CN201584205U - Flat type wirecable structure - Google Patents

Abstract

The utility model discloses a plurality of flat type wirecable structures, which comprise a plurality of transmission core wire units and an insulation outer layer coating the transmission core wire units and being in a flat strip body shape; one structure is as follows: the outer edge of at least one of two side end surfaces of the insulation outer layer is protruded with a first flange along with the extending direction of the wirecable, so that after the wirecable is wound into a ring, the side end surface of the wirecable insulation outer layer at one layer of an inner wirecable layer and an outer wirecable layer props against the first flange of the side end surface of the wirecable insulation outer layer at another adjacent layer; and another structure is as follows: the middle part of one end surface of the insulation outer layer is provided with a second flange protruding outwards along with the extending direction of the wirecable, and the same position of the other end surface of the insulation outer layer is provided with a concave part recessing inwards along the extending direction of the wirecable; or, the utility model is a combined structure consisting of the first flange and the second flange. The improved flat type wirecable structure is easy to be wound, contained and located, and facilitates the direction recognition of an electric connector when in plugging.

Description

The platypelloid type cable structure

Technical field

The utility model relates to several platypelloid type cable structures.

Background technology

Computer equipment now and peripheral product and various electronic products etc. all can utilize transmission cable as the media that electrically connects between two electronic installations, reach desired signal transmission operation then.Therefore, transmission cable widespread usage transmits at the signal of various electronic installations, but too much cable easily causes problem disorderly and difficult arrangement.

The roughly rounded or platypelloid type of the section of present transmission cable, though transmission cable can repeat bending or coiling and take in and improve above-mentioned problem, but take in the neither easy arrangement of mode for these two kinds, and in the process of taking in, the situation that is easy to unclamp is arranged and cause loosely, cause the user to carry, perplex greatly when collecting then.

Summary of the invention

The technical problems to be solved in the utility model is: at the deficiencies in the prior art, provide a kind of improved platypelloid type cable structure, be easy to reel and take in the location, and make things convenient for the direction recognition of electric connector when pegging graft.

The technical solution of the utility model is: a kind of platypelloid type cable structure, several transmission heart yearn unit and the described insulating outer layer that several transmit heart yearn unit and are flat elongate body shape of parcel of comprising parallel arranged, in two side end faces of described insulating outer layer, has first flange that is extruded with a cable prolonging direction along the line on the outer rim of a side end face at least, make after the platypelloid type cable is rolled into circle body, the side end face of one deck cable insulating outer layer in the ectonexine cable is resisted against on corresponding first flange of insulating outer layer side end face of another adjacent layer line cable.

Further, all be extruded with first flange of a cable prolonging direction along the line on the outer rim of two side end faces of described insulating outer layer respectively.

Further, the middle part of an end face of described insulating outer layer also is provided with a cable prolonging direction along the line and the second outwards outstanding flange, and the same position in the other end of insulating outer layer is provided with a cable prolonging direction along the line and inside recessed recess.

Further, described platypelloid type cable structure comprises an electronics heart yearn district and is positioned at a coaxial inner conductor district of electronics heart yearn district one side, and described any one transmission heart yearn unit or belong to electronics heart yearn district perhaps belongs to the coaxial inner conductor district.

Further, described electronics heart yearn district comprises the electronics heart yearn of some parallel arranged, and every electronics heart yearn comprises the first interior insulated hull of one first plain conductor and this first plain conductor of coating; Described coaxial inner conductor district comprises the coaxial inner conductor of some parallel arranged, and every coaxial inner conductor comprises two second plain conductors, the two second interior insulated hull and separators that coat insulated hulls in described two second that coat second plain conductor respectively.

Further, described electronics heart yearn is the signal line of low-frequency signal transmission, and described coaxial inner conductor is the signal line of high-frequency signals transmission.

The utility model has also proposed another kind of platypelloid type cable structure, several transmission heart yearn unit and the described insulating outer layer that several transmit heart yearn unit and are flat elongate body shape of parcel of comprising parallel arranged, the middle part of an end face of described insulating outer layer is provided with a cable prolonging direction along the line and the second outwards outstanding flange, and the same position in the other end of insulating outer layer is provided with a cable prolonging direction along the line and inside recessed recess.

Further, described platypelloid type cable structure comprises an electronics heart yearn district and is positioned at a coaxial inner conductor district of electronics heart yearn district one side, and described any one transmission heart yearn unit or belong to electronics heart yearn district perhaps belongs to the coaxial inner conductor district.

Further, described electronics heart yearn district comprises the electronics heart yearn of some parallel arranged, and every electronics heart yearn comprises the first interior insulated hull of one first plain conductor and this first plain conductor of coating; Described coaxial inner conductor district comprises the coaxial inner conductor of some parallel arranged, and every coaxial inner conductor comprises two second plain conductors, the two second interior insulated hull and separators that coat insulated hulls in described two second that coat second plain conductor respectively.

Further, described electronics heart yearn is the signal line of low-frequency signal transmission, and described coaxial inner conductor is the signal line of high-frequency signals transmission.

The utility model has the advantages that: the insulating outer layer that is flat elongate body makes that cable can be easy to furl, and the outer rim projection in insulating outer layer has flange, use and make cable in the process that furls, the insulating outer layer of adjacent cables is resisted against on the adjacent flange and locatees, be easy to loose problem with improvement, promote the user in carry, convenience when collecting.On the other hand, by the setting of flange, then can make things convenient for the direction recognition of electric connector when pegging graft, the connector that will be connected on the cable with correct direction is plugged in the socket connector.Secondly, electronics heart yearn district and coaxial inner conductor district can be divided in transmission heart yearn unit, and cable is had provides the function of the signal transmission of high frequency and low frequency.

Below in conjunction with drawings and Examples the utility model is further described:

Fig. 1 is the stereogram of first embodiment of platypelloid type cable structure of the present utility model;

Fig. 2 is the stereogram of second embodiment of platypelloid type cable structure of the present utility model;

Fig. 3 is the stereogram of the 3rd embodiment of platypelloid type cable structure of the present utility model;

Fig. 4 is the stereogram of the 4th embodiment of platypelloid type cable structure of the present utility model;

Fig. 5 is the stereogram of the 5th embodiment of platypelloid type cable structure of the present utility model.

Wherein: 1 transmission heart yearn unit; 10 electronics heart yearn districts; 11 electronics heart yearns; 111 first plain conductors; Insulated hull in 112 first; 20 coaxial inner conductor districts; 21 coaxial inner conductors; 211 second plain conductors; Insulated hull in 212 second; 213 separators; 3 insulating outer layer; 31,31 ' first flange; 31 " second flange; 32 ones.

Embodiment

Embodiment: that shown in Figure 1 is first embodiment of platypelloid type cable structure, includes 9 transmission heart yearn unit 1, and is coated on an insulating outer layer 3 outside all transmission heart yearn unit 1.Each transmission heart yearn unit 1 is arranged in parallel, and it is in one line, and there is transmission heart yearn unit 1 in insulating outer layer 3 residence that is coated and fixed, be the elongate body of a platypelloid type, and the outer rim projection of a side end face of insulating outer layer 3 has first flange 31 of a cable prolonging direction along the line.

The platypelloid type cable comprises an electronics heart yearn district 10 and is positioned at a coaxial inner conductor district 20 of electronics heart yearn district 10 1 sides that each transmits heart yearn unit 1 or belongs to electronics heart yearn district 10, or belongs to coaxial inner conductor district 20.In the present embodiment, electronics heart yearn district 10 comprises 5 transmission heart yearn unit 1, i.e. 5 electronics heart yearns 11 side by side, each bar electronics heart yearn 11 comprise one first plain conductor 111 and one coat first plain conductor 111 first in insulated hull 112.Electronics heart yearn 11 can be used as the signal line of low-frequency signal transmission.In the present embodiment, coaxial inner conductor district 20 comprises 4 transmission heart yearn unit 1, i.e. 4 coaxial inner conductors 21 side by side, each coaxial inner conductor 21 comprise two second plain conductors 211, two coat respectively second plain conductor 211 second in insulated hull 212, and one coat two second in the separator 213 of insulated hulls 212.Coaxial inner conductor 21 can be used as the signal line of high-frequency signals transmission, and quantity can be four or five.

In first embodiment, first flange 31 is from a side end face projection of insulating outer layer 3 outer rims and go out.When the platypelloid type cable was wound into circle body, the insulating outer layer 3 of ectonexine cable was also adjacent, and the insulating outer layer that is flat elongate body is beneficial to the collection of reeling.In the process that cable is reeled, insulating outer layer 3 lateral ends that are wound into one deck cable in the adjacent two layers cable of circle body are resisted against on first flange 31 of another adjacent layer line cable, thereby insulating outer layer 3 is positioned to circle body, uses making cable can be easy to furl, and improve the problem that is easy to get loose.

On the other hand, the cable connector (not shown) of all can having arranged in pairs or groups usually is used for being plugged on a socket connector that is equipped with mutually, and when pegging graft, user regular meeting runs into the situation that makes the grafting anisotropy that misplugs.The projection on insulating outer layer 3 of present embodiment has the structure of first flange 31, then can point out the user correct grafting direction when pegging graft, with reduction misplug may.

Be illustrated in figure 2 as second embodiment of the present utility model, the both sides end face of insulating outer layer 3 outer rims all respectively projection first flange 31,31 ' of a cable prolonging direction along the line is arranged.In the process of reeling, the insulating outer layer 3 outer rim left and right sides ends that are wound into one deck cable in the adjacent two layers cable of circle body can both be resisted against respectively on two first flanges 31,31 ' of another adjacent layer line cable, can displacement and loose, the effect of strong fix more in the ectonexine cable coiling thereby make.

Be illustrated in figure 3 as the 3rd embodiment of the present utility model, this platypelloid type cable structure, comprise described several transmission heart yearn unit of several transmission heart yearn unit and one parcel of parallel arranged and be the insulating outer layer of flat elongate body shape that introduces among the structure of transmission heart yearn unit and first embodiment is identical.On two side end faces of the insulating outer layer 3 of present embodiment first flange is not set, but be provided with a cable prolonging direction along the line and the second outwards outstanding flange 31 at the middle part of an end face of insulating outer layer 3 ", and the same position in the other end of insulating outer layer 3 is provided with a cable prolonging direction along the line and inside recessed recess 32.Be wound into second flange 31 of insulating outer layer 3 end faces of the astragal cable in the adjacent two layers cable of circle body " then be resisted against in the recess 32 of adjacent face of another astragal cable, thus add the effect of strong fix.Second flange 31 " setting that cooperates with recess 32, the direction recognition during convenient pegging graft.

Be illustrated in figure 4 as the 4th embodiment of the present utility model, present embodiment is the equal of the synthetic of first embodiment and the 3rd embodiment.One first flange 31 is from a side projection of insulating outer layer 3 outer rims and go out, be provided with a cable prolonging direction along the line and the second outwards outstanding flange 31 at the middle part of an end face of insulating outer layer 3 outer rims ", and the same position in the other end of correspondence is provided with a cable prolonging direction along the line and inside recessed recess 32.So in the process of reeling, a side end face that is wound into insulating outer layer 3 outer rims of one deck cable in the adjacent two layers cable of circle body can be resisted against on first flange 31 of another adjacent layer line cable; Second flange 31 of the insulating outer layer 3 outer rim end faces of the astragal cable in the adjacent two layers cable " then be resisted against in the recess 32 of another adjacent astragal cable, thus add the effect of strong fix.Same, second flange 31 " setting that cooperates with recess 32, the direction recognition in the time of then further facilitating grafting.

Be illustrated in figure 5 as the 5th embodiment of the present utility model, present embodiment is the equal of the synthetic of second embodiment and the 3rd embodiment.The two side ends of insulating outer layer 3 outer rims of cable all respectively projection one first flange 31,31 ' is arranged, be provided with a cable prolonging direction along the line and the second outwards outstanding flange 31 at the middle part of an end face of insulating outer layer 3 outer rims ", and the same position in the other end of correspondence is provided with a cable prolonging direction along the line and inside recessed recess 32.Therefore, in winding process, insulating outer layer 3 outer rims that are wound into circle body then can be resisted against on first flange 31,31 ' of adjacent two side ends, second flange 31 " be resisted against in the adjacent recess 32; thus can strengthen locating effect, and promote the direction recognition when pegging graft.

The above only is a preferred embodiment of the present utility model, can not limit the scope that the utility model is implemented with this, and all simple conversion of doing according to the utility model claim and description all should still belong to protection range of the present utility model.

Claims (10)

1. platypelloid type cable structure, several transmission heart yearn unit (1) and the described insulating outer layer (3) that several transmit heart yearn unit (1) and are flat elongate body shape of parcel of comprising parallel arranged, it is characterized in that: in (3) two side end faces of described insulating outer layer, has first flange (31) that is extruded with a cable prolonging direction along the line on the outer rim of a side end face at least, make after the platypelloid type cable is rolled into circle body, the side end face of one deck cable insulating outer layer (3) in the ectonexine cable is resisted against on corresponding first flange (31) of insulating outer layer (3) side end face of another adjacent layer line cable.

2. according to the platypelloid type cable structure described in the claim 1, it is characterized in that: first flange (31,31 ') that all is extruded with a cable prolonging direction along the line on the outer rim of (3) two side end faces of described insulating outer layer respectively.

3. according to the platypelloid type cable structure described in claim 1 or 2, it is characterized in that: the middle part of an end face of described insulating outer layer (3) also is provided with a cable prolonging direction along the line and outwards outstanding second flange (31 "), and the same position in the other end of insulating outer layer (3) is provided with a cable prolonging direction along the line and inside recessed recess (32).

4. according to any described platypelloid type cable structure in the claim 1 to 3, it is characterized in that: described platypelloid type cable structure comprises an electronics heart yearn district (10) and is positioned at a coaxial inner conductor district (20) of electronics heart yearn district (10) one sides that described any one transmission heart yearn unit (1) belongs to electronics heart yearn district (10) or coaxial inner conductor district (20).

5. according to the platypelloid type cable structure described in the claim 4, it is characterized in that: described electronics heart yearn district (10) comprises the electronics heart yearn (11) of some parallel arranged, and every electronics heart yearn (11) comprises one first plain conductor (111) and coats the first interior insulated hull (112) of this first plain conductor (111); Described coaxial inner conductor district (20) comprises the coaxial inner conductor (21) of some parallel arranged, and every coaxial inner conductor (21) comprises two second plain conductors (211), the two second interior insulated hull (212) and separators (213) that coat insulated hulls (212) in described two second that coat second plain conductor (211) respectively.

6. according to the platypelloid type cable structure described in the claim 5, it is characterized in that: described electronics heart yearn (11) is the signal line of low-frequency signal transmission, and described coaxial inner conductor (21) is the signal line of high-frequency signals transmission.

7. platypelloid type cable structure, several transmission heart yearn unit (1) and the described insulating outer layer (3) that several transmit heart yearn unit (1) and are flat elongate body shape of parcel of comprising parallel arranged, it is characterized in that: the middle part of an end face of described insulating outer layer (3) is provided with a cable prolonging direction along the line and outwards outstanding second flange (31 "), and the same position in the other end of insulating outer layer (3) is provided with a cable prolonging direction along the line and inside recessed recess (32).

8. according to the platypelloid type cable structure described in the claim 7, it is characterized in that: described platypelloid type cable structure comprises an electronics heart yearn district (10) and is positioned at a coaxial inner conductor district (20) of electronics heart yearn district (10) one sides that described any one transmission heart yearn unit (1) belongs to electronics heart yearn district (10) or coaxial inner conductor district (20).

9. the platypelloid type cable structure described in according to Claim 8, it is characterized in that: described electronics heart yearn district (10) comprises the electronics heart yearn (11) of some parallel arranged, and every electronics heart yearn (11) comprises one first plain conductor (111) and coats the first interior insulated hull (112) of this first plain conductor (111); Described coaxial inner conductor district (20) comprises the coaxial inner conductor (21) of some parallel arranged, and every coaxial inner conductor (21) comprises two second plain conductors (211), the two second interior insulated hull (212) and separators (213) that coat insulated hulls (212) in described two second that coat second plain conductor (211) respectively.

10. according to the platypelloid type cable structure described in the claim 9, it is characterized in that: described electronics heart yearn (11) is the signal line of low-frequency signal transmission, and described coaxial inner conductor (21) is the signal line of high-frequency signals transmission.

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