JP3174192U - Opening mechanism of slide rail assembly - Google Patents

Abstract

An opening mechanism for a slide rail assembly is provided.
SOLUTION: First, second, and third slide rails 10, 12, and 14, a fixed base 18, a movable base 20, a fitting part 22, first and second elastic parts 24 and 26 are provided. It is connected to the first slide rail 10 and includes a guide portion 28, a guard portion 30, and a storage chamber 32. The movable base 20 is installed on the fixed base 18, and the first and second legs 38 and 40 and the engagement lock part are provided. The first leg 38 slides on the guide portion 28 and stops, the second leg 40 enters the receiving chamber 32, the fitting part 22 is movably connected to the second slide rail 12, and the fitting portion 54 is provided. Is provided. Further, the first elastic component 24 provides the elastic action in the first direction to the third slide rail 14, the second elastic component 26 provides the elastic action in the second direction to the movable base 20, and the second slide rail 12 When pulled out, the first leg 38 moves along the guiding portion 28, the second leg 40 moves in the accommodation chamber 32 and presses the second elastic component 26, and the movable base 20 moves to the guiding portion 28. And the fitting portion 54 is disengaged from the engagement lock portion.
[Selection] Figure 2

Description

The present invention relates to an opening mechanism of a slide rail assembly, and in particular, when the slide rail assembly is in a retracted position, when the force is pulled out in an inappropriate manner due to an external force, the mechanism moves according to the external force, thus attaching the slide rail assembly. The parts relate to the opening mechanism of the slide rail assembly which is free from deformation or damage.

The “closing device for a drawers” of Patent Document 1 devised by Brunnert installs a drawer on the furniture, moves between the closed position and the open position of the furniture, and installs a spring between the drawer and the furniture. To do. A closure device is installed in the furniture and is equipped with a holding member. The holding part is provided with a hook, and a latch member is installed behind the hook. When the drawer is in the closed position, the fitting part and the hook of the holding part are engaged and locked with each other. The mating part defines a structure with at least one rising area and with at least two different guiding tracks, thereby guiding the holding part.

When the drawer is moved open and closed with respect to the furniture, the holding parts can be guided and curved by different guiding tracks.
When the drawer is forced out of the furniture, the holding part causes an upward curvature, which causes the hook to forcibly disengage the mating part. When an external force is applied to the drawer that has already been closed, the holding part moves by the hook and releases the engagement lock with the fitting part. As a result, the drawer is repelled by the elastic force generated by the elastic parts and is released from the furniture body.

“Push-open type slide structure” of Patent Document 2 devised by Wang is a slide rail push-on opening structure. It installs top fitting parts and fitting parts on the inner end of the outer slide rail and pull bar. The receiving plate for the top fitting component is installed extending from one side of the center of the main body. On both sides of the main body, shaft pillars to be fitted and connected with elastic parts are provided in a protruding manner. A stereotaxic fitting component is coupled on the receiving plate. A guide post is installed at the end of the stereotaxic fitting component, and a slide cover component that can slide is installed on the receiving plate. The slide cover part is coupled with the elastic part. A fitting component couple | bonds an introducing | transducing part and a base with a connection part. The introduction portion includes a guide side, a slope, and a recessed tank, and forms a passage. By pushing the pull bar, the guiding column of the stereotaxic fitting part can be localized or moved with respect to the introduction part and the passage of the fitting part, and the closing or opening of the slide rail can be controlled.

Patent Documents 1 and 2 described above post a Pokayoke design that prevents damage caused by being pulled out strongly. In Patent Document 1, the holding part has an upward curve, and the hook forcibly releases the fitting part. The Pokayoke means posted in Patent Document 2 installs a Pokayoke tank on the receiving plate, and aligns it with the lower position of the guide post of the stereotactic fitting component. Thereby, the stereotaxic fitting component is provided with a deformation space at the end of the guiding column, and thus the guiding column can leave the fitting component.

However, both of the two types of means described above directly use the elastic deformation of the engagement lock structure to achieve the purpose of forced release, but after several operations, the engagement lock contact portion is permanently deformed. Or it is easy to cause abrasion, and the whole service life is impaired. Furthermore, the use of elastic deformation of the structural body requires that it can be recovered after deformation, so that the deformation site must not be excessively hard. On the other hand, if it is opposite, the force repelling the pulling out or pulling out the slide rail is weak. When such a structure is applied to a large drawer or heavy-duty slide rail, the slide rail is likely to open unexpectedly. The present invention has been made in view of the above-described drawbacks of the opening mechanism of the conventional slide rail assembly.

US Patent No. 5,040,833 U.S. Pat.No. 7,374,261

The problem to be solved by the present invention is that the slide rail assembly opening mechanism can prevent the product from being damaged due to improper operation by the user and prevent the slide rail assembly from being abnormally opened due to unexpected external force. Is to provide.

In order to solve the above problems, the present invention provides the following slide rail assembly opening mechanism.
The opening mechanism of the slide rail assembly includes a fixed base, a movable base, a fitting part, a first elastic part, a second elastic part,
The fixed base is fixedly connected to the first slide rail of the slide rail assembly, and the fixed base includes a guide portion, a guard portion, and a storage chamber.
The guiding portion includes a longitudinal guiding portion and a curved portion, and the curved portion is located at a front end of the longitudinal guiding portion,
The guard portion is located at the rear end of the longitudinal guiding portion;
The containment chamber is approximately parallel to the longitudinal guide portion,
The movable table is movably installed on the fixed table, and the movable table includes a first leg, a second leg, a guide channel, and an engagement lock portion.
The first leg slides and stops on the guide part of the fixed base,
The second leg enters the receiving chamber of the fixed base,
The guiding channel includes a first longitudinal groove, a second longitudinal groove, and a passage, and the first longitudinal groove and the second longitudinal groove are adjacent to the engagement lock portion, and the engagement lock portion Located on both sides of the
The passage communicates with the first longitudinal groove and the second longitudinal groove and is opposed to the engagement lock portion,
The fitting component is movably connected to the second slide rail of the slide rail assembly;
The second slide rail slides in the longitudinal direction and is opposed to the first slide rail, and the fitting component includes a fitting portion, and the second slide rail of the slide rail assembly is attached to the first slide rail. On the other hand, when in the stowed position, the fitting portion and the engagement lock portion of the movable base are in contact with each other and positioned,
The first elastic component provides a resilient action in a first direction to the third slide rail of the slide rail assembly, the third slide rail sliding longitudinally, the first slide rail and the second slide rail Articulated between
The second elastic component provides a resilient action in a second direction to the movable table, and the second direction and the first direction are opposite to each other, and the second elastic component has a greater elasticity than the first elastic component. ,
When the fitting part of the fitting part and the engagement lock part of the movable base are engaged and connected to each other, the first elastic part provides a resilient action in the first direction to the third slide rail. The third slide rail retains a potential energy of elasticity with respect to the first slide rail, and the second elastic part provides a resilient action in the second direction to the movable base, thereby The movable base is positioned in contact with the guard part of the fixed base,
When the second slide rail is forcibly pulled out with respect to the first slide rail, the first leg of the movable base moves along the longitudinal guide portion of the guide portion of the fixed base, At the same time, the second leg of the movable table also moves in the storage chamber of the fixed table, compresses the second elastic component,
When the movable base is interlocked and moves to the front end of the longitudinal guide portion, the first leg slides into the curved portion of the front end of the longitudinal guide portion and exhibits a certain angle bias. The fitting part of the fitting part is detached from the engagement lock part of the movable base,
At the same time, the second elastic part has a compressive elastic action in the movable table, whereby the movable table has an acting force to be bounced back by the second elastic part,
Preferably, the first leg and the second leg of the movable base are on the bottom surface of the base body, and the guide channel and the engagement lock portion are on the apex surface of the movable base,
Preferably, the first elastic part is placed on a fixing rod, and both ends of the first elastic part are brought into contact with a bar head at one end of the fixing bar and stopped, and the push part of the fixing bar is put on the fixing part. The push part is slidably connected to the fixed base, and the push part comes into contact with the third slide rail and stops.
Preferably, the second elastic component is installed in the storage chamber of the fixed base, and both ends of the second elastic component are brought into contact with the inner wall of the storage chamber and the second leg of the movable base and stopped. Thus, the movable base is brought into contact with the guard portion of the fixed base and stopped by the elasticity of the second elastic component,
Preferably, the movable table further includes a protrusion, and the second slide rail is disposed opposite to the protrusion, and a push contact stop portion is installed, whereby the protrusion is caused by the push contact stop portion. When pushed, the movable platform is pushed and moved, and the first leg disengages from the curved portion of the stationary platform.

The opening mechanism of the slide rail assembly according to the present invention is such that when the slide rail assembly is in the retracted position, even if the slide rail assembly is forcibly pulled out in an inappropriate manner due to an external force, There is no damage, and the service life of the slide rail assembly product and the stability of its quality can be effectively increased. The slide rail assembly can also be applied to the extraction of large furniture, machine racks, or the like under relatively heavy loads, and this type of extension is impacted by an external force, resulting in an unexpected and sudden opening. Can be reduced or prevented from occurring, such as damage to personnel or injury to personnel.

FIG. 5 is a schematic arrangement view illustrating a state in which an opening mechanism is coupled to a slide rail assembly according to an embodiment of the present invention. 1 is an exploded view of an opening mechanism according to an embodiment of the present invention. FIG. 3 is a connection diagram between some constituent members of an opening mechanism of an embodiment of the present invention. FIG. 5 is a schematic diagram of a connection relationship between each component of the opening mechanism when the slide rail assembly according to the embodiment of the present invention is in the storage position. It is an operation | movement schematic diagram when the slide rail assembly of one Example of this invention is open | released by the pushing force. It is an operation | movement schematic diagram of the opening mechanism when the slide rail assembly of one Example of this invention is pulled out by forced force. It is a schematic diagram which shows a mode that the movable stand of an open mechanism after a slide rail assembly is pulled out by forced force returns to an original position with elasticity. It is a schematic diagram which shows a mode that a protrusion part is installed in the movable stand of an open mechanism, and a push contact stop part is installed in a 2nd slide rail. It is a schematic diagram which shows a mode that the movable stand of an open mechanism contacts a fixed base, stops, and a push contact stop part pushes a protrusion part. It is an operation | movement schematic diagram which shows a mode that the movable stand of an open mechanism returns to an original position when the slide rail assembly of one Example of this invention is pushed and accommodated.

The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

The slide rail assembly of the embodiment of the present invention shown in FIG. 1 includes a first slide rail 10, a second slide rail 12, a third slide rail 14, and an opening mechanism 16. The second slide rail 12 slides in the vertical direction and faces the first slide rail 10. The third slide rail 14 slides in the vertical direction and is connected to the first and second slide rails 10 and 12. As a result, the second slide rail 12 can draw a longer service distance from the first slide rail 10 by the third slide rail 14.

As shown in FIG. 2, the opening mechanism 16 includes a fixed base 18, a movable base 20, a fitting part 22, a first elastic part 24, and a second elastic part 26.

As shown in FIG. 3, the fixed base 18 is fixed to the first slide rail 10, and the fixed base 18 includes a guiding portion 28, a guard portion 30, and a storage chamber 32. The guiding portion 28 includes a longitudinal guiding portion 34 and a curved portion 36, and the curved portion 36 is located at the front end of the longitudinal guiding portion 34. The guard portion 30 is located at the rear end of the longitudinal guiding portion 34. The storage chamber 32 is approximately parallel to the longitudinal guiding portion 34.

The movable base 20 is movably installed on the fixed base 18. The movable base 20 includes a first leg 38 and a second leg 40 on the bottom surface of the base (see FIG. 2), and the guide channel 42 and the engagement lock portion 44 are positioned on the apex surface of the movable base 20. To do. The first leg 38 slides and stops on the guide part 28 of the fixed base 18, and the original position of the movable base 20 is stopped by the guard part 30 by the first leg 38. The second leg 40 enters the accommodation chamber 32 of the fixed base 18. The guiding channel 42 includes a first longitudinal groove 46, a second longitudinal groove 48, and a passage 50. The first longitudinal groove 46 and the second longitudinal groove 48 are adjacent to the engagement lock portion 44 and are located on both sides of the engagement lock portion 44, respectively. The passage 50 communicates with the first longitudinal groove 46 and the second longitudinal groove 48 and faces the engagement lock portion 44.

The fitting component 22 is movably connected to the second slide rail 12 by a movable pin 52. The fitting component 22 includes a fitting portion 54. When the slide rail assembly is in the retracted position, the fitting portion 54 and the engagement lock portion 44 of the movable base 20 are in contact with each other and connected and positioned.

The first elastic component 24 provides the third slide rail 14 with a resilient action in the first direction. As a result, the third slide rail 14 has elastic potential energy with respect to the first slide rail 10. In one embodiment, the first elastic component 24 is placed on the fixing rod 56, and both ends of the first elastic component 24 come into contact with the rod head 58 at one end of the fixing rod 56 and stop. Cover part 60. Moreover, the push component 60 is slidably connected to the fixed base 18, and the push component 60 comes into contact with the third slide rail 14 and stops.

The second elastic component 26 provides the movable table 20 with a resilient action in the second direction. The second direction and the first direction are opposite, whereby the movable table 20 has potential energy that returns to the original position with respect to the fixed table 18. Moreover, the elasticity of the second elastic component 26 is greater than that of the first elastic component 24. In one embodiment, the second elastic component 26 is installed in the accommodation chamber 32 of the fixed base 18, and both ends of the second elastic component 26 are respectively attached to the inner wall of the accommodation chamber 32 and the second leg 40 of the movable base 20. Stop in contact. Accordingly, the movable base 20 is tightly stopped at the guard portion 30 of the fixed base 18 due to the elasticity of the second elastic component 26.

As shown in FIG. 4, when the second slide rail 12 is in the stowed position relative to the first slide rail 10, the fitting portion 54 of the fitting component 22 located on the second slide rail 12 and the first slide The engagement lock portion 44 of the movable base 20 located on the rail 10 is engaged with and connected to each other. Under this state, the first elastic component 24 applies the elastic action in the first direction F1 to the third slide rail 14. As a result, the third slide rail 14 retains an elastic potential energy with respect to the first slide rail 10. The second elastic component 26 applies an elastic action in the second direction F2 to the movable base 20. As a result, the movable base 20 is tightly stopped by the first leg 38 and positioned at the guard portion 30 of the fixed base 18.

With this arrangement, when the user operates normally, as shown in FIG. 5, when a thrust (see the arrow direction in the figure) is applied to the second slide rail 12, the fitting portion 54 of the fitting component 22 is Then, it is disengaged from the engagement lock portion 44 of the movable table 20, the lock is released, and the movable table 20 moves to the second vertical groove 48. In addition, the third slide rail 14 is released by the elasticity of the first elastic component 24, interlocks with the second slide rail 12, and moves to the first slide rail 10. At the same time, the fitting part 54 of the fitting part 22 moves away from the second longitudinal groove 48 of the movable table 20 to achieve the operation of opening the slide rail assembly by the thrust method.

As shown in FIG. 6, when the second slide rail 12 is forcibly pulled out from the first slide rail 10 (see the arrow direction in the figure) and is in the pulled-out position, it engages with the engagement lock portion 44 of the movable base 20. The movable base 20 is moved in conjunction with the fitting part 22 by the second slide rail 12 in order to contact and connect with the fitting part 54 of the combined part 22. As a result, the first leg 38 of the movable base 20 moves along the longitudinal guiding portion 34 of the guiding portion 28 of the fixed base 18. At the same time, the second leg 40 of the movable table 20 also moves in the accommodation chamber 32 of the fixed table 18 and compresses the second elastic component 26.

When the movable base 20 is interlocked and moves to the front end of the longitudinal guiding portion 34, the first leg 38 slides into the curved portion 36 at the front end of the longitudinal guiding portion 34 and exhibits a certain angle bias. As a result, the fitting portion 54 of the fitting component 22 is detached from the engagement lock portion 44 of the movable base 20. At the same time, since the second elastic component 26 produces a compressive elastic action in the movable table 20, the movable table 20 is returned by the second elastic component 26 and comes into close contact with the guard portion 30 of the fixed table 18 (see FIG. 7). Thereafter, the second slide rail 12 can be further freely pulled out from the first slide rail 10, and the pull-out distance can be extended by the third slide rail 14.

When encountering the above-mentioned forced drawer situation, the movable base 20 moves according to the external force and automatically releases the lock, so that the product can be prevented from being damaged due to an abnormal operation by the user. In addition, even if the movable table 20 is forcibly pulled out from the fixed table 18, the lock is not automatically released unless after a certain distance of movement. Therefore, even if an unexpected external force, for example, an external force such as a collision, hitting, or vibration, acts, the elastic force applied to the movable base 20 by the second elastic component 26 cannot be overcome. As a result, when the movable base 20 moves a certain distance, the second slide rail 12 still maintains the closed state with respect to the first slide rail 10. In this way, an unexpected sudden opening can be prevented and a more robust closing effect is provided.

In one embodiment shown in FIG. 8, the movable base 20 is provided with a protruding portion 62, and the second slide rail 12 is provided with a push contact stop portion 64 opposite to the protruding portion 62.

FIG. 9 shows another type of situation that occurs when the movable base 20 moves along the guide portion 28 of the fixed base 18. The first leg 38 of the movable base 20 slides into the curved portion 36 at the front end of the longitudinal guiding portion 34 and exhibits a certain angle bias. In addition, the movable base 20 stops at the front end of the longitudinal guiding portion 34 and is temporarily localized. When the second slide rail 12 is housed in the first slide rail 10 again, the push contact stop portion 64 causes the protrusion 62 to disengage the first leg 38 of the movable base 20 from the curved portion 36 of the fixed base 18. Extrude Thus, the movable base 20 is pushed, and the first leg 38 is detached from the curved portion 36 of the fixed base 18. In accordance with this, the release action is applied to the movable base 20 by the compression elasticity of the second elastic component 26, and thus the movable base 20 is interlocked and returned to the original position, and the first leg 38 is connected to the guard portion 30 of the fixed base 18. Touch to stop.

As shown in FIG. 10, the second slide rail 12 is pushed back and stored in the first slide rail 10, and the movable base 20 returns to the original position, and the first leg 38 is attached to the guard portion 30 of the fixed base 18. Stop contact. The fitting portion 54 of the fitting component 22 enters the first vertical groove 46 of the movable table 20. When the thrust is released, the elastic force of the first elastic component 24 is used, and the fitting portion 54 of the fitting component 22 moves away from the first vertical groove 46 and enters the passage 50 of the movable table 20. In this way, the engagement lock portion 44 of the movable base 20 is again contacted and connected to each other and positioned (see FIG. 4).

When the slide rail assembly of the present embodiment is a two-barrel type slide rail, the first elastic component 24 acts directly on the second slide rail 12 (not shown). Thereby, the storage orientation is maintained after the two-bar slide rail storage. When the second slide rail 12 is pushed against the first rail 10, the fitting part 54 of the fitting part 22 is detached from the engagement lock part 44 of the movable base 20. Thus, the second slide rail 12 automatically repels against the first slide rail 10 due to the elasticity of the first elastic component 24 and opens a certain distance.

As described above, according to the embodiment of the present invention, when the slide rail assembly is in the storage position, even if the slide rail assembly is forcibly pulled out in an inappropriate manner due to external force, It is possible to effectively increase the service life of the slide rail assembly product and the stability of its quality without causing deformation or damage. In particular, in one embodiment, the slide rail assembly can be applied to the extraction of large furniture, machine racks, or the like that are subjected to relatively large loads, and this type of extension is impacted by an external force, causing an unexpected sudden opening. By performing the above, it is possible to reduce or prevent the occurrence of a situation in which the product is damaged or personnel are injured.

The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. Equivalent applications based on the spirit of the present invention, conversion of parts (structure), replacement, increase / decrease in quantity are all included in the protection scope of the present invention.

The present invention has the novelty that is a requirement for utility model registration, has sufficient inventive step compared to conventional similar products, has high practicality, meets the needs of society, and the industrial utility value is very Big.

10: First slide rail, 12: Second slide rail, 14: Third slide rail, 16: Opening mechanism, 18: Fixed base, 20: Movable base, 22: Mating part, 24: First elastic part, 26 : Second elastic part, 28: guiding part, 30: guard part, 32: accommodating chamber, 34: longitudinal guiding part, 36: curved part, 38: first leg, 40: second leg, 42: guiding Pull channel, 44: engagement lock, 46: first longitudinal groove, 48: second longitudinal groove, 50: passage, 52: movable pin, 54: mating part, 56: fixed rod, 58: rod head , 60: Push part, 62: Protruding part, 64: Push contact stop part.

Claims (5)

A slide rail assembly opening mechanism comprising a fixed base, a movable base, a fitting part, a first elastic part, a second elastic part,
The fixed base is fixed and connected to the first slide rail of the slide rail assembly, and includes a guide portion, a guard portion, and a storage chamber.
The guiding portion includes a longitudinal guiding portion and a curved portion, the curved portion is located at a front end of the longitudinal guiding portion, and the guard portion is located at a rear end of the longitudinal guiding portion. The storage chamber is approximately parallel to the longitudinal guide portion;
The movable base is movably installed on the fixed base, and includes a first leg, a second leg, a guiding channel, and an engagement lock portion.
The first leg slides into the guiding portion of the fixed base, the second leg enters the receiving chamber of the fixing base, and the guiding channel includes a first vertical groove and a second vertical direction. The first vertical groove and the second vertical groove are adjacent to the engagement lock portion and are located on both sides of the engagement lock portion, respectively, and the passage includes the first vertical groove. A directional groove and the second longitudinal groove, and opposed to the engagement lock portion,
The fitting component is movably connected to a second slide rail of a slide rail assembly, the second slide rail slides in a vertical direction and is opposed to the first slide rail, and the fitting component is With a fitting part,
When the second slide rail of the slide rail assembly is in the storage position with respect to the first slide rail, the fitting portion and the engagement lock portion of the movable base are in contact with each other and positioned,
The first elastic component provides an elastic action in a first direction to a third slide rail of a slide rail assembly, the third slide rail slides in a vertical direction, and the first slide rail and the second slide Connected to the rail,
The second elastic component provides an elastic action in a second direction to the movable base, and the second direction and the first direction are opposite to each other, and the elastic force of the second elastic component is greater than that of the first elastic component. big,
When the fitting part of the fitting part and the engagement lock part of the movable base are engaged and connected to each other, the first elastic part provides a resilient action in a first direction to the third slide rail. The third slide rail retains a potential energy of elasticity with respect to the first slide rail, and the second elastic part provides a resilient action in the second direction to the movable base, thereby The movable base is positioned in contact with the guard portion of the fixed base,
When the second slide rail is forcibly pulled out with respect to the first slide rail, the first leg of the movable base moves along the longitudinal guiding portion of the guiding portion of the fixed base, At the same time, the second leg of the movable table also moves in the storage chamber of the fixed table, compresses the second elastic component, and when the movable table is interlocked and moved to the front end of the longitudinal guiding portion, The first leg slides into the curved portion at the front end of the longitudinal guiding portion and exhibits a certain angle bias, whereby the fitting portion of the fitting component is detached from the engagement lock portion of the movable base. At the same time, the second elastic part generates a compression elastic action in the movable table, and thereby the movable table has an action force that is bounced back by the second elastic part. Rail assembly opening mechanism. The first leg and the second leg of the movable base are on a bottom surface of the base, and the guide channel and the engagement lock portion are on a top face of the movable base. An opening mechanism of the slide rail assembly according to claim 1. The first elastic part is placed on a fixing rod, and both ends of the first elastic part are brought into contact with the rod head at one end of the fixing bar and stopped, and the first elastic part is put on the push part of the fixing rod, and the push 2. The opening mechanism of the slide rail assembly according to claim 1, wherein the part is slidably connected to the fixed base, and the push part comes into contact with the third slide rail and stops. 3. The second elastic component is installed in the storage chamber of the fixed base, and both ends of the second elastic component stop in contact with the inner wall of the storage chamber and the second leg of the movable base, respectively. The slide rail assembly opening mechanism according to claim 1, wherein the movable base is brought into contact with a guard portion of the fixed base and stopped by elasticity of the second elastic component. The movable table further includes a protrusion, and the second slide rail is provided with a push contact stop portion opposed to the protrusion, whereby the protrusion is pushed by the push contact stop portion. The opening mechanism of the slide rail assembly according to claim 1, wherein the movable base is pushed and moved, and the first leg is detached from the curved portion of the fixed base.