CN206915010U - Binding band - Google Patents

Abstract

The utility model discloses a kind of binding band, including tie body, in strip and flexible deformation, tie body has medial surface and the lateral surface relative with medial surface, enclose to form binding space during the medial surface fitting of tie body head and the tail, the cross section at tie body head and the tail fitting position is adapted to beamline apertures；And multiple spacing preiections, located at the lateral surface of tie body, spacing preiection abuts with beamline apertures edge part away from the side in binding space, to lock the cable in binding space.The utility model cable tie structure is simple, easy to operate, only needs one-handed performance when in use, and need not precisely align, so as to realize the fast accurate cabling requirement in small space.

Description

Binding band

Technical field

It the utility model is related to cable wiring bundling technique field, it is more particularly to a kind of for cabinet cable cloth line tying Binding band.

Background technology

The cable bundle that binding band is widely used in communication apparatus, automobile and household electrical appliance etc. is fixed.Especially communicating With electric utility, it is necessary to arrange various cables in rack, with the development of industry, the product such as rack subrack is gradually to miniaturization Development, therefore the cabling requirement more and more higher to product.The binding band of prior art is generally flat banded design, and uses The mode locked end to end, the head of binding band being directed at the lock of afterbody and then tensed and is tied up, locking process needs bimanualness, And need precisely to align in locking, operational comfort is poor；In addition, the design of flattening causes binding band in use Easily by by needing to bundle again on the contrary, therefore the accurate cloth line tying of cable is completed in narrow space, to operator It is very difficult for member, so as to influence wiring efficiency.

Utility model content

Main purpose of the present utility model is to propose a kind of binding band, it is intended to which solving traditional binding band needs both hands to grasp Make, it is inconvenient for use, and the accurately technical problem of cloth line tying requirement can not be met quickly in small space.

To achieve the above object, the utility model proposes binding band, including：

Tie body, in strip and flexible deformation, the tie body have medial surface and with the medial surface phase To lateral surface, enclose to form binding space during the medial surface fitting of the tie body head and the tail, tie body head and the tail paste The cross section for closing position is adapted to beamline apertures；And

Multiple spacing preiections, located at the lateral surface of the tie body, the spacing preiection and the beamline apertures edge part Away from the binding space side abut, to lock the cable in the binding space.

Preferably, the medial surface is plane, and the lateral surface is cambered surface, and the cross section of the tie body is semicircle Shape.

Preferably, the both ends of the tie body are provided with spigot surface, and the spigot surface is guiding the tie body to wear It is placed in the beamline apertures.

Preferably, the spigot surface is tilted from the lateral surface towards the medial surface and extended, and is enclosed with the medial surface Close and form a cone.

Preferably, the spacing preiection is made up of elastomeric material.

Preferably, the spacing preiection includes guide surface and confined planes；It is described when the tie body is in extended configuration Confined planes and the tie body are perpendicular, and the guide surface deviates from the binding band body from the edge of the confined planes Midpoint tilt extension formed.

Preferably, the spacing preiection also includes roof and two side walls being oppositely arranged, the roof, two side walls and Enclose to form a cavity between the tie body, the guide surface is formed at the roof.

Preferably, the tie body and spacing preiection are integrated injection molding, are offered in the tie body and institute State the fabrication hole of cavity connection.

Preferably, the spacing preiection is two groups, is symmetrically arranged in two sections end to end of the tie body.

Preferably, the beamline apertures are shaped as square or rhombus.

The utility model binding band by setting multiple spacing preiections on strip and bending deformed tie body, When being tied up to cable, the medial surface of tie body head and the tail is bonded to each other so that tie body, which encloses, can house cable Binding space, now tie body head and the tail fitting position cross section be adapted to beamline apertures so that tie body from beginning to end fitting When can pass through beamline apertures in；The head and the tail of tie body are pulled again so that spacing on tie body lateral surface Projection deforms upon under the pulling of external force and the squeezing action of bunch bore edges and passes through beamline apertures, until locking is pricked During cable in space of lines, spacing preiection recovers to itself original shape, and deviates from binding space with beamline apertures edge part Side abut, so as to realize that the firm of cable is tied up.The utility model cable tie structure is simple, easy to operate, when in use Only need one hand to hold the head and the tail sticking part of tie body to be pulled, it is not necessary to precisely contraposition, so as to realize Fast accurate cloth line tying requirement in small space.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.

Fig. 1 is the structural representation of the embodiment extended configuration of the utility model binding band one；

Fig. 2 is the close-up schematic view at A in Fig. 1；

Fig. 3 is used to tie up structural representation during cable for binding band in Fig. 1 after enclosing；

Fig. 4 is structural representation when the utility model binding band coordinates with cable.

Drawing reference numeral explanation：

Label	Title	Label	Title	Label	Title
						1	Tie body	15	Fabrication hole	24	Cavity
11	Medial surface	2	Spacing preiection	100	Beamline apertures
						12	Lateral surface	21	Guide surface	200	Cable
13	Spigot surface	22	Confined planes
						14	Binding space	23	Side wall

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than all Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belong to the scope of the utility model protection.

If it is to be appreciated that related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction be only used for explain it is relative between each part under a certain particular pose (as shown in drawings) Position relationship, motion conditions etc., if the particular pose changes, directionality instruction also correspondingly changes therewith.

If, should " first ", " the in addition, relate to the description of " first ", " second " etc. in the utility model embodiment Two " etc. description is only used for describing purpose, and it is not intended that instruction or implying its relative importance or implicit indicating meaning The quantity of the technical characteristic shown.Thus, " first " is defined, the feature of " second " can express or implicitly include at least one Individual this feature.In addition, the technical scheme between each embodiment can be combined with each other, but must be with ordinary skill Personnel can be implemented as basis, and this technical side is will be understood that when the combination appearance of technical scheme is conflicting or can not realize The combination of case is not present, also not within the protection domain of the requires of the utility model.

The utility model proposes a kind of binding band.

In the utility model embodiment, Fig. 1, Fig. 3 and Fig. 4 are refer to, the binding band includes：

Tie body 1, in strip and flexible deformation, tie body 1 has medial surface 11 and relative with medial surface 11 Lateral surface 12, the medial surfaces 11 of the head and the tail of tie body 1 enclosed to form binding space 14 when being bonded, and tie body 1 is bonded from beginning to end The cross section at position is adapted to beamline apertures 100；And

Multiple spacing preiections 2, located at the lateral surface 12 of tie body 1, spacing preiection 2 and the back of the body in beamline apertures frontside edge portion Side from binding space 14 abuts, to lock the cable 200 in binding space 14.

In the present embodiment, tie body 1 is made up of the elastic caoutchouc of high-temperature insulation, such as silicon rubber or nitrile rubber； Tie body 1 is arranged to strip, and its specific length can be adjusted according to the diameter and quantity of the required cable 200 tied up； The medial surface 11 of tie body 1 is oppositely arranged with lateral surface 12, and wherein the medial surface 11 of tie body 1 is used to tie up cable Outer peripheral face when 200 with cable 200 cooperates.

In the present embodiment, beamline apertures 100 are circular hole, therefore the cross section of tie body 1 is arranged into semicircle, are now pricked The cross section that band body 1 is bonded position from beginning to end is just circular in one, is adapted to beamline apertures 100；In actual applications, beamline apertures 100 shape can also be the other shapes such as rhombus, square, as long as now the corresponding adjustment of cross section work to binding band body is Can, and the size outline of the cross section at the head and the tail fitting position of tie body 1 is less than the size of beamline apertures 100, to ensure it Can smoothly it penetrate in beamline apertures 100；Spacing preiection 2 can deform upon under the extruding of external force, can pass through beamline apertures 100, and original shape can be recovered when being acted on without external force, spacing preiection 2 can be set to leather cup barb or helical teeth shape.

The utility model binding band on strip and bending deformed tie body 1 by setting multiple spacing preiections 2, when being tied up to cable 200, the medial surface 11 of the head and the tail of tie body 1 be bonded to each other so that tie body 1 enclose can The binding space 14 of accommodating cable 200, now tie body 1 be bonded the cross section at position from beginning to end and be adapted to beamline apertures 100 so that Tie body 1 can be passed through in beamline apertures 100 when head and the tail are bonded；The head and the tail of tie body 1 are pulled again so that be located at Under the pulling of external force and the squeezing action of beamline apertures frontside edge shape occurs for the spacing preiection 2 on the lateral surface 12 of tie body 1 Become and pass through beamline apertures 100, until when locking the cable 200 in binding space 14, spacing preiection 2 recovers original to itself Shape, and abutted with beamline apertures frontside edge portion away from the side in binding space 14, so as to realizing the firm bundle of cable 200 Prick.The utility model cable tie structure is simple, easy to operate, only needs the singlehanded head and the tail patch for holding tie body 1 when in use Conjunction portion is pulled, it is not necessary to precisely contraposition, so as to realize the fast accurate cloth line tying requirement in small space.

Further, the medial surface 11 of tie body 1 is arranged to plane, binding band can be caused to enter to cable 200 During row bundle, the medial surface 11 of the head and the tail of tie body 1 can be very good to be bonded to each other；The lateral surface 12 of tie body 1 is set Be arranged to semicircle for the cross section of cambered surface, and tie body 1, when on the one hand enabling the tie body 1 to be bonded from beginning to end with circle Pencil of forms string holes 100 is adapted to；On the other hand, lateral surface 12 sets camber, and the offset flat shape compared to traditional band designs, and uses Person can tell lateral surface 12 and medial surface 11 by the touch of binding belt surface, so as to exactly by tie body 1 The medial surface 11 of head and the tail fits together, and effectively avoids during tying up binding band by by anti-.

Further, spigot surface 13 is provided with for the ease of the use of binding band, the both ends of tie body 1, spigot surface 13 is used To guide tie body 1 to be placed through in beamline apertures 100；Preferably, spigot surface 13 is tilted from lateral surface 12 towards medial surface 11 and prolonged Stretch, and enclose to form a cone with medial surface 11, wherein cone can be that pyrometric cone or arc are coniform, in practical application In, it is directed to face 13 generally by chamfer angle technique and is processed as the arc conical surface；In addition, in order to prevent the tip of cone from influenceing to make With comfort level, preferably its tip is scabbled or made smooth cambered surface.

Further, spacing preiection 2 is made up of elastomeric material；Spacing preiection 2 includes guide surface 21 and confined planes 22； When tie body 1 is in extended configuration, confined planes 22 and tie body 1 are perpendicular, and guide surface 21 is carried on the back from the edge of confined planes 22 Midpoint from binding band body tilts extension formation.

In the present embodiment, spacing preiection 2 can be made up of the flexible quality of rubber materials such as silica gel or nitrile rubber, in external force Effect is lower can to pass rapidly through beamline apertures 100 by the elastic deformation of itself；The quantity of spacing preiection 2 can according to be actually needed into Row is set；After tie body 1 passes through beamline apertures 100, confined planes 22 and the beamline apertures 100 of spacing preiection 2 deviate from binding space 14 side abuts against, and can prevent tie body 1 from being slipped towards the side of binding space 14, so as to effectively lock binding space 14 In cable 200.Can be along guide surface by the mutual cooperation spacing preiection 2 of guide surface 21 and beamline apertures frontside edge 21 enter in beamline apertures 100, and barb-like setting, spacing preiection 2 is had certain stopping function, and spacing preiection 2 is easy In entering in beamline apertures 100, and it is more difficult slipped from beamline apertures 100, so as to ensure that reliability that cable 200 is tied up.

Further, spacing preiection 2 also includes roof and two side walls 23 being oppositely arranged, roof, two side 23 and band Enclose to form a cavity 24 between body 1, guide surface 21 is formed at roof.

Spacing preiection 2 is arranged to the hollow structure with cavity 24 in the present embodiment, by increasing capacitance it is possible to increase spacing preiection 2 Elasticity, make it easier for deforming upon, so as to be easier to penetrate in beamline apertures 100, and set two side 23 to play necessarily Supporting role so that spacing preiection 2 has certain intensity.

Preferably, spacing preiection 2 is two groups, is symmetrically arranged in two sections end to end of tie body 1；By in tie body 1 Duan Liubai, on the one hand it is easy to user to grip, improves usage comfort；On the other hand in actual applications, due to cable 200 all Tool has the dimensions so that and the spacing preiection 2 in the stage casing of tie body 1 does not have practical function, therefore without setting, in order to avoid Increase manufacturing process, cause the waste of material.

Preferably, tie body 1 is integrated injection molding with spacing preiection 2, offers in tie body 1 and is passed through with cavity 24 Logical fabrication hole 15, corresponding cable tie structure is gone out by mold design, then carry out injection molding, the setting of fabrication hole 15 makes It is easy to be stripped so that the manufacturing process of binding band is simple, is easy to industrialization production.

Preferred embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, Every equivalent structure change under inventive concept of the present utility model, made using the utility model specification and accompanying drawing content Change, or directly/be used in other related technical areas indirectly and be included in scope of patent protection of the present utility model.

Claims (10)

1. A kind of 1. binding band, it is characterised in that including：

   Tie body, in strip and flexible deformation, the tie body has medial surface and relative with the medial surface Lateral surface, the medial surface of the tie body head and the tail enclose to form binding space when being bonded, the tie body head and the tail sticking part The cross section of position is adapted to beamline apertures；And

   Multiple spacing preiections, located at the lateral surface of the tie body, the back of the body of the spacing preiection and the beamline apertures edge part Side from the binding space abuts, to lock the cable in the binding space.
2. 2. binding band as claimed in claim 1, it is characterised in that the medial surface is plane, and the lateral surface is cambered surface, institute The cross section for stating tie body is semicircle.
3. 3. binding band as claimed in claim 1 or 2, it is characterised in that the both ends of the tie body are provided with spigot surface, described Spigot surface is guiding the tie body to be placed through in the beamline apertures.
4. 4. binding band as claimed in claim 3, it is characterised in that the spigot surface is from the lateral surface towards the medial surface Extension is tilted, and encloses to form a cone with the medial surface.
5. 5. binding band as claimed in claim 1 or 2, it is characterised in that the spacing preiection is made up of elastomeric material.
6. 6. binding band as claimed in claim 5, it is characterised in that the spacing preiection includes guide surface and confined planes；It is described When tie body is in extended configuration, the confined planes and the tie body are perpendicular, and the guide surface is from the confined planes Edge away from the binding band body midpoint tilt extension formed.
7. 7. binding band as claimed in claim 6, it is characterised in that what the spacing preiection was also oppositely arranged including roof and two Side wall, enclose to form a cavity between the roof, two side walls and the tie body, the guide surface is formed at described Roof.
8. 8. binding band as claimed in claim 7, it is characterised in that the tie body is integrated with spacing preiection to be molded into Type, the fabrication hole connected with the cavity is offered in the tie body.
9. 9. binding band as claimed in claim 5, it is characterised in that the spacing preiection is two groups, is symmetrically arranged in the bundle Two sections end to end of band body.
10. 10. binding band as claimed in claim 1, it is characterised in that the beamline apertures are shaped as square or rhombus.