CN203150691U - Antenna pedestal and antenna provided therewith - Google Patents

Abstract

The utility model belongs to the field of antenna structures adapted to the wireless communication field and provides an antenna pedestal and an antenna provided therewith. The antenna pedestal comprises a connecting part and a rotating part. The connecting part and the rotating part are fixedly connected together. The rotating part comprises a rotating body provided with a through trough, wherein one end of the through trough is opened. The opened end of the through trough is provided with a cable retaining structure used for preventing an RF cable from being clamped in the through trough. The antenna is provided with the antenna pedestal. According to the technical scheme of the antenna pedestal and the antenna provided therewith, the rotating body of the antenna pedestal is provided with the through trough, wherein one end of the through trough is opened. Meanwhile, the opened end of the through trough is provided with the cable retaining structure. Therefore, the requirement on the deformation space during assembling can be satisfied, while the RF cable is effectively prevented from being clamped in the through trough to be pulled apart due to the adoption of the cable retaining structure. The cable retaining structure is simple in manufacturing process, low in production cost and high in structural strength, thereby ensuring the reliability of the antenna during usage.

Description

Antenna base and have the antenna of this antenna base

Technical field

The utility model belongs to the antenna structure field of wireless telecommunications, relates in particular to a kind of antenna base and has the antenna of this antenna base.

Background technology

The scope that the technology of modern wireless telecommunications is used is more and more wider, and signal wider for the coverage rate that makes wireless signal, transmission is more stable, and general wireless antenna all has and can antenna can be rotated by one way or another for rotating the structure of regulating.In existing design to antenna base at present, can hold a U-shaped groove in the centre of antenna base, its effect is when antenna is assembled with housing, reserves the deformation space of buckle, the assembling of convenient antenna and housing.And the RF of antenna ?an end of Cable line (RF ?Cable line be radio frequency line) be welded on the circuit board, and RF ?Cable line when being in tight state, if RF ?the Cable ply-yarn drill in the U-shaped groove of pedestal, antenna when rotating, exist with RF ?the Cable risk of pulling apart.For addressing this problem, usually adopt RF ?increase by one section heat-shrink tube above the Cable line, and heat-shrink tube be assemblied in RF ?above the Cable line, need be by manually finishing, and to increase corresponding position orientation tool at RF ?Cable line, need overbaking baking box or similar high-temperature service just can finish the whole assembling of heat-shrink tube then.This kind method assembly technology complexity, energy consumption height, increased the labour input, improved production cost.

The utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, a kind of antenna base is provided and has had the antenna of this antenna base, its manufacturing process is simple, reliable in structure, intensity height, saved manpower, reduced the energy consumption, reduced production cost.

The utility model is achieved in that a kind of antenna base, comprise connecting portion and rotation section, fixedly connected between described connecting portion and the described rotation section, described rotation section comprises the rotation body, described rotation body is provided with the groove of an end opening, and the open end of described groove is provided be used to avoiding the radio frequency cable to snap in the retaining line structure of described groove.

Particularly, described groove comprises two the first side wall and second sidewalls that arrange relatively, and described retaining line structure comprises the groove that is opened in described the first side wall and be convexly set in the blocking arm of described second sidewall that described blocking arm extends in the described groove.

Particularly, be formed with the gap between described blocking arm and the described groove.

Particularly, described retaining line structure is arranged to rare two.

Further, the two ends of described rotation body and not homonymy convex with buckle and guide vane end stop, the openend of described groove and described buckle are with being located at an end of described rotation body, described connecting portion and described guide vane end stop are with the other end of being located at described rotation body.

Particularly, described buckle has guide part.

Further, described connecting portion comprises first linking arm and second linking arm, be formed be used to the link slot that plugs antenna body between described first linking arm and described second linking arm, the same side of described first linking arm and described second linking arm is connected with side plate.

Particularly, described first linking arm and described second linking arm are provided with the connecting hole be used to the described antenna body that is rotationally connected.

Particularly, described rotation section is cylindric, and described rotation section axial direction runs through to be provided with to extend be used to the through hole that wears described radio frequency cable and described through hole and penetrates described connecting portion.

The utility model also provides a kind of antenna, it is characterized in that, also comprises above-mentioned antenna base.

A kind of antenna base that the utility model provides and the antenna with this antenna base, offer the groove of an end opening on the rotation body of its rotation section, and the openend at groove is provided with the retaining line structure, avoided the rotation body when rotate regulating, the radio frequency cable snaps in the groove and the phenomenon that is torn takes place.Retaining line structure manufacturing process is simple, production cost is low, structural strength is high, has guaranteed antenna reliability in use.

Description of drawings

Fig. 1 is the schematic perspective view of the antenna base that provides of the utility model embodiment;

Fig. 2 is the antenna base that provides of the utility model embodiment and the assembling schematic diagram of radio frequency cable;

Fig. 3 is the antenna that provides of the utility model embodiment and the partial assembled schematic diagram of housing;

Fig. 4 is the antenna base that provides of the utility model embodiment and the partial assembled schematic diagram of housing;

Fig. 5 is the cutaway view after the assembling of the antenna base that provides of the utility model embodiment and housing;

Fig. 6 is the local enlarged diagram at A place among Fig. 1.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.

As depicted in figs. 1 and 2, a kind of antenna base 1 that the utility model embodiment provides comprises connecting portion 2 and rotation section 3, fixedly connected between connecting portion 2 and the rotation section 3, by the rotary steering effect of rotation section 3, make can be the back and forth reciprocal rotation of connecting portion 2, to realize turning to the function of adjusting.Rotation section 3 is drawn together and is rotated body 31, rotates the groove 32 that body 31 is provided with an end opening, and groove 32 is " U " shape, and the open end of groove 32 is provided with retaining line structure 4, and retaining line structure 4 is used for avoiding radio frequency cable 6 to snap in the groove 32.Can produce certain deformation owing to rotate body 31, by offering the groove 32 of an end opening rotating body 31, make rotation body 31 have certain deformation space, satisfying the needs in deformation space when assembling, for assembling brought convenient.Retaining line structure 4 is arranged at the end of groove 32 openends, so that with the opening block of groove 32, the openend of groove 32 is flushed, avoided radio frequency cable 6 to snap in the groove 32 and the phenomenon that is torn takes place, guaranteed in the process of rotate regulating convenient and swiftly, improved the reliability of using.By being provided with the retaining line structure, needn't on the radio frequency cable, be provided with heat-shrink tube again, and then cancel the roasting plant of heat-shrink tube, simplify manufacturing process, saved the energy, saved manpower, reduced cost.

Particularly, as Fig. 2, Fig. 5 and shown in Figure 6, groove 32 comprises two the first side wall 321 and second sidewalls 322 that arrange relatively, and retaining line structure 4 comprises the groove 41 that is opened in the first side wall 321 and the blocking arm 42 that is convexly set in second sidewall 322, and blocking arm 42 extends in the groove 41.Offer groove 41 by the first side wall 321 at groove 32, be convexly equipped with blocking arm 42 on second sidewall 322, and blocking arm 42 extends in the groove 41, make blocking arm 42 fully block live the openend of groove 32, guarantee that radio frequency cable 6 can not snap in the groove 32 and is torn when rotating.Certainly, be appreciated that ground, groove 41 can be opened on second sidewall 322, and blocking arm 42 can be convexly set on the first side wall 321.Retaining line structure 4 also can be: 41 liang of relative the first side walls 321 of groove and second sidewall 322 all convex with between 42, two blocking arms 42 of blocking arm and do not connect, but have certain interval; Or a sidewall in 41 liang of relative the first side walls 321 of groove and second sidewall 322 convexes with blocking arm 42, blocking arm 42 extends to another sidewall, and another sidewall does not offer groove 41, has certain interval between the blocking arm 42 of extension and another sidewall of groove 41.These two kinds retaining line structures 4 all can be avoided snapping in of radio frequency cable 6 effectively, and all maintain at interval, and the space of deformation is provided for rotation body 31 when assembling.The width at the interval that two blocking arms are 42 is less than the diameter of radio frequency cable 6, not only satisfied the requirement to the deformation space in when assembling, and in having guaranteed that radio frequency cable 6 can not snap at interval, solved existing structure effectively and had the problem that radio frequency cable 6 is pulled apart.

Particularly, extend in the groove 41 as Fig. 2, Fig. 4, Fig. 5 and blocking arm shown in Figure 6 42, be not connected with groove 41 fully, but be formed with gap 43, for the deformation space is provided when assembling antenna base 1.Gap 43 is formed in the groove 41, avoid with the opening direction dislocation of groove 32, this kind design, can make bigger that blocking arm 42 and groove 41 gap 43 between the two open, to guarantee the requirement to the deformation space in when assembling, and, even the width in gap 43 is greater than the diameter of radio frequency cable 6, because gap 43 is avoided with the opening direction dislocation of groove 32, and, radio frequency cable 6 is in tight state, radio frequency cable 6 can not walked around gap 43 yet and snap onto in the groove 32 and be torn, and has guaranteed that antenna is in the reliability of rotating when regulating.

Particularly, as shown in Figure 2, retaining line structure 4 is arranged to rare two.What retaining line structures 4 setting of retaining line structure 4 is provided with based on groove 32, just can offer what grooves 32 accordingly, and therefore, rotation body 31 just can produce distortion in various degree, to satisfy the demand of assembling in the different application scenarios.In the present embodiment, retaining line structure 4 is provided with two, and is symmetric mode and is arranged on and rotates on the body 31 installation convenient for assembly.Certainly, be appreciated that ground, two retaining line structures 4 also can become different angle modes to be arranged on the rotation body 31.

Further, as depicted in figs. 1 and 2, rotate the two ends of body 31 and not homonymy convex with buckle 33 and guide vane end stop 34, the openend of groove 32 and buckle 33 are with being located at ends that rotate body 31.Be provided with buckle 33, so that when mounting antenna base 1, can antenna base 1 is stably fixing, guarantee can not become flexible, skid off and influence when rotating adjusting use, employing buckle 33 modes are fixed, and fixed structure is simple and reliable, easy to assembly, be conducive to the raising of production efficiency.And connecting portion 2 and guide vane end stop 34 is provided with guide vane end stop 34 with being located at the other ends that rotate body 31 by rotating body 31, and with buckle 33 supporting uses, guarantee to rotate stability and the reliability of adjusting.In the present embodiment, buckle 33 and guide vane end stop 34 are and are arranged on the not homonymy that rotates body 31 and are higher than the surface of rotating body 31, and, respectively one of buckle 33 and guide vane end stop 34, so not only reduce the operation of processing, can guarantee the reliability when rotating adjusting equally.Certainly, be appreciated that ground, according to the needs of actual operating position, buckle 33 and guide vane end stop 34 also can be a plurality of and are spaced and be arranged at the two ends of rotating body 31, also can be around whole rotation body 31 to arrange.

Particularly, as Fig. 1 and shown in Figure 5, buckle 33 has guide part 331, guide part 331 can be made as inclined-plane or cambered surface etc., and it has guide effect, when antenna pedestal 1 needs to install, deformation takes place in the rotation body 31 of pressurized, and under the guide effect of guide part 331, can snap in fast and accurately, realize mount.

Further, as shown in Figures 2 and 3, connecting portion 2 comprises being formed be used to link slot 23, the first linking arms 21 that plug antenna body 5 and the same side of second linking arm 22 between first linking arm 21 and second linking arm, 22, the first linking arms 21 and second linking arm 22 and is connected with side plate 24.Be provided with side plate 24 by the same side at first linking arm 21 and second linking arm 22, not only can strengthen the intensity of first linking arm 21 and second linking arm 22, frangibility not when rotating, and in antenna main body 5 insertion link slots 23, side plate 24 can play the effect of location, for installation brought convenient.

Particularly, as shown in Figures 2 and 3, first linking arm 21 and second linking arm 22 are provided with the connecting hole 25 be used to the antenna body 5 that is rotationally connected.The part that antenna body 5 inserts in the link slot 23 is provided with the perforation (not shown), after antenna main body 5 is inserted, perforation on the antenna body 5 is aimed at the connecting hole 25 on first linking arm 21 and second linking arm 22, with the connecting axle (not shown) antenna body 5 and first linking arm 21 and second linking arm 22 are rotationally connected again, make antenna body 5 can come back rotation to regulate, the direction of rotating body 31 rotation adjustings is vertical with the direction of antenna body 5 rotation adjustings, further increased adjustable scope, practicality is wide.What show among Fig. 3 is the schematic diagram of regulating antenna body back and forth, and antenna body can be regulated and be in different angles, satisfies the instructions for use under the different situations.

Particularly, as depicted in figs. 1 and 2, rotation section 3 is cylindric, and convenient the rotation regulated.Rotation section 3 axial directions run through to be provided with to extend be used to the through hole (not shown) that wears radio frequency cable 6 and through hole and penetrate connecting portion 2.By in the rotation section 3 and the axial direction of connecting portion 2 be provided with through hole; radio frequency cable 6 is passed, not only satisfied the needs that are electrically connected, and radio frequency cable 6 is in the inside of rotation section 3 and connecting portion 2; protected radio frequency cable 6 not to be destroyed, and the aesthetics height.

As Fig. 2, Fig. 4 and shown in Figure 5, the utility model also provides a kind of antenna, comprise above-mentioned antenna base 1, antenna base 1 activity is inserted in housing 7, installation position on the housing 7 is arranged between buckle 33 and the guide vane end stop 34, by the positioning action of buckle 33 and guide vane end stop 34, antenna base 1 can be regulated in the rotation that it is fixed that housing 7 stabilizes, rotation is reliable.The retaining line structure 4 that arranges on the antenna base 1 has avoided radio frequency cable 6 to snap in the groove 32 effectively and the phenomenon that is torn takes place, and has guaranteed that antenna in the reliability of rotating when regulating, has guaranteed the stability of antenna when the transmission signal.

A kind of antenna base that the utility model provides and the antenna with this antenna base, it is by 3 rotation body 31 offers the groove 32 of an end opening in the rotation section, for deformation space is provided when assembling, and be provided with retaining line structure 4 in the end of groove 32 openends, avoided radio frequency cable 6 can snap in the groove 32 and the phenomenon that is torn takes place.The gap 43 that forms between the groove 41 of retaining line structure 4 and the blocking arm 42 is avoided arranging with the openend dislocation of groove 32, can be when satisfying assembling in the deformation space requirement, can also prevent snapping in of radio frequency cable 6 effectively, retaining line structure 4 is simple and reliable, practical, has simplified manufacturing process, has saved manpower and labour cost.Rotate body 31 activities and be arranged in housing 7, and the installation position on the housing 7 is arranged between buckle 33 and the guide vane end stop 34, can rotate the adjusting antenna easily, brought convenience to use.

Newly-designed retaining line structure 4 can be avoided the stuck problem of pulling apart of radio frequency cable 6 in the cancellation heat-shrink tube.Design after the improvement has guaranteed intensity and the deformation requirements of original design, all there is not influence no matter be for original assembly technology and Mould design, making, and can not bring the increase of cost, can in the cancellation heat-shrink tube, directly original pedestal be substituted.Not only can simplify the roasting plant of technology, cancellation heat-shrink tube, energy savings, and, save manpower, reduce cost.

The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace or improvement etc., all should be included within the protection range of the present utility model.

Claims (10)

1. antenna base, comprise connecting portion and rotation section, fixedly connected between described connecting portion and the described rotation section, it is characterized in that, described rotation section comprises the rotation body, described rotation body is provided with the groove of an end opening, and the open end of described groove is provided be used to avoiding the radio frequency cable to snap in the retaining line structure of described groove.

2. antenna base as claimed in claim 1, it is characterized in that, described groove comprises two the first side wall and second sidewalls that arrange relatively, and described retaining line structure comprises the groove that is opened in described the first side wall and be convexly set in the blocking arm of described second sidewall that described blocking arm extends in the described groove.

3. antenna base as claimed in claim 2 is characterized in that, is formed with the gap between described blocking arm and the described groove.

4. antenna base as claimed in claim 1 is characterized in that, described retaining line structure is arranged to rare two.

5. antenna base as claimed in claim 1, it is characterized in that, the two ends of described rotation body and not homonymy convex with buckle and guide vane end stop, the openend of described groove and described buckle are with an end of being located at described rotation body, and described connecting portion and described guide vane end stop are with the other end of being located at described rotation body.

6. antenna base as claimed in claim 5 is characterized in that, described buckle has guide part.

7. antenna base as claimed in claim 1, it is characterized in that, described connecting portion comprises first linking arm and second linking arm, be formed be used to the link slot that plugs antenna body between described first linking arm and described second linking arm, the same side of described first linking arm and described second linking arm is connected with side plate.

8. antenna base as claimed in claim 7 is characterized in that, described first linking arm and described second linking arm are provided with the connecting hole be used to the described antenna body that is rotationally connected.

9. antenna base as claimed in claim 1 is characterized in that, described rotation section is cylindric, and described rotation section axial direction runs through to be provided with to extend be used to the through hole that wears described radio frequency cable and described through hole and penetrates described connecting portion.

10. an antenna is characterized in that, comprises as any described antenna base in the claim 1 to 9.

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