CN215577912U - Cooling structure for power line production line - Google Patents

Abstract

The utility model discloses a cooling structure used in a power line production line, wherein a wire core on a raw material roller forms a power line after being extruded and coated by an extrusion chamber, and the power line is cooled by a cooling pipe after leaving the extrusion chamber; the cooling tube is internally injected with cooling liquid for cooling the power line, the outlet of the cooling tube is provided with a sponge and an extrusion assembly for extruding the sponge in a reciprocating manner, and the power line passes through the sponge after leaving the cooling tube. According to the utility model, after the extruded and coated power line is cooled, the power line penetrates through the sponge to absorb moisture on the surface of the power line, and the sponge is always in an unsaturated state under reciprocating extrusion, so that the moisture on the surface of the power line can be absorbed for a long time, a small amount of moisture remained on the surface of the power line can be dried by only a small amount of air, a long-distance drying mechanism is not required to be arranged to dry the moisture remained on the surface of the power line, the occupied production space is small, and the utilization rate of the production space is improved.

Description

Cooling structure for power line production line

Technical Field

The utility model relates to the field of power line production, in particular to a cooling structure for a power line production line.

Background

The power cord is in process of production, and the sinle silk forms the power cord after extruding the coating, and the power cord this moment just can get into next production stage because the temperature is higher need through water-cooling and weather the back, but after conventional water-cooling, need through the mechanism that weathers that long distance arranged thoroughly weathers the line body, and the production space who occupies is big, therefore the urgent need be solved.

Disclosure of Invention

In order to avoid and overcome the technical problems in the prior art, the present invention provides a cooling structure for use in a power line production line. The utility model shortens the blow-drying distance of the blow-drying mechanism and improves the utilization rate of the production space.

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

a cooling structure used in a power line production line is characterized in that a wire core on a raw material roller forms a power line after being extruded and coated through an extrusion chamber, and the power line body is cooled through a cooling pipe after leaving the extrusion chamber;

the cooling tube is internally injected with cooling liquid for cooling the power line, the outlet of the cooling tube is provided with a sponge and an extrusion assembly for extruding the sponge in a reciprocating manner, and the power line passes through the sponge after leaving the cooling tube.

As a further scheme of the utility model: the extrusion subassembly is including parallel arrangement's mount table and extrusion seat each other, and the mount table is fixed in the power cord exit of cooling tube, be provided with perpendicularly on the mount table with extrusion seat sliding fit's slide rail, the drive division drive extrusion seat slides along slide rail length direction in order to prolong or shorten the distance between extrusion seat and the mount table, the sponge is fixed between mount table and extrusion seat.

As a still further scheme of the utility model: the power cord leaves behind the cooling tube and passes mount table, sponge and extrusion seat along the horizontal direction in proper order, the slide rail level is arranged, and the one end that the mount table was kept away from to the slide rail is fixed with electric push rod through the cantilever, the rod end of electric push rod links to each other with the extrusion seat is fixed, and electric push rod promotes extrusion seat along slide rail length direction reciprocating motion, and electric push rod is the drive division promptly.

As a still further scheme of the utility model: the power line outlet height of the cooling pipe is higher than the water outlet height of the cooling pipe, and a receiving pool is arranged below the sponge to collect the extruded cooling liquid in the sponge.

As a still further scheme of the utility model: after the power cord leaves the sponge, the residual cooling liquid on the surface of the trunk line body is blown through the blowing ring.

As a still further scheme of the utility model: the cooling pipe is S-shaped, and pinch wheels which play a guiding role in the power line are arranged in the cooling pipe.

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

1. according to the utility model, after the extruded and coated power line is cooled, the power line penetrates through the sponge to absorb moisture on the surface of the power line, and the sponge is always in an unsaturated state under reciprocating extrusion, so that the moisture on the surface of the power line can be absorbed for a long time, a small amount of moisture remained on the surface of the power line can be dried by only a small amount of air, a long-distance drying mechanism is not required to be arranged to dry the moisture remained on the surface of the power line, the occupied production space is small, and the utilization rate of the production space is improved.

2. According to the utility model, the installation platform and the extrusion seat are arranged at the power line outlet of the cooling pipe to clamp the sponge between the installation platform and the extrusion seat, the slide rail is arranged on the installation platform to enable the extrusion seat to slide along the length direction of the slide rail, the sponge can be extruded in a reciprocating manner along the horizontal direction when the extrusion seat is pushed by the electric push rod, and the sponge is always in an unsaturated state on the premise of not damaging the power line, so that the sponge has good water absorption capacity all the time.

3. The cooling pipe is designed to be S-shaped, the cooling path of the power line is prolonged to the maximum in a limited production space, the utilization rate of the production space is improved, and the power line is always in an S-shaped conveying track while the power line is clamped and conveyed due to the arrangement of the clamping and conveying wheels in the cooling pipe; after the power wire leaves the cooling tube, residual moisture can be blown off through the blowing ring due to the fact that only a little moisture is adhered to the surface of the power wire.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

In the figure: 1. a raw material roller; 2. an extrusion chamber; 3. a melting furnace; 4. a cooling tube; 41. a pinch wheel; 42. a water inlet; 43. a water outlet; 44. an installation table; 45. a sponge; 46. a blowing ring; 47. a pressing base; 48. an electric push rod; a. a wire core; b. a power line.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, in an embodiment of the present invention, a cooling structure for use in a power line production line includes a material roller 1 and an extrusion chamber 2 located at a downstream end of the material roller 1, a melting furnace 3 for melting a sheath material is installed on the extrusion chamber 2, and a power line b is formed by extruding and coating a molten rubber material on a surface of a wire core a when the wire core a passes through the extrusion chamber 2. After leaving the extrusion chamber 2, the power cord b enters the cooling tube 4.

The one end of cooling tube 4 is the power cord import, and the other end is the power cord export, and the water inlet 42 that supplies the coolant liquid to get into is seted up to power cord import top, and the delivery port 43 that supplies the coolant liquid outflow is seted up to power cord export below, and water inlet 42 is higher than the power cord import, and delivery port 43 is less than the power cord export.

The cooling tube 4 is S-shaped, a pinch wheel 41 which plays a role of guiding the power line b is arranged in the cooling tube 4, and the pinch wheel 41 pinches the power line b to enable the power line b to be conveyed in an S-shaped track.

An installation platform 44 is arranged at the outlet of the power line of the cooling pipe 4, the table surface of the installation platform 44 is arranged along the vertical direction, a slide rail which is horizontally arranged is fixed on the installation platform 44, and the slide rail is avoided from the conveying path of the power line b. The sliding rail is further provided with an extrusion seat 47 in sliding fit with the sliding rail, the extrusion seat 47 is parallel to the mounting table 44, and the sponge 45 is fixed between the extrusion seat 47 and the mounting table 44. Extrusion seat 47 and mount table 44 are all seted up porosely, and power cord b passes hole on mount table 44, sponge 45 and the hole on extrusion seat 47 in proper order after, weathers the remaining a small amount of coolant liquid of line body through blowing ring 46, and the coolant liquid is water preferentially.

A receiving pool is arranged below the sponge 45 to collect the extruded cooling liquid in the sponge 45, and the receiving pool is a movable pool body which moves to the position below the sponge 45 in the production process.

An electric push rod 48 is fixed at one end of the slide rail, which is far away from the mounting table 44, through a cantilever, the rod end of the electric push rod 48 is fixedly connected with the extrusion seat 47, and the extrusion seat 47 is pushed to reciprocate along the length direction of the slide rail, so that the sponge 45 is extruded in a reciprocating manner.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A cooling structure used in a power line production line is characterized in that a wire core (a) on a raw material roller (1) forms a power line (b) after being extruded and coated through an extrusion chamber (2), and the wire core (b) is cooled through a cooling pipe (4) after leaving the extrusion chamber (2);

be used for the coolant liquid of cooling power cord (b) in cooling tube (4), the exit of cooling tube (4) is provided with sponge (45) and reciprocal extrusion assembly who extrudees sponge (45), passes sponge (45) behind power cord (b) leave cooling tube (4).

2. The cooling structure for the power line production line according to claim 1, wherein the extrusion assembly comprises a mounting table (44) and an extrusion seat (47) which are arranged in parallel, the mounting table (44) is fixed at the power line outlet of the cooling pipe (4), a slide rail which is in sliding fit with the extrusion seat (47) is horizontally arranged on the mounting table (44), the extrusion seat (47) is driven by the driving part to slide along the length direction of the slide rail so as to prolong or shorten the distance between the extrusion seat (47) and the mounting table (44), and the sponge (45) is fixed between the mounting table (44) and the extrusion seat (47).

3. The cooling structure for the power line production line according to claim 2, wherein the power line (b) leaves the cooling pipe (4) and then sequentially passes through the mounting table (44), the sponge (45) and the extrusion seat (47) along the horizontal direction, an electric push rod (48) is fixed to one end, away from the mounting table (44), of the sliding rail through a cantilever, the rod end of the electric push rod (48) is fixedly connected with the extrusion seat (47), the electric push rod (48) pushes the extrusion seat (47) to reciprocate along the length direction of the sliding rail, and the electric push rod (48) is a driving portion.

4. The cooling structure for the power line production line according to claim 3, wherein the height of the power line outlet of the cooling pipe (4) is higher than the height of the water outlet (43) of the cooling pipe (4), and a receiving pool is arranged below the sponge (45) to collect the coolant squeezed out from the sponge (45).

5. The cooling structure for the power line production line according to any one of claims 1 to 4, wherein after the power line (b) leaves the sponge (45), the cooling liquid remained on the surface of the line body is dried by a blowing ring (46).

6. A cooling structure for use in a power line production line according to any one of claims 1 to 4, wherein the cooling tube (4) is S-shaped, and a pinch roller (41) for guiding the power line (b) is disposed in the cooling tube (4).

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