CN212286241U - Argon arc welding cooling system for cable shell welding - Google Patents

Abstract

The utility model discloses a be used for cable jacket welded argon arc to weld cooling system, including bonding tool controller, system controller and cooling bath, the cooling bath top is equipped with the bonding tool, and the bonding tool is connected with the bonding tool controller, is equipped with the turbulent tube cooling module who is used for the cooling of bonding tool welded cable jacket in the cooling bath, turbulent tube cooling module connects with the system controller, and bonding tool controller and system controller all install the one side in the cold water groove still install the negative pressure fan who is used for absorbing steam on one side of the cooling bath. The utility model discloses a set up the negative pressure fan, can absorb the vapor that the heat exchange produced, reduce the volume in the vapor entering controller, prolong the life of controller, reduce the company cost, improve production efficiency.

Description

Argon arc welding cooling system for cable shell welding

Technical Field

The utility model belongs to cable jacket welding field, concretely relates to be used for cable jacket welded argon arc to weld cooling system.

Background

The cable shell is subjected to embossing treatment after welding. The cable shell can produce a large amount of heat when the welding leads the cable shell temperature very high, is unfavorable for the embossing and handles. It is common to apply a cooling treatment to the cable jacket followed by embossing. At present, the cooling treatment commonly used adopts a turbulent tube cooling type water cooling system, and comprises a turbulent cooling tube and a cooling tank, wherein a welding head is arranged above the cooling tank, and the turbulent cooling tube waters cooling water of the cooling tank on cable shells at two sides of the cooling tank for realizing heat exchange cooling. In order to facilitate the operation of welding and system operation of workers and observe the cooling condition, the welding head controller and the system controller are arranged at a short distance on one side of the cooling tank, and in the condition, water vapor generated by heat exchange enters the welding head controller and the system controller, so that the controller is damaged by short circuit, and the cost and the working efficiency of a company are increased.

Disclosure of Invention

An object of the utility model is to provide a be used for cable jacket welded argon arc to weld cooling system, through being equipped with the negative pressure fan in cooling bath one side, with the steam absorption that the heat exchange produced, reduce in the steam admission controller.

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

the utility model provides a be used for cable casing welded argon arc to weld cooling system, includes weld head controller, system controller and cooling bath, the cooling bath top is equipped with the bonding tool, and the bonding tool is connected with weld head controller, is equipped with the turbulent tube cooling module who is used for the cooling of bonding tool welded cable casing in the cooling bath, turbulent tube cooling module connects with system controller, and weld head controller and system controller all install the one side in the cold water groove still install the negative pressure fan who is used for absorbing steam on one side of the cooling bath.

Furthermore, the air outlet end of the negative pressure fan is provided with a water absorption assembly, and the water absorption assembly is connected with the cooling tank through a guide pipe.

Further, the negative pressure fan is installed on one side of the cooling tank away from the welding head controller and the system controller.

The utility model has the advantages that the negative pressure fan is arranged, so that the water vapor generated by heat exchange can be absorbed, the amount of the water vapor entering the controller is reduced, the service life of the controller is prolonged, the company cost is reduced, and the production efficiency is improved; meanwhile, a water absorption assembly is arranged on the outlet section, absorbed water vapor is condensed into water drops after being absorbed, and the water drops flow back to the cooling tank through a pipeline after being accumulated to a large extent.

Drawings

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

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic front view of the present invention.

The labels in the figure are: 11. a solder head controller; 21. a cooling tank; 22. a turbulence pipe; 30. a system controller; 40. a negative pressure fan; 50. and a water absorption component.

Detailed Description

According to the argon arc welding cooling system for welding the cable shell, the negative pressure fan 40 for absorbing water vapor is additionally arranged on the existing cooling system, the water vapor is absorbed through the negative pressure generated by the fan, the quantity of the water vapor entering the controller is reduced, the situation that the water vapor causes short circuit of a circuit in the controller is reduced, the maintenance time is shortened, and the production efficiency is improved.

As shown in fig. 1 to 3, the present embodiment includes an argon arc welding device for welding a cable jacket, the argon arc welding device includes a welding head and a welding head controller 11, the welding head controller 11 is connected to the welding head for controlling the welding head to weld the cable jacket, the argon arc welding device is a prior art, and the present embodiment does not perform any improvement thereon.

The present embodiment further comprises a cooling system for cooling the cable jacket, the cooling system comprising a cooling tank 21 for storing cooling water, a cooling assembly of a turbulence pipe 22 for transporting cooling water to the cable jacket, and a system controller 30 for controlling the cooling assembly of the turbulence pipe 22, the system controller 30 further controlling other devices of the cable jacket generating line, the system controller 30 being prior art, not being the point of the present embodiment, and therefore not being described in further detail.

In order to reduce the transmission path of the cooling water, the welding head is arranged above the cooling tank 21, and the cooling water in the cooling tank 21 is transmitted to the two ends of the welding head through the turbulence pipes 22 in the cooling assembly of the turbulence pipes 22 to cool the cable jacket which is being welded. During specific work, workers need to observe welding conditions and control the welding head controller 11 and the system controller 30 according to the welding conditions, so that in order to reduce the labor intensity of the workers, the welding head controller 11 and the system controller 30 are installed on one side of the cooling tank 21, the distance between the welding head controller 11 and the system controller 30 is short, and the welding head controller 11 and the system controller 30 are located on one side of cooling water; the operation of staff in time is convenient. Thus, while cooling is available and the operator can easily operate, the heat exchange will produce water vapor that will enter the solder head controller 11 and the system controller 30, and the circuitry within the solder head controller 11 and the system controller 30 will be shorted by the water vapor. The present embodiment solves this problem by installing a negative pressure fan 40 on the side of the cooling bath 21, absorbing water vapor by the negative pressure generated by the fan, and reducing the amount of water vapor entering the controller, the negative pressure fan 40 being preferably installed on the side away from the side installed on the cooling bath 21 away from the solder head controller 11 and the system controller 30, and drawing water vapor into the fan side, reducing the amount of water vapor entering the controller.

The air outlet end of the negative pressure fan 40 is provided with a water absorbing component 50, the water absorbing component can be made of sponge, absorbent cotton and the like, the specific structure of the water absorbing component comprises a shell and an absorbing material arranged in the shell, the shell is provided with an opening close to one side of the negative pressure fan 40, the bottom of the shell is provided with a water outlet, the water outlet is connected with the cooling tank 21 through a pipeline, and water vapor absorbed by the water absorbing component 50 can be conveyed back to the cooling tank 21 after being collected together. Avoiding the damage of the water vapor along with other equipment.

The above is only the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any modification and replacement based on the technical solution and the utility model should be covered in the protection scope of the present invention.

Claims (3)

1. The utility model provides a be used for cable jacket welded argon arc to weld cooling system, includes weld head controller (11), system controller (30) and cooling bath (21), cooling bath (21) top is equipped with the bonding tool, and the bonding tool is connected with weld head controller (11), is equipped with turbulent tube (22) cooling module who is used for the cooling of bonding tool welded cable jacket in cooling bath (21), turbulent tube (22) cooling module connects with system controller (30), and weld head controller (11) and system controller (30) all install the one side in the cooling bath, its characterized in that: a negative pressure fan (40) for absorbing water vapor is also installed on one side of the cooling tank (21).

2. The argon arc welding cooling system for cable sheath welding of claim 1, wherein: and the air outlet end of the negative pressure fan (40) is provided with a water absorption assembly (50), and the water absorption assembly (50) is connected with the cooling tank (21) through a guide pipe.

3. The argon arc welding cooling system for cable sheath welding of claim 1, wherein: the negative pressure fan (40) is arranged on one side of the cooling groove (21) far away from the welding head controller (11) and the system controller (30).

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