CN212021597U - Cooling water recycling system for cable production line - Google Patents

Abstract

The utility model discloses a cooling water recycle system for cable manufacture line belongs to cable and becomes to produce technical field, including hot water section A, hot water section B, cold water section, moisturizing section and recovery circulating water section, hot water section A, hot water section B and cold water section moisturizing end link to each other with the moisturizing section, and the overflow mouth of hot water section A, hot water section B and cold water section links to each other with recovery circulating water section intake end, and recovery circulating water end goes out the water end and links to each other with the cold water section. The utility model discloses a hot water section A, hot water section B and cold water section three-section are cooled down the cable, retrieve the cooling water recycle of circulating water section to hot water section A, hot water section B and cold water section three-section for moisturizing number of times greatly reduced makes manufacturing cost lower. The utility model has the advantages of low cost, sensitive reaction, long service life and the like.

Description

Cooling water recycling system for cable production line

Technical Field

The utility model belongs to the technical field of the cable is become to produce, concretely relates to cooling water recycle system for cable manufacture line.

Background

In the production process of the electric wire and cable, copper and aluminum wire raw materials are heated and extruded, cooled through a water tank, blown clean by a blow-drying machine and taken up into a disc by typing, wherein the water tank cooling is an important link, the conventional cooling water tank is composed of a cuboid tank body, guide rollers are respectively arranged at two ends in a water tank cavity, water is filled in the water tank cavity, a water adding pipe is fixed at one end of the water tank and is normally opened so as to continuously supplement cooling water, the electric wire and cable are placed on the guide rollers and are immersed in the water to play a cooling role, the defect is that if the water in the water tank is insufficient, the temperature of the electric wire and cable cannot be reduced easily, because the marking machine is a stamping method, the over-high temperature easily causes the unclear marking and damages the insulation degree of a wire core to influence the final quality of a finished product, and the continuous addition of the cooling water into the cold water tank can cause serious waste of water resources, it is not in line with the economic policy of sustainable development in China.

Chinese patent No. CN207190243U, publication No. 2018.04.06, discloses an automatic water supply cooling water tank for wire and cable production, which is characterized in that: it comprises a water tank main body (1), a water outlet valve (2), a water outlet valve switch (3), a conducting rod (4), a temperature sensor (5), a return pipe (6), a circulating water cooling tower (7), a communicating pipe (8), a reservoir (9), a water pump (10), a water inlet pipe (11), a valve (12), a return water filter cartridge (13), a removable inclined filter screen (14), a filter screen support (15), a sewage outlet (16), a sealing cover (17) and a connecting turntable (18), wherein the water outlet valve (2) is arranged on the lower side wall of the water tank main body (1), the water tank main body (1) is communicated with the water outlet valve (2), the water outlet valve switch (3) is arranged on the right side wall of the water outlet valve (2), the water outlet valve switch (3) is connected with the temperature sensor (5) through the conducting rod (4), and the temperature sensor (5) is arranged on the right side inner, the water outlet valve (2) is provided with a return pipe (6) at the lower end, the water outlet valve (2) is communicated with a circulating water cooling tower (7) through the return pipe (6), a communicating pipe (8) is arranged on the left side of the circulating water cooling tower (7), the circulating water cooling tower (7) is communicated with a reservoir (9) through the communicating pipe (8), a water pump (10) is arranged on the upper side of the reservoir (9), an inlet pipe (11) is arranged on the upper side of the water pump (10), the water pump (10) is communicated with a water tank main body (1) through the inlet pipe (11), a valve (12) is arranged on the inlet pipe (11), a return water filter cartridge (13) is arranged on the return pipe (6), a tilt filter screen (14) capable of being taken and placed is arranged inside the return water filter cartridge (13), the tilt filter screen (14) capable of being taken and placed is supported through a, the right side wall of the backflow water filter cartridge (13) is provided with a drain outlet (16), a sealing cover (17) is arranged on the drain outlet (16), and the sealing cover (17) is connected with the backflow water filter cartridge (13) through a connecting turntable (18). However, the patent still has the effect of continuous cooling and segmented cooling which cannot be obtained only by once cooling, so that the cooling effect is not good, and certain characteristic of the environment-friendly special cable cannot be ensured.

Disclosure of Invention

In order to overcome the defect that exists among the above-mentioned prior art and not enough, the utility model aims to provide a multistage formula cooling and sustainable cooling's cooling water recycle system for cable manufacture, the utility model discloses a hot water section A, hot water section B and cold water section three-section are cooled down the cable, retrieve the circulating water section and to the cooling water recycle of hot water section A, hot water section B and cold water section three-section for moisturizing number of times greatly reduced makes manufacturing cost lower.

The utility model aims at realizing through the following technical scheme:

the utility model provides a cooling water recycle system for cable manufacture line which characterized in that: the hot water recycling system comprises a hot water section A, a hot water section B, a cold water section, a water supplementing section and a recycling circulating water section, wherein the hot water section A comprises a water tank A, a water inlet pump A, a water inlet pipe A, a water return pipe A and a hot water tank A; the hot water section B comprises a water tank B, a water inlet pump B, a water inlet pipe B, a water return pipe B and a hot water tank B, the hot water tank B is connected with the water inlet end of the water tank B through the water inlet pipe B and the water inlet pump B, the water outlet end of the water tank B is connected with the hot water tank B through the water return pipe B, the cold water section comprises a water tank C, a cold water pump, a water inlet pipe C, a water return pipe C and a cold water tank, the cold water tank is connected with the water inlet end of the water tank C through the water inlet pipe C and the cold water pump, and the water outlet end of the water tank; the water supplementing section comprises a water supplementing pipe and a water supplementing pump arranged on the water supplementing pipe, and the water supplementing pipe is respectively connected with the water supplementing ends of the hot water tank A, the hot water tank B and the cold water tank; the recycling circulating water section comprises an overflow header pipe, a recycling circulating water tank, a circulating water pipe and a circulating pump, overflow ports are formed in the hot water tank A, the hot water tank B and the cold water tank, the overflow ports are connected with the water inlet end of the recycling circulating water tank through a pipeline and the overflow header pipe, and the water outlet end of the recycling circulating water tank is connected with the cold water tank through the circulating pump and the circulating water pipe.

Preferably, temperature sensors are arranged in the hot water tank A, the hot water tank B, the cold water tank and the recycling water tank.

Preferably, the water outlet end of the cold water pump is also provided with a cold water pipe, the cold water pipe is provided with an electromagnetic valve, and the cold water pipe is connected with the water replenishing pipe.

Preferably, a cut-off valve is arranged on the water replenishing pipe close to the water replenishing pump.

Preferably, the system also comprises a controller, wherein the controller is connected with the temperature sensor, the water replenishing pump, the water inlet pump A, the water inlet pump B, the cold water pump C and the circulating pump.

The working principle is as follows: when the system is used, the stop valve is opened, the water replenishing pump is started, the hot water section A, the hot water section B, the cold water section and the recycling circulating water section are filled with water, the stop valve and the water replenishing pump are closed, the water inlet pump A, the water inlet pump B, the cold water pump and the circulating pump are started, the produced cable sequentially passes through the hot water section A, the hot water section B and the cold water section, the cooling water temperatures in the hot water section A, the hot water section B and the cold water section are sequentially reduced, the cable after production can meet the cooling requirement through three-section cooling, the quality reduction of the cable due to temperature shock can be avoided, and the heat brought by cable cooling is discharged out of the system through air and the cold water pump, so that the system can finish the cooling work of the cable without replenishing a large amount; when the cooling water quantity of the system can not meet the cooling requirement, water is supplemented to the system from the outside through the water supplementing section.

The beneficial effects of this technical scheme are as follows:

the utility model provides a pair of cooling water recycle system for cable manufacture line, the cable loops through the hot water section A that cooling water temperature reduces in proper order, hot water section B and cold water section, satisfy the cooling work of cable through the three-section cooling, the damage of cable when can reducing the temperature dip again, the cooling water is always at hot water section A, hot water section B, cold water section and recovery circulating water section flow, a large amount of heats are taken away from this system through air and cooling water pump, guarantee that this system temperature can not cause the emergence that the high temperature can not satisfy the cooling requirement phenomenon because of cooling cable, this system has advantages such as low in production cost and cooling effect are good.

Two, the utility model provides a pair of cooling water recycle system for cable manufacture line all is provided with temperature sensor in hot-water tank A, hot-water tank B, cold water storage cistern and the recovery circulating water tank, monitors the temperature of hot-water section A, hot-water section B, cold water section and recovery circulating water section at any time, guarantees the cooling effect.

Three, the utility model provides a pair of cooling water recycle system for cable manufacture line, when hot-water tank A and hot-water tank B's temperature was too high, through passing through the cold water pipe with the cooling water after the cold water pump cooling and moisturizing pipe supply into hot-water tank A and hot-water tank B for hot-water tank A and hot-water tank B's temperature satisfies the cooling requirement.

Four, the utility model provides a pair of cooling water recycle system for cable manufacture line, temperature sensor sends hot-water tank A, hot-water tank B, cold water storage cistern and recovery circulation tank's cooling water temperature to the controller, when hot-water tank A and hot-water tank B temperature surpass the controller and predetermine the temperature, open the solenoid valve, make cooling water after the cold water pump cooling get into hot-water tank A and hot-water tank B, make the cooling water in hot-water tank A and the hot-water tank B satisfy the cooling requirement, the setting of controller also makes the moisturizing pump, intake pump A, the intake pump, cold water pump and circulating pump switch are more convenient.

Drawings

The foregoing and following detailed description of the invention will be apparent when read in conjunction with the following drawings, in which:

fig. 1 is a schematic structural diagram of the present invention;

in the figure: 1.1, a water tank A; 1.2, a water inlet pump A; 1.3, a water inlet pipe A; 1.4, a water return pipe A; 1.5, a hot water tank A; 2.1, a water tank B; 2.2, a water inlet pump B; 2.3, a water inlet pipe B; 2.4, a water return pipe B; 2.5, a hot water tank B; 3.1, a water tank C; 3.2, a cold water pump; 3.3, a water inlet pipe C; 3.4, a water return pipe C; 3.5, a cold water tank; 4.1, a water replenishing pipe; 4.2, a water replenishing pump; 4.3, a cut-off valve; 5.1, an overflow header pipe; 5.2, recycling the circulating water tank; 5.3, a circulating water pipe; 5.4, a circulating pump; 6. a temperature sensor; 7.1, a cold water pipe; 7.2 and an electromagnetic valve.

Detailed Description

The technical solution for achieving the objectives of the present invention will be further described by using several specific examples, and it should be noted that the technical solution claimed in the present invention includes, but is not limited to, the following examples.

Example 1

As a most basic embodiment of the present invention, the present embodiment discloses a cooling water recycling system for cable production line, as shown in fig. 1, including a hot water section a, a hot water section B, a cold water section, a water replenishing section and a recycling circulating water section, where the hot water section a includes a water tank a1.1, a water inlet pump a1.2, a water inlet pipe a1.3, a water return pipe a1.4 and a hot water tank a1.5, the hot water tank a1.5 is connected to the water inlet end of the water tank a1.1 through the water inlet pipe a1.3 and the water inlet pump a1.2, and the water outlet end of the water tank a1.1 is connected to the hot water tank a1.5 through the water return pipe a 1.4; the hot water section B comprises a water tank B2.1, a water inlet pump B2.2, a water inlet pipe B2.3, a water return pipe B2.4 and a hot water tank B2.5, the hot water tank B2.5 is connected with the water inlet end of the water tank B2.1 through the water inlet pipe B2.3 and the water inlet pump B2.2, the water outlet end of the water tank B2.1 is connected with the hot water tank B2.5 through a water return pipe B2.4, the cold water section comprises a water tank C3.1, a cold water pump 3.2, a water inlet pipe C3.3, a water return pipe C3.4 and a cold water tank 3.5, the cold water tank 3.5 is connected with the water inlet end of the water tank C3.1 through the water inlet pipe C3.3 and the cold water pump 3.2, and the water outlet end of the water tank C3.1 is connected with the cold; the water supplementing section comprises a water supplementing pipe 4.1 and a water supplementing pump 4.2 arranged on the water supplementing pipe 4.1, and the water supplementing pipe 4.1 is respectively connected with the water supplementing ends of the hot water tank A1.5, the hot water tank B2.5 and the cold water tank 3.5; the recycling circulating water section comprises an overflow header pipe 5.1, a recycling circulating water tank 5.2, a circulating water pipe 5.3 and a circulating pump 5.4, overflow ports are arranged on the hot water tank A1.5, the hot water tank B2.5 and the cold water tank 3.5, the overflow ports are connected with the water inlet end of the recycling circulating water tank 5.2 through pipelines and the overflow header pipe 5.1, and the water outlet end of the recycling circulating water tank 5.2 is connected with the cold water tank 3.5 through the circulating pump 5.4 and the circulating water pipe 5.3.

The working principle is as follows: when the system is used, the cut-off valve 4.3 is opened, the water replenishing pump 4.2 is started to fully fill the hot water section A, the hot water section B, the cold water section and the recycled circulating water section, the cut-off valve 4.3 and the water replenishing pump 4.2 are closed, the water inlet pump A1.2, the water inlet pump B, the cold water pump 3.2 and the circulating pump 5.4 are started, the produced cable sequentially passes through the hot water section A, the hot water section B and the cold water section, the cooling water temperature in the hot water section A, the hot water section B and the cold water section is sequentially reduced, the produced cable can meet the cooling requirement through three-section cooling, the quality reduction of the cable due to temperature shock cannot be caused, the heat brought by cable cooling is discharged out of the system through the air and the cold water pump 3.2, and the system can finish the cooling work of the cable under the condition that; when the cooling water quantity of the system can not meet the cooling requirement, water is supplemented to the system from the outside through the water supplementing section.

The utility model provides a pair of cooling water recycle system for cable manufacture line, the cable loops through the hot water section A that cooling water temperature reduces in proper order, hot water section B and cold water section, satisfy the cooling work of cable through the three-section cooling, the damage of cable when can reducing the temperature dip again, the cooling water is always in hot water section A, hot water section B, cold water section and recovery circulating water section flow, a large amount of heats are taken away from this system through air and cold water pump 3.2, guarantee that this system temperature can not cause the emergence that the high temperature can not satisfy the cooling requirement phenomenon because of the cooling cable, this system has advantages such as low in production cost and cooling effect are good.

Example 2

As a preferred embodiment of the present invention, the present embodiment discloses a cooling water recycling system for cable production line, as shown in fig. 1, including a hot water section a, a hot water section B, a cold water section, a water replenishing section and a recycling circulating water section, where the hot water section a includes a water tank a1.1, a water inlet pump a1.2, a water inlet pipe a1.3, a water return pipe a1.4 and a hot water tank a1.5, the hot water tank a1.5 is connected to the water inlet end of the water tank a1.1 through the water inlet pipe a1.3 and the water inlet pump a1.2, and the water outlet end of the water tank a1.1 is connected to the hot water tank a1.5 through the water return pipe a 1.4; the hot water section B comprises a water tank B2.1, a water inlet pump B2.2, a water inlet pipe B2.3, a water return pipe B2.4 and a hot water tank B2.5, the hot water tank B2.5 is connected with the water inlet end of the water tank B2.1 through the water inlet pipe B2.3 and the water inlet pump B2.2, the water outlet end of the water tank B2.1 is connected with the hot water tank B2.5 through a water return pipe B2.4, the cold water section comprises a water tank C3.1, a cold water pump 3.2, a water inlet pipe C3.3, a water return pipe C3.4 and a cold water tank 3.5, the cold water tank 3.5 is connected with the water inlet end of the water tank C3.1 through the water inlet pipe C3.3 and the cold water pump 3.2, and the water outlet end of the water tank C3.1 is connected with the cold; the water supplementing section comprises a water supplementing pipe 4.1 and a water supplementing pump 4.2 arranged on the water supplementing pipe 4.1, and the water supplementing pipe 4.1 is respectively connected with the water supplementing ends of the hot water tank A1.5, the hot water tank B2.5 and the cold water tank 3.5; the recycling circulating water section comprises an overflow header pipe 5.1, a recycling circulating water tank 5.2, a circulating water pipe 5.3 and a circulating pump 5.4, overflow ports are arranged on the hot water tank A1.5, the hot water tank B2.5 and the cold water tank 3.5, the overflow ports are connected with the water inlet end of the recycling circulating water tank 5.2 through pipelines and the overflow header pipe 5.1, and the water outlet end of the recycling circulating water tank 5.2 is connected with the cold water tank 3.5 through the circulating pump 5.4 and the circulating water pipe 5.3.

Preferably, temperature sensors 6 are arranged in the hot water tank A1.5, the hot water tank B2.5, the cold water tank 3.5 and the recycling water tank 5.2.

Preferably, the water outlet end of the cold water pump 3.2 is also provided with a cold water pipe 7.1, the cold water pipe 7.1 is provided with an electromagnetic valve 7.2, and the cold water pipe 7.1 is connected with a water replenishing pipe 4.1.

Preferably, a cut-off valve 4.3 is arranged on the water replenishing pipe 4.1 close to the water replenishing pump 4.2.

Preferably, the system also comprises a controller, and the controller is connected with a temperature sensor 6, a water replenishing pump 4.2, a water inlet pump A1.2, a water inlet pump B2.2, a cold water pump 3.2C and a circulating pump 5.4.

Preferably, the cold water pump 3.2 adopts a 3P air-cooled water chiller.

The working principle is as follows: when the system is used, the cut-off valve 4.3 is opened, the water replenishing pump 4.2 is started to fully fill the hot water section A, the hot water section B, the cold water section and the recycled circulating water section, the cut-off valve 4.3 and the water replenishing pump 4.2 are closed, the water inlet pump A1.2, the water inlet pump B, the cold water pump 3.2 and the circulating pump 5.4 are started, the produced cable sequentially passes through the hot water section A, the hot water section B and the cold water section, the cooling water temperature in the hot water section A, the hot water section B and the cold water section is sequentially reduced, the produced cable can meet the cooling requirement through three-section cooling, the quality reduction of the cable due to temperature shock cannot be caused, the heat brought by cable cooling is discharged out of the system through the air and the cold water pump 3.2, and the system can finish the cooling work of the cable under the condition that; when the cooling water quantity of the system can not meet the cooling requirement, water is supplemented to the system from the outside through the water supplementing section.

The utility model provides a pair of cooling water recycle system for cable manufacture line, the cable loops through the hot water section A that cooling water temperature reduces in proper order, hot water section B and cold water section, satisfy the cooling work of cable through the three-section cooling, the damage of cable when can reducing the temperature dip again, the cooling water is always in hot water section A, hot water section B, cold water section and recovery circulating water section flow, a large amount of heats are taken away from this system through air and cold water pump 3.2, guarantee that this system temperature can not cause the emergence that the high temperature can not satisfy the cooling requirement phenomenon because of the cooling cable, this system has advantages such as low in production cost and cooling effect are good.

All be provided with temperature sensor 6 in hot-water tank A1.5, hot-water tank B2.5, cold water tank 3.5 and the recovery circulating water tank 5.2, monitor the temperature of hot water section A, hot water section B, cold water section and recovery circulating water section at any time, guarantee the cooling effect. When the temperatures of the hot water tank A1.5 and the hot water tank B2.5 are too high, cooling water cooled by the cold water pump 3.2 is supplemented into the hot water tank A1.5 and the hot water tank B2.5 through the cold water pipe 7.1 and the water supplementing pipe 4.1, so that the temperatures of the hot water tank A1.5 and the hot water tank B2.5 meet the cooling requirements. The temperature sensor 6 sends the temperature of the cooling water of the hot water tank A1.5, the hot water tank B2.5, the cold water tank 3.5 and the recycling water tank 5.2 to the controller, when the temperature of the hot water tank A1.5 and the temperature of the hot water tank B2.5 exceed the preset temperature of the controller, the electromagnetic valve 7.2 is opened, so that the cooling water cooled by the cold water pump 3.2 enters the hot water tank A1.5 and the hot water tank B2.5, the cooling water in the hot water tank A1.5 and the hot water tank B2.5 meets the cooling requirement, and the controller is arranged so that the water replenishing pump 4.2, the water inlet pump A1.2, the water inlet pump, the cold water pump 3.2 and the circulating pump 5.4 can be switched on and off more conveniently.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a cooling water recycle system for cable manufacture line which characterized in that: the hot water recycling system comprises a hot water section A, a hot water section B, a cold water section, a water supplementing section and a recycling circulating water section, wherein the hot water section A comprises a water tank A (1.1), a water inlet pump A (1.2), a water inlet pipe A (1.3), a water return pipe A (1.4) and a hot water tank A (1.5), the hot water tank A (1.5) is connected with the water inlet end of the water tank A (1.1) through the water inlet pipe A (1.3) and the water inlet pump A (1.2), and the water outlet end of the water tank A (1.1) is connected with the hot water tank A (1.5) through the water return pipe A (1.4); the hot water section B comprises a water tank B (2.1), a water inlet pump B (2.2), a water inlet pipe B (2.3), a water return pipe B (2.4) and a hot water tank B (2.5), the hot water tank B (2.5) is connected with the water inlet end of the water tank B (2.1) through the water inlet pipe B (2.3) and the water inlet pump B (2.2), the water outlet end of the water tank B (2.1) is connected with the hot water tank B (2.5) through the water return pipe B (2.4), the cold water section comprises a water tank C (3.1), a cold water pump (3.2), a water inlet pipe C (3.3), a water return pipe C (3.4) and a cold water tank (3.5), the cold water tank (3.5) is connected with the water inlet end of the water tank C (3.1) through the water inlet pipe C (3.3) and the cold water pump (3.2), and the water outlet end of the water tank C (3.1) is connected with the cold water tank (3.5) through; the water replenishing section comprises a water replenishing pipe (4.1) and a water replenishing pump (4.2) arranged on the water replenishing pipe (4.1), and the water replenishing pipe (4.1) is respectively connected with the water replenishing ends of the hot water tank A (1.5), the hot water tank B (2.5) and the cold water tank (3.5); the recycling circulating water section comprises an overflow header pipe (5.1), a recycling circulating water tank (5.2), a circulating water pipe (5.3) and a circulating pump (5.4), the hot water tank A (1.5), the hot water tank B (2.5) and the cold water tank (3.5) are provided with overflow ports, the overflow ports are connected with the water inlet end of the recycling circulating water tank (5.2) through a pipeline and the overflow header pipe (5.1), and the water outlet end of the recycling circulating water tank (5.2) is connected with the cold water tank (3.5) through the circulating pump (5.4) and the circulating water pipe (5.3).

2. The cooling water recycling system for cable production lines as claimed in claim 1, wherein: and temperature sensors (6) are arranged in the hot water tank A (1.5), the hot water tank B (2.5), the cold water tank (3.5) and the recovery circulating water tank (5.2).

3. The cooling water recycling system for cable production lines as claimed in claim 1, wherein: a cut-off valve (4.3) is arranged on the water replenishing pipe (4.1) close to the water replenishing pump (4.2).

4. The cooling water recycling system for cable production lines as claimed in claim 1, wherein: the water outlet end of the cold water pump (3.2) is also provided with a cold water pipe (7.1), the cold water pipe (7.1) is provided with an electromagnetic valve (7.2), and the cold water pipe (7.1) is connected with a water replenishing pipe (4.1).

5. The cooling water recycling system for cable production lines as claimed in claim 1, wherein: the water-cooling system is characterized by further comprising a controller, wherein the controller is connected with a temperature sensor (6), a water replenishing pump (4.2), a water inlet pump A (1.2), a water inlet pump B (2.2), a cold water pump (3.2) and a circulating pump (5.4).

Images