CN216100347U - Cooling water tank capable of being air-dried - Google Patents

Abstract

The application relates to the technical field of cable processing, in particular to a cooling water tank capable of being air-dried. The key points of the technical scheme are as follows: comprises a groove body and an air drying component; the tank body comprises a cooling tank and an air drying tank, the air drying assembly is fixedly connected in the air drying tank through a support, and the air drying assembly comprises an air blowing piece, a guide piece and an air drying piece; a line passing channel is arranged in the air drying piece in a penetrating way, the air blowing piece is communicated with the line passing channel, and air flow is introduced into the line passing channel by the air blowing piece; the guide piece comprises a connecting rod, a rotating shaft and a guide wheel, and two ends of the connecting rod are respectively rotatably connected with the air drying piece and the rotating shaft; the guide wheel fixed connection is in the pivot, and the guide wheel cooperates with the cable slides, and the piece is dried in the business turn over of cable via the guide wheel, and the guide wheel is in same water flat line with the central line of wire passing channel with the cable department of sliding mutually. This application has the effect of the stability when promoting the cable through air-drying the device.

Description

Cooling water tank capable of being air-dried

Technical Field

The application relates to the technical field of cable processing, in particular to a cooling water tank capable of being air-dried.

Background

In the process of cable production, after a core body is formed through processes of drawing, stranding and the like, an insulating protective layer needs to be coated in an extruder, and after the coated cable leaves a machine head of the extruder, the coated cable is easy to deform under the action of gravity, so that the cable needs to be immediately cooled and shaped.

At present, in the related art, a cooling water tank is generally adopted to cool the cable with water, the cable enters the cooling water tank with a certain length immediately after leaving the head of the extruder, and the cable flows through the cooling water tank and exchanges heat with flowing cooling water in the tank body, so that the temperature is reduced; after the cable leaves the cooling water tank, the air drying device is used for air-drying the cable, and the cable is further cooled in the air drying process.

To the correlation technique among the above-mentioned, air-dry the device and install in the cooling trough, the cable runs through the wire passing channel who air-dries in the device and air-dries, and the cable takes place the skew easily at air-drying in-process for cable and wire passing channel friction cause the wearing and tearing of cable, and here, how to promote the cable and have great improvement space through the stability of air-drying the device.

SUMMERY OF THE UTILITY MODEL

In order to promote the stability of cable when through air-drying the device, this application provides an air-dryable cooling trough.

The application provides a but air-dried cooling trough adopts following technical scheme:

a cooling water tank capable of being air-dried comprises a tank body and an air-drying assembly; the tank body comprises a cooling tank and an air drying tank, the air drying assembly is fixedly connected in the air drying tank through a support, and the air drying assembly comprises an air blowing piece, a guide piece and an air drying piece; a line passing channel penetrates through the air drying part, the air blowing part is communicated with the line passing channel, and air flow is introduced into the line passing channel by the air blowing part; the guide piece comprises a connecting rod, a rotating shaft and a guide wheel, and two ends of the connecting rod are respectively rotatably connected with the air drying piece and the rotating shaft; the guide wheel is fixedly connected to the rotating shaft, the guide wheel is matched with the cable in a sliding mode, the cable enters and exits from the air drying piece through the guide wheel, and the sliding position of the guide wheel and the cable is located on the same horizontal line with the central line of the wire passing channel.

Through adopting above-mentioned technical scheme, extrude the back when the cable from the extruder, get into the cooling bath in the cooling trough and cool down, the air-dry subassembly that the cable crossed water cooling back and got into the air-dry inslot air-dries. Because cable length is longer, in order to carry out abundant cooling to the cable, can set up the longer cooling trough of length usually, the cable is at the in-process that runs through the cooling trough and is fallen by the action of gravity easily, therefore probably produces the friction with wire passing channel inner wall when running through the air-dry subassembly, has increased the risk that the cable damaged. Here, set up the guide wheel, the department that slides mutually with the cable of guide wheel is in same water flat line with the central line of wire passing channel and the tractive machine inlet wire mouth of cooling trough rear end, makes the cable air-dry the subassembly via the business turn over of guide wheel to reduce the possibility of cable and wire passing channel inside friction, promoted the stability that the cable passes through air-dry device.

Preferably, the guide piece is provided with two sets, and two sets of guide wheels are located respectively air-dry the both sides of piece to two sets of guide wheels are close to respectively the inlet wire end and the outlet wire end of crossing the wire passageway, wherein the guide wheel upper portion of one set of and cable slip butt and bearing cable, and the lower part of another set of guide wheel slides butt and is spacing to the cable with the cable.

By adopting the technical scheme, the cable enters the wire passing channel through the guide wheel at the wire inlet end of the wire passing channel, the guide wheel supports the cable to be in the same horizontal line with the central line of the wire passing channel, so that the cable enters the air drying assembly along the central line of the wire passing channel, and the possibility that the cable falls down under the action of gravity and rubs against the inner wall of the wire passing channel is reduced; in the air drying process of the cable in the wire passing channel, the cable is easy to produce circumferential deviation under the action of wind force, so that the guide wheel of the other group of guide pieces is arranged at the wire outlet end of the wire passing channel, and the guide wheel limits the deviation of the cable in the vertical direction; simultaneously, two guide wheels are mutually supported, utilize the wheel wall to carry on spacingly to the skew of cable along the horizontal direction.

Preferably, the air-drying part comprises a first mounting plate and a second mounting plate, the first mounting plate and the second mounting plate can be mutually opened and closed, a first groove is formed in the first mounting plate, a second groove is formed in the second mounting plate, and when the first mounting plate and the second mounting plate are closed, the first groove and the second groove are mutually spliced to form a wire passing channel.

By adopting the technical scheme, because the length of the cable is long, in the process of cooling the cable, if an emergency occurs, the work of the cooling water tank needs to be suspended, and when the cable is taken out, two ends of the cable are respectively positioned in the extruder and the drawing machine at the rear end, so that the cable is inconvenient to be directly taken out from the air drying assembly, and the cable passing channels which are mutually opened and closed are arranged, so that the cable can be conveniently placed and taken out in the working process; in addition, the wire passing channel can be opened and closed, so that the wire passing channel can be cleaned regularly, and the possibility that stains in the wire passing channel are attached to cables in the air drying process is reduced.

Preferably, the blowing piece comprises a nozzle and an air pump, one end of the nozzle is respectively communicated with the first groove and the second groove, and the other end of the nozzle is connected with the air pump.

Through adopting above-mentioned technical scheme, when first mounting panel and second mounting panel were closed, the nozzle was linked together with wire passing channel's top and below respectively, and consequently the cable is when wire passing channel, starts the air pump, and the nozzle can be simultaneously to the air-dry of blowing of the upper portion and the lower part of cable for the cable can all-round receive the wind-force effect, realizes the abundant air-drying to the cable.

Preferably, the second groove is provided with a drain hole, and the drain hole is communicated with the wire passing channel and the outside of the air drying piece.

Through adopting above-mentioned technical scheme, the nozzle carries out all-round air-dry and further cooling to the cable in the wire passing channel through blowing, and the heat on the cable forms steam with the cold air current heat exchange, and steam is discharged from the exhaust hole of wire passing channel top, and the water droplet on the in-process cable of blowing falls in the wire passing channel, and then discharges via the wash port of wire passing channel below, and the wash port also can discharge the steam in the wire passing channel simultaneously.

Preferably, the wire inlet end of the wire passing channel is provided with an arc transition groove, and the arc transition groove is flared from inside to outside.

Through adopting above-mentioned technical scheme, when the cable got into through the guide wheel and air-dries the subassembly, earlier crossed the aqueduct and then got into the wire passing channel through the great circular arc of opening, can play the guard action to the cable, reduce the cable and cross the line in-process, receive wind-force effect because of being in the cable of crossing in the wire passing channel and produce the skew for produce the friction by the cable that the wire passing channel inlet wire end got into and the contained angle of wire passing channel inlet wire end, thereby promote the design effect of cable.

Preferably, the support includes fixed part, regulating part and fastener, the fixed part with the regulating part is slided and is connected, waist type groove has been seted up to the regulating part, the fastener runs through waist type groove, the fastener is used for controlling the regulating part and the relative position of fixed part.

Through adopting above-mentioned technical scheme, because of the cable has multiple size, not unidimensional cable income line height is different, in order to make air-dry the subassembly and be applicable to not unidimensional cable and air-dry, air-dry the support that an below fixedly connected with is adjustable, highly adjust wire passing channel's height through adjusting the support for the central line that the cable can follow wire passing channel gets into wire passing channel, thereby reduce the friction between cable and wire passing channel, promoted the application scope who air-dries the subassembly.

Preferably, the cell body open-top, the cell body top is equipped with and is used for opening and close the open-ended capping, the cell wall of cell body and capping demountable installation has the amortization cotton.

Through adopting above-mentioned technical scheme, because air-dry the subassembly and blow air-dry to the cable in the cell body, blow and air-dry the in-process and can produce certain noise, install the capping additional to this on the cell body to at the cell wall of cell body and capping installation amortization cotton, the cooling trough during operation is covered the capping and is sealed the cell body, can give sound insulation to the noise in the cell body, and, the amortization cotton can dismantle the change after using ageing.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after being extruded from the extruder, the cable enters a cooling tank in a cooling water tank for cooling, and after being cooled by water, the cable enters an air drying assembly in an air drying tank for air drying;

2. the air drying assembly comprises a guide wheel, the sliding position of the guide wheel and the cable is positioned on the same horizontal line with the central line of the wire passing channel and the wire inlet of the traction machine at the rear end of the cooling water tank, so that the cable enters and exits the air drying assembly through the guide wheel, the possibility of friction between the cable and the interior of the wire passing channel is reduced, and the stability of the cable passing through the air drying device is improved;

3. air-dry a below fixedly connected with adjustable support, highly adjust wire passing channel's height through adjusting the support for not unidimensional cable can follow wire passing channel's central line and get into wire passing channel, thereby reduce the friction between cable and wire passing channel, promoted the application scope who air-dries the subassembly.

Drawings

Fig. 1 is a sectional view of a cooling water tank in the present application.

Fig. 2 is a cross-sectional view of the seasoning assembly of the present application.

Fig. 3 is a schematic structural view of the air drying assembly in the cable feeding direction in the present application.

Description of reference numerals: 1. a trough body; 11. a cooling tank; 111. a sliding groove body; 12. an air drying groove; 121. a abdication gap; 122. a water return port; 13. a slot cover; 14. a splint; 15. silencing cotton; 2. air-drying the assembly; 21. an air blowing member; 211. a nozzle; 22. a guide; 221. a connecting rod; 222. a rotating shaft; 223. a guide wheel; 2231. a sliding part; 23. air-drying the workpiece; 231. a first mounting plate; 2311. a first groove; 232. a second mounting plate; 2321. a second groove; 233. a wire passage; 234. a circular arc transition groove; 235. a transition flange; 236. a vent hole; 237. a drain hole; 3. a support; 31. a fixed part; 32. an adjustment section; 321. a waist-shaped groove; 33. a fastener.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses but air-dried cooling trough. Referring to fig. 1, the cooling water tank includes a tank body 1 and an airing assembly 2; the top of cell body 1 has the opening, and cell body 1 passes through screw fixed mounting in the frame, and cell body 1 includes cooling bath 11 and air-dry groove 12, can load the cooling water in the cooling bath 11, and the cable gets into in cooling bath 11, and the cooling water is used for cooling the cable, and in the cable got into air-dry groove 12 immediately, air-dry subassembly 2 passed through support 3 fixed connection in air-dry groove 12, and connected mode is the screw connection, and air-dry subassembly 2 air-dries the cable.

In order to improve the flexibility of the use of the groove body 1 and adjust the distance between the extruder and the cooling water tank according to the actual working condition requirements, the sliding groove body 111 is sleeved in the cooling groove 11 in a sliding manner, abdicating notches 121 are formed in the end surfaces of the cooling groove 11, the sliding groove body 111 and the air drying groove 12, and cables enter the sliding groove body 111 through the abdicating notches 121 and then penetrate out of the fixed groove body 1; a driving assembly is arranged below the sliding groove body 111 and used for driving the sliding groove body 111 to stretch and retract on the cooling groove 11. When the cables with different sizes are cooled, the driving assembly is rotated to enable the sliding groove body 111 to slide to a position required by work in a direction away from the cooling groove 11, so that the cooling water groove can timely cool the cables extruded by the extruder, and the molding quality of the cables is improved; in addition, the scalable regulation of cooling trough can reduce the occupation of cooling trough to the space, and the staff of being convenient for has sufficient space to carry out work such as follow-up clearance to the aircraft nose of extruder.

The cable is through sliding groove body 111 cooling back entering air-dry groove 12, run through immediately and air-dry subassembly 2 and air-dry, air-dry subassembly 2 including air-dry piece 21, guide piece 22 and air-dry 23, air-dry 23 and be used for supplying the cable to pass, air-dry 21 with air-dry 23 and link to each other, air-dry 21 is used for to air-dry 23 inside air current that lets in, in order to realize drying and cooling to the cable, guide piece 22 sets up in one side of air-dry 21, guide piece 22 is used for rectifying a deviation to the cable, stability when in the removal of promotion cable.

Referring to fig. 2 and 3, the air drying part 23 includes a first mounting plate 231 and a second mounting plate 232, the first mounting plate 231 and the second mounting plate 232 are rotatably connected by a hinge, and under the action of the hinge, the first mounting plate 231 and the second mounting plate 232 can realize the function of opening and closing each other. Meanwhile, one surface of the first mounting plate 231, which is close to the second mounting plate 232, is provided with a first groove 2311 which is recessed from outside to inside, one surface of the second mounting plate 232, which is close to the second mounting plate 232, is provided with a second groove 2321, the shapes and the sizes of the first groove 2311 and the second groove 2321 are consistent, and the positions of the first groove 2311 and the second groove 2321 are opposite, when the first mounting plate 231 and the second mounting plate 232 are closed, the first groove 2311 and the second groove 2321 are mutually spliced to form a wire passing channel 233, the wire passing channel 233 is a cylindrical strip-shaped pipeline, and the wire passing channel 233 penetrates through the air drying part 23 along the movement direction of the cable; here, one end of the wire passage 233 faces the cooling bath 11, and the cable can be passed into the airing member 23 from there and passed out from the other end, and one end of the wire passage 233 where the wire is fed is defined as a wire inlet end, and one end of the wire passage 233 where the wire is fed is defined as a wire outlet end.

Because the length of the cable is long, in the process of cooling the cable, two ends of the cable are respectively connected into the extruder and the traction machine at the rear end, if an emergency occurs, the work of the cooling water tank needs to be suspended, and when the cable is taken out, the cable is inconvenient to be directly drawn out from the air drying piece 23 or cut off. The wire passing channels 233 which can be opened and closed mutually are arranged, so that the cables can be conveniently placed and taken out in the working process, and the dismounting process is simple, convenient and quick; in addition, wire passage 233 can be opened and closed, and regular cleaning of wire passage 233 can be facilitated, so that the appearance of stains attached to cables in wire passage 233 during air drying is reduced, and the cleanliness of the surfaces of the cables is improved.

Referring to fig. 2 and 3, the cable enters the cooling water tank from the sliding groove 111 and moves a long distance to the seasoning assembly 2 in the seasoning tank 12, and in order to reduce the possibility that the cable falls down due to gravity and rubs against the inner wall of the wire passage 233, the guide member 22 is rotatably connected to the side wall of the seasoning member 23, and specifically, the guide member 22 includes a connecting rod 221, a rotating shaft 222 and a guide wheel 223. Wherein, pivot 222 is the round bar form, and the one end of connecting rod 221 rotates with air-dry 23 and is connected, and wherein, connecting rod 221 rotates in air-dry 23 accessible articulated mode and connects, so set up can make the setting position of connecting rod 221 adjustable for air-dry 23, and simultaneously, the other end of connecting rod 221 passes through screw-thread fit and is fixed mutually with pivot 222's fixed part 31. The guide wheel 223 is fixedly connected to the rotating shaft 222, the guide wheel 223 can rotate relative to the connecting rod 221, a guide groove is recessed in the circumferential surface of the wheel body, a groove wall of the guide groove is in sliding fit with the cable, and here, a position where the guide groove contacts with the cable is defined as a sliding portion 2231.

Wherein, the portion 2231 that slides is in same water flat line with the extruder aircraft nose, the central line of wire passing channel 233 and the income line mouth of cooling trough rear end tractive machine, makes the cable pass in and out air-dry subassembly 2 via guide wheel 223, and the motion of cable drives guide wheel 223 and rotates, and guide wheel 223 plays the effect of bearing and supplementary slippage to the cable to reduce the possibility of cable and wire passing channel 233 inside friction, promoted the stability of cable through air-drying the device.

Further, in the process of air-drying the cable in the wire passage 233, the cable is prone to circumferential deviation under the action of wind, in order to improve the stability of the air-drying process of the cable, in this embodiment, two sets of guide members 22 are provided, and two guide wheels 223 of the two sets of guide members 22 are respectively close to the wire inlet end and the wire outlet end of the wire passage 233. Wherein, the guide wheel 223 near the inlet end is adjusted to the front of the inlet end of the air drying piece 23 through the connecting rod 221, the sliding part 2231 of the guide wheel 223 is positioned on the upper part of the guide wheel 223, so that the upper part of the guide wheel 223 is matched with the cable in a sliding way; in addition, a guide wheel 223 close to the outlet end is debugged to the right back of the outlet end of the air dryer 23 through a connecting rod 221, and a sliding part 2231 of the guide wheel 223 is positioned at the lower part of the guide wheel 223, so that the lower part of the guide wheel 223 is in sliding fit with the cable; the center lines of the sliding portions 2231 of the guide wheels 223 and the wire passage 233 in the two sets of guides 22 are maintained on the same horizontal line.

When the cable enters the wire passing channel 233 through the guide wheel 223 close to the wire inlet end, the guide wheel 223 at the wire inlet end supports the cable to be at the same horizontal line with the central line of the wire passing channel 233, so that the cable enters the air drying component 2 along the central line of the wire passing channel 233, and the guide wheel 223 plays a role in assisting sliding and supporting the cable; the cable penetrates out of the wire passing channel 233 and then is in sliding and abutting contact with the guide wheel 223 close to the wire outlet end, and the guide wheel 223 at the wire outlet end limits the deviation of the cable along the vertical direction; simultaneously, two guide wheels 223 mutually support, utilize the wheel wall to carry on spacingly to the skew of cable along the horizontal direction to promote the stability of cable air-dry process.

In order to air-dry the cable, the blowing member 21 is communicated with the wire passage 233 to introduce the air flow into the wire passage 233, so as to air-dry the cable. Specifically, the blowing piece 21 comprises a nozzle 211 and an air pump, the nozzle 211 is fixedly connected to the air drying piece 23, the air pump is arranged outside the tank body 1, and the nozzle 211 is communicated with the air pump through a hose penetrating through the side wall of the tank body 1. The number of the nozzles 211 may be several, such as two, four, or six, and in this embodiment, the number of the nozzles 211 is four for illustration. Two of the nozzles 211 are spaced apart at a side surface of the first mounting plate 231 remote from the first groove 2311, and the other two nozzles 211 are spaced apart at a side surface of the second mounting plate 232 remote from the second groove 2321.

Here, a plurality of vent holes 236 are respectively formed in the first mounting plate 231 and the second mounting plate 232 in a penetrating manner, the vent holes 236 are respectively communicated with the nozzles 211 and the wire passing channels 233, an air outlet of the air pump is communicated with the nozzles 211 through a pipeline, when the first mounting plate 231 and the second mounting plate 232 are closed, the four nozzles 211 are respectively communicated with the upper part and the lower part of the wire passing channels 233 through the vent holes 236, therefore, when the cable passes through the wire passing channels 233, the air pump is started, the nozzles 211 can simultaneously blow air to the upper part and the lower part of the cable, so that the cable can be fully air-dried under the action of wind, and the full air-drying of the cable is realized.

The nozzle 211 carries out all-round air-drying and further cooling to the cable in the wire passing channel 233 through blowing, the heat on the cable and the heat exchange of cold air flow form hot gas, and the water droplet on the cable falls in the wire passing channel 233 in the blowing process, in order to discharge the hot gas and the ponding in the wire passing channel 233, a plurality of water drainage holes 237 are opened under the second groove 2321, in this embodiment, three water drainage holes 237 are provided, the three water drainage holes 237 are arranged at intervals and penetrate through the second mounting plate 232, and the three water drainage holes 237 are communicated with the wire passing channel 233 and the outside of the air drying element 23. Therefore, the accumulated water in the wire passage 233 is discharged through the water discharge hole 237 below the wire passage 233, and the hot air in the wire passage 233 can be discharged through the water discharge hole 237.

With continued reference to fig. 2 and 3, in order to further protect the cable and reduce the friction between the cable and the inner wall of the wire passing channel 233, the wire inlet end of the wire passing channel 233 is provided with an arc transition groove 234, the arc transition groove 234 is flared from the inside to the outside, when the cable enters the air drying assembly 2 through the guide wheel 223, the cable enters the wire passing channel 233 through the transition groove with a larger opening, so that the cable can be protected, and the deviation of the cable in the wire passing process due to the wind force applied to the cable in the wire passing channel 233 is reduced, so that the friction is generated between the cable entering from the wire inlet end of the wire passing channel 233 and the wire inlet end, thereby improving the shaping effect of the cable, and the arc transition groove 234 also has the function of discharging accumulated water and hot air in the wire passing channel 233.

In addition, the outlet end of the wire passage 233 is convexly provided with a transition flange 235 towards the direction far away from the wire passage 233, the inner wall of the transition flange 235 is a cambered surface flaring from inside to outside, and the cable passes through the wire passage 233 through the transition flange 235, so that the cable can be protected, the phenomenon that the cable in the wire passage 233 is deflected under the action of wind power in the process of passing the cable through the wire passage 233 is reduced, friction is generated between the cable passing through the outlet end of the wire passage 233 and the outlet end, and accumulated water and hot gas in the wire passage 233 can be discharged from the transition flange 235.

Referring back to fig. 1, in the process of air-drying the cable, water drops on the cable fall into the air-drying groove 12, and accumulated water in the wire passage 233 is also discharged into the air-drying groove 12, so that accumulated water exists in the air-drying groove 12, in order to discharge the accumulated water in the air-drying groove 12, the accumulated water is reduced to overflow out of the cooling water tank, the bottom of the air-drying groove 12 is provided with a water return opening 122 along the vertical direction, and the water return opening 122 is communicated with a drainage pipeline. Therefore, the accumulated water in the air drying tank 12 flows into the drain pipe from the water return port 122 to be discharged or recycled, and the water flow is circulated.

With continued reference to fig. 2 and 3, since the cables have various sizes and the cable entry heights of different sizes are different, in order to make the airing assembly 2 suitable for airing the cables of different sizes, an adjustable bracket 3 is fixedly connected below the airing member 23. The support 3 includes fixed part 31, regulating part 32 and the fastener 33 that can slide each other, and fixed part 31 all is the L type form with regulating part 32, and the convex mount pad fixed connection who establishes in screw and air-dry groove 12 bottom surface is passed through to the one end of fixed part 31, and the one end of regulating part 32 slides and connects in the other end of fixed part 31, and the other end orientation of regulating part 32 is kept away from the direction fixed connection of regulating part 32 and is air-dried 23 bottoms, and the connected mode is bolted connection.

Wherein, the waist type groove 321 that runs through fixed part 31 and regulating part 32 is seted up along vertical direction on the one end terminal surface that fixed part 31 and regulating part 32 slided and are connected, the quantity of waist type groove 321 sets up to two, two waist type grooves 321 are parallel to each other the interval and set up, it has fastener 33 to be used for adjusting the height of support 3 to run through on two waist type grooves 321, here, fastener 33 chooses for use to be threaded fastener 33, threaded fastener 33 includes screw and nut, run through waist type groove 321 through the screw and the nut is mutually supported and is adjusted the elasticity, thereby fix support 3 in the position that is fit for air-drying subassembly 2 work. Therefore, the relative position of the adjusting part 32 and the fixing part 31 on the bracket 3 can be adjusted, and the height of the wire passage 233 in the air drying part 23 can be adjusted, so that the cable can enter the wire passage 233 along the central line of the wire passage 233, the friction between the cable and the wire passage 233 is reduced, and the application range of the air drying component 2 is widened.

Referring back to fig. 1 again, because air-dry subassembly 2 blows air-dries the cable in cell body 1, the air-dry in-process of blowing can produce certain noise, is equipped with the capping 13 that is used for opening and close the open-ended at cell body 1 open-top to this, capping 13 passes through the hinge and is connected with the notch rotation at cell body 1 top, is fixed with the handle through the screw on capping 13, the opening and closing of capping 13 of being convenient for reduces the staff and opens and close the risk that capping 13 in-process presss from both sides the injury hand.

In order to block the noise generated during the operation of the air drying assembly 2, the cooling water tank can be filled with silencing cotton 15. Specifically, clamping plates 14 which are consistent with the corresponding side walls in shape and size are fixed on the inner walls of the two side surfaces of the groove body 1 in the length direction and the inner wall of the groove cover 13 through screws, a plurality of silencing holes which are arranged at equal intervals are formed in the clamping plates 14, gaps are formed between the clamping plates 14 and the inner walls, the peripheries of the gaps are sealed by the clamping plates 14, and silencing cotton 15 is filled in the gaps. The cooling trough during operation covers the opening that capping 13 closed cell body 1, can give sound insulation to the cooling trough to reduce the noise that spreads the cooling trough, and splint 14 can be dismantled and set up, dismantle splint 14, can carry out the dismouting to amortization cotton 15, and amortization cotton 15 can be changed after using ageing.

The implementation principle of the cooling water tank capable of air drying in the embodiment of the application is as follows: after being extruded from the extruder, the cable enters the cooling tank 11 in the cooling water tank for cooling, and after being cooled by water, the cable enters the air drying component 2 in the air drying tank 12 for air drying. Because the cable length is longer, in order to carry out abundant cooling to the cable, can set up the cooling trough that length is longer usually, the cable is easily receive the gravity effect tenesmus at the in-process that runs through the cooling trough, therefore probably produces the friction with wire passing channel 233 inner wall when running through air-dry subassembly 2, has increased the risk of cable damage. Here, the guide wheel 223 is provided, so that the sliding position of the guide wheel 223 and the cable is on the same horizontal line with the center line of the wire passage 233 and the drawing machine wire inlet at the rear end of the cooling water tank, and the cable enters and exits the air drying assembly 2 through the guide wheel 223, thereby reducing the possibility of friction between the cable and the inside of the wire passage 233, and improving the stability of the cable passing through the air drying device.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A cooling water tank capable of being air-dried is characterized in that: comprises a tank body (1) and an air drying component (2);

the tank body (1) comprises a cooling tank (11) and an air drying tank (12), the air drying component (2) is fixedly connected in the air drying tank (12) through a support (3), and the air drying component (2) comprises an air blowing piece (21), a guide piece (22) and an air drying piece (23);

a line passing channel (233) penetrates through the air drying part (23), the air blowing part (21) is communicated with the line passing channel (233), and air flow is introduced into the line passing channel (233) by the air blowing part (21);

the guide piece (22) comprises a connecting rod (221), a rotating shaft (222) and a guide wheel (223), and two ends of the connecting rod (221) are respectively connected with the air drying piece (23) and the rotating shaft (222) in a rotating mode;

the guide wheel (223) is fixedly connected to the rotating shaft (222), the guide wheel (223) is matched with the cable in a sliding mode, the cable enters and exits the air drying piece (23) through the guide wheel (223), and the sliding position of the guide wheel (223) and the cable is located on the same horizontal line with the center line of the wire passing channel (233).

2. An air-dryable cooling water bath according to claim 1, wherein: the guide piece (22) is provided with two groups, two groups of guide wheels (223) are respectively positioned on two sides of the air drying piece (23), the two groups of guide wheels (223) are respectively close to the wire inlet end and the wire outlet end of the wire passing channel (233), the upper part of one group of guide wheels (223) is in sliding butt joint with the cable and supports the cable, and the lower part of the other group of guide wheels (223) is in sliding butt joint with the cable and limits the cable.

3. An air-dryable cooling water bath according to claim 1, wherein: the air-drying piece (23) comprises a first mounting plate (231) and a second mounting plate (232), the first mounting plate (231) and the second mounting plate (232) can be mutually opened and closed, a first groove (2311) is formed in the first mounting plate (231), a second groove (2321) is formed in the second mounting plate (232), and when the first mounting plate (231) and the second mounting plate (232) are closed, the first groove (2311) and the second groove (2321) are mutually spliced to form a wire passing channel (233).

4. An air-dryable cooling water bath according to claim 3, wherein: the air blowing piece (21) comprises a nozzle (211) and an air pump, one end of the nozzle (211) is communicated with the first groove (2311) and the second groove (2321) respectively, and the other end of the nozzle (211) is connected with the air pump.

5. An air-dryable cooling water bath according to claim 4, wherein: the second groove (2321) is provided with a drain hole (237), and the drain hole (237) is communicated with the wire passage (233) and the outside of the air drying piece (23).

6. An air-dryable cooling water bath according to claim 1, wherein: the wire inlet end of the wire passing channel (233) is provided with an arc transition groove (234), and the arc transition groove (234) is flared from inside to outside.

7. An air-dryable cooling water bath according to claim 1, wherein: support (3) include fixed part (31), regulating part (32) and fastener (33), fixed part (31) with regulating part (32) slide and connect, waist type groove (321) have been seted up in regulating part (32), fastener (33) run through waist type groove (321), fastener (33) are used for control regulating part (32) and the relative position of fixed part (31).

8. An air-dryable cooling water bath according to claim 1, wherein: the improved silencing tank is characterized in that the top of the tank body (1) is provided with an opening, the top of the tank body (1) is provided with a tank cover (13) used for opening and closing the opening, and silencing cotton (15) is detachably mounted on the tank wall of the tank body (1) and the tank cover (13).

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