CN212160166U - Optical module interface mechanism with dustproof function - Google Patents

Abstract

The utility model discloses an optical module interface mechanism with dustproof function, including dustproof piece and rather than the optical module interface of complex, the dustproof piece includes vertical board, the optical module interface includes top edge and lower border, vertical board is provided with the fixed plate and the first rubber spare that extend to in the optical module interface and contact with the top edge perpendicularly, be provided with the hold-down mechanism at border down on the fixed plate, hold-down mechanism includes the drum spare that is located on the fixed plate, the drum is provided with the opening towards lower border, be provided with flexible subassembly in the drum, flexible subassembly is provided with the second rubber spare that passes opening and lower border contact; a first strip-shaped opening is formed in the vertical plate, a second strip-shaped opening is formed in the cylinder, and a connecting rod connected with the telescopic assembly penetrates through the first strip-shaped opening and the second strip-shaped opening; the problem that the optical module interface is easy to enter dust when not used, so that the subsequent reuse contact is poor can be solved.

Description

Optical module interface mechanism with dustproof function

Technical Field

The utility model relates to an optical module interface technical field, more specifically say, it relates to an optical module interface mechanism with dustproof function.

Background

The to-be-solved technical problem of the utility model lies in: the above problem to prior art exists, the utility model provides a simple structure is compact, with low costs, convenient to use, easy operation's an optical module interface dustproof mechanism for SC fiber interface, and it can insert this interface when the optical module interface is idle, prevents that the dust from getting into the follow-up use of influence.

In order to achieve the above object, the optical module interface dustproof mechanism of the present invention comprises a cover body, a handheld mechanism and four plug bodies, wherein the cover body is a rectangular structure; the plug body and the handheld mechanism are respectively fixed on two sides of the cover body, the four plug bodies are linearly arranged on the cover body, the shape and the size of each plug body are the same as those of an SC optical fiber head, when the SC optical fiber interface is idle, the plug body can be inserted into the interface, dust is prevented from entering the interface to influence subsequent use, and water vapor can be prevented from entering the interface and the interface is prevented from being oxidized in a humid environment.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an optical module interface mechanism with dustproof function can solve the optical module interface and easily advance the ash when not using and lead to follow-up reuse bad contact's problem.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an optical module interface mechanism with a dustproof function comprises a dustproof piece and an optical module interface matched with the dustproof piece, wherein the dustproof piece comprises a vertical plate, the optical module interface comprises an upper edge and a lower edge, the vertical plate is vertically provided with a fixed plate and a first rubber piece, the fixed plate extends into the optical module interface and is contacted with the upper edge, the fixed plate is provided with a pressing mechanism facing the lower edge, the pressing mechanism comprises a cylinder piece positioned on the fixed plate, the downward edge of the cylinder is provided with an opening, a telescopic assembly is arranged in the cylinder, and the telescopic assembly is provided with a second rubber piece which penetrates through the opening and is contacted with the lower edge; the vertical plate is provided with a first strip-shaped opening, the cylinder is provided with a second strip-shaped opening, and a connecting rod connected with the telescopic assembly penetrates through the first strip-shaped opening and the second strip-shaped opening.

Through taking above-mentioned technical scheme, when needing to use the optical module interface, need separate vertical board and optical module interface, the connecting rod at first upwards slides, because the connecting rod is connected with the telescopic assembly, consequently the connecting rod is at gliding in-process telescopic assembly constantly towards the direction compression of fixed plate place, because the compression of telescopic assembly drives the second rubber spare and keeps away from lower border, originally vertical board passes through first rubber spare and the joint of second rubber spare in the optical module interface, after second rubber spare and lower border separation, the force balance breaks, finally vertical board and optical module interface separation.

The utility model discloses further set up to: the telescopic assembly comprises a disc located in the cylinder and connected with the connecting rod, a spring is arranged between the disc and the cylinder, and a vertical rod connected with the second rubber piece is arranged on the disc towards the opening.

Through taking above-mentioned technical scheme, the connecting rod gliding in-process drives the synchronous rebound of disc, and the disc extrudees the spring gradually and makes the spring compression, fixed connection between spring and the fixed plate, and the disc drives vertical pole rebound simultaneously, and final second rubber spare is followed vertical pole rebound and is kept away from lower border.

The utility model discloses further set up to: the vertical plate is provided with a protection assembly for protecting the connecting rod.

Through adopting above-mentioned technical scheme, the effect of protection subassembly can play certain guard action to the connecting rod, avoids making the connecting rod take place to break because of external force collision.

The utility model discloses further set up to: the protection assembly comprises a protection cap, one end of the protection cap is hinged to the vertical plate, and a magnetic attraction assembly is arranged between the other end of the protection cap and the vertical plate.

By adopting the technical scheme, when the connecting rod is required to be used, the protective cap only needs to be turned over, and meanwhile, the magnetic attraction component is arranged between the protective cap and the vertical plate, so that the protective cap and the vertical plate are connected more closely.

The utility model discloses further set up to: the magnetic attraction component comprises a first magnetic attraction piece positioned on the protective cap and a second magnetic attraction piece positioned on the vertical plate and matched with the first magnetic attraction piece.

By adopting the technical scheme, one end of the protective cap is connected with the vertical plate through a hinge, the other end of the protective cap is connected with the vertical plate through the first magnetic attraction piece and the second magnetic attraction piece, and when the protective cap is closed, the first magnetic attraction piece and the second magnetic attraction piece are automatically attracted with each other to enable the protective cap to be in contact with the non-connecting end of the vertical plate.

The utility model has the advantages that: when needing to use the optical module interface, need separate vertical board and optical module interface, at first upwards slide the connecting rod, because the connecting rod is connected with the telescopic assembly, consequently the connecting rod is at gliding in-process telescopic assembly constantly towards the compression of fixed plate place orientation, because the compression of telescopic assembly drives the second rubber spare and keeps away from lower limb, originally vertical board passes through first rubber spare and second rubber spare joint in the optical module interface, after second rubber spare and lower limb separation, the force balance breaks, finally vertical board and optical module interface separation.

Drawings

FIG. 1 is a schematic cross-sectional view of the present embodiment;

fig. 2 is a front view of the present embodiment.

Reference numerals: 110. an optical module interface; 111. a lower edge; 112. a second rubber member; 113. a vertical rod; 114. an opening; 115. a vertical plate; 116. a second magnetic attraction member; 117. a first magnetic attraction member; 118. a connecting rod; 119. a protective cap; 210. a first bar-shaped opening; 211. a first rubber member; 212. an upper edge; 213. a fixing plate; 214. a cylindrical member; 215. a spring; 216. a disc; 217. a second strip port.

Detailed Description

An optical module interface mechanism with a dustproof function mainly comprises a dustproof piece and an optical module interface 110 matched with the dustproof piece, wherein the dustproof piece comprises a vertical plate 115, the optical module interface 110 comprises an upper edge 212 and a lower edge 111, the vertical plate 115 is vertically provided with a fixing plate 213 and a first rubber piece 211, the fixing plate 213 extends into the optical module interface 110 and is contacted with the upper edge 212, the fixing plate 213 is provided with a pressing mechanism facing the lower edge 111, the pressing mechanism comprises a cylinder piece 214 positioned on the fixing plate 213, the cylinder is provided with an opening 114 facing the lower edge 111, a telescopic assembly is arranged in the cylinder, and the telescopic assembly is provided with a second rubber piece 112 which penetrates through the opening 114 and is contacted with the lower edge 111; a first strip-shaped opening 210 is formed in the vertical plate 115, a second strip-shaped opening 217 is formed in the cylinder, and a connecting rod 118 connected with the telescopic assembly penetrates through the first strip-shaped opening 210 and the second strip-shaped opening 217. When the optical module interface 110 needs to be used, the vertical plate 115 needs to be separated from the optical module interface 110, the connecting rod 118 slides upwards at first, and the connecting rod 118 is connected with the telescopic assembly, so that the telescopic assembly of the connecting rod 118 is continuously compressed towards the direction of the fixing plate 213 in the sliding process, and the compression of the telescopic assembly drives the second rubber piece 112 to be far away from the lower edge 111, the vertical plate 115 is originally clamped in the optical module interface 110 through the first rubber piece 211 and the second rubber piece 112, after the second rubber piece 112 is separated from the lower edge 111, the stress balance is broken, and finally the vertical plate 115 is separated from the optical module interface 110.

The telescopic assembly comprises a disc 216 positioned inside the cylinder and connected with the connecting rod 118, a spring 215 is arranged between the disc 216 and the cylinder, and a vertical rod 113 connected with the second rubber member 112 is arranged on the disc 216 facing the opening 114. The disc 216 is driven to synchronously move upwards in the process that the connecting rod 118 slides upwards, the disc 216 gradually presses the spring 215 to compress the spring 215, the spring 215 is fixedly connected with the fixing plate 213, meanwhile, the disc 216 drives the vertical rod 113 to move upwards, and finally the second rubber part 112 moves upwards along with the vertical rod 113 and is far away from the lower edge 111. The vertical plate 115 is provided with a protection member for protecting the connection rod 118; the effect of protection component can play certain guard action to connecting rod 118, avoids making connecting rod 118 take place the rupture because of the external force collision.

The protective component comprises a protective cap 119, one end of the protective cap 119 is hinged with the vertical plate 115, and a magnetic attraction component is arranged between the other end of the protective cap 119 and the vertical plate 115. When the connecting rod 118 is needed, the protective cap 119 is turned over, and meanwhile, a magnetic attraction component is arranged between the protective cap 119 and the vertical plate 115, so that the connection between the protective cap 119 and the vertical plate 115 is tighter. The magnetically attractive assembly includes a first magnetically attractive element 117 located on the protective cap 119 and a second magnetically attractive element 116 located on the vertical plate 115 that cooperates with the first magnetically attractive element 117. One end of the protective cap 119 is connected with the vertical plate 115 through a hinge, the other end of the protective cap 119 is connected with the vertical plate 115 through a first magnetic attraction piece 117 and a second magnetic attraction piece 116, and when the protective cap 119 is closed, the first magnetic attraction piece 117 and the second magnetic attraction piece 116 automatically attract each other to enable the protective cap 119 to be in non-connection end contact with the vertical plate 115.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides an optical module interface mechanism with dustproof function, includes dustproof spare and rather than complex optical module interface (110), characterized by: the dustproof piece comprises a vertical plate (115), the optical module interface (110) comprises an upper edge (212) and a lower edge (111), the vertical plate (115) is vertically provided with a fixing plate (213) and a first rubber piece (211), the fixing plate (213) extends into the optical module interface (110) and is in contact with the upper edge (212), the fixing plate (213) is provided with a pressing mechanism facing to the lower edge (111), the pressing mechanism comprises a cylinder piece (214) located on the fixing plate (213), the cylinder is provided with an opening (114) facing to the lower edge (111), a telescopic assembly is arranged in the cylinder, and the telescopic assembly is provided with a second rubber piece (112) which penetrates through the opening (114) and is in contact with the lower edge (111); a first strip-shaped opening (210) is formed in the vertical plate (115), a second strip-shaped opening (217) is formed in the cylinder, and a connecting rod (118) connected with the telescopic assembly penetrates through the first strip-shaped opening (210) and the second strip-shaped opening (217).

2. The optical module interfacing mechanism with dust-proof function of claim 1, wherein: the telescopic assembly comprises a disc (216) which is positioned in the cylinder and connected with the connecting rod (118), a spring (215) is arranged between the disc (216) and the cylinder, and a vertical rod (113) connected with the second rubber part (112) is arranged at the position, facing the opening (114), of the disc (216).

3. The optical module interfacing mechanism with dust-proof function of claim 1, wherein: the vertical plate (115) is provided with a protection assembly for protecting the connecting rod (118).

4. An optical module interfacing mechanism with a dust-proof function according to claim 3, wherein: the protective assembly comprises a protective cap (119), one end of the protective cap (119) is hinged to the vertical plate (115), and a magnetic attraction assembly is arranged between the other end of the protective cap (119) and the vertical plate (115).

5. The optical module interfacing mechanism with dust-proof function of claim 4, wherein: the magnetic attraction component comprises a first magnetic attraction piece (117) positioned on the protective cap (119) and a second magnetic attraction piece (116) positioned on the vertical plate (115) and matched with the first magnetic attraction piece (117).

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