CN112099583B - Adjustable automatic folding cable management system - Google Patents

Abstract

The invention discloses an adjustable automatic folding cable management system which comprises a plurality of cable collators, wherein each cable collator comprises a cable limiting groove, a cable cover and a rotating spring, each cable limiting groove comprises a U-shaped groove surrounded by three side faces, one end of each cable cover is rotatably connected with the corresponding cable limiting groove, the other end of each cable cover can be clamped with the corresponding cable limiting groove, and a channel for a cable to pass through is formed between each cable cover and the corresponding cable limiting groove after the cable covers are clamped; the two cable limiting grooves are in relative rotating connection, and the rotating spring is arranged at the rotating connection position of the two cable limiting grooves and used for enabling the two cable limiting grooves to have a folding and contracting trend and enabling the cable to keep a folding and contracting trend; set up a plurality of cable collators on a cable, every cable collator makes the cable form one and buckles, consequently a cable forms a plurality of structures of buckling through a plurality of cable collators, and the interval of two adjacent cable collators can freely be adjusted, consequently does not receive the restriction of quick-witted case space, can be applied to the cable arrangement of different length.

Description

Adjustable automatic folding cable management system

Technical Field

The invention relates to the technical field of cable arrangement, in particular to an adjustable automatic folding cable management system.

Background

Today's servers are required to support more and more functions and have more variability, and therefore, many modules are derived to be placed in the servers. To maintain the operation of the server, these modules need to rely on cables to communicate with other modules inside the server.

The cables are extended and retracted to accommodate the situation where the module is pulled out of the server or pushed back into the server, which necessarily requires a certain amount of cable slack, which is a sufficient length when the module is pulled out of the server and redundancy when the module is pushed back into the server. In order to keep the cables tidy when the module is pushed back inside the server, the cables need to be sorted.

As shown in fig. 1A and 1B, the two different views of a cable organizer in the prior art are schematically illustrated; the cable arranging device 01 comprises two straight rods, a plurality of cables correspond to the cable arranging device 01, the cables 02 extend along the straight rods and are fixed on the straight rods through lock catches 03; one ends of the two straight rods are connected in a relatively rotating mode, the other ends of the two straight rods are mounted on the linear slide rail 04, the straight rods can slide in a translation mode along the linear slide rail 04, when the straight rods slide in the translation mode along the linear slide rail 04, the included angle between the two straight rods is changed, and the length of the cable is adjusted through folding of the two straight rods; the length of the cable collator is fixed, only a certain smaller range of length size can be applied, and different cable collators need to be replaced for cables with too long or too short lengths.

For those skilled in the art, how to arrange cables with different lengths is a technical problem to be solved at present.

Disclosure of Invention

The invention provides an adjustable automatic folding cable management system, which can be applied to cable arrangement with different lengths and has stronger applicability, and the specific scheme is as follows:

an adjustable automatic folding cable management system comprises a plurality of cable collators, wherein each cable collator enables a cable to form a bend;

the cable collator includes:

the cable limiting groove comprises a U-shaped groove formed by surrounding three side surfaces;

one end of the cable cover is rotatably connected with the cable limiting groove, and the other end of the cable cover can be clamped with the cable limiting groove; the cable cover is clamped and connected with the cable limiting groove to form a channel for the cable to pass through;

and the rotary spring is arranged at the rotary connection part of the two cable limiting grooves and is used for enabling the two cable limiting grooves to have the tendency of folding and contracting.

Optionally, a rotary connector is arranged between the two cable limiting grooves, and the rotary connectors are respectively rotatably connected to the end portions of the two cable limiting grooves, so that the two cable limiting grooves can rotate relatively.

Optionally, the cable limiting groove is of an axisymmetric structure, and both ends of the cable limiting groove can be rotatably connected with the rotary connector.

Optionally, the end of the two cable limiting grooves is provided with an angle limiting block, and the two angle limiting blocks can be abutted against each other to limit the opening angle of the cable collator.

Optionally, a connection ring is installed at an end of the cable limiting groove, and the connection ring can be sleeved on a wire rail arranged on the chassis to guide and limit the cable collator integrally.

Optionally, the cable limiting device further comprises a connecting rod, one end of the connecting rod is directly or indirectly connected to the cable limiting groove, and the other end of the connecting rod can be sleeved on a line rail arranged on the case.

Optionally, the cable limiting groove includes an upper cable seat and a lower cable seat, and both the upper cable seat and the lower cable seat have a right-angle bending structure formed by two side surfaces;

the cable seat of going up with one of them side of cable seat overlaps each other down to can relative slip and location, in order to adjust go up the cable seat with the distance of two sides of mutual parallel arrangement between the cable seat down.

Optionally, the upper cable seat is provided with a guide sliding block and a positioning clamping groove, and the lower cable seat is provided with a guide sliding rail and a positioning buckle;

the guide sliding block is clamped into the guide sliding rail and slides along a straight line, and the positioning buckle can be clamped into different positioning clamping grooves to fix positions.

Optionally, the cable cover includes a cable upper cover and a cable lower cover, one end of the cable lower cover is hinged to the lower cable seat, an adjusting chute is arranged on the cable lower cover, and an adjusting slider and a clamping interface are arranged on the cable upper cover;

the adjusting slide block can be guided to slide along the adjusting slide groove, and the clamping interface can be clamped and fixed on a clamping rod arranged on the cable seat.

The invention provides an adjustable automatic folding cable management system which comprises a plurality of cable collators, wherein each cable collator comprises a cable limiting groove, a cable cover and a rotating spring, each cable limiting groove comprises a U-shaped groove formed by surrounding three side faces, and a cable penetrates through the U-shaped groove and plays a role in limiting; one end of the cable cover is rotatably connected with the cable limiting groove, the other end of the cable cover can be clamped with the cable limiting groove, the cable cover can be enclosed at the open side of the U-shaped groove, and a channel for the cable to pass through is formed by the cable cover and the cable limiting groove after the cable cover is clamped, so that the cable is limited in the channel; the two cable limiting grooves are in relative rotating connection, and the rotating spring is arranged at the rotating connection position of the two cable limiting grooves and used for enabling the two cable limiting grooves to have a folding and contracting trend and enabling the cable to keep a folding and contracting trend; set up a plurality of cable collators on a cable, every cable collator makes the cable form one and buckles, consequently a cable forms a plurality of structures of buckling through a plurality of cable collators, and the interval of two adjacent cable collators can freely be adjusted, consequently does not receive the restriction of quick-witted case space, can be applied to the cable arrangement of different length.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIGS. 1A and 1B are schematic diagrams of a cable organizer of the prior art from two different perspectives;

FIG. 2A is a schematic structural view of a cable organizer;

fig. 2B and 2C are respectively a structural view of the cable organizer and the cable in cooperation with each other.

Fig. 3A to 3C are structural views of three different states of the cable limiting groove, respectively;

FIG. 4A is a schematic structural view of two parallel cable-limiting grooves;

FIG. 4B is a schematic view of the structure of two cable retaining grooves opened at an obtuse angle;

FIG. 4C is a schematic view of the two cable retention slots being opened to a maximum angle;

FIG. 4D is a schematic view of the angle stoppers abutting against each other;

FIG. 5 is a schematic view of the structure of the cable limiting groove and the cable

Figure 6A is a top view of a module within a chassis configured with two rows of rails,

figure 6B is a top view of the interior module of the chassis with a row of rails,

figure 6C is a top view of the interior module of the chassis without the rails,

FIG. 7A is a cross-sectional view of a cable retaining groove;

fig. 7B and 7C are sectional structural views of the upper cable base and the lower cable base at the second stop and the third stop, respectively;

FIG. 8A is an exploded view of a cable retaining groove;

fig. 8B is an exploded view of the various components of the cable organizer.

The figure includes:

the cable fixing device comprises a cable limiting groove 1, an upper cable seat 11, a guide sliding block 111, a positioning clamping groove 112, a clamping rod 113, a lower cable seat 12, a guide sliding rail 121, a positioning buckle 122, an angle limiting block 13, a cable cover 2, a cable upper cover 21, an adjusting sliding block 211, a clamping interface 212, a cable lower cover 22, an adjusting sliding groove 221, a rotating spring 3, a rotating connector 4, a connecting ring 5 and a connecting rod 6.

Detailed Description

The core of the invention is to provide an adjustable automatic folding cable management system, which can be applied to cable arrangement with different lengths and has stronger applicability.

In order to make those skilled in the art better understand the technical solution of the present invention, the adjustable automatic retracting cable management system of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The invention provides an adjustable automatic folding cable management system, which comprises a plurality of cable collators, wherein each cable collator bends a cable; fig. 2A is a schematic structural diagram of the cable organizer, and fig. 2B and 2C are structural diagrams of the cable organizer and the cable in cooperation with each other, respectively.

The cable collator comprises a cable limiting groove 1, a cable cover 2, a rotating spring 3 and other structures, wherein the cable limiting groove 1 comprises a U-shaped groove surrounded by three side surfaces, as shown in fig. 3A to 3C, the structure diagrams of the cable limiting groove 1 in three different states are respectively shown; the cross section of the cable limiting groove 1 is U-shaped, a groove-shaped structure with two through ends is formed, the U-shaped groove is enclosed by three side faces, the cable can be placed into the U-shaped groove from one side without the side faces, and the cable extends along the length direction of the U-shaped groove.

The cable cover 2 is arranged on one side of the U-shaped groove without lacking the side face, one end of the cable cover 2 is rotatably connected with the cable limiting groove 1, the direction of the rotating shaft is approximately parallel to the extending direction of the cable, the other end of the cable cover 2 can be clamped with the cable limiting groove 1, and the cable cover 2 and the cable limiting groove 1 form a channel for the cable to pass through after being clamped with each other; the length of the cable cover 2 is smaller than that of the cable limiting groove 1, if the length of the cable limiting groove 1 is too long, two cable covers 2 can be arranged, and generally only one cable cover 2 needs to be arranged on one cable limiting groove 1; the cable can be put into when the cable lid 2 is opened, and is spacing with the cable when the cable lid 2 is closed.

The cable collator comprises at least two cable limiting grooves 1, the cable limiting grooves 1 are in relative rotation connection, a rotating spring 3 is arranged at the rotation connection position of the two cable limiting grooves 1 and used for enabling the two cable limiting grooves 1 to have the tendency of folding and contracting, and the two cable limiting grooves 1 are in a parallel state under the condition of not being subjected to other external force, as shown in fig. 4A, the cable collator is a schematic structural diagram that the two cable limiting grooves 1 are in a parallel state; fig. 4B is a schematic structural view of two cable limiting grooves 1 opened to form an obtuse angle; fig. 4C is a schematic structural view of the two cable limiting grooves 1 being opened to the maximum angle; when the cable is under tension, the two cable limiting grooves 1 are opened, and the larger the tension is, the larger the opening angle is.

According to the adjustable automatic folding cable management system, the plurality of cable collators are arranged on one cable, and each cable collator enables the cable to form one bending, so that one cable forms a plurality of bending structures through the plurality of cable collators; the cable collator has the tendency of folding and shrinking, so that the cable can be bent and shrunk to keep a folded state; when the module is pulled out of the server, the cable is pulled to be flat, and the angle of the two cable limiting grooves 1 is expanded to be increased, so that the length requirement of the pulled cable of the module is met; when the module was pushed back the server, the pulling force that the cable received was got rid of, and under the elastic force effect of rotating spring 3, the angular contraction of two cable spacing grooves 1 reduced, and the cable is folded, keeps the clean and tidy of the inside cable of server.

The distance between two adjacent cable collators in the adjustable automatic folding cable management system can be freely adjusted, so that the adjustable automatic folding cable management system is not limited by the space of a case, and a cable forms a multi-bending structure through the mutual matching of a plurality of cable collators, so that the folding requirement of the cable is met, and the adjustable automatic folding cable management system can be applied to the cable collation of different lengths and has higher application flexibility.

On the basis of the scheme, the rotary connector 4 is arranged between the two cable limiting grooves 1, the rotary connectors 4 are respectively and rotatably connected to the end parts of the two cable limiting grooves 1, and the two cable limiting grooves 1 are rotatably connected through the rotary connector 4, so that the two cable limiting grooves 1 can rotate relatively. Of course, if the end of the cable limiting groove 1 is provided with a bent structure, the two cable limiting grooves 1 can be directly hinged and connected.

Preferably, the cable limiting grooves 1 in the cable limiting device are of an axisymmetric structure, two ends of each cable limiting groove 1 can be rotatably connected with the rotary connector 4, the cable limiting grooves 1 are not divided into left and right parts during machining and manufacturing, the same specification is adopted, machining cost is saved, any two cable limiting grooves 1 can be connected with the rotary connector 4 during assembling, and assembling is facilitated.

The end parts of the two cable limiting grooves 1 are provided with angle limiting blocks 13, the two angle limiting blocks 13 on the two adjacent cable limiting grooves 1 can be mutually abutted to limit the opening angle of the cable collator, and as shown in fig. 4D, the angle limiting blocks 13 are schematic diagrams of mutual abutment; it sets up two angle stopper 13 respectively at every end of cable spacing groove 1 shown in the figure, and cable spacing groove 1 can't continue to open when angle stopper 13 mutual butt has injectd the biggest opening angle of cable on the one hand, and the excessive deformation of rotating spring 3 is avoided to another direction.

As shown in fig. 5, it is a schematic structural diagram of the cable limiting groove 1 and the cable; the connecting ring 5 is installed at the end part of the cable limiting groove 1, a hole is formed in the angle limiting block 13, the connecting ring 5 is installed in the hole, and the connecting ring 5 can be sleeved on a wire rail arranged on the case to limit the overall guide of the cable collator. The connecting ring 5 can also be directly fixed on the cable limiting groove 1 or adopt other forms.

As shown in fig. 6A, a top view structure diagram of a module inside a chassis with two rows of wire rails is shown, wherein two wire rails a are arranged, B in the drawing shows a cable organizer, the length direction of the wire rails is parallel to the moving direction of the module, i.e. the arrow direction in the drawing, when the module moves downwards along the arrow, the module is pulled out in a lateral moving manner, and when the module moves upwards along the arrow, the module is pushed into the chassis in a lateral moving manner.

Two rows of wire rails are arranged in fig. 6A, each wire rail can guide a plurality of cable collators, the cable collators can move along a straight line through the wire rails and keep at the height limited by the wire rails, the cable collators cannot move downwards due to gravity, and the cables are always kept at the same height.

As shown in fig. 6B, for a top view structure diagram of a chassis internal module provided with a row of wire rails, for a chassis where two wire rails are not allowed to be provided under certain spatial conditions, only one wire rail may be provided, in order to be able to limit other cable organizers, a connecting rod 6 is further provided, one end of the connecting rod 6 is directly or indirectly connected to the cable limiting groove 1, and the other end can be sleeved on the wire rail provided on the chassis; the connecting rod 6 can be directly connected to the opening of the cable organizer or can be connected to the opening by the connecting ring 5, and these embodiments are all included in the scope of the present invention.

The wire track structure is not necessary, and as shown in fig. 6C, the top view structure of the internal module of the chassis without the wire track is a structure that the wire track can be extended to a longer length without the wire track.

On the basis of any one of the above technical solutions and the combination thereof, the cable limiting groove 1 of the present invention includes an upper cable seat 11 and a lower cable seat 12, as shown in fig. 7A, which is a cross-sectional structure view of the cable limiting groove 1; the upper cable seat 11 and the lower cable seat 12 are both of a right-angle bending structure formed by two side surfaces, namely the section is L-shaped and is formed by two vertical plate surfaces; one of the side surfaces of the upper and lower cable trays 11 and 12 is overlapped with each other and can be slid and positioned relatively to adjust the distance between the two side surfaces disposed parallel to each other between the upper and lower cable trays 11 and 12, i.e., the length of d in fig. 7A.

The present invention provides a specific arrangement form of mutual adjustment of the upper cable seat 11 and the lower cable seat 12, as shown in fig. 7B and 7C, which are respectively cross-sectional structure diagrams of the upper cable seat 11 and the lower cable seat 12 at the second gear and the third gear; the upper cable seat 11 is provided with a guide sliding block 111 and a positioning clamping groove 112, the drawing is provided with three positioning clamping grooves 112, each positioning clamping groove 112 corresponds to a gear, and the lower cable seat 12 is provided with a guide sliding rail 121 and a positioning clamping buckle 122; the guide slider 111 is inserted into the guide rail 121 to slide linearly, that is, vertically in fig. 7B and 7C, and the positioning fastener 122 can be inserted into different positioning fastener slots 112 to fix the position.

Fig. 7A shows the first gear, the positioning buckle 122 is engaged with the uppermost positioning slot 112, and the vertical height of the entire cable limiting groove 1 is the minimum; fig. 7B is at every second position, and moves upward in the direction of the arrow relative to fig. 7A, the positioning buckle 122 is engaged with the positioning slot 112 in the middle, and the height of the cable limiting groove 1 is increased; in the third position shown in fig. 7C, when the cable stopper is moved upward in the direction of the arrow relative to fig. 7B, the positioning catch 122 is engaged with the lowermost positioning slot 112, and the height of the cable stopper groove 1 is further increased.

The invention is explained by taking the arrangement of three gears as an example, namely, three positioning clamping grooves 112 with different heights are arranged and adjusted according to the number of cables so as to achieve the best matching effect and prevent the cables from moving in the cable limiting groove 1.

As shown in fig. 8A, is an exploded view of the cable retaining groove 1; FIG. 8B is an exploded view of the various components of the cable organizer; the cable cover 2 includes a cable upper cover 21 and a cable lower cover 22, the cable upper cover 21 and the cable lower cover 22 are separately and independently disposed, one end of the cable lower cover 22 is hinged to the lower cable seat 12, that is, the lower end of the cable lower cover 22 is hinged to the lower cable seat 12, and the cable lower cover 22 can rotate relative to the lower cable seat 12.

The cable lower cover 22 is provided with an adjusting chute 221, the adjusting chute 221 shown in the figure is a flat through hole which is arranged along the plate surface direction of the cable lower cover 22 in a penetrating way, and the cable upper cover 21 is provided with an adjusting slider 211 and a clamping interface 212; the adjusting slide block 211 can be clamped into the adjusting slide groove 221, the adjusting slide block 211 and the adjusting slide groove 221 are in guiding fit with each other, the adjusting slide block 211 slides along the adjusting slide groove 221 in a guiding manner, and then the vertical position of the whole cable upper cover 21 is adjusted.

The clamping interface 212 can be clamped and fixed on the clamping rod 113 arranged on the upper cable seat 11, the clamping interface 212 is a cylindrical groove, the cross section of the clamping interface is an arc, elastic deformation can be generated, and then the clamping interface is clamped on the clamping rod 113 to realize relative fixation.

When the upper cable seat 11 moves to different gear positions, the upper cable cover 21 can correspondingly move vertically, and can be clamped and fixed with the clamping rod 113 at the three gear positions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and features disclosed herein.

Claims (7)

1. An adjustable automatic folding cable management system is characterized by comprising a plurality of cable collators, wherein each cable collator bends a cable;

the cable collator includes:

the cable limiting groove (1) comprises a U-shaped groove formed by enclosing three side surfaces;

one end of the cable cover (2) is rotatably connected with the cable limiting groove (1), and the other end of the cable cover can be clamped with the cable limiting groove (1); the cable cover (2) is clamped and then forms a channel for the cable to pass through with the cable limiting groove (1);

the rotary spring (3) is arranged at the rotary connection position of the two cable limiting grooves (1) and is used for enabling the two cable limiting grooves (1) to have the tendency of folding and contracting;

the cable limiting groove (1) comprises an upper cable seat (11) and a lower cable seat (12), and the upper cable seat (11) and the lower cable seat (12) are both of right-angle bending structures formed by two side surfaces;

one side surface of the upper cable seat (11) and one side surface of the lower cable seat (12) are mutually overlapped and can relatively slide and be positioned so as to adjust the distance between the two side surfaces which are arranged in parallel with each other between the upper cable seat (11) and the lower cable seat (12);

the cable cover (2) comprises a cable upper cover (21) and a cable lower cover (22), one end of the cable lower cover (22) is hinged with the cable lower seat (12), an adjusting sliding groove (221) is formed in the cable lower cover (22), and an adjusting sliding block (211) and a clamping interface (212) are arranged on the cable upper cover (21);

adjust slider (211) can follow adjust spout (221) direction slip, joint interface (212) can the joint be fixed on cable seat (11) go up the joint pole (113) that set up.

2. The adjustable automatic folding cable management system according to claim 1, wherein a rotary connector (4) is disposed between the two cable retaining grooves (1), and the rotary connectors (4) are respectively rotatably connected to the ends of the two cable retaining grooves (1) so that the two cable retaining grooves (1) can rotate relatively.

3. The system as claimed in claim 2, wherein the cable retaining groove (1) is an axisymmetric structure, and both ends of the cable retaining groove (1) are rotatably connected to the rotary connector (4).

4. The adjustable automatic folding cable management system according to claim 3, wherein the two cable limiting grooves (1) are provided with angle limiting blocks (13) at the ends thereof, and the two angle limiting blocks (13) can abut against each other to limit the opening angle of the cable organizer.

5. The adjustable automatic folding cable management system according to claim 1, wherein the end of the cable limiting groove (1) is provided with a connecting ring (5), and the connecting ring (5) can be sleeved on a wire rail arranged on the chassis to guide and limit the cable organizer as a whole.

6. The adjustable automatic folding cable management system according to claim 5, further comprising a connecting rod (6), wherein one end of the connecting rod (6) is directly or indirectly connected to the cable limiting groove (1), and the other end of the connecting rod can be sleeved on a wire rail arranged on the chassis.

7. The adjustable automatic folding cable management system according to claim 6, wherein the upper cable seat (11) is provided with a guiding slider (111) and a positioning slot (112), and the lower cable seat (12) is provided with a guiding slide rail (121) and a positioning buckle (122);

the guide sliding block (111) is clamped in the guide sliding rail (121) and slides along a straight line, and the positioning clamp (122) can be clamped in different positioning clamp grooves (112) to fix positions.

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