CN209044116U - Optical fiber home box - Google Patents

Abstract

The utility model provides an optical fiber home box, which comprises a box body and a box door; the box body comprises a first bottom wall, a first side wall and a first cavity; a first wire inlet and a wire outlet are arranged on the first side wall; the first cavity is internally embedded with an installation box and a partition piece; the mounting box comprises a second bottom wall, a second side wall and a second cavity; the second bottom wall is provided with a mounting hole; the second side wall is provided with a second wire inlet, a second wire outlet and a sliding chute; the partition piece comprises a partition plate and a protective strip; a flat cable through hole is formed on the partition plate; at least one end of the protective strip forms a sliding block matched with the sliding groove; the partition panel inserts in the second cavity perpendicularly, and slider and spout sliding fit back on the protection strip, the second cavity is kept apart into two space size adjustable cavitys at least and switches on through the winding displacement through-hole on the partition panel. Implement the utility model discloses, can solve the problem that current optic fibre is registered one's residence incasement portion circuit cluster is amassed together, not only the radiating effect is good, and circuit maintenance and inspection are convenient moreover, labour saving and time saving.

Description

Optical fiber home box

Technical Field

The utility model relates to an optic fibre installation technical field especially relates to an optic fibre case of registering one's residence.

Background

The fiber-to-the-home box is commonly used in engineering projects such as intelligent home wiring, home local area networks, household appliance intellectualization and the like, so that a user can access the internet through accessing different operators through the fiber-to-the-home box through optical fibers, such as fiber-to-the-home telecommunication broadband, fiber-to-the-cable television broadcasting network and the like.

Because the operator that the user selected to insert is different, causes the optical fiber cat that chooses for use, such as TV module model to differ to make current optic fibre case of registering one's residence when installing above-mentioned electrical equipment, the condition that the space is serious not enough appears easily, lead to the internal circuit to crowd together, not only influence the heat dissipation, easily cause circuit maintenance and inspection inconvenience moreover, waste time and energy.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a technical problem who solves provides an optic fibre case of registering one's residence, can solve the problem that current optic fibre incasement portion circuit cluster is amasss together, and not only the radiating effect is good, and is pleasing to the eye moreover, circuit maintenance and inspection are convenient, labour saving and time saving.

In order to solve the technical problem, an embodiment of the present invention provides an optical fiber box for entering home, which includes a box body and a box door covering the box body; wherein,

the box body comprises a first bottom wall, a first side wall and a first cavity, wherein the first side wall and the first bottom wall form a semi-closed structure, and the first cavity is formed by the first bottom wall and the first side wall; the first side wall is provided with a first wire inlet and a first wire outlet; the first cavity is internally embedded with a mounting box for mounting electrical equipment and a partition piece for partitioning the mounting box into a plurality of placing spaces;

the mounting box comprises a second bottom wall, a second side wall and a second cavity, wherein the second side wall and the second bottom wall form a semi-closed structure, and the second cavity is formed by the second bottom wall and the second side wall; the second bottom wall is provided with a mounting hole for fixing electrical equipment; a second wire inlet and a second wire outlet are formed in the second side wall, and a sliding groove is formed in the second side wall;

the partition piece comprises a partition plate and a protection strip arranged on the side surface of one side of the partition plate; the partition board is provided with a plurality of flat cable through holes for the entry and exit of cables; at least one end of the protective strip extends out of the partition plate and forms a sliding block matched with the sliding groove;

the partition plate of the partition piece is vertically inserted into the second cavity of the mounting box, after the sliding block on the protective strip of the partition piece and the sliding groove on the second side wall of the mounting box form sliding fit, the second cavity of the mounting box is at least isolated into two cavities with adjustable space size, and the two cavities are communicated through the flat cable through hole in the second cavity of the mounting box on the partition plate.

The mounting box further comprises a middle supporting plate which extends from the middle part of the second bottom wall of the mounting box along the direction away from the second bottom wall and divides the second cavity of the mounting box into two parts; the partition piece also comprises a limiting fixture block which is arranged on the protective strip and divides the partition plate into an upper partition plate and a lower partition plate which are independent from each other; wherein,

a concave notch with an opening facing the direction of the middle supporting plate is formed in the limiting clamping block, and the upper partition plate and the lower partition plate are distributed on two sides of the limiting clamping block; the upper partition plate and the lower partition plate are respectively provided with a plurality of flat cable through holes;

when the concave notch of the limiting clamping block is embedded into the end face, far away from the second bottom wall, of the middle supporting plate, the upper partition plate and the lower partition plate are respectively located on two sides of the middle supporting plate, so that the second cavity of the mounting box is isolated into four cavities with adjustable space sizes, the wire arranging through hole in the upper partition plate conducts the two cavities, located above the middle supporting plate, of the mounting box, the two cavities are isolated into cavities with adjustable space sizes, and the wire arranging through hole in the lower partition plate conducts the two cavities, located below the middle supporting plate, of the mounting box.

The middle supporting plate is provided with a plurality of first radiating holes for radiating.

The number of the sliding grooves on the second side wall of the mounting box is two, and the two sliding grooves are symmetrically distributed by taking the middle supporting plate as a symmetrical axis; the two sliding blocks on the protective strip of the partition part are symmetrically distributed by taking the middle supporting plate as a symmetrical axis.

And a plurality of second heat dissipation holes for heat dissipation are formed in the second bottom wall of the mounting box.

And a certain gap for air circulation to realize heat dissipation is reserved between the second bottom wall of the mounting box and the first bottom wall of the box body.

And a heat dissipation mechanism for dissipating heat is further arranged in the gap.

The heat dissipation mechanism comprises a fan and a fixed screen frame; wherein,

the fan is arranged on the first bottom wall of the box body;

the fixed net frame is fixed on the first bottom wall of the box body and is wrapped on the periphery of the fan.

Wherein, still include: the bearing block is used for fixing the mounting box and the first side wall of the box body together; wherein,

one end of each bearing block is connected with the outer surface of the second side wall of the mounting box, and the other end of each bearing block is connected with the inner surface of the first side wall of the box body.

And the area of each bearing block is smaller than that of the second side wall of the mounting box connected with the bearing block. Implement the embodiment of the utility model provides a, following beneficial effect has:

1. in the embodiment of the utility model, because the embedded mounting box that is used for electrical equipment to fix of box can adjust the space size of putting electrical equipment through the slip of partition on the mounting box, make the inner space of mounting box can adjust according to the difference of electrical equipment model and volume, thereby maximize to utilize and save the space that electrical equipment put, simultaneously because the partition panel on the partition is equipped with a plurality of winding displacement through-holes that are used for the cable business turn over, make the mounting box can carry out classification arrangement to the business turn over cable of different electrical equipment through the winding displacement through-hole, can not only solve the problem that the inside circuit of current optic fibre service box is bunched together, make circuit maintenance and inspection convenient, labour saving and time saving, but also have pleasing to the eye advantage;

2. the embodiment of the utility model provides an in, because be equipped with first louvre on the second diapire of mounting box, strengthened the radiating effect of box, still reserve the clearance that has the difference between mounting box and box simultaneously, further strengthened the radiating effect of box, install heat dissipation mechanism (like the fan) additional even on the first diapire of box for the radiating effect of box further obtains the reinforcing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and 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 obtained from these drawings still belong to the scope of the present invention without inventive laboriousness.

Fig. 1 is a front view of an optical fiber box according to an embodiment of the present invention after being opened;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view of the septum in FIG. 1;

FIG. 4 is a top view of the intermediate support plate of FIG. 2;

FIG. 5 is a front view of the heat dissipation mechanism of FIG. 2;

in the figure, 1-box body, 11-first bottom wall, 12-first side wall, 121-first wire inlet, 122-first wire outlet, 13-first cavity, 131-gap, 2-box door, 3-mounting box, 31-second bottom wall, 311-mounting hole, 312-second heat dissipation hole, 32-second side wall, 321-second wire inlet, 322-second wire outlet, 323-chute, 33-second cavity, 34-middle support plate, 341-first heat dissipation hole, 4-partition piece, 41-partition plate, 411-wire arrangement through hole, 412-upper partition plate, 413-lower partition plate, 42-protective strip, 421-slide block, 43-limit block, 431-concave notch, 5-heat dissipation mechanism, 51-fan, 52-fixed screen frame and 6-bearing block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, in an embodiment of the present invention, an optical fiber box for entering home includes a box body 1 and a box door 2 covering the box body 1; the box door 2 is rotatably arranged on the box body 1 through a rotating shaft, and the box body 1 and the box door 2 are both made of stainless steel; wherein,

the box body 1 comprises a first bottom wall 11, a first side wall 12 and a first cavity 13, wherein the first side wall 12 and the first bottom wall 11 form a semi-closed structure, and the first cavity is formed by the first bottom wall 11 and the first side wall 12; wherein, the first sidewall 12 is provided with a first wire inlet 121 and a first wire outlet 122; the first cavity 13 is internally embedded with a mounting box 3 for mounting electrical equipment and a partition member 4 for partitioning the mounting box 3 into a plurality of placing spaces;

the mounting box 3 comprises a second bottom wall 31, a second side wall 32 and a second cavity 33, wherein the second side wall 32 and the second bottom wall 31 form a semi-closed structure, and the second cavity is defined by the second bottom wall 31 and the second side wall 32; wherein, the second bottom wall 31 is provided with a mounting hole 311 for fixing electrical equipment; the second sidewall 32 is provided with a second wire inlet 321 and a second wire outlet 322, and the second sidewall 32 is further provided with a chute 323;

the partition 4 includes a partition plate 41 and a protection bar 42 provided on a side surface of one side of the partition plate 41; wherein, a plurality of cable through holes 411 for the entry and exit of cables are formed on the partition plate 41; at least one end of the protection strip 42 extends out of the partition plate 41 and is provided with a sliding block 421 matched with the sliding groove 323;

wherein, in partition panel 41 of partition 4 inserts the second cavity 33 of mounting box 3 perpendicularly, and slide block 421 on the protection strip 42 of partition 4 forms sliding fit with spout 323 on the second lateral wall 32 of mounting box 3 after, second cavity 33 of mounting box 3 is kept apart into two space size adjustable cavitys at least, and all be located the winding displacement through-hole 411 of second cavity 33 of mounting box 3 and switch on through partition panel 41, winding displacement through-hole 411 on partition panel 41 of partition 4 all is located the second cavity 33 of mounting box 3 and switches on second cavity 33 of mounting box 3 and is kept apart into two space size adjustable cavitys at least.

It should be noted that, because the slider 421 on the protective strip 42 of the partition member 4 forms sliding fit with the sliding groove 323 on the second side wall 32 of the mounting box 3, the space size of the third cavity 33 in the mounting box 3 is adjustable, the requirement of different models and volumes for placing space of electrical equipment is met, and through the wire arranging through hole 411 on the partition plate 41, the cables which are connected with the electrical equipment and enter and exit the mounting box 3 are placed orderly, thereby avoiding the problem that the cables are clustered together, realizing that the maintenance and inspection of the cables inside the mounting box 3 are convenient, time and labor are saved, and the cable mounting box also has the advantage of attractiveness.

In the embodiment of the present invention, in order to make the third cavity 33 in the mounting box 3 can be divided into more spaces for placing electrical equipment, the mounting box 3 further includes an intermediate support plate 34 extending along the direction away from the second bottom wall 31 and dividing the second cavity 33 of the mounting box 3 into two parts from the middle of the second bottom wall 31 of the mounting box 3. At this time, the partition 4 should further include a position limiting fixture block 43 disposed on the protection strip 42 and dividing the partition plate 41 into an upper partition plate 412 and a lower partition plate 413 which are independent of each other; a concave gap 431 with an opening facing the direction of the middle support plate 34 is formed on the limiting clamping block 43, and an upper partition plate 412 and a lower partition plate 413 are distributed on two sides of the limiting clamping block 43; wherein, a plurality of winding displacement through holes 411 are arranged on the upper partition plate 412 and the lower partition plate 413;

after the concave notch 431 of the limiting clamping block 43 is embedded into the end surface of the end of the middle supporting plate 34 far away from the second bottom wall 32 (i.e. the partition member 4 can be clamped on the middle supporting plate 34 and can also meet the requirement that the sliding block 421 slides in the sliding slot 323 on the second side wall 32 of the mounting box 3), the upper partition plate 412 and the lower partition plate 413 are respectively located at two sides of the middle supporting plate 34, so that the second cavity 33 of the mounting box 3 is isolated into four cavities with adjustable space size, and the flat cable through hole 411 on the upper partition plate 412 is communicated with two cavities above the middle supporting plate 34 of the second cavity 33 of the mounting box 3 and is isolated into two cavities with adjustable space size, and the flat cable through hole 411 on the lower partition plate 413 is communicated with two cavities below the middle supporting plate 34 of the second cavity 33 of the mounting box 3 and is isolated into.

It can be understood that, in order to improve the heat dissipation effect of the electrical equipment in the mounting box 3, a plurality of first heat dissipation holes 341 (shown in fig. 4) for dissipating heat are provided on the intermediate support plate 34.

In the embodiment of the present invention, in order to enable the partition member 4 to better slide on the mounting box 3, two sliding grooves 323 are provided on the second side wall 32 of the mounting box 3, and the two sliding grooves 323 form a symmetrical distribution with the middle support plate 34 as a symmetry axis; at this time, there are two sliders 421 on the protection bar 42 of the partition 4, and the two sliders 421 are also symmetrically distributed with the middle support plate 34 as a symmetry axis.

In the embodiment of the present invention, in order to improve the heat dissipation effect, a plurality of second heat dissipation holes 312 for dissipating heat are further formed on the second bottom wall 31 of the mounting box 3. It should be noted that the second heat dissipation hole 312 may also be implemented by an extra mounting hole 311, that is, the structure of the second heat dissipation hole 312 may be the same as that of the mounting hole 311.

In the embodiment of the present invention, for further improving the heat dissipation effect, a certain gap 131 for air circulation to achieve heat dissipation is reserved between the second bottom wall 31 of the mounting box 3 and the first bottom wall 11 of the box body 1. A heat dissipation mechanism 5 for dissipating heat is further disposed in the gap 131, so that the heat dissipation effect is better. In one embodiment, as shown in fig. 5, the heat dissipation mechanism 5 includes a fan 51 and a fixed mesh frame 52; wherein, the fan 51 is installed on the first bottom wall 11 of the box body 1; the fixed net frame 52 is fixed on the first bottom wall 11 of the box body 1 and covers the periphery of the fan 51.

The embodiment of the present invention provides an in order to strengthen the firm nature that first lateral wall 12 was fixed mutually in mounting box 3 and the box 1, still include: the supporting block 6 is used for fixing the mounting box 3 and the first side wall 12 of the box body 1 together; wherein, one end of each supporting block 6 is connected with the outer surface of the second side wall 32 of the mounting box 3, and the other end is connected with the inner surface of the first side wall 12 of the box body 1. For example, when the mounting case 3 is a square case, four support blocks 6 are connected to the outer surfaces of the four side walls of the square case.

In the embodiment of the present invention, for further improving the heat dissipation effect, the area of each supporting block 6 is smaller than the area of the second side wall 32 of the mounting box 3 connected to the supporting block, so that a space for the air to flow to realize the heat dissipation effect is reserved between the second side wall 32 of the mounting box 3 and the first side wall 12 of the box body 1.

The embodiment of the utility model provides an in, the theory of operation of a optic fibre case of registering one's residence who provides does, when using this case of registering one's residence, the electrical equipment (like the light cat) volume size and the volume size of module of installing as required, adjust the position of protection strip 42 in advance, open chamber door 2 back promptly, remove protection strip 42 about, make protection strip 42 drive slider 421 that connect on it and remove in spout 323 on the second lateral wall 32 of mounting box 3, suitable position until protection strip 42 is in, make second cavity 33 of mounting box 3 have the space that is fit for putting electrical equipment.

The bridge pre-arranged in the electrical equipment is installed in the area corresponding to the selected cavity in the second bottom wall 31 of the installation box 3 through the installation hole 311, that is, the screw is inserted into the bridge and then inserted into the inside of the installation hole 311 to fix the bridge, and then the optical modem is fixed in the selected cavity in the installation box 3 through the bridge, at this time, the power strip can also be fixed in the installation box 3.

The cable passes through the first wire inlet 121 on the first side wall 12 of the box body 1 and the second wire inlet 321 on the second side wall 32 of the mounting box 3 in sequence to enter the mounting box 3, and a little length is reserved between the second wire inlet 321 on the second side wall 32 of the mounting box 3 and the first wire inlet 121 on the first side wall 12 of the box body 1, then the cable passes through the cable through hole 411 on the partition plate 41 of the partition 4 to be connected with the optical cable, then the optical cable is led out from the optical cable to pass through the other cable through holes 411 on the partition plate 41 of the partition 4, the optical cable subjected to signal switching sequentially passes through the second wire outlet 322 on the second side wall 32 of the mounting box 3 and the second wire outlet 122 on the first side wall 12 of the box body 1 to be connected with the information panel of the room, and a little length is reserved between the second wire outlet 322 on the second side wall 32 of the mounting box 3 and the first wire outlet 122 on the first side wall 12 of the box body 1.

After the cable installation is finished, the power plug of the fan 51 is connected to the power strip inside the mounting box 3 or directly led out of the box body 1 to obtain power supply. When the heat of box 1 inside was too high, the switch of startable fan 51, fan 51 rotated, exchanged the air outside in to mounting box 3 and played radiating effect, when needs examined the circuit of inside, outwards stimulate a bit a little with mounting box 3, owing to reserve length before, can be convenient examine the circuit of mounting box 3 inside, avoid because of the less blurred condition in field of vision that leads to in space, increased holistic practicality.

Implement the embodiment of the utility model provides a, following beneficial effect has:

1. in the embodiment of the utility model, because the embedded mounting box that is used for electrical equipment to fix of box can adjust the space size of putting electrical equipment through the slip of partition on the mounting box, make the inner space of mounting box can adjust according to the difference of electrical equipment model and volume, thereby maximize to utilize and save the space that electrical equipment put, simultaneously because the partition panel on the partition is equipped with a plurality of winding displacement through-holes that are used for the cable business turn over, make the mounting box can carry out classification arrangement to the business turn over cable of different electrical equipment through the winding displacement through-hole, can not only solve the problem that the inside circuit of current optic fibre service box is bunched together, make circuit maintenance and inspection convenient, labour saving and time saving, but also have pleasing to the eye advantage;

2. the embodiment of the utility model provides an in, because be equipped with first louvre on the second diapire of mounting box, strengthened the radiating effect of box, still reserve the clearance that has the difference between mounting box and box simultaneously, further strengthened the radiating effect of box, install heat dissipation mechanism (like the fan) additional even on the first diapire of box for the radiating effect of box further obtains the reinforcing.

The above disclosure is only a preferred embodiment of the present invention, and certainly should not be taken as limiting the scope of the invention, which is defined by the claims and their equivalents.

Claims (10)

1. An optical fiber home box is characterized by comprising a box body (1) and a box door (2) covered on the box body (1); wherein,

the box body (1) comprises a first bottom wall (11), a first side wall (12) and a first cavity (13), wherein the first side wall (12) and the first bottom wall (11) enclose a semi-closed structure, and the first cavity is enclosed by the first bottom wall (11) and the first side wall (12); wherein, a first wire inlet (121) and a first wire outlet (122) are arranged on the first side wall (12); a mounting box (3) for mounting electrical equipment and a partition piece (4) for partitioning the mounting box (3) into a plurality of placing spaces are embedded in the first cavity (13);

the mounting box (3) comprises a second bottom wall (31), a second side wall (32) and a second cavity (33), wherein the second side wall (32) and the second bottom wall (31) enclose a semi-closed structure, and the second cavity is enclosed by the second bottom wall (31) and the second side wall (32); wherein, the second bottom wall (31) is provided with a mounting hole (311) for fixing electrical equipment; a second wire inlet (321) and a second wire outlet (322) are formed in the second side wall (32), and a sliding groove (323) is further formed in the second side wall (32);

the partition piece (4) comprises a partition plate (41) and a protection strip (42) arranged on one side face of the partition plate (41); wherein, a plurality of flat cable through holes (411) for the entry and exit of cables are formed on the partition plate (41); at least one end of the protection strip (42) extends out of the partition plate (41) and is provided with a sliding block (421) matched with the sliding groove (323);

wherein, partition panel (41) of partition piece (4) insert perpendicularly in second cavity (33) of mounting box (3), just slider (421) on protection strip (42) of partition piece (4) with spout (323) on second lateral wall (32) of mounting box (3) form sliding fit back, second cavity (33) of mounting box (3) are kept apart into two space size adjustable cavitys at least and are passed through all be located on partition panel (41) winding displacement through-hole (411) in second cavity (33) of mounting box (3) switch on.

2. The fiber optic service box of claim 1, wherein the mounting box (3) further comprises an intermediate support plate (34) extending from a middle portion of the second bottom wall (31) of the mounting box (3) in a direction away from the second bottom wall (31) and bisecting the second cavity (33) of the mounting box (3); the partition piece (4) further comprises a limiting clamping block (43) which is arranged on the protective strip (42) and divides the partition plate (41) into an upper partition plate (412) and a lower partition plate (413) which are independent of each other; wherein,

a concave notch (431) with an opening facing the direction of the middle support plate (34) is formed in the limiting clamping block (43), and the upper partition plate (412) and the lower partition plate (413) are distributed on two sides of the limiting clamping block (43); wherein the upper partition plate (412) and the lower partition plate (413) are both provided with a plurality of flat cable through holes (411);

work as concave notch (431) embedding of spacing fixture block (43) intermediate support plate (34) is kept away from behind the one end terminal surface of second diapire (31), go up partition panel (412) and partition panel (413) are located down respectively the both sides of intermediate support plate (34), make second cavity (33) of mounting box (3) are kept apart into four space size adjustable cavitys, just winding displacement through-hole (411) on last partition panel (412) switch on second cavity (33) of mounting box (3) are located two of intermediate support plate (34) top are kept apart into space size adjustable cavity, winding displacement through-hole (411) on lower partition panel (413) switch on second cavity (33) of mounting box (3) are located two of intermediate support plate (34) below are kept apart into space size adjustable cavity.

3. The fiber optic drop box of claim 2, wherein the intermediate support plate (34) has a plurality of first heat dissipation holes (341) for dissipating heat.

4. The fiber optic drop box of claim 3, wherein there are two of said slide grooves (323) on the second side wall (32) of said mounting box (3), and said two slide grooves (323) are symmetrically distributed about said intermediate support plate (34); the number of the sliding blocks (421) on the protective strip (42) of the partition part (4) is two, and the two sliding blocks (421) are symmetrically distributed by taking the middle supporting plate (34) as a symmetry axis.

5. The fiber optic drop box of claim 4, wherein the second bottom wall (31) of the mounting box (3) further has a plurality of second heat dissipation holes (312) formed therein for dissipating heat.

6. The fiber optic service cabinet of claim 5, wherein a gap (131) for air circulation to dissipate heat is reserved between the second bottom wall (31) of the mounting box (3) and the first bottom wall (11) of the cabinet (1).

7. The fiber optic service box of claim 6, wherein a heat dissipation mechanism (5) for dissipating heat is further disposed in the gap (131).

8. The fiber optic drop box of claim 7, wherein the heat dissipation mechanism (5) comprises a fan (51) and a fixed screen frame (52); wherein,

the fan (51) is arranged on the first bottom wall (11) of the box body (1);

the fixed net frame (52) is fixed on the first bottom wall (11) of the box body (1) and covers the periphery of the fan (51).

9. The fiber optic drop box of claim 8, further comprising: the bearing block (6) is used for fixing the mounting box (3) and the first side wall (12) of the box body (1) together; wherein,

one end of each bearing block (6) is connected with the outer surface of the second side wall (32) of the mounting box (3), and the other end of each bearing block is connected with the inner surface of the first side wall (12) of the box body (1).

10. The fiber optic service cabinet of claim 9, wherein each support block (6) has an area smaller than an area of the second side wall (32) of the installation box (3) to which it is attached.