CN109429465A - Machine frame system, wire-management device and connecting assembly - Google Patents

Abstract

The present invention includes one first lineation arm, one second lineation arm and a connection piece in relation to a kind of wire-management device.The second lineation arm can be with respect to the first lineation arm activity；The connector is movably connected with to the first lineation arm；Wherein, the connector and the first lineation arm can be movable relative to each other in limited range through a block piece.

Description

Machine frame system, wire-management device and connecting assembly

Technical field

The present invention relates to a kind of wire-packing mechanisms, particularly relate to a kind of wire-management device and connecting assembly for machine frame system.

Background technique

Machine frame system refers to the electronic equipment (such as server) for being installed in rack, it is however generally that, pair of the electronic equipment It answers two sides that would generally be configured with sliding rail assembly, and the electronic equipment can be mounted on rack by sliding rail assembly, set electronics It is standby to be drawn out out of rack, or be pushed into and fold outside rack.Electronic equipment usually has many relevant electronic cables (cables), it is pushed into therefore when electronic equipment is drawn out through sliding rail assembly out of rack, or outside rack when folding, just needs Cooperation, which can arrange wire rod or a plurality of lineation arms of storage wire rod, could allow cable synchronously to keep neat.

However, for the market demand, it is sometimes not intended to lineation arm opposed pair as the scope of activities of object is excessive, because This, how researching and developing a kind of reliable lineation product and becoming cannot be neglected subject under discussion for one.

Summary of the invention

A purpose of the invention is to provide a lineation arm of wire-management device and a connection piece can be relative to each other in preset range Interior activity.

A viewpoint according to the present invention, a kind of wire-management device include one first lineation arm, one second lineation arm and one first Connector.The second lineation arm and the first lineation arm can be relatively movable；First connector be movably connected with to this first Lineation arm；Wherein, first connector and the first lineation arm can live through a block piece relative to each other in limited range It is dynamic.

Preferably, first connector is through one first shaft member, the one end of the opposite first lineation arm is pivotally connected.

Preferably, the block piece is to be located at adjacent first shaft member, and the block piece has an at least limiting section, to provide this Against being used when one of first connector and the first lineation arm are moved to a boundary position.

Preferably, the wire-management device also includes that one second connector penetrates one second shaft member and the opposite second lineation arm One end pivot joint.

Preferably, the first lineation arm is pivotally connected with the second lineation arm through a pedestal relative to each other.

Preferably, the wire-management device also includes an at least supporting element to support the first lineation arm and the second lineation arm One of.

Another viewpoint according to the present invention, a kind of connecting assembly include one first sliding rail assembly and one first wire-management device. First sliding rail assembly includes can one first rail movable relative to each other and one second rail；First wire-management device includes one first Lineation arm, one second lineation arm and one first connector；The second lineation arm and the first lineation arm can be relatively movable；This A connection piece is movably connected with to the first lineation arm, is connected to first rail to provide the first lineation arm；Wherein, this A connection piece can be movable in limited range with respect to the first lineation arm through a block piece.

Preferably, first connector is through one first shaft member, the one end of the opposite first lineation arm is pivotally connected.

Preferably, the block piece is to be located at adjacent first shaft member, and the block piece has one first limiting section and one second limit Position portion, to provide respectively first connector and the first lineation arm against.

Preferably, the connecting assembly also includes that one second connector penetrates one second shaft member and the opposite second lineation arm One end pivot joint, second connector are connected to second rail to provide the second lineation arm.

Preferably, the first lineation arm is pivotally connected with the second lineation arm through a pedestal relative to each other.

Preferably, the connecting assembly also includes an at least supporting element to support the first lineation arm and the second lineation arm One of.

Preferably, the connecting assembly also includes one second sliding rail assembly and one second wire-management device, second sliding rail assembly Comprising can third rail movable relative to each other and one the 4th rail, second wire-management device include a third lineation arm, one the 4th Lineation arm can be pivotally connected with respect to the activity of third lineation arm, a third connector with respect to the one end of the third lineation arm, to mention The third rail, tetra- connector of Ji Yi is connected to for the third lineation arm to be pivotally connected with respect to the one end of the 4th lineation arm, to 4th lineation arm is provided and is connected to the 4th rail.

Preferably, the connecting assembly also includes the 4th rail and first rail that a support link connects second sliding rail assembly Second rail of sliding assembly.

Preferably, the first lineation arm, the second lineation arm and an at least supporting element penetrate one first connection respectively Frame, one second connection frame and a third connection frame and be connected to first rail, second rail and the 4th rail, and this first connect The length direction for connecing frame, second connection frame first sliding rail assembly opposite with the third connection frame has a predetermined altitude.

Another viewpoint according to the present invention, a kind of machine frame system include a rack, one first sliding rail assembly, one second sliding rail Assembly, a carrier and one first wire-management device.The rack has one first side and a second side；First sliding rail assembly installation In the first side of the rack, which includes at least one first rail and one second rail, wherein first rail can be opposite Second rail activity；Second sliding rail assembly is mounted on second side of the rack, which includes at least a third Rail and one the 4th rail, wherein the third rail can be with respect to the activity of the 4th rail；The carrier is mounted on first sliding rail assembly and should Between second sliding rail assembly, the third rail of the first rail and second sliding rail assembly through first sliding rail assembly makes the carrying Object can be moved to an extended position from a stowed position with respect to the rack；First wire-management device include one first lineation arm and One second lineation arm.The first lineation arm is detachably connectable to the carrier through one first connector and first sliding rail is total At one of the first rail；The second lineation arm movably swings expansion with the first lineation arm or draws close and folds, second reason Line arm is detachably coupled to one of the rack and the second rail of first sliding rail assembly；Wherein, first connector with should First lineation arm can be movable relative to each other in limited range through a block piece.

Detailed description of the invention

Above-mentioned purpose, design feature and effect of the invention are confirmed to further illustrate, below with reference to attached drawing to this hair It is bright to be described in detail, in which:

Fig. 1 shows the stereoscopic schematic diagram of the machine frame system of one embodiment of the invention.

Fig. 2 shows two sliding rail assemblys, two wire-management devices and the support link of the machine frame system of one embodiment of the invention Decomposition diagram.

Fig. 3 shows the connector of the wire-management device of one embodiment of the invention and the decomposition diagram of lineation arm.

Fig. 4 shows the schematic diagram of the wire-management device of one embodiment of the invention.

Fig. 5 show the wire-management device of one embodiment of the invention connector and lineation arm relative to each other activity and in one the The schematic diagram of one state.

Fig. 6 show the wire-management device of one embodiment of the invention connector and lineation arm relative to each other activity and in one the The schematic diagram of two-state.

Fig. 7 show the wire-management device of one embodiment of the invention connector and lineation arm relative to each other activity and in one the The schematic diagram of three condition.

Fig. 8 shows that the carrier of one embodiment of the invention is drawn out to a first position with respect to the rack from a stowed position Stereoscopic schematic diagram.

The solid that Fig. 9 shows that the carrier of one embodiment of the invention is further drawn out to a second position with respect to the rack is shown It is intended to.

Specific embodiment

Fig. 1 and Fig. 2 shows that the machine frame system of one embodiment of the invention includes a rack 20, has one first side 22a and one Second side 22b；One first sliding rail assembly 24 is mounted on the first side 22a of the rack 20, which includes at least One first rail 26 and one second rail 28 can be movable relative to each other, in this rack 20 is fixedly mount to second rail 28 the Side 22a, and for first rail 26 can be with respect to 28 activity of the second rail；One second sliding rail assembly 30 is mounted on the rack 20 Second side 22b, and it is in configured in parallel that second sliding rail assembly 30 and first sliding rail assembly 24, which are substantially, wherein this second Sliding rail assembly 30 includes at least a third rail 32 and one the 4th rail 34 can be movable relative to each other, in this with the 4th rail 34 fixedly It installs to second side 22b of the rack 20, and for the third rail 32 can be with respect to 34 activity of the 4th rail；An and carrier It may include having hard disk, power distribution unit and/or other electronic building bricks in 36, such as the carrier 36.The carrier 36 is Be mounted between first sliding rail assembly 24 and second sliding rail assembly 30, the first rail 26 through first sliding rail assembly 24 and The third rail 32 of second sliding rail assembly 30 enables the carrier 36 to be moved to one from a stowed position P0 with respect to the rack 20 and prolongs Position is stretched, such as shown in Fig. 8 and Fig. 9；One first wire-management device 38 includes one first lineation arm 40 and one second lineation arm 42 can Opposite first lineation arm, 40 activity；Preferably, one second wire-management device 44 includes a third lineation arm 46 and one the 4th lineation Arm 48 can be with respect to 46 activity of third lineation arm.

Preferably, through at least one first supporting element 50 and at least one second supporting element 52 can be used to support respectively this first Wire-management device 38 and second wire-management device 44.

Preferably, further including one first connection frame 54, one second connection frame 56, a third connection frame 58 and one the 4th connection Frame 60 is respectively connected to first rail 26, second rail 28, the 4th rail 34 and the third rail 32.Wherein, these connection frames 54, 56, length direction (such as the extension side of sliding rail of 58,60 opposite first sliding rail assemblys 24 (or second sliding rail assembly 30) To) there is a predetermined altitude.In detail, which is respectively provided with an a top 55a and lower part 55b.This second Connection frame 56 is respectively provided with an a top 57a and lower part 57b.The third connection frame 58 is respectively provided with a top 59a and a lower part 59b.4th connection frame 60 is respectively provided with an a top 61a and lower part 61b.Preferably, these connection frames 54,56,58,60 are Respectively fixedly be connected to these sliding rails 26,28,34,32 and can be respectively seen as be these sliding rails 26,28,34,32 a part.

Specifically, the first lineation arm 40 is detachably connectable to the carrier 36 through one first connector 62 and should One of first rail 26 of first sliding rail assembly 24.First connector 62 is movably connected with to the first lineation arm 40, this implementation In example, which is the top 55a that first connection frame 54 is detachably connectable to by first connector 62, Make the first lineation arm 40 installation to first rail 26 and opposite first rail 26 has the predetermined altitude.Wherein, first company It connects frame 54 also and can be set and do not limit on the carrier 36, implementation.

The first lineation arm 40 movably swings expansion (as can be seen from figures 8 and 9) with the second lineation arm 42 or draws close Fold (as shown in Figure 1), the second lineation arm 42 through one second connector 64 be detachably connectable to the rack 20 and this One of second rail 28 of one sliding rail assembly 24.Second connector 64 is movably connected with to the second lineation arm 42, the present embodiment In, which is the top 57a that second connection frame 56 is detachably connectable to by second connector 64, is made The second lineation arm 42 installation is to second rail 28 and opposite second rail 28 has the predetermined altitude.Wherein, second connection Frame 56 also can be set not to be limited in the rack 20, implementation.

One first connecting portion 51 of at least one first supporting element 50 is detachably connectable to the upper of the third connection frame 58 Portion 59a makes at least one first supporting element 50 installation to the 4th rail 34 and opposite 4th rail 34 has the predetermined altitude.In In this embodiment, for the support object that at least one first supporting element 50 can be stretched relative to each other by two.

Similarly, the third lineation arm 46 through a third connector 66 be detachably connectable to the carrier 36 and this One of the third rail 32 of two sliding rail assemblys 30.The third connector 66 is movably connected with to the third lineation arm 46, the present embodiment In, which is the lower part 61b that the 4th connection frame 60 is detachably connectable to by the third connector 66, is made The third lineation arm 46 is installed to the third rail 32.Wherein, the 4th connection frame 60 also can be set in the carrier 36, implement On do not limit to.

The third lineation arm 46 movably swings expansion (as can be seen from figures 8 and 9) with the 4th lineation arm 48 or draws close Fold (as shown in Figure 1), the 4th lineation arm 48 through one the 4th connector 68 be detachably connectable to the rack 20 and this One of the 4th rail 34 of two sliding rail assemblys 30.4th connector 68 is movably connected with to the 4th lineation arm 48, the present embodiment In, the 4th lineation arm 48 is the lower part 59b that the third connection frame 58 is detachably connectable to by the 4th connector 68, is made 4th lineation arm 48 is installed to the 4th rail 34.Wherein, which also can be set in the rack 20, implementation Do not limit to.

One second connecting portion 53 of at least one second supporting element 52 is detachably connectable under second connection frame 56 Portion 57b makes at least one second supporting element 52 installation to second rail 28.In this embodiment, at least one second supporting element For the 52 support objects that can be stretched relative to each other by two.

According to above-mentioned configuration, which is located at the top of second wire-management device 44.Also that is, machine frame system Comprising upper and lower two layers of wire-management device 38,44, to arrange or accommodate the wire rod at 36 rear of carrier.Wherein, first sliding rail Assembly 24 and first wire-management device 38 (or second sliding rail assembly 30 and second wire-management device 44) constitute a connecting assembly.

In addition, the 4th rail 34 of second sliding rail assembly 30 and the second rail 28 of the sliding assembly 24 of first rail are supported through one Connecting rod 69 and be connected with each other.Preferably, the two sides of the support link 69 be respectively connected to adjacent second connection frame 56 and this The top of three connection frames 58.

As shown in Figure 3 and Figure 4, the first lineation arm 40 of first wire-management device 38 and the second lineation arm 42 penetrate a pedestal 70 and be pivotally connected relative to each other.Specifically, the first lineation arm 40 and the second lineation arm 42 penetrate two pins 72a, 72b respectively And it is pivoted to the pedestal 70, it is located at the pedestal 70 between the first lineation arm 40 and the second lineation arm 42.First lineation Arm 40 and the second lineation arm 42 are provided with a plurality of spaced wire rod housing units 74, to accommodate above-mentioned carrier 36 Related wire rod.

Furthermore, which can be relative to each other limited through a block piece 75 with the first lineation arm 40 It is movable in the range of degree.Preferably, the one of first connector 62 opposite first lineation arm 40 through one first shaft member 76 End pivot joint.The block piece 75 be located at adjacent first shaft member 76, for example, the block piece 75 be an additional component install to this The side of one shaft member 76.Wherein, which has an at least limiting section, to provide first connector 62 and first reason Against being used when one of line arm 40 is moved to a boundary position.In this, an at least limiting section is with one first limiting section 77a and one For second limiting section 77b, can so provide respectively first connector 62 and the first lineation arm 40 against.Similarly, should Through one second shaft member 78, the one end of the opposite second lineation arm 42 is pivotally connected second connector 64.On the other hand, this is at least One first supporting element 50 is supported on the bottom of first wire-management device 38.In this, actively at least one first supporting element 50 Configuration can be used to support the first lineation arm 40 and the second lineation arm 42 in the bottom of the pedestal 70.It is noted that The structure of above-mentioned second wire-management device 44 configures substantially the same first wire-management device 38, for brevity, not in this Separately repeat.

As shown in Fig. 5, Fig. 6 and Fig. 7, two limiting sections 77a, 77b of the block piece 75 can provide first connector respectively 62 with the first lineation arm 40 against.It can when pivoting first connector 62 with respect to the first lineation arm 40 according to this configuration To limit the angle that first connector 62 and the first lineation arm 40 pivot relative to each other.

In this embodiment, having with first connector 62 and the first limiting section 77a can interconnected one first For structure 80 and one second structure 82, the first structure 80 and second structure 82 can be convex or recessed (hole) or recessed (hole) Or convex structure matching, in not limiting in implementation.

According to this configuration, when first connector 62 with respect to the first lineation arm 40 toward a direction of rotation R beat to one pre- Positioning is when setting, such as when boundary position, first connector 62 through the block piece 75 the second limiting section 77b against to this first Lineation arm 40 (such as Fig. 7) continues first connector 62 toward direction of rotation R beat from the opposite first lineation arm 40. In other words, which can be movable in limited range with respect to the first lineation arm 40 through the block piece 75.

As shown in figure 8, when first rail 26 and the third rail 32 are respectively with respect to second rail 28 and the 4th rail 34 from upper When stating stowed position P0 and being actively moved to the first extended position P1, which penetrates first rail 26 and the third rail 32 Also first extended position P1 is moved to respect to the rack 20.

Wherein, the first lineation arm 40 of first wire-management device 38 and the second lineation arm 42 gradually swing expansion, and should At least one first supporting element 50 is to support one of the first lineation arm 40 and the second lineation arm 42.Similarly, should The third lineation arm 46 of second wire-management device 44 and also the same gradually swing of the 4th lineation arm 48 are unfolded, and this at least 1 the Two supporting elements 52 are to support one of the third lineation arm 46 and the 4th lineation arm 48.

As shown in figure 9, when first rail 26 and the third rail 32 are respectively with respect to second rail 28 and the 4th rail 34 from upper When stating the first extended position P1 and being further continued for actively being moved to one second extended position P2, which penetrates first rail 26 And the third rail 32 is also further moved to second extended position P2 with respect to the rack 20.

Wherein, the first lineation arm 40 of first wire-management device 38 and the second lineation arm 42 further swing and are unfolded.It is similar Ground, the third lineation arm 46 of second wire-management device 44 and the 4th lineation arm 48 also further swing expansion.

Wherein, when first wire-management device 38 and/or second wire-management device 44 are unfolded, have through the support link 69 Help the structural stability of second rail 28 and the 4th rail 34 and has the effect of reinforced structure intensity.

Preferably, first sliding rail assembly 24 and second sliding rail assembly 30 also separately include rail 27 in one, to respectively Extend the displacement stroke of first rail 26 and the third rail 32 with respect to second rail 28 and the 4th rail 34.

According to above explanation, it is known that enhancement effect of the invention is with advantage:

A. the connector of wire-management device can be movable in limited range with respect to lineation arm through block piece.

B. when the first wire-management device and/or the second wire-management device are unfolded or fold, facilitate second through support link The structural stability of rail and the 4th rail and have the effect of reinforced structure intensity.

Although the present invention is described with reference to current specific embodiment, those of ordinary skill in the art It should be appreciated that above embodiment is intended merely to illustrate the present invention, can also make in the case where no disengaging spirit of that invention Various equivalent change and modification out, therefore, as long as to the variation of above-described embodiment, change in spirit of the invention Type will all be fallen in the range of the claim of this application book.

Claims (20)

1. a kind of wire-management device includes one first lineation arm, one second lineation arm and one first connector, it is characterised in that:

The second lineation arm and the first lineation arm can be relatively movable；And

First connector is movably connected with to the first lineation arm；

Wherein, first connector and the first lineation arm can be movable relative to each other in limited range through a block piece.

2. wire-management device according to claim 1, which is characterized in that first connector phase through one first shaft member One end pivot joint to the first lineation arm.

3. wire-management device according to claim 2, which is characterized in that the block piece be located at adjacent first shaft member, and The block piece has an at least limiting section, is moved to a boundary position to provide one of first connector and the first lineation arm When against being used.

4. wire-management device according to claim 2, which is characterized in that also penetrate one second shaft member comprising one second connector And the one end of the opposite second lineation arm is pivotally connected.

5. wire-management device according to claim 1, which is characterized in that the first lineation arm and the second lineation arm penetrate One pedestal and be pivotally connected relative to each other.

6. wire-management device according to claim 5, which is characterized in that also comprising an at least supporting element to support this first One of lineation arm and the second lineation arm.

It include one first sliding rail assembly and one first wire-management device 7. a kind of connecting assembly, wherein first sliding rail assembly includes It can one first rail movable relative to each other and one second rail, it is characterised in that:

First wire-management device includes:

One first lineation arm；

One second lineation arm and the first lineation arm can be relatively movable；And

One first connector is movably connected with to the first lineation arm, is connected to first rail to provide the first lineation arm；

Wherein, which can be movable in limited range with respect to the first lineation arm through a block piece.

8. connecting assembly according to claim 7, which is characterized in that first connector phase through one first shaft member One end pivot joint to the first lineation arm.

9. connecting assembly according to claim 8, which is characterized in that the block piece be located at adjacent first shaft member, and The block piece has one first limiting section and one second limiting section, supports to provide first connector respectively with the first lineation arm It leans on.

10. connecting assembly according to claim 8, which is characterized in that also penetrate one second axis comprising one second connector The one end of part and the opposite second lineation arm is pivotally connected, second connector to provide the second lineation arm be connected to this second Rail.

11. connecting assembly according to claim 7, which is characterized in that the first lineation arm and the second lineation arm are saturating It crosses a pedestal and is pivotally connected relative to each other.

12. connecting assembly according to claim 11, which is characterized in that also comprising an at least supporting element to support this One of one lineation arm and the second lineation arm.

13. connecting assembly according to claim 7, which is characterized in that also comprising one second sliding rail assembly and one second reason Line apparatus, second sliding rail assembly include can third rail movable relative to each other and one the 4th rail, the second wire-management device packet It can the opposite third of relatively activity, a third connector containing a third lineation arm, one the 4th lineation arm and the third lineation arm The one end of lineation arm is pivotally connected, to provide the third lineation arm be connected to the third rail, tetra- connector of Ji Yi with respect to this The one end of four lineation arms is pivotally connected, and is connected to the 4th rail to provide the 4th lineation arm.

14. connecting assembly according to claim 13, which is characterized in that also connect second sliding rail comprising a support link Second rail of the sliding assembly of the 4th rail and first rail of assembly.

15. connecting assembly according to claim 14, which is characterized in that the first lineation arm, the second lineation arm and An at least supporting element penetrate one first connection frame, one second connection frame and a third connection frame respectively and be connected to this first Rail, second rail and the 4th rail, and first connection frame, second connection frame first cunning opposite with the third connection frame The length direction of rail assembly has a predetermined altitude.

16. a kind of machine frame system includes a rack, one first sliding rail assembly, one second sliding rail assembly, a carrier and one first Wire-management device, it is characterised in that:

The rack has one first side and a second side；

First sliding rail assembly is mounted on the first side of the rack, which includes at least one first rail and one Second rail, wherein first rail can be with respect to second rail activity；

Second sliding rail assembly, is mounted on second side of the rack, which includes at least a third rail and one 4th rail, wherein the third rail can be with respect to the activity of the 4th rail；

The carrier is mounted between first sliding rail assembly and second sliding rail assembly, through first sliding rail assembly The third rail of first rail and second sliding rail assembly enables the carrier to be moved to an extension from a stowed position with respect to the rack Position；And

First wire-management device includes:

One first lineation arm is detachably connectable to the first of the carrier and first sliding rail assembly through one first connector One of rail；And

One second lineation arm movably swings expansion with the first lineation arm or draws close and folds, which is detachable Ground is connected to one of the rack and the second rail of first sliding rail assembly；

Wherein, first connector and the first lineation arm can be movable relative to each other in limited range through a block piece.

17. machine frame system according to claim 16, which is characterized in that first connector through one first shaft member and The one end of the opposite first lineation arm is pivotally connected, and the block piece is to be located at adjacent first shaft member, and the block piece has one first Limiting section and one second limiting section, to provide respectively first connector and the first lineation arm against.

18. machine frame system according to claim 16, which is characterized in that also penetrate one second axis comprising one second connector The one end pivot joint of part and the opposite second lineation arm, the second lineation arm are detachably connectable to this through second connector One of rack and the second rail of first sliding rail assembly.

19. machine frame system according to claim 16, which is characterized in that the first lineation arm and the second lineation arm are saturating It crosses a pedestal and is pivotally connected relative to each other, and also comprising an at least supporting element to support the first lineation arm and the second lineation arm One of.

20. machine frame system according to claim 16, which is characterized in that it also include one second wire-management device, second reason Line apparatus includes that a third lineation arm, one the 4th lineation arm and the third lineation arm can relatively activities, third connector work It is connected to the third lineation arm dynamicly, is detachably connectable to the carrier and second sliding rail to provide the third lineation arm One of third rail of assembly, tetra- connector of Ji Yi are movably connected with to the 4th lineation arm, to provide the 4th lineation arm It is detachably connectable to one of the 4th rail of the rack Yu second sliding rail assembly.