CN207801373U - A kind of cable accommodating device - Google Patents

Abstract

The utility model discloses a kind of cable accommodating devices, including multiple storage wire casings, the trend of cable is spliced successively along multiple storage wire casings, store the accommodating chamber for being formed in wire casing and accommodating cable, the storage online cable diameter of wire casing has been upwardly formed loading port, storage wire casing is formed with communication port in the end in cable axial direction, and communication port is connected with loading port, and the accommodating chamber of multiple storage wire casings is connected to by communication port.Utilize modular combination, by cable accommodating device modularization, form multiple storage wire casings that can splice, multiple storage wire casings can successively be spliced according to the layout path of cable, the accommodating chamber of multiple storage wire casings is sequentially communicated to form channel after splicing, cable is arranged in channel, the chaotic cable of bending is fixed in wire casing, cover all cables, the line change of bending is in line, so that the cable being bent in a jumble is fixed neatly, cable can be hidden, and install convenient is made by connecting method.

Description

Cable storage device

Technical Field

The utility model relates to a cable is accomodate the technique, especially relates to a cable storage device.

Background

Because the household appliances of various sizes are more and more newly added in a home, each appliance needs to be connected to a power socket by a cable to get electricity, the television also needs various signal transmission cables, and is the shortest connecting device in a living room, because the length of each wire is different and is the standard of various manufacturers, the wires are difficult to arrange together, so that countless cables are mixed, although some devices for fixing the cables are arranged on the market, the wires need to be installed on a wall body, holes need to be punched, the operation is complex, the cost is higher, and a device for storing and fixing the cables by a hose is also provided, but the various wires are arranged into a longer hose more inconveniently, and even if the wires are installed, the appearance effect of the hose is equivalent to a thick cable, the best effect of really hiding the cable is not achieved, so that the television is necessary to provide a device which is convenient to install and low in cost, the device can completely hide various cables.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a cable storage device is provided, can hide the cable, and it is convenient to install.

In order to solve the technical problem, the embodiment of the utility model provides a cable storage device, including a plurality of storage wire casing, it is a plurality of the storage wire casing splices in proper order along the trend of cable, be formed with the chamber that holds that is used for holding the cable in the storage wire casing, the storage wire casing is formed with the dress mouth on the cable footpath, the storage wire casing is being followed the ascending tip department of cable axial is formed with the intercommunication mouth, the intercommunication mouth with the dress mouth is connected, and is a plurality of the storage wire casing hold the chamber and pass through the intercommunication mouth intercommunication.

The cable storage device further comprises a plurality of cable covers, the cable covers are connected with the storage wire grooves, and the cable covers cover the loading ports.

Wherein, one the line lid with adjacent two accomodate the wire casing concatenation, and one the line lid covers adjacent two the loading mouth of wire casing, one the wire casing the loading mouth cover has two the line lid.

A wire clamp used for fixing a cable is arranged in the accommodating cavity;

the accommodating line groove is fixedly connected with the attachment surface, the loading port is arranged towards the direction far away from the attachment surface, and the line card is fixedly or detachably connected with the accommodating line groove; or,

the wire cover is fixedly connected with the attachment surface, the wire clamp is fixedly connected with the wire cover or detachably connected with the wire cover, the loading port faces the attachment surface, and the storage wire slot is buckled on the wire cover.

Wherein, adjacent two be provided with the joint structure between the accommodation wire casing.

Wherein, the whole flexible material that can bend of storage wire casing makes.

Wherein two opposite side walls of the loading opening of the storage trunking can be connected in a snap-fit manner to close the loading opening.

The section of the accommodating wire groove in the axial direction perpendicular to the cable is U-shaped, L-shaped or circular arc-shaped.

The cross section of the accommodating slot in the axial direction perpendicular to the cable is U-shaped, two support arms of the U-shaped accommodating slot are side plates, the middle part of the U-shaped accommodating slot is a bottom plate, the side plates and the bottom plate are plate-shaped, the side plates are vertically fixed on the bottom plate, and the accommodating port is opposite to the bottom plate.

The plurality of accommodating wire slots comprise one or the combination of more than two of standard wire slots, long wire slots, T-shaped branching wire slots, first corner wire slots, second corner wire slots, third corner modules and telescopic wire slots;

the two communication ports of the standard wire slot are respectively positioned at two ends of the standard wire slot in the axial direction of the cable; the bottom plate and the side plate of the standard wire slot are both rectangular plate-shaped, and the length direction of the standard wire slot is the axial direction of the cable;

the two communication ports of the long wire groove are respectively positioned at two ends of the long wire groove in the axial direction of the cable; the bottom plate and the side plate of the long wire groove are both rectangular plate-shaped, and the length direction of the long wire groove is the axial direction of the cable; the length of the long wire groove is greater than that of the standard wire groove;

the accommodating cavity, the loading port and the bottom plate of the T-shaped branching line groove are all in a T shape, the end surfaces of three support arms of the T-shaped branching line groove in the axial direction perpendicular to the cable inside the T-shaped branching line groove are respectively in a U shape, and communication ports are formed at the end parts of the three support arms of the T-shaped branching line groove; the T-shaped branching line slot is provided with three side plates, each side plate comprises a straight side plate and two L-shaped side plates, and the straight side plates extend along the straight side of the bottom plate of the T-shaped branching line slot; the two L-shaped side plates are oppositely arranged and respectively extend along two inner right-angle sides of the bottom plate of the T-shaped branching line slot;

the first corner line groove is L-shaped as a whole, and the end faces of the two support arms of the first corner line groove, which are perpendicular to the axial direction of the cable inside the first corner line groove, are U-shaped respectively; the loading opening, the bottom plate and the side plate of the first corner wire casing are also L-shaped; the two communication ports are respectively positioned at the end parts of the two support arms of the first corner line groove; the two plate-shaped support arms of the bottom plate of the first corner trunking are positioned on two intersecting planes; two side plates of the first corner wire casing are both positioned at the L-shaped internal corner of the bottom plate of the first corner wire casing, and two plate-shaped support arms of the side plates of the first corner wire casing are positioned on the same plane;

the second corner wire casing is L-shaped as a whole, and the end faces of the two support arms of the second corner wire casing, which are perpendicular to the axial direction of the cable inside the second corner wire casing, are U-shaped respectively; the installation opening, the bottom plate and the side plate of the second corner wire casing are also L-shaped; the two communication ports are respectively positioned at the end parts of the two support arms of the second corner trunking; the two plate-shaped support arms of the bottom plate of the second corner trunking are positioned on two intersecting planes; two side plates of the second corner trunking are both positioned at the L-shaped external corner of the bottom plate of the second corner trunking, and two plate-shaped support arms of the side plates of the second corner trunking are positioned on the same plane;

the third corner wire casing is L-shaped as a whole, and the end faces of the two support arms of the third corner wire casing, which are perpendicular to the axial direction of the cable inside the third corner wire casing, are U-shaped respectively; the loading opening, the bottom plate and the side plate of the third corner wire casing are also L-shaped; the two communication ports are respectively positioned at the end parts of the two support arms of the third corner trunking; the two plate-shaped support arms of the bottom plate of the third corner trunking are positioned on the same plane; two side plates of the second corner trunking are both positioned on the same plate surface of a bottom plate of the second corner trunking, and two plate-shaped support arms of the side plates of the third corner trunking are positioned on two vertical planes;

the length of the bottom plate and the length of the side plate of the telescopic wire groove in the axial direction of the cable can be adjusted in a telescopic mode.

The cable accommodating device also comprises at least one of a terminal connecting module, a row of plug end wire slots and a plug row box;

the terminal connecting module is plate-shaped and comprises a connecting plate and a baffle plate which are integrally formed, the connecting plate is used for being spliced with the receiving wire slot, the baffle plate extends out of the receiving wire slot, the receiving wire slot is used for being fixedly connected with an attachment surface, and a gap is formed between the baffle plate and the attachment surface;

the power taking socket comprises a row socket end wire slot, a cover and a top plate, wherein the row socket end wire slot is used for covering the position of a power taking socket and is in a cover shape, the cover comprises a peripheral plate and the top plate, the peripheral plate is in an annular shape and is arranged along the edge of the top plate, a wire threading opening is formed in the peripheral plate and is used for being communicated with a communication opening of the storage wire slot, a connecting lug is formed in the top plate in an extending mode at the wire threading opening and is spliced with the storage;

the socket box is used for accommodating socket, comprises a box body and a box cover which are buckled, and is provided with a threading hole for enabling a cable to penetrate into the box body.

And the adjacent two storage wire grooves are magnetically connected.

Wherein one of the wire covers is magnetically connected with one of the wire slots.

The utility model provides a cable storage device, utilize modular compound mode, with cable storage device modularization, form a plurality of storage wire casing that can splice, a plurality of storage wire casings can splice according to the overall arrangement trend of cable in proper order, a plurality of storage wire casings hold the chamber and communicate in proper order and form the passageway after the concatenation, the cable sets up in the passageway, fix crooked chaotic cable in the wire casing, cover all cables, become the line of bending into the straight line, make mixed and disorderly crooked cable fixed neat, can hide the cable, and it is convenient to make the installation through the concatenation mode.

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 these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a cable accommodating device according to a preferred embodiment of the present invention applied to a cable layout;

FIG. 2 is a schematic view of the cable storage device of FIG. 1 with the cable cover installed;

FIG. 3 is a schematic end view of a standard raceway arrangement of the cable storage arrangement of FIG. 1;

FIG. 4 is a schematic diagram of the standard trunking and trunking cover of FIG. 3;

FIG. 5 is a schematic view of the standard wire trough and the wire cover of FIG. 4 in another state;

FIG. 6 is a schematic view of the configuration of the longline trough of the cable storage apparatus of FIG. 1;

FIG. 7 is a schematic view of the T-shaped distribution trunking of the cable storage device of FIG. 1;

figure 8 is a schematic view of a first corner trunking of the cable storage device of figure 1;

figure 9 is a schematic view of a second corner trunking of the cable storage device of figure 1;

figure 10 is a schematic view of a third corner trunking of the cable storage device of figure 1;

FIG. 11 is a schematic view of the retractable raceway arrangement of the cable storage device of FIG. 1;

FIG. 12 is a schematic view of the row of terminal trunking of the cable storage device of FIG. 1;

fig. 13 is a schematic view of a terminal connection module of the cable storage device of fig. 1;

FIG. 14 is a schematic view of a row of jacks of the cable storage device of FIG. 1;

fig. 15 is a schematic structural view of another embodiment of a storage slot of a middle cable storage device according to the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The utility model provides a cable containing device in the preferred embodiment, which comprises a plurality of containing wire grooves and a plurality of wire covers; the cable storage groove is formed in the groove, a containing cavity used for containing a cable is formed in the groove, the section of the containing groove in the axial direction of the cable perpendicular to the axial direction of the cable is U-shaped, an installing opening is formed in the opening of the containing groove, a communicating opening is formed in the end portion of the containing groove in the axial direction of the cable, the communicating opening is communicated with the installing opening, and the containing cavity of the containing groove is communicated with the communicating opening.

Utilize the modular compound mode, with the cable storage device modularization, form a plurality of storage wire casing that can splice, a plurality of storage wire casings can splice according to the overall arrangement trend of cable in proper order, the chamber that holds of a plurality of storage wire casings after the concatenation communicates in proper order and forms the passageway, the cable sets up in the passageway, fix crooked chaotic cable in the wire casing, cover all cables, become the straight line with crooked line, make mixed and disorderly crooked cable fixed neat, can hide the cable, and it is convenient to make the installation through the concatenation mode. Accomodate the wire casing can with the attachment surface fixed connection, the dress mouth orientation is kept away from the orientation setting of attachment surface, and after the chamber is packed into holding to the cable, rethread line lid covers the dress mouth of wire casing, can accomodate the cable to make the wiring clean and tidy. As preferred, a line lid is connected simultaneously in two take-in wire casings to a take-in wire casing links to each other simultaneously with two line lids, can improve the joint strength between the take-in wire casing. Here, in another embodiment, the cable may be directly fixed to the attachment surface without providing a cable cover, and the storage slot may be reversed to the slot toward the attachment surface at the installation opening of the storage slot, so that the cable may be stored in the storage slot and the exterior may be tidy.

As shown in fig. 1-2, an embodiment of the present invention provides a layout manner of a cable storage device, including a standard wire slot 1, a long wire slot 2, a T-shaped branch wire slot 3, a first corner wire slot 41, a second corner wire slot 42, a third corner module 43, a retractable wire slot 5, a terminal connection module 6, a row socket wire slot 7, a row socket box 8 and a wire cover 9.

Standard wire casing 1, long wire casing 2, T shape separated time wire casing 3, first corner wire casing 41, second corner wire casing 42 and scalable wire casing 5 are a plurality of different concrete implementation modes of accomodating the wire casing respectively, can select one of them or a plurality of to splice in the use, and the wire casing of accomodating that specifically uses can be according to the overall arrangement trend of cable and set up, describes each accomodating the wire casing one by one below. In this embodiment, the cross section of each storage slot perpendicular to the axial direction of the cable is U-shaped, and the opening of the U-shape forms the loading port. Here, in other embodiments, a cross section of the receiving wire groove perpendicular to the axial direction of the cable may also be an L shape or an arc shape, or a trapezoid with an open bottom side, or the like.

The standard wire slot 1 is a connecting wire slot at the middle section of the cable and has a basic standard length. The standard trunking 1 can be configured with a larger number so as to be spliced into various lengths. The length here refers to the dimension in the axial direction of the cable. Preferably, the length of the standard wire chase 1 may be 10-20 cm.

As shown in fig. 3-5, a receiving cavity 10 for receiving a cable is formed in the standard trunking 1, the section of the standard trunking 1 in the direction perpendicular to the axial direction of the cable is U-shaped, and an installation opening 101 is formed at the opening of the standard trunking 1, so that the cable is installed into the receiving cavity through the installation opening 101. The standard trunking 1 is formed with two communication ports 102 at the end in the cable axial direction, and the two communication ports 102 are respectively located at two ends of the standard trunking 1 in the cable axial direction. The communication port 102 is communicated with the loading port 101, the accommodating cavities 10 of the plurality of standard modules are communicated through the communication port 102, and after cables are loaded into the accommodating cavities 10 through the loading port 101, the cables can extend into the accommodating cavities 10 of other accommodating trunking through the communication port 102.

The two U-shaped supporting arms of the standard trunking 1 are side plates 11, the middle part of the side plates is a bottom plate 12, the side plates 11 and the bottom plate 12 are both plate-shaped, the side plates 11 are vertically fixed on the bottom plate 12, and the loading port 101 is opposite to the bottom plate 12, so that the standard trunking 1 can be conveniently processed and prepared. Further, the bottom plate 12 and the side plate 11 are both rectangular plate-shaped, and the longitudinal direction thereof is the axial direction of the cable. An inlet 101 and a communication port 102 are formed between the two side plates 11, the two communication ports 102 are respectively located at both ends of the side plates 11, and the inlet 101 is disposed opposite to the bottom plate 12. The bottom plate 12 and the two side plates 11 can be integrally formed, so that the processing and the preparation are convenient. The plate-shaped bottom plate 12 is utilized to facilitate the fixed connection between the standard wire casing 1 and the attachment surface.

A plurality of line cards 19 are arranged in the accommodating cavity 10 of the standard trunking 1 and used for fixing cables in the accommodating cavity 10 to prevent multiple cables from being stirred together, so that the multiple cables in the accommodating cavity 10 are neat. The line card 19 may be secured directly within the standard trunking 1, and in particular, in this embodiment, the line card 19 is secured to the backplane 12. A plurality of line cards 19 may be arranged in the width direction of the standard trunking 1 to fix a plurality of cables side by side. It will be appreciated that the width of the standard trunking 1 refers to the distance between the two side plates 11. The line cards 19 may also be secured to the side panels 11 so that the cables are disposed along the side panels 11. Here, in other embodiments, the line card 19 is detachably connected to the standard trunking 1, for example, an insertion post may be fixed on the line card 19, an insertion hole is formed on the standard trunking 1, and the insertion post is inserted into the insertion hole, so that the line card 19 can be detachably connected to the standard trunking 1, at this time, the line card 19 may be configured as a plurality of line cards 19 with various diameter specifications to adapt to cables with various diameters, detachable structures between the line cards 19 with various specifications and the standard trunking 1 are the same, and in the installation process, line cards 19 with different specifications may be selected to be assembled into trunking according to cables with different diameters; the line card 19 and the line slot can be connected through other detachable structures such as a buckle.

As shown in fig. 3-4, a protrusion 13 is disposed at an end of the side plate 11 away from the bottom plate 12, a groove 93 is disposed on the wire cover 9, the protrusion 13 is in interference fit with the groove 93, and when the wire cover is assembled, the groove 93 can be aligned with the protrusion 13, so that the protrusion 13 is inserted into the groove 93, thereby realizing splicing between the cover plate and the side plate 11. The protrusion 13 may be block-shaped or strip-shaped, and the corresponding groove 93 may also be block-shaped or strip-shaped. Here, in other embodiments, the cover plate and the side plates 11 may be spliced by a matching structure of a hook and a slot, or the wire cover 9 and the loading port 101 are directly in interference fit, that is, the wire cover 9 is directly clamped between the two side plates 11. Of course, in other embodiments, one of the wire covers and one of the wire slots may also be connected together by way of a magnetic connection.

As shown in fig. 6, the long trunking 2 is a storage trunking longer than the standard trunking 1, and is used for installation at a position where the routing distance is long. It can be understood that the length of the standard wire slot 1 and the long wire slot 2 refers to the distance between two communication ports. The two U-shaped support arms of the long wire groove 2 are side plates 21, the middle part of each support arm is a bottom plate 22, the side plates 21 and the bottom plates 22 are both plate-shaped, the side plates 21 are vertically fixed on the bottom plates 22, the loading ports 201 are opposite to the bottom plates 22, and two communication ports 202 are respectively located at two ends of the standard wire groove 1 in the axial direction of the cable; the bottom plate 22 and the side plate 21 of the standard trunking 1 are both rectangular plate-shaped, and the length direction of the standard trunking 1 is the axial direction of the cable. The long raceway 2 may differ from the standard raceway 1 only in length dimension. The length of the long wire chase 2 is preferably more than twice the length of the standard wire chase 1 to accommodate longer distance wiring. In the specific implementation process, only the long wire groove 2 can be equipped, the short standard wire groove 1 is formed by cutting the long wire groove 2, a plurality of wire clamps 19 are arranged in the accommodating cavity 20 of the long wire groove 2 and used for fixing the cables in the accommodating cavity 20 to prevent a plurality of cables from being mixed together,

as shown in fig. 7, the T-shaped branching line groove 3 is T-shaped as a whole. A T-shaped accommodating cavity 30 for accommodating a cable is formed in the T-shaped branching line groove 3, the end faces of the three support arms of the T-shaped branching line groove 3, which are perpendicular to the axial direction of the cable inside the T-shaped branching line groove, are U-shaped, an accommodating opening 301 is formed at the opening of the U-shaped accommodating cavity, and the accommodating opening 301 is also T-shaped. The ends of the three arms of the T-shaped branching line groove 3 are all formed with communication ports 302, that is, three communication ports 302 are formed to guide cables to different directions. The T-shaped branching line slot 3 includes a bottom plate 32 and three side plates, the bottom plate 32 is T-shaped, and includes a straight side plate 31a and two L-shaped side plates 31b, and the straight side plate 31a extends along the straight side of the bottom plate 32. The two L-shaped side plates 31b are oppositely arranged and respectively extend along two inner right-angle sides of the bottom plate 32. The connecting structure between the T-shaped distributing line slot 3 and the line cover 9 is the same as the connecting structure between the standard line slot 1 and the line cover 9, and the description is omitted here.

First corner wire casing 41, second corner wire casing 42 and third corner wire casing 43 are used for realizing the right angle overall arrangement that turns round of cable, and wherein, first corner wire casing 41 is used for realizing that the cable just is the corner of reentrant angle between two mutually perpendicular planes, and second corner wire casing 42 is used for realizing that the cable just is the corner of external angle between two mutually perpendicular planes, and third corner wire casing 43 is used for realizing the corner of cable on the coplanar.

As shown in fig. 8, a receiving cavity 10 for receiving a cable is formed in the first corner trunking 41, the first corner trunking 41 is generally L-shaped, two arms of the first corner trunking 41 are respectively U-shaped at end faces perpendicular to an axial direction of the cable therein, an entrance 4101 is formed at an opening of the U-shape, and the entrance 4101 of the first corner trunking 41 is also L-shaped. The communication ports 4102 are two and are located at the end portions of the two arms of the first corner line groove 41. Two communication ports 4102 are connected to both ends of the charging port 4101. The bottom plate 412 and the side plate 411 of the first corner trunking 41 are both L-shaped, and two plate-shaped support arms of the bottom plate 412 are positioned on two intersecting planes; both side plates 411 are located at the female corners of the L-shape of the bottom plate 412 so that the fitting opening 4101 is located at the female corners of the L-shape of the second corner trunking 42. The two plate-like arms of the side plate 411 are located on the same plane. The use of two arms of the base plate 412 allows for a corner of the cable between two mutually perpendicular planes, such as a corner of the cable at a wall internal corner.

As shown in fig. 2, the fitting opening 4101 of the first corner line groove 41 is covered by two line covers each having a flat plate shape and connected to the two arms of the line groove, respectively. The connection mode of the wire cover of the first corner wire groove 41 and the wire groove can be the same as that of the standard wire groove 1, and the corresponding splicing between the first corner wire groove 41 and the standard wire groove 1 can be facilitated.

As shown in fig. 9, a receiving cavity 420 for receiving a cable is formed in the second corner trunking 42, the second corner trunking 42 is generally L-shaped, two end faces of the two arms of the second corner trunking 42 in an axial direction perpendicular to the cable therein are U-shaped, an installation opening 4201 is formed at an opening of the U-shape, and the installation opening 4201 of the second corner trunking 42 is also L-shaped. The communication ports 4202 are two, and are located at the ends of the two arms of the second corner line groove 42, respectively. Two communication ports 4202 are connected to both ends of the loading port 4201, respectively. The bottom plate 422 and the side plate 421 of the second corner trunking 42 are both L-shaped, and two plate-shaped support arms of the bottom plate 422 are positioned on two intersecting planes; both side plates 421 are located at the outer corner of the L-shape of the bottom plate 422, so that the loading opening 4201 is located at the outer corner of the L-shape of the second corner trunking 42. The two plate-like arms of the side plate 421 are located on the same plane. The corner of the cable between two mutually perpendicular planes, for example at the corner of a wall, can be achieved by means of two arms of the base plate 422.

As shown in fig. 2, the loading opening 201 of the second corner trunking 42 is covered by two line covers, each of which is flat and connected to two arms of the trunking. The connection mode of the wire cover of the second corner wire slot 42 and the wire slot can be the same as that of the standard wire slot 1, and the corresponding splicing between the second corner wire slot 42 and the standard wire slot 1 can be facilitated.

As shown in fig. 10, a receiving cavity 10 for receiving a cable is formed in the third corner trunking 43, the third corner trunking 43 is L-shaped as a whole, two end surfaces of two support arms of the third corner trunking 43 in an axial direction perpendicular to the cable therein are U-shaped, a loading opening 4301 is formed at an opening of the U-shape, and the loading opening 4301 of the third corner trunking 43 is also L-shaped. The communication ports 4302 are two, and are respectively located at the end portions of the two support arms of the third corner line groove 43. Two ends of the inlet 4301 are connected to two communication ports 4302, respectively. The bottom plate 432 and the side plate 431 are both L-shaped, and two plate-shaped support arms of the bottom plate 432 are positioned on two same planes; both side plates 431 are located at the same face of the bottom plate 432. The two plate-like legs of the side plate 431 lie in two intersecting planes. The use of the two arms of the third corner trunking 43 allows the rotation of the cables on the same plane to be achieved.

As shown in fig. 2, the wiring duct entry 4301 of the third corner wiring duct 43 is covered by two wire covers 9, each of which 99 has a flat plate shape and is connected to two arms of the third corner wiring duct 43, respectively. The connection mode of the third corner trunking 43 and the trunking cover can be the same as that of the standard trunking 1, and the third corner trunking 43 and the standard trunking 1 can be conveniently spliced correspondingly.

As shown in fig. 11, a receiving cavity for receiving a cable is formed in the retractable wire casing 5, the retractable wire casing 5 has a U-shaped cross section perpendicular to the axial direction of the cable, and an entry opening is formed at an opening thereof so that the cable is inserted into the receiving cavity 10 through the entry opening. The two communication ports are formed at the end part of the telescopic wire casing 5 in the axial direction of the cable and are respectively positioned at the two ends of the standard wire casing 1 in the axial direction of the cable. The intercommunication mouth is linked together with the dress mouth, and scalable wire casing 5 hold the chamber and pass through intercommunication mouth and other storage wire casings intercommunication, and the cable is packed into through the dress mouth and is held the chamber in, and the cable can extend to other storage wire casings hold the chamber through the intercommunication mouth.

The length of the bottom plate 52 and the side plate 51 of the telescopic wire groove in the axial direction of the cable can be telescopically adjusted, and the telescopic wire groove 5 is mainly used for the length that the residual covering length of the cable is not suitable for a long module and a standard module, so that a module with the freely adjustable length is required to cover the position.

In an embodiment of the retractable trunking, the bottom plate 52 and the side plate 51 of the retractable trunking 5 are both made of flexible material and made of corrugated shape, and both the bottom plate 52 and the side plate 51 can be stretched or compressed, so that the length of the retractable trunking 5 on the cable axis therein can be adjusted. In a specific implementation mode of the telescopic wire slot, the telescopic wire slot comprises a plurality of sub slots, each sub slot is U-shaped, two adjacent sub slots are sleeved, the two adjacent sub slots are in sliding connection in the axial direction of the cable, and when the plurality of sub slots slide in the axial direction of the cable, the length of the whole telescopic wire slot can be changed.

The both ends of scalable wire casing 5 can be connected with connecting wire groove 53 respectively, through connecting wire groove 53 realize with other concatenation of accomodating between the wire casing. The connecting wire slot is a wire slot with a length shorter than that of the standard wire slot 1, and the structure of the connecting wire slot is the same as that of the standard wire slot 1, and the detailed description is omitted here. Here, in other embodiments, both ends of the retractable wire duct 5 may be directly spliced with other storage wire ducts without providing a connection wire duct.

As shown in fig. 2, the wire cover connected to the retractable wire slot 5 may be a retractable wire cover 54, the retractable wire cover 54 is a corrugated structure made of a flexible material, and the retractable wire cover is plate-shaped. The telescopic wire cover 54 can be used for realizing telescopic operation, and the length of the telescopic wire slot 5 is conveniently matched correspondingly, so that the loading port 201 of the telescopic wire slot 5 is covered. The both ends of the retractable wire cover 54 may be provided with connection plates 55, the connection plates 55 may be of a non-retractable structure, and the connection plates 55 may be plate-shaped having a length shorter than that of the wire cover.

As shown in fig. 1-2 and fig. 12, the terminal connection module 6 is mainly installed at a connection portion between the terminal device and the cable, the terminal connection module 6 is plate-shaped and can be spliced with the storage slot, the terminal connection module 6 covers an installation opening 201 of the slot, a gap is provided between the terminal connection module 6 and the attachment surface, and the gap can form a space for accommodating the terminal device so as to shield the slot of the terminal device and the cable. The wire casing can guarantee the flexibility of cable with terminal connection position certain distance apart from, and terminal equipment can remove in the space between terminal connection module 6 and the attachment surface, facilitates the use.

Terminal connection module 6 includes integrated into one piece's connecting plate 61 and shielding plate 62, and connecting plate 61 and the concatenation of accomodating the wire casing, shielding plate 62 extend to outside the accomodating the wire casing, are provided with the clearance between shielding plate 62 and the attachment surface. Utilize connecting plate 61 can realize with the assembly connection who accomodates the wire casing, shielding plate 62 can shelter from terminal equipment. The connecting plate 61 is square, and the size of the connecting plate matches with the loading port 201 of the storage trunking, and the connecting plate can cover half or so of the loading ports 201. The shielding plate 62 may be square, circular, or the like, and has a size larger than that of the connecting plate, so that the terminal device can be shielded well. When the loading opening 201 is arranged towards the attachment surface, the connection plate can be brought into an assembly connection with the base plate 22.

As shown in fig. 1-2 and 13, the socket 7 of the power strip is a position covering the power-taking socket, and can cover the plug, so that the appearance is attractive. The row-inserting end wire casing 7 is in a cover shape and comprises a peripheral plate 71 and a top plate 72, the peripheral plate 71 is in a ring shape arranged along the edge of the top plate 72, a threading opening 70 is formed in the peripheral plate and is used for being communicated with the communication openings 102 of other accommodating wire casings, so that a cable can be threaded through, the top plate 72 is fixedly connected with the peripheral plate 71, and the top plate 72 and the peripheral plate 71 are matched with each other to completely cover the position of a plug. The top plate 72 is extended at the threading opening to form a connecting lug 73, and the connecting lug 73 is spliced with other receiving slots to cover part of the loading opening 201 of the corresponding receiving slot. The structure of engaging lug can be the same with the structure of line lid, through the same structure realization with accomodate being connected of wire casing.

As shown in fig. 1-2 and 14, the row box 8 is a box for housing the row, and prevents the row from being exposed to the outside and disorderly cables. The socket box 8 comprises a box body 81 and a box cover 82 which are buckled with each other, and a threading hole 80 is formed in the box body so that a cable can be threaded into the box body 81. After the cable is connected with the power strip, the power strip is arranged in the box body 81 of the power strip box 8, and then the box cover 82 is covered, so that the power strip is stored, and the power strip is prevented from being exposed and disordered. The cover 82 can be opened to insert the plug of the electric appliance into the socket.

As shown in the figure, the utility model relates to an in the specific use, need be laid wire by the socket to two different positions departments of row of inserting and terminal equipment. An array of plug termination slots 7 is arranged at the socket for covering the socket. Three standard wire grooves 1 are sequentially arranged close to the socket along the linear direction, and a third corner wire groove is spliced at the standard wire groove 1 far away from the socket and used for right-angle turning on the same plane. The other end of the third corner wire casing is connected with a long wire casing 2, the other end of the long wire casing 2 is sequentially connected with a first corner wire casing 41 and a second corner wire casing 42, and the first corner wire casing 41 and the second corner wire casing 42 can be used for realizing cable layout at a step. One end of the second corner wire slot 42, which is far away from the socket, is connected to an arm of the T-shaped wire distribution slot 3, and the T-shaped wire distribution slot 3 can divide the cable into two groups, which are respectively wired to the extension socket and the terminal device. An arm of the T-shaped branching line groove 3, which is far away from the socket, is connected with a telescopic line groove, the other end of the telescopic line groove, which is far away from the T-shaped branching line groove 3, is connected with a terminal connection module 6, a connection plate of the terminal connection module 6 is spliced with the telescopic line groove, and the connection plate can be used for realizing the splicing with the telescopic line groove and covering a part loading port 201 of the telescopic line groove. The other support arm of the T-shaped branching line slot 3, which is far away from the socket, is sequentially connected with a standard line slot 1 and a third corner line slot 43. The other end of the third corner wire casing 43, which is far away from the socket, is sequentially connected with the long wire casing 2, the standard wire casing 1 and the telescopic wire casing 5, and the end part of the telescopic wire casing 5 is provided with the socket box 8 so as to accommodate the socket.

After the layout of each storage slot is completed, the cable is stored in a channel formed by each storage slot, and finally the cable cover is installed, so that one cable cover can be connected with two adjacent storage slots, the cable is shielded in the storage slots, and the wiring is tidy.

Utilize the utility model provides an above-mentioned each concrete structure of accomodating wire casing can follow the wiring overall arrangement of walking of cable and splice, covers all cables, becomes the straight line with crooked line for mixed and disorderly crooked cable is fixed neat, and simple to operate.

In the above embodiment, can be fixed to each storage wire casing respectively to the adhesion surface on, the concatenation can be realized to two adjacent storage wire casings mutual butt. Here, in other embodiments, a clamping structure may be provided between two adjacent storage slots, for example, a mating structure of a plug hole and a plug post, and a mating structure of a hook and a slot are provided, so as to firmly connect the two storage slots together, thereby improving the structural strength of the whole cable storage device. Of course, in other embodiments, two adjacent ones of the receiving slots are magnetically connected. Specifically, one the storage wire slot is provided with a first magnetic part, the other the storage wire slot is provided with a second magnetic part, and the storage wire slot is magnetically connected with the other second magnetic part on the storage wire slot through the first magnetic part. It is understood that the first magnetic member and the second magnetic member may both be magnets, or the first magnetic member may be a magnet and the second magnetic member may be a ferromagnetic material. The magnetic connection structure is beneficial to the disassembly and assembly of two adjacent wire slots.

In the above embodiment, the storage trunking is fixedly connected to the attachment surface, the fitting opening faces in a direction away from the attachment surface, the wire cover is in a square plate shape, the size of the wire cover matches with the fitting opening of the standard trunking, and the fitting openings of the plurality of storage trunking can be completely covered by the plurality of wire covers. Here, in other embodiments, can carry out fixed connection with the attachment surface earlier the line lid, the ply-yarn drill can carry out fixed connection or detachable connection with the line lid, fixes the cable to the line lid, will accomodate the wire casing back-off in the line lid again for the line lid is installed to loading mouth department, because the loading mouth is towards the attachment surface, the size of line lid need not to be the same with the size of loading mouth, only need can realize the line lid and accomodate being connected between the wire casing can.

In the above embodiment, the first, second and third corner wire slots are used to realize the corner of the cable, and in other embodiments, the storage wire slot may be made of a flexible material that can be bent as a whole. Correspondingly, the wire cover can also be made of flexible materials capable of being bent so as to be spliced with the storage wire slot.

In the above embodiment, the cable storage groove is covered with the cable cover, or the cable storage groove is oriented toward the attachment surface, so that the cable is completely stored in the storage cavity without leaking. Here, in other embodiments, both side walls at the opening of the receiving slot can be snap-connected to close the loading opening. For example, as shown in fig. 15, the storage trunking 1a is U-shaped, two opposite support arms 11a of the storage trunking 1a can be connected in a snap-fit manner, after the cable is fixed in the accommodating cavity of the storage trunking, the two support arms 11a of the U-shape of the storage trunking 1a are bent, so that the tops of the two support arms 11a are close to each other, and the two support arms are connected in a snap-fit manner, so that the installation opening is closed, the storage trunking 1a can completely shield the cable, and the appearance is simple. Furthermore, two support arms 11a of the U-shaped of the storage wire groove 1a can be bent into arc shapes, and the two support arms can form an arc surface with a smooth outer surface after being connected in a buckling mode, so that the overall appearance is simple and attractive. Or when the accommodating slot is L-shaped, a first support arm of the two support arms is fixedly connected with the attachment surface, and the second support arm is bent to be connected with the first support arm in a buckling manner so as to accommodate the cable between the first support arm and the second support arm. The above embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (13)

1. The utility model provides a cable storage device, its characterized in that includes a plurality of storage wire casing, and is a plurality of storage wire casing splices in proper order along the trend of cable, be formed with the chamber that holds that is used for holding the cable in the storage wire casing, storage wire casing is formed with the mouth of dress in the cable footpath, storage wire casing is following cable ascending tip department is formed with the intercommunication mouth, the intercommunication mouth with the mouth of dress is connected, and is a plurality of storage wire casing hold the chamber and pass through the intercommunication mouth intercommunication.

2. The cable storage device of claim 1, further comprising a plurality of wire covers, the wire covers being connected to the storage trunking and the wire covers covering the loading ports.

3. The cable storage arrangement of claim 2, wherein one said cover is spliced to two adjacent said storage trunking, and one said cover covers a loading port of two adjacent said trunking, the loading port of one said trunking being covered by two said covers.

4. The cable storage device of claim 2, wherein a line card for securing a cable is disposed within the receiving cavity;

the accommodating line groove is fixedly connected with the attachment surface, the loading port is arranged towards the direction far away from the attachment surface, and the line card is fixedly or detachably connected with the accommodating line groove; or,

the wire cover is fixedly connected with the attachment surface, the wire clamp is fixedly connected with the wire cover or detachably connected with the wire cover, the loading port faces the attachment surface, and the storage wire slot is buckled on the wire cover.

5. The cable storage device of claim 1, wherein a snap-fit structure is provided between two adjacent storage slots.

6. The cable storage device of claim 1, wherein the storage trunking is formed entirely of a flexible material that can be bent.

7. The cable storage device of claim 1, wherein two opposing sidewalls of the storage slot loading opening are snapably connectable to close the loading opening.

8. The cable storage device according to any one of claims 1 to 7, wherein the section of the storage slot perpendicular to the axial direction of the cable is U-shaped, L-shaped, or circular arc-shaped.

9. The cable housing device according to any one of claims 1 to 7, wherein the housing slot has a U-shaped cross section perpendicular to the axial direction of the cable, two arms of the U-shape of the housing slot are a side plate, a middle portion of the U-shape is a bottom plate, the side plate and the bottom plate are both plate-shaped, the side plate is perpendicularly fixed to the bottom plate, and the loading opening is disposed opposite to the bottom plate.

10. The cable storage device of claim 9, wherein the plurality of storage slots include one or a combination of two or more of a standard slot, a long slot, a T-shaped branching slot, a first corner slot, a second corner slot, a third corner module, and a retractable slot;

the two communication ports of the standard wire slot are respectively positioned at two ends of the standard wire slot in the axial direction of the cable; the bottom plate and the side plate of the standard wire slot are both rectangular plate-shaped, and the length direction of the standard wire slot is the axial direction of the cable;

the two communication ports of the long wire groove are respectively positioned at two ends of the long wire groove in the axial direction of the cable; the bottom plate and the side plate of the long wire groove are both rectangular plate-shaped, and the length direction of the long wire groove is the axial direction of the cable; the length of the long wire groove is greater than that of the standard wire groove;

the accommodating cavity, the loading port and the bottom plate of the T-shaped branching line groove are all in a T shape, the end surfaces of three support arms of the T-shaped branching line groove in the axial direction perpendicular to the cable inside the T-shaped branching line groove are respectively in a U shape, and communication ports are formed at the end parts of the three support arms of the T-shaped branching line groove; the T-shaped branching line slot is provided with three side plates, each side plate comprises a straight side plate and two L-shaped side plates, and the straight side plates extend along the straight side of the bottom plate of the T-shaped branching line slot; the two L-shaped side plates are oppositely arranged and respectively extend along two inner right-angle sides of the bottom plate of the T-shaped branching line slot;

the first corner line groove is L-shaped as a whole, and the end faces of the two support arms of the first corner line groove, which are perpendicular to the axial direction of the cable inside the first corner line groove, are U-shaped respectively; the loading opening, the bottom plate and the side plate of the first corner wire casing are also L-shaped; the two communication ports are respectively positioned at the end parts of the two support arms of the first corner line groove; the two plate-shaped support arms of the bottom plate of the first corner trunking are positioned on two intersecting planes; two side plates of the first corner wire casing are both positioned at the L-shaped internal corner of the bottom plate of the first corner wire casing, and two plate-shaped support arms of the side plates of the first corner wire casing are positioned on the same plane;

the second corner wire casing is L-shaped as a whole, and the end faces of the two support arms of the second corner wire casing, which are perpendicular to the axial direction of the cable inside the second corner wire casing, are U-shaped respectively; the installation opening, the bottom plate and the side plate of the second corner wire casing are also L-shaped; the two communication ports are respectively positioned at the end parts of the two support arms of the second corner trunking; the two plate-shaped support arms of the bottom plate of the second corner trunking are positioned on two intersecting planes; two side plates of the second corner trunking are both positioned at the L-shaped external corner of the bottom plate of the second corner trunking, and two plate-shaped support arms of the side plates of the second corner trunking are positioned on the same plane;

the third corner wire casing is L-shaped as a whole, and the end faces of the two support arms of the third corner wire casing, which are perpendicular to the axial direction of the cable inside the third corner wire casing, are U-shaped respectively; the loading opening, the bottom plate and the side plate of the third corner wire casing are also L-shaped; the two communication ports are respectively positioned at the end parts of the two support arms of the third corner trunking; the two plate-shaped support arms of the bottom plate of the third corner trunking are positioned on the same plane; two side plates of the second corner trunking are both positioned on the same plate surface of a bottom plate of the second corner trunking, and two plate-shaped support arms of the side plates of the third corner trunking are positioned on two vertical planes;

the length of the bottom plate and the length of the side plate of the telescopic wire groove in the axial direction of the cable can be adjusted in a telescopic mode.

11. The cable storage device of claim 1, further comprising at least one of a termination connection module, a row terminal slot, and a row box;

the terminal connecting module is plate-shaped and comprises a connecting plate and a baffle plate which are integrally formed, the connecting plate is used for being spliced with the receiving wire slot, the baffle plate extends out of the receiving wire slot, the receiving wire slot is used for being fixedly connected with an attachment surface, and a gap is formed between the baffle plate and the attachment surface;

the power taking socket comprises a row socket end wire slot, a cover and a top plate, wherein the row socket end wire slot is used for covering the position of a power taking socket and is in a cover shape, the cover comprises a peripheral plate and the top plate, the peripheral plate is in an annular shape and is arranged along the edge of the top plate, a wire threading opening is formed in the peripheral plate and is used for being communicated with a communication opening of the storage wire slot, a connecting lug is formed in the top plate in an extending mode at the wire threading opening and is spliced with the storage;

the socket box is used for accommodating socket, comprises a box body and a box cover which are buckled, and is provided with a threading hole for enabling a cable to penetrate into the box body.

12. The cable storage device of claim 1, wherein adjacent two of the storage slots are magnetically connected.

13. The cable storage device of claim 2, wherein one of the cable covers is magnetically coupled to one of the cable troughs.