CN217065778U

CN217065778U - Hidden rail synchronous rebounding device

Info

Publication number: CN217065778U
Application number: CN202220775794.9U
Authority: CN
Inventors: 蔡耿锡; 罗积华; 罗永洪; 伦锴成
Original assignee: Guangdong Saca Precision Manufacturing Co Ltd
Current assignee: Guangdong Saca Precision Manufacturing Co Ltd
Priority date: 2022-04-01
Filing date: 2022-04-01
Publication date: 2022-07-29
Anticipated expiration: 2032-04-01
Also published as: WO2023186166A1

Abstract

The utility model provides a hide synchronous bounce-back device of rail, including the slide rail of installing in the drawer left and right sides and install the bounce-back part at the slide rail, be equipped with synchronous part between bounce-back part and the bounce-back part, the bounce-back part includes bounce-back base member, bounce-back shifting needle, bounce-back slip subassembly, bounce-back spring, synchronous part includes synchronizing shaft, synchronous slip subassembly, the both ends of synchronizing shaft are installed respectively on the synchronous slip subassembly of the left and right sides, synchronous slip subassembly respectively with synchronizing shaft off-centre tangent and slide on the bounce-back base member around; two ends of the rebound spring are respectively connected to the rebound base body and the rebound sliding assembly, the rebound shifting needle is connected with the rebound sliding assembly shaft, the rebound sliding assembly is connected with the synchronous sliding assembly, and the rebound base body is internally provided with a guide groove, a sliding groove, a limiting groove, a movable groove and an unlocking sliding groove which are respectively communicated. The synchronous component is internally assembled, so that the structure is compact, synchronous unlocking is realized, the operation stability is high, the operation reliability is improved, and the use quality of a product is ensured.

Description

Hidden rail synchronous rebounding device

Technical Field

The utility model relates to a hide rail bounce-back device's technical field, a hide synchronous bounce-back device of rail specifically says so.

Background

The utility model discloses a function accessory that is often used for hiding the rail has damping device and presses bounce-back device, utilizes damping device to make and hides the rail and open the time energy storage, closes the automatic buffering of certain degree back at hiding the rail and draw back the slide rail and close, and presses bounce-back device and make and hide the rail and close the time energy storage to leave the space that is used for pressing the unblock, through pressing the drawer, make pull furniture unblock bounce-back such as drawer, realize that pull furniture is automatic to be bounced open, it is very convenient to use, and improve the safety in utilization.

However, most of the two sides of the existing drawer are provided with hidden rails, and the pressing rebounding devices of the two groups of hidden rails have the following defects in the use process:

1) the unlocking of the pressing rebounding devices of the two groups of hidden rails is asynchronous, and the width of the drawer using the hidden rails is limited.

2) The conventional rebound synchronizer needs to be hung externally independently and has a complex structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a hide synchronous bounce-back device of rail, its built-in installation, compact structure, synchronous unblock, operating stability is high, improves the operational reliability, guarantees the service quality of product.

The invention aims to realize the following steps: a hidden rail synchronous rebounding device comprises sliding rails arranged on the left side and the right side of a drawer and rebounding components arranged on the sliding rails, wherein synchronous components for synchronous operation are arranged between the rebounding components and the rebounding components, each rebounding component comprises a rebounding base body, a rebounding shifting needle, a rebounding sliding assembly and a rebounding spring, each synchronous component comprises a synchronous shaft and a synchronous sliding assembly,

two ends of the synchronous shaft are respectively arranged on the synchronous sliding components at the left side and the right side, and the synchronous sliding components are respectively in eccentric tangency with the synchronous shaft and slide on the rebound base body back and forth;

one end of the rebound spring is connected with the rebound base body, the other end of the rebound spring is connected with the rebound sliding assembly, the rebound poking needle is connected with the rebound sliding assembly shaft, the rebound sliding assembly is connected with the synchronous sliding assembly, the anti-bouncing base body is internally provided with a guide groove matched with the anti-bouncing sliding assembly to slide back and forth, a sliding groove matched with the anti-bouncing shifting needle to freely slide back and forth when the drawer is in a complete unlocking state, a limiting groove used for limiting the anti-bouncing shifting needle to slide when the drawer is in an immediately closing state, a movable groove used for the anti-bouncing shifting needle to fall back to a synchronous component under the elastic action of an anti-bouncing spring when the drawer is in the closing state, and an unlocking sliding groove used for pushing the synchronous component to enable the anti-bouncing component on the other side to synchronously move under the elastic action of the anti-bouncing spring when the drawer is pressed to be opened, wherein the sliding groove, the limiting groove, the movable groove and the unlocking sliding groove are respectively communicated.

According to the optimization, the rebounding sliding assembly is provided with a connecting part which pushes the synchronous sliding assembly to move backwards to close the movable groove or move forwards to open the movable groove under the pushing of the rebounding poking needle, and the connecting part is arranged on the end head of the rebounding sliding assembly and is connected with the synchronous sliding assembly.

Optimize according to the aforesaid, bounce-back slip subassembly includes bounce-back slider and bounce-back commentaries on classics piece, bounce-back slider sliding connection just is connected with bounce-back spring buckle on the guide way, the end of guide way is equipped with the corner groove, bounce-back commentaries on classics piece is articulated with the bounce-back slider to bounce-back commentaries on classics piece forms the joint groove of usefulness with the last rail lock joint of slide rail with the bounce-back slider along with the bounce-back slider slides when the guide way, perhaps bounce-back commentaries on classics piece along with the bounce-back slider slides when the corner groove around the pin joint swing in order to separate with the last rail of slide rail.

According to the optimization, the synchronous sliding assembly comprises a synchronous sliding block and a synchronous connecting block, two ends of the synchronous shaft are respectively hinged to the rebounding base bodies on the left side and the right side and are connected with the synchronous connecting block in a positioning mode, and the synchronous sliding block is connected with the synchronous shaft in an eccentric and tangent mode through the synchronous connecting block.

Optimize according to the aforesaid, the left and right sides of drawer is equipped with the mounting panel of the installation of the rebound base member of adaptation respectively, is equipped with the rebound adjusting screw that the regulation bounce-back base member mounted position was used on the mounting panel, and rebound adjusting screw's one end swivelling joint is on the mounting panel, and rebound adjusting screw's other end threaded connection is on the rebound base member.

The rebound base body comprises a rebound base and a rebound cover body, the rebound base is arranged on the mounting plate, and the rebound cover body is buckled on the rebound base.

Optimizing according to the aforesaid, guide way, sliding tray, restriction groove, activity groove, unblock spout are established on the interior bottom surface of bounce-back base, restriction groove, activity groove are by outer inside slope and form the V type groove of intercommunication on the end of activity groove, unblock spout.

The utility model has the advantages that:

1) by adopting the synchronous component with the structure, because the rebounding sliding component of the rebounding component accumulates energy or releases energy to push the drawer to pop up in the process of moving back and forth, the synchronous sliding component slides back and forth under the action of the rebounding sliding component, so that the synchronous shaft is pushed to rotate, the rebounding component on the other side of the drawer is unlocked synchronously, the operation stability is improved, the synchronous component is suitable for a drawer with large width, and the applicability is strong.

2) The synchronous component of the structure is arranged on the rebounding base body of the rebounding component in a built-in mode, so that the structure is simplified, the structural stability is guaranteed, and the using effect of a product is guaranteed.

Drawings

Fig. 1 is a diagram illustrating an installation state of the rebounding element according to the preferred embodiment of the present invention.

Fig. 2 is a perspective view of the resilient member and the slide rail according to the preferred embodiment of the present invention.

Fig. 3 is an exploded view of the resilient member of the preferred embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the rebounding component according to the preferred embodiment of the present invention (with the rebounding cover removed).

Fig. 5 is a left side view of the rebounding element in accordance with the preferred embodiment of the present invention.

Fig. 6 is a sectional view of the synchronous slide module according to the preferred embodiment of the present invention.

Fig. 7 is a structural diagram of the closed state of the preferred embodiment of the present invention.

Fig. 8 is a schematic diagram of the power-off state of the preferred embodiment of the present invention.

Fig. 9 is a schematic diagram of the fully unlocked state of the preferred embodiment of the present invention.

Fig. 10 is a schematic view of a preferred embodiment of the present invention in a closed position.

Detailed Description

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

Referring to fig. 1 to 10, the hidden rail synchronous rebounding device of the present invention includes a sliding rail 1 installed on the left and right sides of a drawer and a rebounding member installed on the sliding rail 1. And a synchronous component for synchronous operation is arranged between the rebounding component and the rebounding component. The rebounding component comprises a rebounding base body 2, a rebounding poking needle 3, a rebounding sliding assembly 4 and a rebounding spring 5, and the synchronizing component comprises a synchronizing shaft 6 and a synchronizing sliding assembly 7. Two ends of the synchronizing shaft 6 are respectively arranged on the synchronizing sliding components 7 on the left side and the right side, and the synchronizing sliding components 7 are respectively in eccentric tangency with the synchronizing shaft 6 and slide on the rebounding base body 2 in the front-back direction. One end of the rebound spring 5 is connected with the rebound base body 2, and the other end of the rebound spring 5 is connected with the rebound sliding assembly 4. The rebound poking needle 3 is connected with a rebound sliding assembly 4 through a shaft, and the rebound sliding assembly 4 is connected with a synchronous sliding assembly 7. The bounce base body 2 is internally provided with a guide groove 8 which is matched with the bounce sliding component 4 to slide forwards and backwards, a sliding groove 9 which is matched with the bounce shifting needle 3 to slide forwards and backwards freely when the drawer is in a complete unlocking state, a limiting groove 10 which is used for limiting the bounce shifting needle 3 to slide when the drawer is in an immediately closing state, a movable groove 11 which is used for enabling the bounce shifting needle 3 to fall back to a synchronous component under the elastic action of the bounce spring 5 when the drawer is in the closing state, and an unlocking sliding groove 12 which is used for enabling the bounce shifting needle 3 to push the synchronous component to synchronously move by the bounce component on the other side under the elastic action of the bounce spring 5 when the drawer is pressed to be opened, wherein the sliding groove 9, the limiting groove 10, the movable groove 11 and the unlocking sliding groove 12 are respectively communicated.

Referring to fig. 1 to 10, in an advantageous embodiment, said rebounding slider assembly 4 is provided with a connection 13 for pushing the synchronous slider assembly 7 backwards to close the active slot 11 or forwards to open the active slot 11 under the push of the rebounding pick-up pin 3, the connection 13 being provided on the end of the rebounding slider assembly 4 and being connected to the synchronous slider assembly 7.

Wherein the rebound slide assembly 4 comprises a rebound slider 41 and a rebound runner 42. The rebounding slide block 41 is connected to the guide groove 8 in a sliding mode and is connected with the rebounding spring 5 in a buckling mode, a corner groove 81 is formed in the end of the guide groove 8, and the rebounding rotating block 42 is hinged to the rebounding slide block 41. The rebounding rotating block 42 forms a locking groove 14 for locking with the upper rail of the slide rail 1 with the rebounding slider 41 while sliding in the guide groove 8 with the rebounding slider 41, or the rebounding rotating block 42 swings around a hinge point to separate from the upper rail of the slide rail 1 while sliding in the corner groove 81 with the rebounding slider 41.

And the synchronous sliding component 7 comprises a synchronous sliding block 71 and a synchronous connecting block 72. Two ends of the synchronizing shaft 6 are respectively hinged on the rebounding base bodies 2 on the left side and the right side and are connected with the synchronizing connecting block 72 in a positioning mode, and the synchronizing sliding block 71 is connected with the synchronizing shaft 6 in an eccentric and tangent mode through the synchronizing connecting block 72.

That is, when the drawer is closed, the resilient member is in a closed state, and the needle of the upper rail of the hidden rail is engaged with the engaging groove 14 between the resilient rotating block 42 and the resilient sliding block 41, so as to be restrained by the resilient rotating block 42 and the resilient sliding block 41. At this time, one end of the synchronous slider 71 is located at the movable groove 11, and the rebounding setting needle 3 is blocked, so that the rebounding setting needle 3 cannot move through the movable groove 11.

When the drawer is opened, the drawer is pressed, external force is applied to push the rebounding component to move towards the inner direction of the drawer, the rebounding poking needle 3 overcomes the elastic acting force of the rebounding spring 5 under the action of the external force, moves along the movable groove 11, and after the position is limited, the external force is removed. At this time, the rebounding setting hand 3 falls back to the connection point of the movable groove 11 and the unlocking slide groove 12 and falls onto the synchronous slide block 71. Then, the slide moves outward along the unlocking slide groove 12 under the elastic tension of the rebound spring 5. Meanwhile, the synchronous sliding block 71 is pushed to move, and because the synchronous sliding block 71 is eccentrically tangent to the synchronous shaft 6, the synchronous shaft 6 instantaneously rotates, so that the synchronous sliding block 71 of the rebounding component on the other side is driven to instantaneously move to leave the movable groove 11 on the other side, the rebounding shifting needle 3 on the other side passes through the unlocking sliding groove 12, and synchronous unlocking of the synchronous shafts 6 on the left side and the right side is achieved.

When the rebounding poking needle 3 slides back to the sliding groove 9 from the unlocking sliding groove 12, the rebounding part is completely in an unlocking state, at the moment, the rebounding sliding block 41 is linked with the rebounding rotating block 42 to slide on the guide groove 8, and when the rebounding rotating block 42 slides to the corner groove 81, the rebounding part is separated from the poking needle of the upper rail, so that the sliding rail 1 is normally opened, and the drawer is normally opened.

When the drawer is closed again, only enough pushing force needs to be applied to the drawer, so that the rebounding components on the two sides are acted by external force, the upper rail shifting needle of the sliding rail 1 is in contact with the rebounding rotating block 42, the rebounding rotating block 42 rotates and is separated from the corner groove 81, and the rebounding sliding block 41 is pushed to move inwards along the guide groove 8. Meanwhile, the synchronous sliding component 7 is pushed to move inwards under the transmission action of the connecting part 13. During the movement, the rebounding slider 4 is in the state of accumulating energy, and when the rebounding slider 41 of the rebounding slider 4 slides to the restriction slot 10, the external force is removed to make the rebounding slider 41 fall back to the connection point of the restriction slot 10 and the movable slot 11, the synchronization slider 71 is pushed to the position of blocking the movable slot 11, and the drawer returns to the closed state.

Thus, the synchronous component of the structure is used for utilizing the accumulated energy to push the drawer to close or release the energy to push the drawer to pop up in the process of the rebounding sliding component 4 of the rebounding component moving back and forth. During the period, the synchronous sliding component 7 of the structure slides back and forth under the action of the rebounding sliding component 4, so that the synchronous shaft 6 is pushed to rotate, the rebounding components on the other side of the drawer are unlocked synchronously, the operation stability is improved, the structure is suitable for being used by a drawer with large width, and the applicability is strong.

Referring to fig. 1 to 10, mounting plates 15 adapted to the mounting of the rebounding base body 2 are respectively disposed on the left and right sides of the drawer, a rebounding adjusting screw 16 for adjusting the mounting position of the rebounding base body 2 is disposed on the mounting plate 15, one end of the rebounding adjusting screw 16 is rotatably connected to the mounting plate 15, and the other end of the rebounding adjusting screw 16 is in threaded connection with the rebounding base body 2.

Under the effect of bounce-back adjusting screw 16, the mounted position of adjustment bounce-back part promotes structure steadiness and operational reliability.

In addition, the rebounding base body 2 comprises a rebounding base 21 and a rebounding cover body 22, the rebounding base 21 is arranged on the mounting plate 15, and the rebounding cover body 22 is buckled on the rebounding base 21.

And the guide groove 8, the sliding groove 9, the limiting groove 10, the movable groove 11 and the unlocking sliding groove 12 are arranged on the inner bottom surface of the rebounding base 21, and the limiting groove 10 and the movable groove 11 are inclined from outside to inside to form a V-shaped groove communicated with the ends of the movable groove 11 and the unlocking sliding groove 12.

The synchronous component of the structure is arranged on the rebounding base body 2 of the rebounding component in a built-in mode, so that the structure is simplified, the structural stability is guaranteed, and the using effect 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 hide the synchronous bounce-back device of rail and be the same or the equivalent structure, all be in the utility model discloses a protection within range.

Claims

1. The utility model provides a hide synchronous bounce-back device of rail, is including installing slide rail (1) in the drawer left and right sides and installing the bounce-back part in slide rail (1), its characterized in that: a synchronous component for synchronous operation is arranged between the rebounding component and the rebounding component, the rebounding component comprises a rebounding base body (2), a rebounding shifting needle (3), a rebounding sliding assembly (4) and a rebounding spring (5), the synchronous component comprises a synchronous shaft (6) and a synchronous sliding assembly (7),

two ends of the synchronous shaft (6) are respectively arranged on synchronous sliding components (7) on the left side and the right side, and the synchronous sliding components (7) are respectively in eccentric tangency with the synchronous shaft (6) and slide on the rebound base body (2) back and forth;

the bounce component is characterized in that one end of the bounce spring (5) is connected to the bounce base body (2), the other end of the bounce spring (5) is connected with the bounce sliding component (4), the bounce shifting needle (3) is connected with the bounce sliding component (4) in a shaft mode, the bounce sliding component (4) is connected with the synchronous sliding component (7), a guide groove (8) which is matched with the bounce sliding component (4) to slide back and forth, a sliding groove (9) which is matched with the bounce shifting needle (3) to slide front and back freely when the drawer is in a complete unlocking state, a limiting groove (10) which is used for limiting the bounce shifting needle (3) to slide when the drawer is in a closing state, a movable groove (11) which is used for enabling the bounce shifting needle (3) to fall back to the synchronous component under the elastic action of the bounce spring (5) when the drawer is in a closing state, and a synchronous component is pushed down by the bounce shifting needle (3) under the elastic action of the bounce spring (5) when the drawer is pressed to be opened so that the bounce component on the other side can move synchronously The unlocking sliding groove (12), the sliding groove (9), the limiting groove (10), the movable groove (11) and the unlocking sliding groove (12) are communicated respectively.

2. The hidden-track synchronous rebounding apparatus according to claim 1, wherein: the rebounding sliding assembly (4) is provided with a connecting part (13) which pushes the synchronous sliding assembly (7) to move backwards to close the movable groove (11) or move forwards to open the movable groove (11) under the pushing of the rebounding poking needle (3), and the connecting part (13) is arranged on the end head of the rebounding sliding assembly (4) and is connected with the synchronous sliding assembly (7).

3. Hidden track synchronous rebounding device according to claim 1 or 2, characterized in that: rebound slip subassembly (4) are including bounce slider (41) and bounce commentaries on classics piece (42), bounce slider (41) sliding connection just with bounce spring (5) buckle connection on guide way (8), the end of guide way (8) is equipped with corner groove (81), bounce commentaries on classics piece (42) are articulated with bounce slider (41) to bounce commentaries on classics piece (42) along with bounce slider (41) slide in guide way (8) the while with bounce slider (41) form with joint groove (14) of the last rail lock joint usefulness of slide rail (1), perhaps bounce commentaries on classics piece (42) along with bounce slider (41) slide around the pin joint swing in corner groove (81) in order to separate with the last rail of slide rail (1).

4. Hidden track synchronous bounce device according to claim 1 or 2, characterized in that: the synchronous sliding assembly (7) comprises a synchronous sliding block (71) and a synchronous connecting block (72), two ends of the synchronous shaft (6) are respectively hinged to the rebounding base bodies (2) on the left side and the right side and are in positioning connection with the synchronous connecting block (72), and the synchronous sliding block (71) is in eccentric tangent connection with the synchronous shaft (6) through the synchronous connecting block (72).

5. The hidden-track synchronous bounce device of claim 1, wherein: the left and right sides of drawer is equipped with mounting panel (15) of adaptation bounce-back base member (2) installation respectively, is equipped with bounce-back adjusting screw (16) that regulation bounce-back base member (2) mounted position was used on mounting panel (15), and the one end swivelling joint of bounce-back adjusting screw (16) is on mounting panel (15), and the other end threaded connection of bounce-back adjusting screw (16) is on bounce-back base member (2).

6. The hidden-rail synchronous bounce device of claim 5, wherein: the rebounding base body (2) comprises a rebounding base (21) and a rebounding cover body (22), the rebounding base (21) is arranged on the mounting plate (15), and the rebounding cover body (22) is buckled on the rebounding base (21).

7. The hidden-rail synchronous bounce device of claim 6, wherein: the anti-bouncing base is characterized in that the guide groove (8), the sliding groove (9), the limiting groove (10), the movable groove (11) and the unlocking sliding groove (12) are arranged on the inner bottom surface of the anti-bouncing base (21), and the limiting groove (10) and the movable groove (11) are inclined inwards from outside to form a V-shaped groove communicated with the ends of the movable groove (11) and the unlocking sliding groove (12).