CN106054336A - Fiber distribution frame - Google Patents

Abstract

The invention discloses a fiber distribution frame. The frame comprises an internal layer casing and a bearing plate arranged in the middle portion of the internal layer casing, the inner wall of the internal layer casing is provided with poles, the lower end surface of the bearing plate is provided with T-shaped chutes, the poles are hinged to slide blocks which can slide along the chutes respectively, a rotating rod at the end, far from the slide block, of each pole is connected to the inner wall of the internally layer casing, each chute is provided with a threaded hole, the lower end surface of each slide block is provided a sink hole, the threaded hole is internally provided with a positioning bolt, each positioning bolt is in threaded connection with the threaded hole of the chute, and the tail end of the positioning bolt can be inserted into the sink hole. According to the invention, fibers are laid in a classified manner via wire ducts, a heat exchange tube in a cavity can be used to control the internal temperature of the casing, and the operational stability of internal equipment is improved.

Description

A kind of fibre distribution frame

Technical field

The present invention relates to a kind of fibre distribution frame.

Background technology

Existing fiber optic distribution frame is usually enclosed construction, when the local use that environment is more complicated, easily there is temperature The unstable factor of the problems such as degree, causes internal unit fluctuation of service, and the easy confusion reigned of circuit, it has not been convenient to classification and Safeguard.

Summary of the invention

It is an object of the invention to provide a kind of fibre distribution frame, it is possible to improve the problem that prior art exists, by adopting With wiring groove, optical fiber is carried out classification to lay, use the heat exchanger tube being arranged in cavity can the temperature of enclosure interior be entered simultaneously Row controls, and improves the stability that internal unit runs.

The present invention is achieved through the following technical solutions:

A kind of fibre distribution frame, including internal layer shell and be arranged on the bearing plate in the middle part of described internal layer shell, in described It is provided with pole in layer inner walls, described bearing plate lower surface is provided with T-shaped chute, on described pole Being hinged with can be along the slide block of described slide, and described pole rotates bar away from described slide block one end and is connected to described Internal layer shell inwall on, described chute is provided with screwed hole, the lower surface of described slide block is provided with counterbore, Being provided with bolt in described screwed hole, described bolt is threaded in the screwed hole on described chute And the end of bolt can be plugged in described counterbore, described bearing plate lower surface is provided with wiring groove, Described wiring groove both sides are respectively arranged with location bar, are respectively arranged with, in described positioning, the jack that position is corresponding on bar, and 2 It is plugged with latch in the jack that on individual described location bar, position is corresponding, outside described internal layer shell, is provided with outer shell Body, forms cavity between described internal layer shell and described outer casing, and be provided with in this cavity that pottery makes changes Heat pipe, is provided with passage on described internal layer shell, arranges away from described internal layer shell side at described heat exchanger tube There is thermal insulation layer, described bearing plate is provided with fiber organizer, bottom described outer casing, be provided with louvre.

Further, for the present invention is better achieved, described bearing plate is provided with the crossed beam trunking of parallel arrangement, institute The crossed beam trunking stated is corresponding with described fiber organizer quantity and position, is provided with and institute on described internal layer shell inwall The dividing plate that the crossed beam trunking position stated is corresponding.

Further, for the present invention is better achieved, described internal layer shell is provided with T-shaped side bayonet slot, described Dividing plate on be provided with being embedded in the fixture block of the T-shaped inside described draw-in groove, the length direction of described draw-in groove is parallel to The short transverse of described internal layer shell.

Further, for the present invention is better achieved, between two end faces up and down of described dividing plate are respectively arranged with Every the location-plate of arrangement, it is connected between described location-plate and forms the passage placing optical fiber.

Further, for the present invention is better achieved, it is respectively arranged with cross bar at the described upper and lower two ends of dividing plate, described The axis of cross bar is parallel to the axis direction of described dividing plate, and described location-plate is sleeved on described cross bar.

Further, for the present invention is better achieved, described location-plate is circular sheet-like structures, and described location-plate turns Being automatically connected on described cross bar, the axis of described location-plate mutually staggers with the axis of described cross bar.

The present invention compared with prior art, has the advantages that

The present invention passes through wiring groove structure, optical fiber conveniently carries out classification wiring, meanwhile, utilizes the latch arranged on the securing lever Structure, it is possible to conveniently the optical fiber in wiring groove is fixed, it is to avoid the mode of existing employing disposable plastic button exists money Source waste, unhandy problem, utilize and be arranged on the heat exchanger tube between inside and outside two-layer housing, it is possible in convenience and internal layer shell Portion carries out heat exchange, makes internal structure can be maintained at more stable temperature range, is favorably improved its stability run.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, below by embodiment required use attached Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, and it is right to be therefore not construed as The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to this A little accompanying drawings obtain other relevant accompanying drawings.

Fig. 1 is overall structure schematic diagram of the present invention；

Fig. 2 is bearing plate structural representation of the present invention；

Fig. 3 is dividing plate mounting structure schematic diagram of the present invention.

Wherein: 101. internal layer shells, 102. bearing plates, 103. poles, 104. chutes, 105. slide blocks, 106. bolts, 107. wiring grooves, 108. location bars, 109. jacks, 110. outer casings, 111. cavitys, 112. heat exchanger tubes, 113. thermal insulation layers, 114. crossed beam trunkings, 115. dividing plates, 116. draw-in grooves, 117. fixture blocks, 118. fiber organizers, 119. location-plates, 120. cross bars.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited to This.

As shown in Figure 1, 2, a kind of fibre distribution frame, including internal layer shell 101 and be arranged in described internal layer shell 101 The bearing plate 102 in portion, is provided with pole 103 on described internal layer shell 101 inwall, in described bearing plate 102 lower surface On be provided with T-shaped chute 104, described pole 103 is hinged with the slide block that can slide along described chute 104 105, described pole 103 rotates bar away from described slide block 105 one end and is connected on described internal layer shell 101 inwall, It is provided with screwed hole on described chute 104, the lower surface of described slide block 105 is provided with counterbore, at described screw thread Be provided with bolt 106 in hole, described bolt 106 be threaded in the screwed hole on described chute 104 Nei and The end of bolt 106 can be plugged in described counterbore, is provided with wiring groove on described bearing plate 102 lower surface 107, it is respectively arranged with location bar 108 in described wiring groove 107 both sides, described location bar 108 is respectively arranged with position It is plugged with latch, described in putting the jack 109 that on the location bar 108 that corresponding jack 109,2 is described, position is corresponding Internal layer shell 101 outside be provided with outer casing 110, between described internal layer shell 101 and described outer casing 110 Form cavity 111, in this cavity 111, be provided with the heat exchanger tube 112 that pottery is made, described internal layer shell 101 is arranged There is passage, at described heat exchanger tube 112, described internal layer shell 101 side is provided with thermal insulation layer 113, holds described It is provided with fiber organizer 118 on fishplate bar 102, bottom described outer casing 110, is provided with louvre.

Optical fiber classification is routed in wiring groove by the present invention, and the latch on the location bar of wiring groove both sides is plugged on jack In, make latch be blocked in wiring groove by optical fiber, can realize optical fiber is fixed, and then need not use and existing disposably mould The mode of material button carries out the fixing of optical fiber, it is possible to convenient operation, and saves resource.In the present invention, along slide slide block, The regulation of the angle of pole can be realized, by adjusting the angle of pole, it is achieved the regulation to the height of bearing plate, and then can Realize the regulation to the distance between adjacent multiple bearing plates, facilitate intelligent acess to operate.

Owing to using heat exchanger tube, can be arranged on outside outer casing by the input of heat exchanger tube, when needed, utilization is changed Carry out heat exchange inside heat pipe and internal layer shell, conveniently internal layer enclosure interior is carried out temperature control, and, in the present invention uses Outer two side bodies so that the equipment within internal layer shell that is arranged on is not easy when external impact impaired so that it is structure is more pacified Complete reliable.

In the present invention, utilize insulating layer structure, heat pipe can be exchanged and be thermally shielded, it is to avoid its heat scatters and disappears, and then contributes to Put forward high-octane utilization ratio, and, utilize this structure, it is possible to internal heat exchanger tube is played a protective role, outside outside When layer housing is squeezed or collides, it is possible to active force is played cushioning effect.

Embodiment 1:

In the present embodiment, optical fiber is laid for convenience, it is preferable that be provided with the mistake of parallel arrangement on described bearing plate 102 Wire casing 114, described crossed beam trunking 114 is corresponding with described fiber organizer 118 quantity and position, at described internal layer shell The dividing plate 115 corresponding with described crossed beam trunking 114 position it is provided with on 101 inwalls.

Utilizing diaphragm structure in the present embodiment, to internal layer enclosure interior, the space above bearing plate divides, and makes dividing plate Between form the passage laying optical fiber, when laying different light, optical fiber can be placed between different dividing plates and be formed In passage, contribute to that optical fiber is carried out classification and lay.

Embodiment 2:

As it is shown on figure 3, in the present embodiment, the installation of dividing plate for convenience, it is preferable that arrange on described internal layer shell 101 There is T-shaped side bayonet slot 116, described dividing plate 115 is provided be embedded in the fixture block of the T-shaped inside described draw-in groove 116 117, the length direction of described draw-in groove 116 is parallel to the short transverse of described internal layer shell 101.By use grafting and Dividing plate is installed by mode, enables dividing plate easy disassembly, meanwhile, arranges and organize notch more, can adjust as required The position of dividing plate grafting, and then enable the distance between dividing plate to be adjusted easily.

Embodiment 3:

In the present embodiment, on the basis of embodiment 1, for convenience cable is classified, it is preferable that at described dividing plate It is respectively arranged with, on two end faces up and down of 115, the location-plate 119 being intervally arranged, is connected between described location-plate 119 and is formed Place the passage of optical fiber.

The present embodiment utilizes location-plate, makes the two ends up and down of dividing plate form the many groups of passages being parallel to each other, make cable lead to When crossing dividing plate input and outfan, track keeps stable.

It is further preferred that in the present embodiment, the installation of location-plate for convenience, at described dividing plate about 115 two ends Being respectively arranged with cross bar 120, the axis of described cross bar 120 is parallel to the axis direction of described dividing plate 115, described location Plate 119 is sleeved on described cross bar 120.In the present embodiment, location-plate can be sleeved on cross bar at equal intervals, make location-plate It is only capable of opposing rail to rotate, makes location-plate form wiring channel respectively in dividing plate both sides.

In order in the occasion for dividing plate side laying optical fiber, in the present embodiment, in order to increase formation between location-plate The width of cavity, it is preferable that described location-plate 119 is circular sheet-like structures, described location-plate 119 is rotatably connected on described Cross bar 120 on, the axis of described location-plate 119 mutually staggers with the axis of described cross bar 120.

In the present embodiment, make location-plate in the form of annular discs, make location-plate relative eccentric be sleeved on cross bar, relative at location-plate When cross bar rotates, the width of the cavity formed between adjacent positioned plate can be controlled.Owing to the present embodiment using and can turn Dynamic location-plate, it is possible to conveniently the optical fiber being fitted on dividing plate is adjusted, and then operation can be maintained easily.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, that is made any repaiies Change, equivalent, improvement etc., should be included within the scope of the present invention.

Claims (6)

1. a fibre distribution frame, it is characterised in that: include internal layer shell (101) and be arranged on described internal layer shell (101) The bearing plate (102) at middle part, is provided with pole (103), at described bearing plate on described internal layer shell (101) inwall (102) being provided with T-shaped chute (104) on lower surface, being hinged with on described pole (103) can be along described chute (104) slide block (105) slided, described pole (103) rotates bar away from described slide block (105) one end and is connected to described On internal layer shell (101) inwall, described chute (104) is provided with screwed hole, in the lower surface of described slide block (105) On be provided with counterbore, in described screwed hole, be provided with bolt (106), described bolt (106) is threaded In screwed hole on described chute (104) and the end of bolt (106) can be plugged in described counterbore, in institute Being provided with wiring groove (107) on bearing plate (102) lower surface stated, it is fixed to be respectively arranged with in described wiring groove (107) both sides Position bar (108), is respectively arranged with the corresponding jack in position (109), 2 described location on described location bar (108) It is plugged with latch, outside described internal layer shell (101) outside is provided with in the jack (109) that the upper position of bar (108) is corresponding Layer housing (110), forms cavity (111), at this between described internal layer shell (101) and described outer casing (110) It is provided with the heat exchanger tube (112) that pottery is made in cavity (111), described internal layer shell (101) is provided with passage, Described heat exchanger tube (112) is provided with thermal insulation layer (113), at described bearing plate away from described internal layer shell (101) side (102) it is provided with fiber organizer (118) on, described outer casing (110) bottom is provided with louvre.

A kind of fibre distribution frame the most according to claim 1, it is characterised in that: in the upper setting of described bearing plate (102) There are the crossed beam trunking (114) of parallel arrangement, described crossed beam trunking (114) and described fiber organizer (118) quantity and position phase Correspondence, is provided with the dividing plate corresponding with described crossed beam trunking (114) position on described internal layer shell (101) inwall (115).

A kind of fibre distribution frame the most according to claim 1 and 2, it is characterised in that: on described internal layer shell (101) It is provided with T-shaped side bayonet slot (116), described dividing plate (115) is provided be embedded in described draw-in groove (116) inner side The fixture block (117) of T-shaped, the length direction of described draw-in groove (116) is parallel to the short transverse of described internal layer shell (101).

A kind of fibre distribution frame the most according to claim 3, it is characterised in that: at up and down the two of described dividing plate (115) It is respectively arranged with the location-plate (119) being intervally arranged on individual end face, is connected between described location-plate (119) to be formed and places optical fiber Passage.

A kind of fibre distribution frame the most according to claim 4, it is characterised in that: at described dividing plate (115) two ends up and down Being respectively arranged with cross bar (120), the axis of described cross bar (120) is parallel to the axis direction of described dividing plate (115), described Location-plate (119) be sleeved on described cross bar (120).

A kind of fibre distribution frame the most according to claim 5, it is characterised in that: described location-plate (119) is circular piece Shape structure, described location-plate (119) is rotatably connected on described cross bar (120), the axis of described location-plate (119) with The axis of described cross bar (120) mutually staggers.