CN216772078U - Optical fiber exchange box for communication engineering construction - Google Patents

Abstract

An optical fiber exchange box for communication engineering construction relates to the technical field of optical fiber exchange boxes, and a device main body comprises an electrical box, wherein the front surface of the electrical box is hinged with a switch door; the heat dissipation mechanism comprises a rain collecting sleeve, the rain collecting sleeve is connected to the top end of an electrical appliance box, a barrier plate is arranged on the front surface of the rain collecting sleeve, a heat dissipation hose is embedded in the back surface of the rain collecting sleeve, the number of the barrier plates is two, reflective films are coated on the surfaces of the two barrier plates, and the barrier plates are tightly attached to one surface of the rain collecting sleeve and the back surface of the rain collecting sleeve; the filtering mechanism is arranged at the top end of the rain collecting sleeve. The rain collecting sleeve can be used for naturally collecting rainwater, the heat dissipation hose is used for dissipating heat of the electrical component arranged on the back of the electrical box, the device can directly dissipate heat of a position where the back of the electrical component is difficult to blow by wind, the heat dissipation effect is improved, meanwhile, water can be manually added in rainy seasons, and the reflective film can prevent the heat dissipation hose from naturally absorbing a large amount of heat in the environment.

Description

Optical fiber exchange box for communication engineering construction

Technical Field

The utility model relates to the technical field of optical fiber exchange boxes, in particular to an optical fiber exchange box for communication engineering construction.

Background

The optical fiber cross connecting box is cross connecting equipment for providing optical cable terminating and jumper connection for a main layer optical cable and a wiring layer optical cable; after the optical cable is introduced into the optical cable cross-connecting box, after fixing, terminating and fiber distribution, the main layer optical cable and the wiring layer optical cable are communicated by using a jump fiber, and the optical cable cross-connecting box is mainly used for interface equipment at the joint of the main optical cable and the wiring optical cable in an optical cable access network; the optical cable cross-connecting box mainly comprises a box body, an internal workpiece, an optical fiber movable connector and spare accessories; according to different use occasions, the indoor type and the outdoor type can be divided, and the indoor type and the outdoor type can be installed on the ground, overhead and wall.

The optical fiber exchange box is mainly installed outdoors, the most fundamental requirement of the optical fiber exchange box is that the optical fiber exchange box can resist severe weather and severe working environment, in actual use, the outdoor optical fiber exchange box can radiate heat through natural wind, but because the self temperature of the external air is higher, and the heating electrical elements are mainly connected to the rear side inside the box body, the cooling effect is poor only depending on the natural wind, the electrical elements are easy to overheat to influence the normal work of the electrical elements, and therefore the optical fiber exchange box for communication engineering construction needs to be designed.

Disclosure of Invention

The utility model aims to provide an optical fiber exchange box for communication engineering construction, which solves the problem that in actual use, the outdoor optical fiber exchange box can radiate heat through natural wind, but because the temperature of the outside air is high, and a heating electrical element is mainly connected to the rear side in the box body, the cooling effect is poor only by the natural wind, the electrical element is easy to overheat, and the normal work of the electrical element is influenced.

An optical fiber exchange box for communication engineering construction comprises a device main body, a heat dissipation mechanism and a filtering mechanism;

the device main body comprises an electrical box, and the front surface of the electrical box is hinged with a switch door;

the heat dissipation mechanism comprises a rain collecting sleeve, the rain collecting sleeve is connected to the top end of the electrical appliance box, the front surface of the rain collecting sleeve is provided with a barrier plate, the back surface of the rain collecting sleeve is embedded with a heat dissipation hose, the number of the barrier plates is two, the surfaces of the two barrier plates are coated with a reflective film, and the barrier plates are tightly attached to one surface of the rain collecting sleeve and the back surface of the rain collecting sleeve;

the filtering mechanism is arranged at the top end of the rain collecting sleeve.

Receive the positive both sides of rain cover and all be connected with the second thread bush, the one side of two second thread bushes all is equipped with first thread bush, and first thread bush is connected on the barrier plate, and two second thread bushes and two first thread bushes are all fixed through the bolt, and the barrier plate is close to the one side of receiving the rain cover and is connected with the rubber slab.

The mud collecting sleeve is embedded into the inner sides of the two radiating hoses, a sewage draining outlet is formed in the reverse side of the mud collecting sleeve, and a sealing cover is movably sleeved in the sewage draining outlet.

The filtering mechanism comprises a filtering screen plate, and the filtering screen plate is connected to the top end of the rain collecting sleeve.

The filter screen plate is provided with two cleaning grooves, the two cleaning grooves are provided with cleaning blocks, the two cleaning grooves are internally provided with the cleaning blocks in a sliding mode, the two ends of the inner sides of the two cleaning blocks are connected with cleaning strips, the two cleaning strips are distributed at the upper end and the lower end of the filter screen plate, one ends, close to the filter screen plate, of the two cleaning strips are connected with a brush plate, and the brush plate is tightly attached to the filter screen plate.

The lower extreme of two clearance pieces all is connected with the connecting strip, and the inboard of two connecting strips all is connected with mud pushing plate, and the lower extreme of mud pushing plate closely laminates with the inner wall of receiving the rain cover.

Compared with the prior art, the utility model has the beneficial effects that:

through the receipts rain cover and the heat dissipation hose that set up, utilize to receive the rain cover and can carry out the nature to the rainwater and collect, recycle the heat dissipation hose and carry out the heat dissipation to electrical components of electrical apparatus case back mounted, compare with prior art, this device can directly dispel the heat to the position that the electrical components back is difficult to by wind-blowing, increase the radiating effect, can add water the processing by the manual work in the season of less rain simultaneously to and the reflective membrane can avoid the heat in the heat dissipation hose natural absorption a large amount of environment.

Drawings

FIG. 1 is a schematic front top perspective view of the present invention;

FIG. 2 is a schematic rear top perspective view of the present invention;

FIG. 3 is an exploded perspective view of the heat dissipation mechanism of the present invention;

fig. 4 is a perspective view of the filter mechanism of the present invention.

In the figure: 1-a device body; 110-an electrical box; 111-opening and closing the door; 2-a heat dissipation mechanism; 210-collecting rain cover; 211-heat dissipation hose; 212-a barrier plate; 213-a rubber plate; 214-a first threaded sleeve; 215-a second threaded sleeve; 216-a mud collection box; 217-sewage draining outlet; 218-a sealing plug; 3-a filtering mechanism; 310-a filter screen plate; 311-cleaning tank; 312-cleaning block; 313-cleaning strips; 314-a brush plate; 315-connecting bar; 316-mud pushing plate.

Detailed Description

Referring to fig. 1 to 4, an optical fiber exchange box for communication engineering construction includes a device main body 1, a heat dissipation mechanism 2 and a filtering mechanism 3;

the device main body 1 comprises an electrical box 110, and a switch door 111 is hinged on the front surface of the electrical box 110;

the heat dissipation mechanism 2 comprises a rain collecting sleeve 210, the rain collecting sleeve 210 is connected to the top end of the electrical box 110, the front surface of the rain collecting sleeve 210 is provided with two barrier plates 212, the back surface of the rain collecting sleeve 210 is embedded with a heat dissipation hose 211, the surfaces of the two barrier plates 212 are coated with reflective films, and the barrier plates 212 and one surface are tightly attached to the back surface of the rain collecting sleeve 210;

filtering mechanism 3 set up on the top of receiving rain cover 210, utilize and receive rain cover 210 and can carry out the nature to the rainwater and collect, recycle heat dissipation hose 211 and carry out the heat dissipation to the electrical components of electrical apparatus case 110 back mounted, compare with prior art, this device can directly dispel the heat to the position that the electrical components back is difficult to be blown by the wind, increase the radiating effect, can artifically add water the processing simultaneously in the season of less rain to and the reflective membrane can avoid heat dissipation hose 211 to absorb the heat in a large amount of environments naturally.

Receive the positive both sides of rain cover 210 and all be connected with second thread bush 215, the one side of two second thread bushes 215 all is equipped with first thread bush 214, first thread bush 214 is connected on barrier plate 212, two second thread bushes 215 and two first thread bushes 214 are all fixed through the bolt, the one side that barrier plate 212 is close to receipts rain cover 210 is connected with rubber slab 213, utilize first thread bush 214 like this, the fixed effect that second thread bush 215 and bolt brought, can make barrier plate 212 accomplish the dismantlement, be convenient for carry out comprehensive clearance with the inside of receiving rain cover 210.

The mud cover 216 is installed to the inboard embedding of two heat dissipation hose 211, and the drain 217 has been seted up to the reverse side of receiving mud cover 216, and sealed lid 218 has been cup jointed in the activity in drain 217, utilizes like this to receive mud cover 216 and can collect the dust silt that carries in the heat dissipation hose 211, avoids its long-time jam to cause the pipe blockage in heat dissipation hose 211, can utilize drain 217 to carry out blowdown simultaneously and handle.

The filtering mechanism 3 comprises a filtering screen plate 310, and the filtering screen plate 310 is connected to the top end of the rain collecting sleeve 210, so that the filtering screen plate 310 can reduce larger garbage or impurities from entering the inside of the rain collecting sleeve 210.

The cleaning grooves 311 are formed in the filter screen plate 310, the number of the cleaning grooves 311 is two, the cleaning blocks 312 are arranged in the two cleaning grooves 311 in a sliding mode, the two ends of the inner sides of the two cleaning blocks 312 are connected with the cleaning strips 313, the two cleaning strips 313 are distributed at the upper end and the lower end of the filter screen plate 310, one ends, close to the filter screen plate 310, of the two cleaning strips 313 are connected with the brush plate 314, the brush plate 314 is tightly attached to the filter screen plate 310, the upper surface and the lower surface of the filter screen plate 310 are cleaned by the aid of the upper brush plate 314 and the lower brush plate 313 and the two cleaning strips 313, and blocking of holes of the filter screen is avoided.

The lower extreme of two clearance pieces 312 all is connected with connecting strip 315, and the inboard of two connecting strips 315 all is connected with mud pusher 316, and the lower extreme of mud pusher 316 closely laminates with the inner wall of receiving rain cover 210, utilizes like this, makes like this and can drive connecting strip 315 and mud pusher 316 and remove when clearance piece 312 removes to the limit is handled to scraping the bottom surface of receiving rain cover 210, avoids impurity to pile up in the water inlet department of heat dissipation hose 211.

The working process of the utility model is as follows:

during normal operation, water can be added manually or rainwater can be collected, so that water enters the heat dissipation hose 211 from the rain collecting sleeve 210, and then the moisture of the heat dissipation hose 211 absorbs heat generated by electrical components inside the electrical box 110 and volatilizes, thereby achieving the purpose of heat dissipation.

During regular maintenance, the cleaning block 312 can be pulled to drive the cleaning strip 313 and the brush plate 314 to clean the upper and lower surfaces of the filter screen plate 310, the connecting strip 315 and the mud pushing plate 316 can be driven to push dust, mud and impurities to the stop plate 212, finally the stop plate 212 can be taken down by disassembling the bolts to clean the inside of the rain collecting sleeve 210, and the mud collecting sleeve 216 can be taken down by taking the sealing cover 218 down.

Claims (6)

1. An optical fiber exchange box for communication engineering construction is characterized in that: comprises a device main body (1), a heat dissipation mechanism (2) and a filtering mechanism (3);

the device main body (1) comprises an electrical appliance box (110), and the front surface of the electrical appliance box (110) is hinged with a switch door (111);

the heat dissipation mechanism (2) comprises a rain collecting sleeve (210), the rain collecting sleeve (210) is connected to the top end of the electrical appliance box (110), a blocking plate (212) is arranged on the front face of the rain collecting sleeve (210), heat dissipation hoses (211) are embedded into the back face of the rain collecting sleeve (210), the number of the blocking plates (212) is two, the surfaces of the two blocking plates (212) are coated with reflective films, and the blocking plates (212) and one face of each blocking plate are tightly attached to the back face of the rain collecting sleeve (210);

the filtering mechanism (3) is arranged at the top end of the rain collecting sleeve (210).

2. The optical fiber exchange box for communication engineering construction according to claim 1, wherein: receive the positive both sides of rain cover (210) and all be connected with second thread bush (215), the one side of two second thread bushes (215) all is equipped with first thread bush (214), and first thread bush (214) is connected on stopping plate (212), and two second thread bushes (215) and two first thread bushes (214) are all fixed through the bolt, and stopping plate (212) are close to the one side of receiving rain cover (210) and are connected with rubber slab (213).

3. The optical fiber exchange box for communication engineering construction according to claim 1, wherein: mud collecting sleeves (216) are embedded into the inner sides of the two heat dissipation hoses (211), a sewage draining outlet (217) is formed in the reverse side of each mud collecting sleeve (216), and a sealing cover (218) is movably sleeved in each sewage draining outlet (217).

4. The optical fiber exchange box for communication engineering construction according to claim 1, wherein: the filtering mechanism (3) comprises a filtering screen plate (310), and the filtering screen plate (310) is connected to the top end of the rain collecting sleeve (210).

5. The optical fiber exchange box for communication engineering construction according to claim 4, wherein: filter otter board (310) on seted up clearance groove (311), the quantity of clearance groove (311) is two, all slidable mounting has clearance piece (312) in two clearance grooves (311), the both ends of two clearance piece (312) inboards all are connected with clearance strip (313), two clearance strips (313) distribute in the upper and lower both ends of filtering otter board (310), the one end that two clearance strips (313) are close to filtering otter board (310) all is connected with brush board (314), brush board (314) and filtering otter board (310) closely laminate.

6. The optical fiber exchange box for communication engineering construction according to claim 5, wherein: the lower extreme of two clearance pieces (312) all is connected with connecting strip (315), and the inboard of two connecting strip (315) all is connected with mud pushing plate (316), and the lower extreme of mud pushing plate (316) closely laminates with the inner wall of receipts rain cover (210).

Images