CN116249030A - Dampproofing communications facilities - Google Patents

Abstract

The invention relates to the technical field of communication equipment, in particular to dampproof communication equipment, which comprises an equipment shell, wherein switching components are correspondingly arranged on the left side surface and the right side surface of the inside of the equipment shell, a shell upper cover is arranged on the upper side of the equipment shell through the switching components, the communication components are arranged inside the equipment shell, and a dehumidifying component is arranged on the right front side of the inside of the equipment shell; through the switching subassembly can make the switching location effect between casing upper cover and the equipment casing good, provide two sets of communication lines of main communication module group, vice communication module group in the communication subassembly, when one of them is impaired, the circuit switch can in time switch the circuit to realize communication equipment's communication in time resumes, can realize discharging the inside humid gas of equipment casing through dehumidification subassembly, make equipment casing's inside keep the desiccation, thereby make communication module security when using high.

Description

Dampproofing communications facilities

Technical Field

The invention relates to the technical field of communication equipment, in particular to moistureproof communication equipment.

Background

Conventional communication equipment is simple and small without central exchange; complex, large, with central switching functions. The communication equipment is generally a front-back air duct, namely a front panel for air intake, passes through the back panel and is provided with a rear fan for air exhaust, and a large number of back panel interconnection signals are arranged between the service single board and the exchange single board.

The existing communication device adopts a single communication module group, when the communication module group is damaged, the communication device immediately loses the communication function, thereby affecting the communication effect, and after the communication device is used for a long time, moist gas is easily generated inside, thereby affecting the use safety of the communication device, so that a moistureproof communication device is needed to improve the problems.

Disclosure of Invention

In order to solve the problem that when the communication equipment is damaged by adopting a single communication module group, communication is disconnected, moist gas is easy to generate in the communication equipment, and the use safety of the communication equipment is affected, the invention provides a moistureproof communication equipment, and aims to solve the problems.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the dampproof communication equipment comprises an equipment shell, wherein switching components are correspondingly arranged on the left side surface and the right side surface of the inside of the equipment shell in a front-back mode, a shell upper cover is arranged on the upper side of the equipment shell through the switching components, a plurality of groups of communication sockets are arranged on the left side surface of the equipment shell, a plurality of groups of binding posts are arranged on the back surface of the equipment shell, a control panel is arranged on the left side of the front surface of the equipment shell, a communication component is arranged in the equipment shell, and a dehumidifying component is arranged on the right front side of the inside of the equipment shell;

the switching component comprises a bearing seat arranged on the inner side wall of the equipment shell, a shock absorber is rotatably arranged on the bearing seat, the other end of the shock absorber is rotatably provided with the bearing seat, and the end face of the bearing seat is provided with a switching hole;

the communication assembly comprises a loading plate at the lower side in the equipment shell, first positioning frames are arranged at four corners of the upper side of the loading plate, a main communication module group is arranged at the upper side of the first positioning frames, supporting columns are correspondingly arranged at the front, back, left and right sides of the end parts of the loading plate, supporting plates are arranged at the upper ends of the supporting columns, second positioning frames are arranged at four corners of the end faces of the supporting plates, auxiliary communication module groups are arranged at the upper side of the second positioning frames, and the communication assembly further comprises supporting frames which are arranged on the rear side wall in the equipment shell, and line switches are arranged on the supporting frames;

the dehumidification subassembly is including installing the inside loading frame at the equipment housing, the inside of loading frame is provided with the dehumidifier, the downside of dehumidifier is provided with the drain pipe, the tip of dehumidifier is provided with the blast pipe, the left surface of dehumidifier is provided with the intake pipe, the left side of loading frame is provided with the loading seat, the upside of loading seat is provided with the drainage fan, the air inlet end of drainage fan is provided with the moisture drainage section of thick bamboo.

As a preferable scheme of the invention, the side wall of the equipment shell is provided with the bearing groove, the lower side of the upper cover of the shell is correspondingly provided with the bearing frame plate which is in sliding connection with the bearing groove, and the height of the bearing frame plate is two thirds of the depth of the bearing groove.

In a preferred scheme of the invention, the bearing seats are respectively connected with the left side surface and the right side surface of the inside of the equipment shell by adopting bearing bolts in a front-back corresponding installation way.

As a preferable scheme of the invention, the bearing seat is fixedly connected with the upper cover of the shell through the adapting hole by adopting a fixing bolt.

As a preferable scheme of the invention, the upper end of the bearing column is connected with the bearing plate by adopting a fixing bolt, and one end of the bearing plate, which is close to the rear side wall of the equipment shell, is connected with the equipment shell by adopting the fixing bolt.

As a preferable scheme of the invention, the main communication module group and the auxiliary communication module group are respectively connected with the line switcher by adopting a power line.

As a preferable scheme of the invention, the front surface of the equipment shell is provided with a radiating window corresponding to the drainage fan, and the left side surface of the equipment shell is provided with a ventilation window.

As a preferable scheme of the invention, one end of the air inlet pipe, which is far away from the dehumidifier, is correspondingly connected with the exhaust end of the drainage fan by adopting a transfer pipe.

As a preferable scheme of the invention, the right side surface of the equipment shell is provided with a threading hole corresponding to a drain pipe, and the drain pipe penetrates through the equipment shell through the threading hole.

Compared with the prior art:

1. according to the invention, the switching assembly is arranged in the communication equipment, the switching positioning effect between the upper cover of the shell and the shell of the equipment is good, and under the action of the switching assembly, the upper cover of the shell has a good buffering and supporting effect when being pressed or bumped, so that the upper cover of the shell has a good protection effect on components in the shell of the equipment, the safety of the communication equipment in use is high, the switching assembly is provided with a plurality of groups, the switching and supporting effect between the upper cover of the shell and the shell of the equipment is good, and the switching assembly is stably positioned and high in switching and positioning between the upper cover of the shell through the connection of the bearing seat and the upper cover of the shell through the fixing bolts.

2. According to the invention, the communication assembly is arranged in the communication equipment, and the two groups of communication lines of the main communication module group and the auxiliary communication module group are provided in the communication assembly, so that when one group is damaged, the line switcher can timely switch the lines, thereby realizing timely recovery of communication of the communication equipment, and the main communication module group and the auxiliary communication module group in the communication assembly are arranged separately, so that the convenience in use and maintenance between the main communication module group and the auxiliary communication module group is high, and the use effect of the communication equipment is good under the action of the communication assembly.

3. According to the invention, the dehumidifying component is arranged in the communication equipment, the dehumidifying component can discharge humid gas in the equipment shell, so that the inside of the equipment shell is kept dry, the safety of the communication component in use is high, the communication equipment can be suitable for more environments, the use effect of the communication equipment is improved, heat generated by the drainage fan in operation can be discharged through the radiating window, the inside of the equipment shell is kept in a good working environment, and the ventilation effect of the inside of the equipment shell is good through the ventilation window.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the device housing of the present invention;

FIG. 3 is a schematic view of the upper cover of the housing of the present invention;

FIG. 4 is a schematic diagram of a communication assembly according to the present invention;

FIG. 5 is a schematic view of a dehumidifying assembly according to the present invention;

fig. 6 is a schematic view of a partial structure of a dehumidifying assembly according to the present invention.

In the figure: 1. an equipment housing; 101. a housing upper cover; 102. a communication socket; 103. binding posts; 104. a control panel; 105. a bearing groove; 106. a frame plate is held; 107. a heat radiation window; 108. a ventilation window; 2. a switching component; 201. a support bracket; 202. a shock absorber; 203. a socket; 204. a transfer hole; 3. a communication component; 301. a loading plate; 302. a first positioning frame; 303. a main communication module group; 304. a support column; 305. a bearing plate; 306. a second positioning frame; 307. a sub communication module group; 308. a bearing frame; 309. a line switcher; 4. a dehumidifying component; 401. a loading rack; 402. a dehumidifier; 403. a drain pipe; 404. an exhaust pipe; 405. an air inlet pipe; 406. a loading seat; 407. a drainage fan; 408. a wet gas drainage tube; 409. and (5) switching the pipe.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention are included in the protection scope of the present invention.

Examples: referring to fig. 1-6, a dampproof communication device includes a device housing 1, two front and rear corresponding adaptor assemblies 2 are respectively disposed on left and right sides of the interior of the device housing 1, a housing upper cover 101 is mounted on the upper side of the device housing 1 through the adaptor assemblies 2, a plurality of groups of communication sockets 102 are disposed on the left side of the device housing 1, a plurality of groups of binding posts 103 are disposed on the back of the device housing 1, a control panel 104 is disposed on the left side of the front of the device housing 1, a communication assembly 3 is disposed in the interior of the device housing 1, and a dehumidifying assembly 4 is disposed on the right front side of the interior of the device housing 1; the whole device is electrified and used for communication through the binding post 103 and the communication socket 102, and the whole communication device is started through the control panel 104 for setting and controlling the device;

wherein, the side wall of the equipment shell 1 is provided with a bearing groove 105, the lower side of the shell upper cover 101 is correspondingly provided with a bearing frame plate 106 which is in sliding connection with the bearing groove 105, and the height of the bearing frame plate 106 is two thirds of the depth of the bearing groove 105. The transfer positioning effect between the upper shell cover 101 and the equipment shell 1 is good through the bearing groove 105 and the bearing frame plate 106, and the height of the bearing frame plate 106 is two thirds of the depth of the bearing groove 105, so that short-range regulation and control can be performed between the upper shell cover 101 and the equipment shell 1, and the buffer supporting effect of the transfer assembly 2 on the upper shell cover 101 and the equipment shell 1 is good.

In this embodiment, referring specifically to fig. 1 and 2, the adapter assembly 2 includes a support base 201 mounted on the inner sidewall of the device housing 1, a shock absorber 202 is rotatably mounted on the support base 201, a support base 203 is rotatably mounted on the other end of the shock absorber 202, and an adapter hole 204 is formed on the end surface of the support base 203; through switching subassembly 2 can make the switching location effect between casing upper cover 101 and the equipment casing 1 good to under the effect of switching subassembly 2, can make to have better buffering support effect when casing upper cover 101 receives to press or collide, thereby make casing upper cover 101 to the inside spare part protection effect of equipment casing 1 good, make the security of communication equipment when using high.

Wherein, the bearing bracket 201 is positioned on the left and right sides of the inside of the equipment shell 1 and is correspondingly installed and connected in front and back by adopting bearing bolts. The bearing seat 203 is fixedly connected with the upper cover 101 of the shell through the adapting hole 204 by adopting a fixing bolt. The multiple groups of the switching components 2 are arranged, so that the switching supporting effect between the upper shell cover 101 and the equipment shell 1 is good, the switching components 2 can stably and highly position the switching between the upper shell cover 101 through the connection of the bearing seats 203 and the upper shell cover 101 through the fixing bolts.

In this embodiment, referring specifically to fig. 2 and 4, the communication assembly 3 includes a loading plate 301 at the lower side of the inside of the apparatus housing 1, first positioning frames 302 are provided at four corners of the upper side of the loading plate 301, a main communication module group 303 is mounted at the upper side of the first positioning frames 302, support columns 304 are provided at the ends of the loading plate 301 in correspondence to the front, rear, left and right, upper ends of the support columns 304 are provided with support plates 305, second positioning frames 306 are provided at four corners of the end faces of the support plates 305, a sub communication module group 307 is mounted at the upper side of the second positioning frames 306, and the communication assembly 3 further includes a receiving frame 308 mounted on the inner rear side wall of the apparatus housing 1, and a line switcher 309 is mounted on the receiving frame 308; the communication module group 303 and the auxiliary communication module group 307 are provided in the communication assembly 3, when one of the communication module group 303 and the auxiliary communication module group 307 is damaged, the line switcher 309 can timely switch the lines, so that the communication of the communication equipment is timely recovered, the main communication module group 303 and the auxiliary communication module group 307 in the communication assembly 3 are arranged in a separated mode, the use and maintenance convenience between the main communication module group 303 and the auxiliary communication module group 307 is high, and the use effect of the communication equipment is good under the action of the communication assembly 3.

The upper end of the supporting column 304 is connected with the supporting plate 305 by adopting a fixing bolt, and one end of the supporting plate 305, which is close to the rear side wall of the equipment shell 1, is connected with the equipment shell 1 by adopting a fixing bolt. The main communication module group 303 and the sub communication module group 307 are connected to the line switcher 309 using power lines, respectively. The support positioning is carried out on the auxiliary communication module group 307 through the support plate 305, and the disassembly between the support plate 305 and the equipment shell 1 is simple and convenient, so that the disassembly effect of the main communication module group 303 and the auxiliary communication module group 307 in maintenance is good.

In this embodiment, referring specifically to fig. 2, 4, 5 and 6, the dehumidifying assembly 4 includes a loading frame 401 mounted inside the apparatus housing 1, a dehumidifier 402 is provided inside the loading frame 401, a drain pipe 403 is provided at the lower side of the dehumidifier 402, an exhaust pipe 404 is provided at the end of the dehumidifier 402, an intake pipe 405 is provided at the left side of the dehumidifier 402, a loading seat 406 is provided at the left side of the loading frame 401, a drainage fan 407 is provided at the upper side of the loading seat 406, and a moisture drainage tube 408 is provided at the intake end of the drainage fan 407. The dehumidification assembly 4 can exhaust the humid gas in the equipment shell 1, so that the inside of the equipment shell 1 is kept dry, the safety of the communication assembly 3 in use is high, the communication equipment can be suitable for more environments, and the use effect of the communication equipment is improved.

The front surface of the equipment shell 1 and the drainage fan 407 are correspondingly provided with heat dissipation windows 107, and the left side surface of the equipment shell 1 is provided with a ventilation window 108. The heat generated during the operation of the drainage fan 407 can be discharged through the heat radiation window 107, so that the inside of the equipment housing 1 can maintain a good working environment, and the ventilation effect inside the equipment housing 1 can be good through the ventilation window 108.

Wherein the one end that the dehumidifier 402 was kept away from to intake pipe 405 adopts transfer pipe 409 to correspond with the exhaust end of drainage fan 407 and is connected, and equipment housing 1's right flank corresponds with drain pipe 403 and is provided with wears to draw the hole, and drain pipe 403 runs through equipment housing 1 through wearing to draw the hole setting, runs through equipment housing 1 setting through drain pipe 403, can make the dehumidification drainage effect of dehumidifier 402 good.

When the communication equipment works, the whole equipment is electrified and used for communication through the binding post 103 and the communication socket 102, and the equipment is set and controlled through the control panel 104, so that the whole communication equipment is started; the transfer positioning effect between the upper shell cover 101 and the equipment shell 1 is good through the bearing groove 105 and the bearing frame plate 106, and the height of the bearing frame plate 106 is two thirds of the depth of the bearing groove 105, so that short-range regulation and control can be performed between the upper shell cover 101 and the equipment shell 1, and the buffer supporting effect of the transfer assembly 2 on the upper shell cover 101 and the equipment shell 1 is good.

When the upper shell cover 101 is pressed or bumped, the upper shell cover 101 is supported by the shock absorber 202, and under the action of the shock absorber 202, reverse supporting force can be effectively provided for the upper shell cover 101, so that the upper shell cover 101 can better protect the inside of the equipment shell 1 when being pressed or bumped, the whole is good in protection effect on internal components when in use, and the safety of whole use is improved.

When the line switcher 309 detects that the elements on the main communication module group 303 are damaged, the line switcher 309 switches the lines, so that the main communication module group 303 is switched, the auxiliary communication module group 307 is connected, the whole normal communication use of the communication equipment is realized, the communication guarantee performance of the communication equipment in use is high, the use effect of the communication equipment is good, and better maintenance time is effectively provided for the communication equipment.

The wet gas inside the equipment shell 1 is drained through the drainage fan 407, the wet gas is conveyed to the interior of the dehumidifier 402 through the air inlet pipe 405 to be treated, the wet gas is discharged through the exhaust pipe 404 after being dried, the conversion of the gas inside the equipment shell 1 is realized, the inside of the equipment shell 1 is kept dry, the protection of the communication assembly 3 is realized, the communication equipment has a good use effect, and the moisture generated during the operation of the dehumidifier 402 can be discharged through the drain pipe 403, so that the dehumidifier 402 has a good drainage effect during the operation.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A moisture-proof communication device comprising a device housing (1), characterized in that: the intelligent equipment comprises an equipment shell (1), wherein switching components (2) are correspondingly arranged on the left side surface and the right side surface of the interior of the equipment shell (1), a shell upper cover (101) is arranged on the upper side of the equipment shell (1) through the switching components (2), a plurality of groups of communication sockets (102) are arranged on the left side surface of the equipment shell (1), a plurality of groups of binding posts (103) are arranged on the back surface of the equipment shell (1), a control panel (104) is arranged on the left side of the front surface of the equipment shell (1), a communication component (3) is arranged in the equipment shell (1), and a dehumidification component (4) is arranged on the right front side of the interior of the equipment shell (1);

the switching assembly (2) comprises a bearing seat (201) arranged on the inner side wall of the equipment shell (1), a shock absorber (202) is rotatably arranged on the bearing seat (201), a bearing seat (203) is rotatably arranged at the other end of the shock absorber (202), and a switching hole (204) is formed in the end face of the bearing seat (203);

the communication assembly (3) comprises a loading plate (301) at the lower side inside the equipment shell (1), first positioning frames (302) are arranged at four corners of the upper side of the loading plate (301), a main communication module group (303) is arranged at the upper side of the first positioning frames (302), supporting columns (304) are correspondingly arranged at the front, back, left and right sides of the end parts of the loading plate (301), supporting plates (305) are arranged at the upper ends of the supporting columns (304), second positioning frames (306) are arranged at four corners of the end face of the supporting plates (305), auxiliary communication module groups (307) are arranged at the upper side of the second positioning frames (306), the communication assembly (3) further comprises supporting frames (308) arranged on the rear side wall inside the equipment shell (1), and line switches (309) are arranged on the supporting frames (308);

the dehumidification subassembly (4) is including installing inside loading frame (401) at equipment housing (1), the inside of loading frame (401) is provided with dehumidifier (402), the downside of dehumidifier (402) is provided with drain pipe (403), the tip of dehumidifier (402) is provided with blast pipe (404), the left surface of dehumidifier (402) is provided with intake pipe (405), the left side of loading frame (401) is provided with loading seat (406), the upside of loading seat (406) is provided with drainage fan (407), the inlet end of drainage fan (407) is provided with moisture drainage section of thick bamboo (408).

2. A moisture resistant communications device according to claim 1, wherein: the side wall of the equipment shell (1) is provided with a bearing groove (105), the lower side of the shell upper cover (101) and the bearing groove (105) are correspondingly provided with bearing frame plates (106) which are in sliding connection, and the height of each bearing frame plate (106) is two thirds of the depth of the corresponding bearing groove (105).

3. A moisture resistant communications device according to claim 1, wherein: the bearing seats (201) are positioned on the left side surface and the right side surface of the inside of the equipment shell (1) and are correspondingly installed and connected front and back by adopting bearing bolts.

4. A moisture resistant communications device according to claim 1, wherein: the bearing seat (203) is fixedly connected with the upper cover (101) of the shell through the adapting hole (204) by adopting a fixing bolt.

5. A moisture resistant communications device according to claim 1, wherein: the upper end of the bearing column (304) is connected with the bearing plate (305) by adopting a fixing bolt, and one end of the bearing plate (305) close to the rear side wall of the equipment shell (1) is connected with the equipment shell (1) by adopting a fixing bolt.

6. A moisture resistant communications device according to claim 1, wherein: the main communication module group (303) and the auxiliary communication module group (307) are respectively connected with the line switcher (309) by adopting a power line.

7. A moisture resistant communications device according to claim 1, wherein: the front of the equipment shell (1) and the drainage fan (407) are correspondingly provided with radiating windows (107), and the left side surface of the equipment shell (1) is provided with a ventilation window (108).

8. A moisture resistant communications device according to claim 1, wherein: one end of the air inlet pipe (405) far away from the dehumidifier (402) is correspondingly connected with the exhaust end of the drainage fan (407) by adopting a switching pipe (409).

9. A moisture resistant communications device according to claim 1, wherein: the right side face of the equipment shell (1) is provided with a threading hole corresponding to the drainage pipe (403), and the drainage pipe (403) penetrates through the equipment shell (1) through the threading hole.

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