwhile, under the elastic restoring action of the spring element 42, the rebounding sliding assembly 4 enters a rebounding initial state, and the rebounding sliding assembly 4 is connected with the rebounding lower connecting level 32 of the dial piece 3 and enters a limiting state again.

When the drawer is pressed, under the elastic action of the spring element 42, the limiting pin 16 overcomes the elastic force of the elastic sheet 15, so as to be separated from the fixed point clamping groove 93 and pass through the inclined guide groove 94 to enter the oriented guide groove 91, so that the elastic limiting element 8 pushes the shifting piece 3 to move outwards along the first guide rail 141, and the drawer is unlocked and opened. Thereupon, the drawer can be pulled to open outwards, and the paddle 3 rotates and separates from the movable rail when the first guide rail 141 is moved to the end. Meanwhile, the rebound lower connection level 32 of the dial 3 is away from the elastic limiting member 8, so that the initial upper connection level 3131 of the dial 3 passes over the elastic limiting member 8, and the elastic limiting member 8 is clamped on the initial upper connection level 31 to enter the open initial state.

Referring to fig. 1 to 13, for further refinement, the synchronous linkage assembly 7 includes a synchronous slider 71, a linkage swing rod 72, and a synchronous connecting sleeve 73. The synchronous sliding block 71 slides on the rebounding base plate 14 of the left rebounding component 1, the lower swinging end of the linkage swinging rod 72 is clamped on the synchronous sliding block 71, the upper swinging end of the linkage swinging rod 72 is installed on a synchronous connecting sleeve 73, and the synchronous connecting sleeves 73 are respectively sleeved at the left end and the right end of the synchronous connecting rod 6.

The transmission guide path 10 includes a transmission guide groove 101 for the forward directional sliding of the synchronization transmission rod 5, a transmission positioning groove 102 for the resilient sliding of the synchronization transmission rod 5 and the fixed point connection with the synchronization slider 71, and a transmission inclined groove 103 for the dislocation separation of the synchronization transmission rod 5 and the synchronization slider 71. The transmission orientation groove 101, the transmission positioning groove 102 and the transmission inclined groove 103 are communicated in sequence, and the synchronous transmission rod 5 is provided with a transmission positioning pin 51 which is connected with the transmission orientation groove 101, the transmission positioning groove 102 and the transmission inclined groove 103 in a sliding manner.

When the drawer is closed, the rebounding slide block 41 slides forward on the second guide rail 142 along with the closing of the movable rail of the slide rail, and pushes the synchronous transmission rod 5 to push forward, so as to drive the transmission positioning pin 51 to slide in the transmission orientation slot 101. Meanwhile, in the sliding process of the rebounding slide block 41, the pushing link 43 pushes the synchronous slide block 71 of the synchronous linkage assembly 7, so that the synchronous slide block 71 moves forward on the rebounding base plate 14 and drives the swing linkage swing rod 72 to swing forward, and the synchronous link 6 is linked to rotate, so that the left rebounding component 1 and the right rebounding component 2 on the left side and the right side of the drawer synchronously move.

During the closing of the slide, the drive positioning pin 51 passes over the drive orientation slot 101 and enters the drive positioning slot 102, and when the left and right rebound members 1 and 2 respectively enter the rebound limit state under the elastic action of the spring member 42, the drive positioning pin 51 is connected with the synchronization slider 71 while the drive guide slot slides back.

When the drawer is pressed to open the door, under the action of the reset elastic force of the spring parts 42 of the left and right rebounding components 1 and 2, the rebounding sliding block 41 is unlocked and moves backwards along the second guide rail 142, so that the synchronous transmission rod 5 is pulled to move backwards, the transmission positioning pin 51 pushes the synchronous sliding block 71 to move backwards, the linkage swing rod 72 swings immediately, the synchronous connecting rod 6 is made to swing backwards, and the left and right rebounding components 1 and 2 on the left and right sides are synchronously unlocked and rebounded.

During the rebound opening of the slide, the drive detent pin 51 slides drive away from the drive detent 102 and into drive tilt. At this time, the synchronization slider 71 is pushed down to the rebound slider 41, and the transmission positioning pin 51 and the synchronization slider 71 are displaced and separated, so that the synchronization link assembly 7 enters the open state, and interference between the components is reduced. Subsequently, the rebound slider 41 and the transmission link slide to the open original state.

The rebound fixing plate 13 is provided with a position adjuster 17 for adjusting the mounting position of the rebound board 14. The position adjusting part 17 comprises an adjusting rotating wheel and an adjusting convex column, and the adjusting convex column is arranged on the rebound fixing plate 13. The adjusting rotating wheel is rotatably connected to the rebounding substrate 14, and is provided with an adjusting spiral groove which is in sliding connection with the adjusting convex column phase.

During assembly, the rebounding substrate 14 can be adjusted to move forwards or backwards only by rotating the adjusting rotating wheel, so that the assembly position of the rebounding device is adjusted, the use precision of the rebounding device is improved, the operation stability is guaranteed, and the use quality of a product is guaranteed.

Above-mentioned embodiment only does the utility model discloses the better embodiment of effect, all with the utility model discloses a difunctional buffering bounce-back synchronizer that drawer slide rail was used is the same or equivalent structure, all is in the protection scope of the utility model.

Claims (10)

1. The utility model provides a difunctional buffering bounce-back synchronizer that drawer slide rail was used, is including installing left bounce-back part (1), right bounce-back part (2) between slide rail and drawer, its characterized in that: the left rebounding part (1) and the right rebounding part (2) are respectively provided with a poking sheet (3), a rebounding sliding assembly (4) and a synchronous transmission part, the synchronous transmission part comprises a synchronous transmission rod (5), a synchronous connecting rod (6) and a synchronous linkage assembly (7),

the poking piece (3) is movably connected to the left rebounding component (1) and the right rebounding component (2) and is buckled with or separated from a movable rail of the slide rail along with the opening and closing of the drawer, the rebounding sliding component (4) is provided with an elastic limiting piece (8) for limiting the poking piece (3) to move and be separated from the dislocation, the elastic limiting piece (8) elastically stretches out and draws back on the rebounding sliding component (4) and is connected with or separated from the poking piece (3), and the left rebounding component (1) and the right rebounding component (2) are provided with limiting guide paths (9) for the elastic limiting piece (8) to directionally slide, lock at a fixed point and lock and rebound;

the utility model discloses a synchronous linkage assembly, including synchronous connecting rod (6), rebound sliding assembly (4), synchronous linkage assembly (7), synchronous connecting rod (6) and synchronous connecting rod, the both ends head of synchronous connecting rod installs respectively on the swing portion of synchronous linkage assembly (7), and the sliding part sliding connection of synchronous linkage assembly (7) is on left bounce-back part (1), right bounce-back part (2), rebound sliding assembly (4) promote the sliding part of synchronous linkage assembly (7) and move forward respectively in left bounce-back part (1), right bounce-back part (2) move forward, the preceding tip of left side bounce-back part (1) and right bounce-back part (2) is equipped with transmission guide path (10), and synchronous transfer line (5) are installed on the elasticity end of rebound sliding assembly (4) and are at directional rebound slip on transmission guide path (10) under the rebound effect of pressing of rebound sliding assembly (4) and are slided to the sliding part that promotes synchronous linkage assembly (7) moves backward.

2. The dual function cushioning rebounding synchronization apparatus for a drawer slide of claim 1, wherein: be equipped with on the slide rail and have closing buffer (11) of closing buffer function, close the cylinder body of buffer (11) and install on the fixed rail of slide rail, close the catch bar of buffer (11) and the movable rail lock joint of slide rail, bounce-back slip subassembly (4) are equipped with bounce-back deceleration piece (12) that have bounce-back deceleration function, and bounce-back deceleration piece (12) sliding connection is on left bounce-back part (1) and right bounce-back part (2).

3. The dual function cushioning rebounding synchronization apparatus for a drawer slide of claim 1, wherein: left side bounce-back part (1) and right bounce-back part (2) all include bounce-back fixed plate (13), bounce-back base plate (14), and install on the fixed rail of slide rail bounce-back fixed plate (13), bounce-back base plate (14) sliding connection on bounce-back fixed plate (13), stir piece (3), bounce-back slip subassembly (4) sliding connection respectively on bounce-back base plate (14), bounce-back base plate (14) are equipped with restriction direction route (9), transmission direction route (10).

4. The dual function cushioning rebounding synchronization apparatus for a drawer slide of claim 3, wherein: the rebounding base plate (14) is provided with a first guide rail (141) for the shifting piece (3) to slide and a second guide rail (142) for the rebounding sliding assembly (4) to slide, the limiting guide path (9) is arranged between the first guide rail (141) and the second guide rail (142), and the transmission guide path (10) is arranged above the second guide rail (142).

5. The dual function cushioning rebounding synchronization apparatus for a drawer slide according to any one of claims 1 to 4, wherein: the limiting guide path (9) is provided with an elastic sheet (15), the elastic sheet (15) divides the limiting guide path (9) into an orientation guide groove (91) for the elastic limiting piece (8) to directionally slide along with the closing of the sliding rail, an inclined sliding groove (92) for the elastic limiting piece (8) to directionally compress to freely slide the poking piece (3), a fixed point clamping groove (93) for the elastic limiting piece (8) to be stopped at a fixed point to lock the rebounding sliding assembly (4), and an inclined guide groove (94) for the elastic limiting piece (8) to rebound and unlock to directionally rebound and slide,

the elastic limiting piece (8) is provided with a limiting pin (16) which slides in sequence on the directional guide groove (91), the inclined sliding groove (92), the fixed point clamping groove (93) and the inclined guide groove (94) along with the opening and closing of the sliding rail.

6. The dual function cushioning rebounding synchronization apparatus for a drawer slide according to any one of claims 1 to 4, wherein: the kick-plate (3) is provided with an initial upper connecting level (31) for connecting with the elastic limiting piece (8) in an initial opening state, and a rebound lower connecting level (32) for connecting with the rebound sliding assembly (4) in a rebound opening process, wherein the initial upper connecting level (31) and the rebound lower connecting level (32) are sequentially distributed on the inner side of the kick-plate (3) from inside to outside.

7. The dual function cushioning rebounding synchronization apparatus for a drawer slide of claim 4, wherein: rebound sliding subassembly (4) are including rebound slider (41), spring part (42), rebound slider (41) sliding connection is on second guided way (142), spring part (42) one end lock joint is on rebound fixed plate (13), and spring part (42) other end lock joint is on rebound slider (41), elasticity restriction spare (8) elasticity is flexible on rebound slider (41), rebound slider (41) are equipped with along with slide rail closed promotion synchronous linkage subassembly (7) forward movement usefulness promote connecting rod (43).

8. The dual function cushioning rebounding synchronization apparatus for a drawer slide according to claim 1 or 7, wherein: synchronous linkage subassembly (7) are including synchronous slider (71), linkage pendulum rod (72), synchronous adapter sleeve (73), synchronous slider (71) slides on bounce-back base plate (14) of left bounce-back part (1), the lower swing end joint of linkage pendulum rod (72) is on synchronous slider (71), and the last swing end of linkage pendulum rod (72) is installed on synchronous adapter sleeve (73), and synchronous adapter sleeve (73) suit is at the left and right sides both ends of synchronous connecting rod (6) respectively.

9. The dual function cushioning rebounding synchronization apparatus for a drawer slide of claim 8, wherein: the transmission guide path (10) comprises a transmission orientation groove (101) for the forward oriented sliding of the synchronous transmission rod (5), a transmission positioning groove (102) for enabling the synchronous transmission rod (5) to rebound and slide and enabling the positioning point to be connected with the synchronous sliding block (71), and a transmission inclined groove (103) for enabling the synchronous transmission rod (5) to be staggered and separated from the synchronous sliding block (71), wherein the transmission orientation groove (101), the transmission positioning groove (102) and the transmission inclined groove (103) are sequentially communicated,

the synchronous transmission rod (5) is provided with a transmission positioning pin (51) which is connected with the transmission orientation groove (101), the transmission positioning groove (102) and the transmission inclined groove (103) in a sliding manner.

10. The dual function cushioning rebounding synchronization apparatus for a drawer slide of claim 3, wherein: the fixed plate is equipped with position control spare (17) that adjustment bounce-back base mounted position used, and position control spare (17) are including adjusting the swiveling wheel and adjusting the projection, adjust the projection and locate on the fixed plate, adjust swiveling wheel swivelling joint on the bounce-back base, and adjust the swiveling wheel and be equipped with and adjust projection looks and sliding connection's regulation helicla flute.

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