KR20190038742A - Supporting structure for optical communication apparatus and optical communication apparatus - Google Patents

Abstract

Discloses are a supporting structure for an optical communication apparatus and an optical communication apparatus including the supporting structure. The supporting structure for an optical communication apparatus includes a rear housing and a supporting structure. The supporting structure includes a support plate and a supporting plate. The support plate is connected to the rear housing through a first connection shaft of the support plate. Two sides of the supporting plate is connected to the support plate and the rear housing, respectively. The first connection shaft is integrated with the support plate. The rear housing, the support plate, and the supporting plate form a stable triangular supporting structure. The present invention provides a supporting structure for an optical fiber tester and an optical fiber tester, capable of solving a problem that support of a conventional optical fiber tester is unstable, lowering costs, having a stable structure, and being automatically opened to make a support. According to the present invention, the support of the supporting structure is stable, and the supporting structure is not easily damaged in use and can withstand external impacts of considerable strength. In addition, the operation is simple and the processing cost is low, thereby efficiently implementing an object of lowering the product cost.

Description

Technical Field [0001] The present invention relates to a support structure for optical communication equipment and an optical communication equipment,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical cable installation and facility maintenance protection area, and more particularly, to a support structure for an optical communication equipment and an optical communication equipment including the structure.

With the development of optical fiber communication technology, the application of optical communication equipment is becoming more and more widespread. In order to be suitable for work in various situations such as high-altitude and ground, optical communication equipment is generally provided with a support structure. The support structure allows the operator to view the data much more easily during actual work, and conforms to ergonomic principles.

However, currently, the support structure of the optical communication equipment is mostly a branch type, that is, one open plate is installed in the rear housing. This approach requires high strength for the strength of the point, the support is not stable, and because of poor environmental conditions during actual use, the point is often ruptured, resulting in poor results for the entire use.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a support structure for an optical communication equipment and a optical communication equipment using the structure of the support structure, which are low in cost and stable in structure.

Technical problems of the present invention can be solved by the following technical solutions.

A support structure for an optical communication equipment comprising a back housing and a support structure, the support structure comprising a support plate and a support plate; The support plate is connected through the first connection shaft of the back housing and the support plate, and the two opposite sides of the support plate are connected to the support plate and the rear housing, respectively.

The first connection shaft is provided integrally with the support plate; The back housing, the support plate and the support plate form a stable triangular support structure.

Further, the supporting plate is lower than the supporting plate receiving surface of the inner surface of the supporting plate, and the supporting plate receiving groove is formed on the side of the supporting plate receiving portion; The supporting plate includes a second connecting shaft connected to the supporting plate, and the second connecting shaft is slidingly moved in the supporting plate receiving position.

Further, the rear housing includes a support lid provided on the rear housing surface, and the support lid includes a support plate connection hole; The support plate includes a fourth connection shaft connected to the support plate connection hole.

Further, the support structure includes a spring; The spring includes a first spring support portion, a second spring support portion, and a spring connection portion.

The supporting plate lid is provided with a first spring receiving portion for receiving the first spring supporting portion, and the supporting plate is provided with a second spring receiving portion for receiving the second spring supporting portion. The supporting plate includes a third connecting shaft connected to the spring connecting portion, And the spring causes the support plate to generate a force away from the support lid.

Further, the support shaft cover may include an inclined recessed groove, and the rear housing may include an inclined depression, a first gap may be formed between the inclined recessed groove and the inclined depression, 1 Slide in the gap.

Furthermore, the inclined recessed groove includes an inclined portion and a buckle portion; The buckle portion includes a buckle projection and a buckle connection portion, and a buckle gap is formed between the buckle portion and the inclined portion.

Further, the support lid includes a rib, and the rear housing includes a side jaw that matches the rib; A second gap is formed between the rib and the buckle protrusion, the width of the second gap corresponds to the diameter of the first connection shaft, and when the first connection shaft is pushed by an external force to reach the second gap, The connection axis is position-limited.

Furthermore, the support plate includes a bending portion, and the bending portion is connected to the second connection shaft; The supporting plate includes a blocking plate, and a third gap is provided between the blocking plate and the supporting plate receiving unit to allow the second connecting shaft to slide into the supporting plate receiving unit.

Furthermore, the support plate further includes a support plate gap.

Furthermore, a plurality of slant projections are provided on the inclined portion to facilitate sliding of the support plate.

Further, the rear housing includes a projection, the support plate includes a concave hole, the projection and the concave hole are matched with each other, and when the support plate is engaged, the projection is inserted into the concave hole, The structure is positionally limited.

Further, the length of the support plate is shorter than the length of the support lid receiving portion, and when the support structure is closed, a fourth gap is formed between the support plate and the rear housing.

The present invention further proposes an optical communication equipment in which a support structure is provided, wherein the structure of the support structure is the support structure for the optical communication equipment.

1. The support structure adopted by the present invention is stable in its support, is not damaged well during use, and can withstand external impacts of considerable strength.

2. The support structure adopted by the present invention adopts a method of quick opening, so that it is simple and convenient to use, and can be easily operated.

3. The structure of the present invention is simple, the processing cost is low, and the product cost can be lowered efficiently.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded view of the entire coupling of a support structure for optical communication equipment of the present invention. FIG.
2 is a view showing a rear housing of a support structure for optical communication equipment of the present invention.
3 is a view showing a support lid of the support structure for optical communication equipment of the present invention.
4 is a view showing a support plate of the support structure for optical communication equipment of the present invention.
5 is a view showing a support plate of a support structure for an optical communication equipment of the present invention.
6 is a view showing a spring of a support structure for an optical communication equipment of the present invention.
7 is a view showing the supporting state of the support structure for optical communication equipment of the present invention.
Fig. 8 is an enlarged view of a part of Fig. 7. Fig.
Fig. 9 is a view showing a support state of the support structure for optical communication equipment according to the present invention when the support plate is not opened. Fig.
10 is a view showing a state when the support plate of the optical communication equipment of the present invention is opened.
Fig. 11 is a view showing the structure when the support plate of the optical communication equipment of the present invention is to be closed. Fig.
12 is a view showing a structure in which a supporting plate of the optical communication equipment of the present invention is closed.
13 is a view showing the connection between the rear housing and the support lid of the optical communication equipment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings based on preferred embodiments.

1, the supporting structure for an optical communication equipment includes a rear housing 1, a supporting plate 3, a supporting plate 4, and a spring 5. Preferably, the rear housing 1 further comprises a detachable support lid 2. The support stand cover 18 and the rear housing 1 may also be integrally formed, but are not limited thereto.

2, the rear housing 1 is provided with a support lid receiving portion 11, a first side portion 13 and a second side portion 13 which are used to accommodate the support lid 2, A side jaw 15 formed between the inclined side 14 and the inclined side 14 and the first side 13 in a stepped shape, a projection 12 projecting from the first side 13, And a tapered depression formed in the inner surface of the rear housing 1 and formed of a depressed groove having an inclination angle. Preferably, the first connection shaft receiving groove (not shown) used to receive the support plate 3 17). Preferably the rear housing 1 also includes a contact surface 16 which is lower than the surface 111 of the support lid receptacle and is used to match the support plate 3, It is possible to prevent external dust from directly entering the support structure when the support plate is closed.

3, the supporter lid 2 is provided with inclined recessed grooves 21 which are recessed in the supporter lid 2 and inclined at the bottom, buckle portions 22 on both sides in the inclined recessed recesses 21, A rib 23 protruding from a bottom surface of the supporter lid 2, a first spring receiving part 24 used for receiving the spring 5, a support plate connection hole A second side 26 and a second gap 7 located between the rib 23 and the buckle protrusion 221 are provided.

The inclined recessed groove 21 is provided with an inclined portion 212 and an inclined projection 211 protruding from the inclined portion 212. A buckle gap 223 is provided between the buckle part 22 and the inclined part 212. The buckle part 22 has a buckle protrusion 221 protruding from the bottom of the buckle part 22 and forming a curved surface, And a buckle connection part 222 connecting the buckle part protrusion 221 with the inclined recessed groove 21.

4, the supporting plate 3 is provided with a first connecting shaft 31 integrally formed with the supporting plate 3, a blocking plate 32, and a support plate 33, which is slightly lower than the surface of the supporting plate 3, A third gap (34) located between the blocking plate (32) and the support plate receiving position (33), a second gap The support plate receiving grooves 331 provided on both sides of the support plate receiving member 33 and used to receive the support plate 4 and the second connection shaft 41 are disposed in the support plate receiving grooves 331 A position-defining ridge 35 used to limit the position is provided. The length of the support plate 3 is shorter than the length of the support lid receiving portion 11.

5, a second connecting shaft 41, a bending portion 42, and a second spring (not shown) used to receive the spring 5 are inserted into the supporting plate receiving groove 331 of the supporting plate 4, A third connecting shaft 45 used for connecting the spring 5 and a fourth connecting shaft 46 connected to the supporting plate connecting hole 25 are provided.

6, the spring 5 includes a spring connection portion 51 connected to the third connection shaft 45, a first spring support portion 52 contacting the support plate 4, And a second spring support portion 53 connected to the second spring support portion 53.

1 to 6 and 13, when the support structure is assembled, the first connection shaft 31 of the support plate 3 is positioned in the first connection shaft receiving groove 17, The first connection shaft receiving groove 17 may be a groove recessed inside the rear housing 1 and has a length corresponding to the first connecting shaft 31. The support lid 2 is connected to the rear housing 1. In the present embodiment, the connection type is not limited, and a coupling connection, a hook connection, or the like may be adopted. At this time, both ends of the ribs 23 of the supporter lid 2 are caught by the side jaws 15 of the rear housing 1 and the inclined recessed grooves 21 of the supporter lid 2 and the rear housing 1, A first gap 6 used to move the first connection shaft 31 is formed between the inclined depression of the second connection shaft 17 and the first connection shaft receiving groove 17.

Preferably, the width of the inclined side 14 is smaller than the width of the groove wall of the inclined concave groove 21, so that the first connecting shaft 31 is stably received in the first gap 6 It does not pop out.

The spring connection portion 51 is connected to the third connection shaft 45 and the first spring support portion 52 is connected to the second connection shaft 45. In this case, The spring 5 is installed in the first spring receiving part 24 and the second spring supporting part 53 is installed in the second spring receiving part 43. The spring 5 is arranged so that the support plate 4 is supported by the support table cover 2 Creating a separating force.

The supporting plate 4 and the supporting plate cover 2 are connected as follows: the fourth connecting shaft 46 is connected to the supporting plate connection hole 25 and the supporting plate gap 44 is connected to the fourth connection So that the shaft 46 is deformable and inserted into the support plate connection hole 25. At the same time, the first spring supporting portion 52 is accommodated in the second spring receiving portion 43 and the second spring supporting portion 53 is accommodated in the first spring receiving portion 24.

The connection method of the support plate 4 and the support plate 3 is as follows: the second connection shaft 41 is slid through the third gap 8 to be inserted into the support plate receiving groove 331, The second connection shaft 41 can be slid in the support plate receiving groove 331 and the sliding range thereof is limited by the position limiting ridge 35. [ The second connecting shaft 41 generates a force for separating the supporter lid 2 by the tension action of the spring 5 and the second connecting shaft 41 slides and is positioned in the position- , The entire support structure is in a state of support.

With reference to Figs. 7 to 12, two states of the support structure, that is, a supporting state and a closed state (closed state) will be described.

Referring to FIG. 12, the support structure of the optical communication equipment is in a closed state before use. As shown in the figure, when the length a of the support plate 3 and the length b of the support lid accommodating unit 11 are a < b, the support plate 3 and the rear housing 1 can form the fourth gap 9 so that the operator can easily open the support plate 3 to start the support structure.

Preferably, the rear housing 1 is lower than the contact surface 16 of the support lid receiving surface 111, wherein the contact surface 16 is the bottom surface of the fourth gap 9, And the support plate 3 are matched with each other, and the side surface of the fourth gap 9 is closed to prevent entry of dust.

7 and 8, the first connection shaft 31 of the support plate 3 is located in the second gap 7 when the communication equipment is in a supporting state, and the second gap (not shown) 7) corresponds to the diameter of the first connection shaft 31. Preferably, the width of the second gap 7 is narrower than the first connection shaft 31, When the first connecting shaft 31 is press-fitted into the second gap 7, the first connecting shaft 31 is positioned. The second connection shaft 41 of the support plate 4 is located at the bottom of the support plate receiving groove 331 and is in contact with the position limiting ridge 35 to be positioned. The rear housing (1) and the support plate (3) form a stable triangular support structure with the support plate (4).

Referring to FIGS. 7 to 12, when the support structure is opened, the operator opens the support plate 3 through the fourth gap 9 using an external force. The first connection shaft 31 of the support plate 3 is located at the upper portion of the first gap 6 so that the spring 5 generates a force for separating the support plate 4 from the support lid 2 The spring 5 causes the support plate 4 to move along the fourth connecting shaft 46 in the axial direction, that is, when the second connecting shaft 41 is moved upward in the supporting plate receiving groove 331, When the second connecting shaft 41 reaches the bottom portion of the supporting plate receiving groove 331 and contacts the position limiting ridge 35, the second connecting shaft 41 The movement of the support plate 4 in the support plate receiving groove 331 is completed and the positions of the support plate 4 and the support plate 3 are fixed and the support plate 3 is already opened.

In the process of opening the support structure, the support plate 3 moves from the top to the bottom in the first gap 6, and the slant projections 211 move the support plate 3 smoothly When the first connecting shaft 31 reaches the upper side of the buckle projection 221, the space of the first gap 6 is reduced due to the disturbance of the buckle projection 221, The buckle part 22 is a deformed part and the first connecting shaft 31 is moved in the direction of the arrow A under the action of an external force, Reaches the second gap (7) and its position is defined, so that the support structure becomes stable and the operation of opening the support structure is completed.

When the support structure is closed, the worker pushes the support plate 3 by force, causing the first connection shaft 31 to protrude in the second gap 7, and the operator continues to push the support plate 3, The first connection shaft 31 is pressed to move toward the upper portion of the first connection shaft receiving groove 17 and when the first connection shaft 31 reaches the top of the first connection shaft receiving groove 17 The first connection shaft 31 is fixed in position with respect to the rear housing 1 and the support lid 2 while the support plate 3 is still in the open state.

The second connecting shaft 41 is moved in the direction of the blocking plate 32 from the position limiting ridge 35 in the supporting plate receiving groove 331 by the action of an external force when the operator continuously presses the supporting plate 3, And the concave hole 34 of the support plate 3 is brought into contact with the protrusion 12 of the rear housing 1 So that the position of the support plate 3 is limited, so that the support structure is closed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And supplementary claims fall within the scope of the present invention.

1: rear housing, 11: support lid receiving position, 111: support lid receiving position surface, 12: projection, 13: first side, 14: inclined side, 15: side jaw, A first connecting shaft receiving groove is formed at the upper end of the first connecting shaft receiving groove and a second connecting shaft receiving groove is formed at the lower end of the connecting shaft receiving groove. A buckle connection portion 223 a buckle gap 23 a rib 24 a first spring receiving portion 25 a support plate connection hole 26 a second side 3 support plate 31 32: blocking board, 33: supporting plate receiving position, 331: supporting plate receiving groove, 34: concave hole, 35: positioning ridge, 36: second step, 4: A second connecting shaft, a bending unit, a second spring receiving member, a support plate gap, a third connecting shaft, a fourth connecting shaft, a spring, A first spring supporting portion and a second spring supporting portion, and a second spring supporting portion, Fourth gap

Claims (13)

A back housing and a support structure,
The support structure including a support plate and a support plate;
Wherein the support plate is connected through the first connection shaft of the back housing and the support plate, and two opposite sides of the support plate are respectively connected to the support plate and the rear housing;
The first connection shaft is installed integrally with the support plate;
Wherein the back housing, the support plate, and the support plate form a stable triangular support structure. The method according to claim 1,
The supporting plate is lower than the supporting plate receiving surface of the inner surface of the supporting plate, and the supporting plate receiving groove is provided on the side of the supporting plate receiving portion;
Wherein the support plate includes a second connection shaft connected to the support plate, and the second connection shaft performs a sliding movement in the support plate receiving unit. The method of claim 2,
The rear housing including a support lid mounted on a rear housing surface, the support lid including a support plate connection hole; And the support plate includes a fourth connection shaft connected to the support plate connection hole. The method of claim 3,
The support structure including a spring;
The spring including a first spring support, a second spring support and a spring connection,
The supporting plate lid is provided with a first spring receiving portion for receiving the first spring supporting portion, and the supporting plate is provided with a second spring receiving portion for receiving the second spring supporting portion. The supporting plate includes a third connecting shaft connected to the spring connecting portion, Wherein said spring causes said support plate to generate a force away from said support lid. The method of claim 4,
Wherein the support shaft cover includes an inclined recessed groove, wherein the rear housing includes an inclined depression, a first gap is formed between the inclined recessed groove and the inclined depression, the first connection shaft includes a first gap And a sliding movement is performed in the inside of the optical communication equipment. The method of claim 5,
Wherein the inclined recessed groove includes an inclined portion and a buckle portion,
Wherein the buckle portion includes a buckle projection and a buckle connection portion, and a buckle gap is formed between the buckle portion and the inclined portion. The method of claim 6,
The support lid includes a rib, and the rear housing includes a side jaw that matches the rib;
A second gap is formed between the rib and the buckle protrusion, the width of the second gap corresponds to the diameter of the first connection shaft, and when the first connection shaft is pushed by an external force to reach the second gap, And the connection axis is limited in position. The method of claim 7,
Wherein the support plate includes a bending portion, the bending portion is connected to the second connection shaft;
Wherein the supporting plate comprises a blocking plate and a third gap is provided between the blocking plate and the supporting plate receiving groove for the sliding movement of the second connecting shaft into the supporting plate receiving groove. Support structure. The method of claim 8,
Wherein the support plate further comprises a support plate gap. The method of claim 9,
And a plurality of inclined projections are provided on the inclined portion to facilitate sliding of the support plate. The method of claim 10,
Wherein the back housing includes a projection, the projection includes a concave hole, the projection and the concave hole are matched, and when the support plate is engaged, the projection is inserted into the concave hole, Wherein the support structure comprises at least one optical fiber. The method of claim 11,
Wherein a length of the support plate is shorter than a length of the support lid receptacle and a fourth gap is formed between the support plate and the rear housing when the support structure is closed. In an optical communication equipment in which a support structure is provided,
The optical communication equipment according to any one of claims 1 to 12, wherein the support structure is a support structure for optical communication equipment.

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