CN214701495U - Optical cable production drying-machine - Google Patents

Abstract

The utility model belongs to the technical field of optical cable processing, in particular to an optical cable production dryer, which comprises a support frame, a water removing tank and a drying box, wherein the top of the drying box is provided with a switch door, and the water removing tank and the drying box are both provided with wire holes; the water removal tank comprises a first transverse plate, a water blowing air pipe, a vertical plate and water absorption sponge, the water blowing air pipe is fixedly connected with the first transverse plate, the water blowing air pipe is provided with an air inlet joint, the water absorption sponge is fixedly arranged on the vertical plate, and the water removal tank also comprises a water collection box; the drying box comprises a power supply box, an infrared heating lamp and a breather valve, the power supply box is electrically connected with the infrared heating lamp, and the breather valve is arranged on the upper side of the switch door; the utility model provides a current drying equipment do not remove water in advance just directly dry the optical cable through the drum hot-blast to make the water droplet on cable surface be difficult to the problem of being dried completely.

Description

Optical cable production drying-machine

Technical Field

The utility model belongs to the technical field of the optical cable processing, concretely relates to optical cable production drying-machine.

Background

In the production process of the optical cable, a secondary plastic coating process is a key procedure in the production process of the optical cable, and the secondary plastic coating process is a process of selecting a proper high polymer material, coating a facility loose sleeve on the optical cable by adopting an extrusion molding method, and filling special ointment with viscosity and waterproof protection performance between the sleeve and the optical fiber.

After the technology is moulded to quadratic cover, the temperature on optical cable surface is higher, need put into the cooling tank with the optical cable this moment, cool off through the cooling tank, because the optical cable places after in the cooling tank, some water droplets can be attached to the surface of optical cable, consequently people need dry to the optical cable surface again, current drying equipment is most not in advance the dewatering just directly with the optical cable through the hot-blast stoving that goes into of drum to make the water droplet on cable surface be difficult to be dried completely.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: aim at providing an optical cable production drying-machine to solve present drying equipment do not remove water in advance just directly dry the optical cable through the hot-blast stoving of drum into mostly, thereby make the water droplet on cable surface be difficult to the problem of being dried completely.

In order to realize the technical purpose, the utility model discloses a technical scheme as follows:

an optical cable production dryer comprises a support frame, a water removing tank and a drying box, wherein openings of the top and the bottom of the water removing tank are not closed, the bottom of the drying box is closed, a switch door is arranged at the top of the drying box, the water removing tank and the drying box are fixedly connected into a whole, wire holes are formed in the water removing tank and the drying box, and the support frame is fixedly connected with the water removing tank and the drying box respectively;

the water removing box comprises a first transverse plate, a water blowing air pipe, two vertical plates and two water absorbing sponges, the first transverse plate is fixedly arranged at the top of the water removing box, the water blowing air pipe is fixedly connected with the first transverse plate and is positioned above the wire hole, the water blowing air pipe is provided with an air inlet connector, the two vertical plates are symmetrically arranged at the left side and the right side of the interior of the water removing box, the two water absorbing sponges are respectively and fixedly arranged at one side of the two vertical plates, the two water absorbing sponges are positioned below the wire hole, the water removing box also comprises a water collecting box, and the water collecting box is detachably connected with the bottom of the water removing box;

the stoving case is including two power supply boxes, a plurality of infrared heating lamp and a breather valve, two the power supply box is located respectively both sides around the stoving case, and is a plurality of infrared heating lamp set up respectively in both sides inner wall around the stoving case, homonymy the power supply box is a plurality of with the homonymy infrared heating lamp electric connection, the breather valve install in switch door upside.

Thereby people can pass the optical cable in proper order through the line hole that removes water tank and stoving case and remove water tank and stoving case, pass the line hole back at the optical cable, because the wind pipe that blows sets up in the line hole upside, consequently, the wind pipe that blows can blow off the water of optical cable upper surface, and simultaneously, two sponges that absorb water set up in the line hole downside, two sponges that absorb water can contact with the lower surface of optical cable, thereby absorb the water of optical cable lower surface, and then comprehensive water with the optical cable surface is detached, behind the power supply box switch-on, can make infrared heating lamp work, heat up the power supply box inside and dry to the optical cable.

The water removing box is characterized by further comprising a manual water squeezing mechanism, the water squeezing mechanism comprises a second transverse plate and water squeezing blocks, the two ends of the second transverse plate are fixedly connected with the lower ends of the vertical plates respectively, the second transverse plate is provided with a plurality of filter holes, the water squeezing blocks are arranged between the water absorbing sponges and are in sliding connection with the second transverse plate, and the water squeezing blocks are provided with hand push assemblies.

People can drive the water squeezing block to slide left and right relative to the second transverse plate through the hand pushing assembly, when the water squeezing block slides left, the left water absorbing sponge can be compressed, water absorbed by the left water absorbing sponge is squeezed out, meanwhile, when the left water absorbing sponge squeezes water, the right water absorbing sponge cannot be influenced, water on the lower side of the optical cable is continuously absorbed, when the water squeezing block slides right, the right water absorbing sponge can be compressed, water absorbed by the right water absorbing sponge is squeezed out, and when the right water absorbing sponge squeezes water, the left water absorbing sponge cannot be influenced, and water on the lower side of the optical cable is continuously absorbed; the extruded water can be filtered out to the water collecting box through the filtering holes of the second transverse plate for recycling.

The hand push assembly comprises two connecting rods, the two connecting rods are fixedly connected with the front end and the rear end of the water squeezing block respectively, strip-shaped sliding grooves matched with the connecting rods are formed in the front side and the rear side of the water removing box respectively, the connecting rods penetrate through the same side, and handles are fixedly connected to the rear portions of the strip-shaped sliding grooves.

When people use the hand push assembly, the connecting rod can drive the water squeezing block to slide relative to the second transverse plate by pushing any one of the handles on the front side and the rear side, and the use is convenient.

The drying box further comprises a plurality of guide rods, and the guide rods are distributed in a snake shape and fixedly connected with the bottom of the drying box.

After the optical cable enters the drying box through the wire hole, the optical cable is sequentially wound around each guide rod and then penetrates out the optical cable from the optical cable of the drying box to be connected to the rolling traction machine, when the rolling traction machine moves, the optical cable sequentially passes through the water removing box and the drying box, the passing time of each part of the optical cable in the drying box can be prolonged, and the optical cable can be dried for a longer time.

Wherein, the stoving case is still including a plurality of support bars, and is a plurality of the support bar all is located line hole downside and with both sides fixed connection around the stoving case.

The support bar can support the optical cable, avoids the optical cable to drop to stoving bottom of the case portion because of not straightening and tightening, makes the stoving effect receive the influence.

The water absorption sponge and the vertical plates are fixedly bonded, and the inner wall of the drying box is insulated by coating heat insulation paint.

Through bonding processing, can be convenient fix sponge and riser that will absorb water, the stoving incasement portion coating thermal barrier coating can avoid the problem of scalding the staff because of stoving incasement wall temperature is higher.

The supporting frame is used for supporting the water removal box and the drying box, so that the water removal box and the drying box are more stable, the wire holes are used for inserting optical cables, the drying box can be closed when the switch door is closed, the optical cables can be conveniently operated by people to penetrate through the wire holes in the drying box when the switch door is opened, the first transverse plate is used for installing and fixing the water blowing air pipe, the two vertical plates are used for installing and fixing the two water absorbing sponges, the breather valve can automatically adjust the pressure in the drying box, when the pressure exceeds a preset pressure value, the breather valve can be automatically opened for pressure relief, and after the pressure is lower than the preset pressure value, the breather valve can be closed, so that the heat loss in the drying box is reduced; people can pass the optical cable through the water removing box and the drying box in sequence through the wire holes of the water removing box and the drying box, after the optical cable passes through the wire hole, the air inlet joint of the water blowing air pipe can be externally connected with a fan, because the water blowing air pipe is arranged at the upper side of the wire hole, therefore, the water blowing wind pipe can blow off the water on the upper surface of the optical cable, the blown water can fall into the water collecting box for collection, meanwhile, the two water-absorbing sponges are arranged at the lower side of the wire hole, when the optical cable passes through the wire hole, the two water-absorbing sponges can be contacted with the lower surface of the optical cable so as to absorb water on the lower surface of the optical cable, and then comprehensive water with the optical cable surface is detached, after the power supply box is powered on, the infrared heating lamp can work, the temperature inside the power supply box is raised to dry the optical cable, and the problem that most of existing drying equipment directly dries the optical cable through blowing hot air without removing water in advance, so that water drops on the surface of the cable are difficult to dry completely is solved.

Drawings

The present invention can be further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic view of the internal cross-sectional structure of a dewatering box in an embodiment of the optical cable production dryer of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

fig. 3 is a schematic structural view of the optical cable production dryer according to the embodiment of the present invention after the optical cable passes through;

fig. 4 is a schematic structural view of an embodiment of the optical cable production dryer of the present invention;

the main element symbols are as follows:

the device comprises a support frame 1, a water removal box 2, a first transverse plate 21, a water blowing air pipe 22, an air inlet joint 221, a vertical plate 23, a water absorption sponge 24, a water collection box 25, a second transverse plate 26, a filter hole 261, a water squeezing block 27, a connecting rod 271, a handle 272, a strip-shaped chute 28, a drying box 3, a switch door 31, a power supply box 32, an infrared heating lamp 33, a breather valve 34, a guide rod 35, a support strip 36 and a wire hole 4.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

As shown in fig. 1-4, the optical cable production dryer of the present invention comprises a support frame 1, a dewatering box 2 and a drying box 3, wherein both the top and the bottom of the dewatering box 2 are not closed, the bottom of the drying box 3 is closed and the top is provided with a switch door 31, the dewatering box 2 and the drying box 3 are fixedly connected into a whole, both the dewatering box 2 and the drying box 3 are provided with wire holes 4, and the support frame 1 is respectively fixedly connected with the dewatering box 2 and the drying box 3;

the water removing tank 2 comprises a first transverse plate 21, a water blowing air pipe 22, two vertical plates 23 and two water absorbing sponges 24, the first transverse plate 21 is fixedly arranged at the top of the water removing tank 2, the water blowing air pipe 22 is fixedly connected with the first transverse plate 21 and is positioned above the wire hole 4, the water blowing air pipe 22 is provided with an air inlet joint 221, the two vertical plates 23 are symmetrically arranged at the left side and the right side inside the water removing tank 2, the two water absorbing sponges 24 are respectively and fixedly arranged at one side of the two vertical plates 23 opposite to each other, the two water absorbing sponges 24 are both positioned below the wire hole 4, the water removing tank 2 also comprises a water collecting box 25, and the water collecting box 25 is detachably connected with the bottom of the water removing tank 2;

the drying box 3 comprises two power supply boxes 32, a plurality of infrared heating lamps 33 and a breather valve 34, wherein the two power supply boxes 32 are respectively arranged on the front side and the rear side of the drying box 3, the plurality of infrared heating lamps 33 are respectively arranged on the inner walls of the front side and the rear side of the drying box 3, the power supply box 32 on the same side is electrically connected with the plurality of infrared heating lamps 33 on the same side, and the breather valve 34 is arranged on the upper side of the switch door 31.

The support frame 1 is used for supporting the dewatering box 2 and the drying box 3, so that the dewatering box 2 and the drying box 3 are more stable; the wire hole 4 is used for inserting an optical cable, the drying box 3 can be sealed when the switch door 31 is closed, the optical cable can conveniently pass through the wire hole 4 when the drying box 3 is opened, the first transverse plate 21 is used for installing and fixing the water blowing air pipe 22, the two vertical plates 23 are used for installing and fixing the two water absorbing sponges 24, the breather valve 34 can automatically adjust the pressure in the drying box 3, when the pressure exceeds a preset pressure value, the breather valve 34 can be opened automatically for pressure relief, and after the pressure is lower than the preset pressure value, the breather valve 34 can be closed, so that the heat loss in the drying box 3 is reduced; people sequentially pass through the wire holes 4 of the water removing box 2 and the drying box 3, and then connect the optical cable with a rolling traction machine, so that the optical cable can be driven by the rolling traction machine to remove water and dry; after the optical cable passes through the wire hole, the air inlet joint 221 of the water blowing air pipe 22 can be externally connected with a fan, and the water blowing air pipe 22 is arranged on the upper side of the wire hole 4, so that the water on the upper surface of the optical cable can be blown off by the water blowing air pipe 22, the blown-off water can fall into the water collecting box 25 to be collected, and after the water collecting box 25 is full, people can detach the water collecting box 25 from the bottom of the water removing tank 2 to recycle the water; meanwhile, the two water-absorbing sponges 24 are arranged at the lower side of the wire hole 4, when the optical cable passes through, the two water-absorbing sponges 24 can be in contact with the lower surface of the optical cable, so that water on the lower surface of the optical cable is absorbed, and water on the surface of the optical cable is completely removed; after the power box 32 is powered on, the infrared heating lamp 33 can work, and the temperature inside the power box 32 is raised to dry the optical cable;

in the embodiment, the device needs to be matched with a rolling traction machine for use, the infrared heating lamp 33 adopts short-wave infrared rays to heat and dry through heat radiation, the heating efficiency is high, the service life is long, and compared with a traditional hot convection drying mode of blowing hot air, air convection cannot occur in the drying box 3, and the heat loss is reduced; before use, the optical cable sequentially passes through the wire holes 4 of the water removing tank 2 and the drying tank 3, when the optical cable passes through the drying tank 3, the switch door 31 needs to be opened for operation, the switch door 31 needs to be closed after the optical cable passes through, then the optical cable passing through the drying tank 3 is connected with a winding traction machine, and all parts of the optical cable are driven by the winding traction mechanism to sequentially pass through the water removing tank 2 for water removal and the drying tank 3 for surface drying; remove the water-blowing wind pipe 22 of water tank and can blow off the water of optical cable upper surface to water-collecting box 25 and carry out recycle, two sponge 24 that absorb water can absorb the water absorption of optical cable lower surface, thereby make the water on surperficial is got rid of to the optical cable comprehensively, then by power supply box 32 switch on in reentrant stoving case 3, make each infrared heating lamp 33 with the inside intensification of stoving case 3, dry the surface of optical cable, it just directly dries the optical cable through the hot-blast of drum-in not to remove water in advance mostly to have solved current drying equipment, thereby make the water droplet on cable surface be difficult to the problem of being dried completely.

Please refer to fig. 1, fig. 2 and fig. 3, the water removing tank 2 further includes a manual water squeezing mechanism, the water squeezing mechanism includes a second horizontal plate 26 and a water squeezing block 27, two ends of the second horizontal plate 26 are respectively fixedly connected with lower ends of the two vertical plates 23, the second horizontal plate 26 is provided with a plurality of filtering holes 261, the water squeezing block 27 is disposed between the two water absorbing sponges 24, the water squeezing block 27 is slidably connected with the second horizontal plate 26, the water squeezing block 27 is provided with a hand push assembly, the hand push assembly includes two connecting rods 271, the two connecting rods 271 are respectively fixedly connected with front and rear ends of the water squeezing block 27, the front and rear sides of the water removing tank 2 are respectively provided with bar-shaped chutes 28 matched with the connecting rods 271, and the same-side connecting rod 271 penetrates through the same-side bar-shaped chutes 28 and is fixedly connected with handles 272.

People can conveniently drive the water squeezing block 27 to slide left and right relative to the second transverse plate 26 by pushing any one of the handles 272 on the front side and the rear side of the hand push assembly, when the water squeezing block 27 slides left, the left water absorption sponge 24 can be compressed, water absorbed by the left water absorption sponge 24 is squeezed out, meanwhile, when the left water absorption sponge 24 is squeezed out, the right water absorption sponge 24 cannot be influenced, water on the lower side of the optical cable is continuously absorbed, when the water squeezing block 27 slides right, the right water absorption sponge 24 can be compressed, water absorbed by the right water absorption sponge 24 is squeezed out, and when the right water absorption sponge 24 is squeezed out, the left water absorption sponge 24 cannot be influenced, and water on the lower side of the optical cable is continuously absorbed; the squeezed water can be filtered out to the sump case 25 through the filtering holes 261 of the second horizontal plate 26 to be recovered.

Referring to fig. 1 and 3, the drying box 3 further includes a plurality of guide rods 35, and the guide rods 35 are distributed in a serpentine shape and fixedly connected to the bottom of the drying box 3.

After the optical cable enters the drying box 3 through the wire holes 4, the optical cable is sequentially wound around the guide rods 35 and then penetrates out the optical cable from the drying box 3 to be connected to the winding traction machine, when the winding traction machine moves, the optical cable sequentially passes through the water removing box 2 and the drying box 3, the passing time of each part of the optical cable in the drying box 3 can be prolonged, and the optical cable can be dried for a longer time.

Referring to fig. 1 and 3, the drying box 3 further includes a plurality of support bars 36, and the support bars 36 are located at the lower side of the wire holes 4 and fixedly connected to the front and rear sides of the drying box 3.

The support bars 36 can support the optical cable, and prevent the optical cable from falling to the bottom of the drying box 3 due to the fact that the optical cable is not straightened and tightened, and the drying effect is affected.

Wherein, it is fixed through bonding between sponge 24 that absorbs water and the riser 23, and stoving case 3 inner wall is thermal-insulated through coating insulating paint.

Through bonding processing, can be convenient fix sponge 24 and riser 23 that will absorb water, the inside thermal-insulated coating of 3 inside coatings of stoving case can avoid because of the higher problem of scalding the staff of 3 outer wall temperatures of stoving case.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (6)

1. The utility model provides an optical cable production drying-machine which characterized in that: the drying box is characterized by comprising a support frame, a water removing box and a drying box, wherein openings at the top and the bottom of the water removing box are not closed, the bottom of the drying box is closed, a switch door is arranged at the top of the drying box, the water removing box and the drying box are fixedly connected into a whole, wire holes are formed in the water removing box and the drying box, and the support frame is fixedly connected with the water removing box and the drying box respectively;

the water removing box comprises a first transverse plate, a water blowing air pipe, two vertical plates and two water absorbing sponges, the first transverse plate is fixedly arranged at the top of the water removing box, the water blowing air pipe is fixedly connected with the first transverse plate and is positioned above the wire hole, the water blowing air pipe is provided with an air inlet connector, the two vertical plates are symmetrically arranged at the left side and the right side of the interior of the water removing box, the two water absorbing sponges are respectively and fixedly arranged at one side of the two vertical plates, the two water absorbing sponges are positioned below the wire hole, the water removing box also comprises a water collecting box, and the water collecting box is detachably connected with the bottom of the water removing box;

the stoving case is including two power supply boxes, a plurality of infrared heating lamp and a breather valve, two the power supply box is located respectively both sides around the stoving case, and is a plurality of infrared heating lamp set up respectively in both sides inner wall around the stoving case, homonymy the power supply box is a plurality of with the homonymy infrared heating lamp electric connection, the breather valve install in switch door upside.

2. An optical cable production dryer as claimed in claim 1, wherein: remove the water tank still including manual crowded water mechanism, crowded water mechanism is including second diaphragm and crowded water piece, second diaphragm both ends respectively with two riser lower extreme fixed connection, the second diaphragm is equipped with a plurality of filtration pores, crowded water piece sets up in two absorb water between the sponge, crowded water piece with second diaphragm sliding connection, crowded water piece is equipped with the hand push subassembly.

3. An optical cable production dryer according to claim 2, characterized in that: the hand push subassembly is including two connecting rods, two the connecting rod respectively with both ends fixed connection around the crowded water piece, both sides all be equipped with around the dewatering box with connecting rod assorted bar spout, homonymy the connecting rod runs through the homonymy fixedly connected with handle behind the bar spout.

4. An optical cable production dryer as claimed in claim 1, wherein: the stoving case is still including a plurality of guide bars, and is a plurality of the guide bar be snakelike distribution and with stoving bottom of the case portion fixed connection.

5. An optical cable production dryer as claimed in claim 1, wherein: the stoving case is still including a plurality of support bars, and is a plurality of the support bar all is located line hole downside and with both sides fixed connection around the stoving case.

6. An optical cable production dryer as claimed in claim 1, wherein: the sponge that absorbs water with it is fixed through bonding between the riser, stoving incasement wall insulates against heat through coating insulating paint.

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