CN216353568U - High-speed extrusion device for producing polyester enameled round copper wire - Google Patents

Abstract

The utility model discloses a high-speed extrusion device for producing polyester enameled round copper wires, which comprises a pay-off machine, a take-up machine, an extrusion machine, an air cooling box, an air blower, an exhaust pipe, a water cooling tank, a water inlet pipe and an overflow pipe, wherein the take-up machine is positioned on one side of the pay-off machine; the inside of forced air cooling case is sent into through the heart yearn to the cladding insulating layer, and the blower can carry out the forced air cooling to the heart yearn, realizes the preliminary cooling of heart yearn, and the inside of water cooling tank is sent into to the heart yearn of cladding insulating layer to the rethread, and cooling water can carry out the water-cooling to the heart yearn, realizes the complete cooling of heart yearn, consequently, this high-speed extrusion device of production polyester enamelled copper round wire can carry out stage by stage cooling to the heart yearn, avoids the insulating layer of heart yearn to produce the crackle because of the difference in temperature is too big.

Description

High-speed extrusion device for producing polyester enameled round copper wire

Technical Field

The utility model relates to the technical field of high-speed extrusion devices, in particular to a high-speed extrusion device for producing polyester enameled round copper wires.

Background

The extruder is also called an extruder, and is wire and cable equipment which is mainly used for extruding core wires of power wires, power cables, coaxial cables, communication cables, transmission cables, BV-type civil wires, electronic wires, computer wires, building wires, data communication cables, radio frequency wires, HDM I data wires, various high-temperature silica gel cables, Teflon, coaxial wires, network cables, optical fibers, rubber-insulated cables and other wire cables; when the core wire is processed by the extruder, the core wire coated with the insulating material has high temperature and needs to be effectively and quickly cooled.

However, in the high-speed extruder for producing the polyester enameled round copper wire in the prior art, the core wire coated with the insulating layer is usually directly immersed in cold water, so that the cooling speed can be increased, but the insulating layer of the core wire is easy to crack under a large temperature difference, and the quality of the product is affected.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention aims to provide a high-speed extrusion device for producing polyester enameled round copper wire, which can cool the core wire in stages and avoid the cracking of the insulation layer of the core wire due to excessive temperature difference.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a device is given as security out at a high speed of production polyester enameled copper round wire, is located including the paying out machine that is used for unreeling unprocessed heart yearn the admission machine that is used for the rolling processed heart yearn of one side of paying out machine, is located between paying out machine and the admission machine, and be used for solidifying the melting insulator to unprocessed heart yearn in order to form the extruder of processed heart yearn, still including being located the admission machine and giving as security out the air-cooled case between the machine, with the air-blower of the inside intercommunication of air-cooled case, with the exhaust pipe of the inside intercommunication of air-cooled case is located water-cooling tank between air-cooled case and the admission machine, with the inlet tube of the inside intercommunication of water-cooling tank, with the overflow pipe of the inside intercommunication of water-cooling tank.

Preferably, one end of the air cooling box is provided with a first wire inlet, and the other end of the air cooling box is provided with a first wire outlet.

Preferably, the bottom of the air cooling box is provided with an air inlet, the air blower is communicated with the inside of the air cooling box through the air inlet, the top of the air cooling box is provided with an air outlet, and the exhaust pipe is communicated with the inside of the air cooling box through the air outlet.

Preferably, one end of the water cooling tank is provided with a second inlet located above the overflow pipe, and the other end of the water cooling tank is provided with a second outlet located below the water inlet pipe.

Furthermore, the water cooling tank is provided with the water inlet that is located the top of second outlet, and be used for with the inlet tube intercommunication, the water cooling tank be provided with be located the below of second inlet wire mouth, and be used for with the overflow mouth of overflow pipe intercommunication, the inside fixed mounting of water cooling tank has two wire plates.

Furthermore, the wire guide plate is provided with a wire guide hole, and the height of the wire guide hole is lower than that of the overflow port.

Furthermore, a water inlet valve is fixedly arranged inside the water inlet pipe.

The technical effects of the utility model are mainly embodied as follows: the inside of forced air cooling case is sent into through the heart yearn to the cladding insulating layer, and the blower can carry out the forced air cooling to the heart yearn, realizes the preliminary cooling of heart yearn, and the inside of water cooling tank is sent into to the heart yearn of cladding insulating layer to the rethread, and cooling water can carry out the water-cooling to the heart yearn, realizes the complete cooling of heart yearn, consequently, this high-speed extrusion device of production polyester enamelled copper round wire can carry out stage by stage cooling to the heart yearn, avoids the insulating layer of heart yearn to produce the crackle because of the difference in temperature is too big.

Drawings

FIG. 1 is a schematic structural view of a high-speed extrusion device for producing polyester enameled round copper wire according to the present invention;

FIG. 2 is a schematic cross-sectional structural view of the air cooling box of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the water-cooled tank of FIG. 1;

fig. 4 is a side view of the wire guide plate of fig. 3.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.

The utility model provides a high-speed extrusion device of production polyester enameled copper round wire, as shown in figure 1, including the paying out machine 1 that is used for unreeling unprocessed heart yearn 101, be located paying out machine 1's one side, and be used for the coiling processed heart yearn 102 admission machine 2, be located between paying out machine 1 and admission machine 2, and be used for solidifying the melting insulator to unprocessed heart yearn 101 in order to form processed heart yearn 102's extrusion machine 3, still including being located the forced air cooling case 4 between admission machine 2 and the extrusion machine 3, with the air-blower 5 of the inside intercommunication of forced air cooling case 4, with exhaust pipe 6 of the inside intercommunication of forced air cooling case 5, be located water cooling tank 7 between forced air cooling case 4 and the admission machine 2, with the inlet tube 8 of the inside intercommunication of water cooling tank 7, with the overflow pipe 9 of the inside intercommunication of water cooling tank 7. A water inlet valve 81 is fixedly arranged inside the water inlet pipe 8.

As shown in fig. 2, one end of the air cooling box 4 is provided with a first wire inlet 41 for passing the processed core wire 102, and the other end of the air cooling box 4 is provided with a first wire outlet 42 for passing the processed core wire 102 out. The one end bottom of forced air cooling case 4 is provided with air intake 43, air-blower 5 passes through air intake 43 and forced air cooling case 4's inside intercommunication, the other end top of forced air cooling case 4 is provided with air outlet 44, exhaust pipe 6 passes through air outlet 44 and forced air cooling case 4's inside intercommunication.

As shown in fig. 3-4, one end of the water cooling tank 7 is provided with a second inlet 71 located above the overflow pipe 9 for passing the processed core wire 102, and the other end of the water cooling tank 7 is provided with a second outlet 72 located below the inlet pipe 8 for passing the processed core wire 102. The second outlet 72 is at the same height as the second inlet 71. The water cooling tank 7 is provided with a water inlet 73 which is positioned above the second outlet 72 and is used for being communicated with the water inlet pipe 8, the water cooling tank 7 is provided with an overflow port 74 which is positioned below the second inlet 71 and is used for being communicated with the overflow pipe 9, and two wire guide plates 75 used for passing the processed core wire 102 are fixedly arranged in the water cooling tank 7. The cooling water in the water cooling tank 7 can be replenished through the water inlet pipe 8 and the water inlet 73, and the cooling water in the water cooling tank 7 can be discharged through the overflow pipe 9 and the overflow port 74. The wire guide plate 75 is provided with a wire guide hole 751 for passing the processed core wire 102, and the height of the wire guide hole 751 is lower than that of the overflow port 74. The design can ensure that the liquid level in the water-cooling tank 7 is higher than the lowest height of the processed core wire 102 in the water-cooling tank 7, and ensure that the cooling water in the water-cooling tank 7 can submerge the processed core wire 102, thereby ensuring that the cooling water in the water-cooling tank 7 can cool the processed core wire 102.

The working principle is as follows: opening the water inlet valve 81, injecting cooling water into the water cooling tank 7 through the water inlet pipe 8 until the cooling water in the water cooling tank 7 can flow out through the overflow pipe 9, and closing the water inlet valve 81 to stop injecting water; unreeling the unprocessed core wire 101 through the wire unreeling machine 1; solidifying the molten insulation onto the raw core wire 101 by the extruder 3 to form a processed core wire 102; blowing air into the air cooling box 4 by the blower 5, so that the processed core wire 102 can be initially cooled when passing through the air cooling box 4, and exhausting the heated air from the air cooling box 4 through the exhaust pipe 6; then, the processed core wire 102 is ensured to be immersed in the cooling water through the wire guide plate 75 in the water cooling tank 7, so that the processed core wire 102 can be completely cooled by the cooling water when passing through the inside of the water cooling tank 7; the processed core wire 102 is wound by the wire winding machine 2.

The technical effects of the utility model are mainly embodied as follows: the inside of forced air cooling case is sent into through the heart yearn to the cladding insulating layer, and the blower can carry out the forced air cooling to the heart yearn, realizes the preliminary cooling of heart yearn, and the inside of water cooling tank is sent into to the heart yearn of cladding insulating layer to the rethread, and cooling water can carry out the water-cooling to the heart yearn, realizes the complete cooling of heart yearn, consequently, this high-speed extrusion device of production polyester enamelled copper round wire can carry out stage by stage cooling to the heart yearn, avoids the insulating layer of heart yearn to produce the crackle because of the difference in temperature is too big.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (7)

1. The utility model provides a device is given as security out at high speed of production polyester enameled copper round wire, includes the paying out machine, is located the admission machine of one side of paying out machine is located give as security out machine between paying out machine and the admission machine, its characterized in that: the wire winding machine is characterized by further comprising an air cooling box positioned between the wire winding machine and the extruder, an air blower communicated with the inside of the air cooling box, an exhaust pipe communicated with the inside of the air cooling box, a water cooling tank positioned between the air cooling box and the wire winding machine, a water inlet pipe communicated with the inside of the water cooling tank, and an overflow pipe communicated with the inside of the water cooling tank.

2. The high-speed extrusion device for producing polyester enameled round copper wire according to claim 1, characterized in that: one end of the air cooling box is provided with a first wire inlet, and the other end of the air cooling box is provided with a first wire outlet.

3. The high-speed extrusion device for producing polyester enameled round copper wire according to claim 1, characterized in that: the bottom of forced air cooling case is provided with the air intake, the air-blower passes through the inside intercommunication of air intake and forced air cooling case, the top of forced air cooling case is provided with the air outlet, the exhaust pipe passes through the inside intercommunication of air outlet and forced air cooling case.

4. The high-speed extrusion device for producing polyester enameled round copper wire according to claim 1, characterized in that: one end of the water cooling tank is provided with a second wire inlet positioned above the overflow pipe, and the other end of the water cooling tank is provided with a second wire outlet positioned below the water inlet pipe.

5. The high-speed extrusion device for producing polyester enameled round copper wire according to claim 4, characterized in that: the water cooling tank is provided with a water inlet which is positioned above the second wire outlet and is communicated with the water inlet pipe, the water cooling tank is provided with an overflow port which is positioned below the second wire inlet and is communicated with the overflow pipe, and two wire guide plates are fixedly arranged inside the water cooling tank.

6. The high-speed extrusion device for producing polyester enameled round copper wire according to claim 5, characterized in that: the wire guide plate is provided with a wire guide hole, and the height of the wire guide hole is lower than that of the overflow port.

7. The high-speed extrusion device for producing polyester enameled round copper wire according to claim 5, characterized in that: and a water inlet valve is fixedly arranged in the water inlet pipe.

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