CN212343572U - Generator cooling system of anchor boat - Google Patents

Abstract

The utility model relates to a generator cooling system of anchor boat. The heat dissipation device comprises a base, wherein a rotary driver and a rotary motor for providing power for the rotary driver are arranged on the base; the heat dissipation device comprises an air box with an opening at the front part and an opening at the rear part, the rear part of the air box is provided with an air cooling assembly, and the front part of the air box is provided with a water cooling assembly; the air cooling component comprises a fan and a fan motor for providing power for the fan, and a protective mesh enclosure is arranged outside the fan; the water cooling assembly comprises a water distribution pipe and a water collection pipe which are oppositely arranged, a plurality of heat dissipation pipes are arranged between the water distribution pipe and the water collection pipe in parallel, a water inlet connector is arranged at the bottom of the water distribution pipe, a water outlet connector is arranged at the top of the water collection pipe, and the water cooling assembly further comprises a cooling water pump for conveying a cooling water source to the water cooling assembly. Simple structure, convenient loading and strong heat dissipation capability.

Description

Generator cooling system of anchor boat

Technical Field

The utility model belongs to the technical field of boats and ships facility, especially, relate to a generator cooling system of anchor boat.

Background

The anchor boat is also called a throwing anchor boat, is mainly used for throwing anchor, hoisting sand blowing pipes, short-distance towing of ships and the like of large engineering ships, and has wide application in various water construction projects. The anchor boat has a small ship body and high power, and does not carry goods or passengers. The throwing and launching facility comprises a towing hook, a barton, a mooring winch and the like, and the anchor boat is divided into an A-shaped rod and a non-barton. The anchor boat can be divided into inland rivers and coastal areas, can carry out anchoring operation in corresponding navigation areas, can execute rescue tasks, and is mainly a self-distribution ship of a large engineering ship. The large anchor boat is mainly used for dredging engineering operation, such as assisting large engineering ships to anchor and displace, towing in short distance and the like.

Generator means are usually provided on the anchor boats for providing electrical energy to the electric winches or the like. As mentioned above, the overall power of the anchor boat is large, which is determined by the working content of the anchor boat, and the anchor boat is generally applied to the scenes requiring large power, such as dragging and towing. Therefore, the generator facility of the anchor boat needs to be provided with a good heat dissipation system for heat dissipation under a high-power working condition, and the fact that the existing anchor boat is not provided with an effective heat dissipation system (generally only a simple heat dissipation fan) in actual operation usually results in high-temperature alarm and influences normal work is discovered.

Therefore, a generator heat dissipation system with a reasonable structure needs to be developed and designed to solve the problem that the generator cannot work normally at high temperature.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical problem that exists among the known art and provide a simple structure, be convenient for load, the strong generator cooling system of anchor boat of heat-sinking capability.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: a generator heat dissipation system of an anchor boat comprises a base, wherein a rotary driver and a rotary motor for providing power for the rotary driver are installed on the base; the heat dissipation device comprises an air box with an opening at the front part and an opening at the rear part, the rear part of the air box is provided with an air cooling assembly, and the front part of the air box is provided with a water cooling assembly; the air cooling component comprises a fan and a fan motor for providing power for the fan, and a protective mesh enclosure is arranged outside the fan; the water cooling assembly comprises a water distribution pipe and a water collection pipe which are oppositely arranged, a plurality of heat dissipation pipes are arranged between the water distribution pipe and the water collection pipe in parallel, a water inlet connector is arranged at the bottom of the water distribution pipe, a water outlet connector is arranged at the top of the water collection pipe, and the water cooling assembly further comprises a cooling water pump for conveying a cooling water source to the water cooling assembly.

The utility model has the advantages that: the utility model provides a generator cooling system of anchor boat that structural design is reasonable compares with current cooling system, the utility model discloses in through the heat abstractor that the setting comprises forced air cooling subassembly and water-cooling subassembly, realized blowing cooling air's technological effect to the anchor boat generator, adopt the fan to carry out the mode of directly blowing with current simple to compare, the air current temperature after the water-cooling is showing and is reducing, therefore has stronger heat dissipation cooling ability. Through installing whole heat abstractor on the rotation base that comprises rotary drive ware, rotary motor and tray, make whole heat abstractor possess reciprocating rotation's ability, therefore in whole course of the work, produce through the rotation base and sweep the radiating effect of wind, this cooling system just has the ability of heat dissipation cooling in certain region like this, compares with current centralized heat dissipation mode of blowing, and it is better to sweep the radiating working characteristic of wind formula, and the heat dissipation is faster.

Preferably: the rotary driver comprises a rotary disc shell and a driving shaft shell which are fixedly connected and run through, a rotary disc is installed in the rotary disc shell, a driving shaft is installed in the driving shaft shell, and the driving shaft drives the rotary disc to rotate forwards or reversely.

Preferably: the turntable is a worm wheel disc, the driving shaft is a worm shaft, and the turntable and the driving shaft form a worm and gear structure.

Preferably: the heat dissipation device also comprises a first mounting rail and a second mounting rail which are arranged in parallel, and the two mounting rails are both fixedly mounted on the tray; and strip-shaped mounting holes are formed in the first mounting rail and the second mounting rail, and the air box is fixedly mounted between the two mounting rails by screws.

Preferably: an upper mounting seat is arranged between the upper ends of a water distribution pipe and a water collection pipe of the water cooling assembly, a lower mounting seat is arranged between the lower ends of the water distribution pipe and the water collection pipe of the water cooling assembly, and the upper mounting seat and the lower mounting seat are fixedly connected with an air box through screws.

Preferably: a rotary disk shell and a driving shaft shell of the rotary driver are fixedly connected with the base through screws, and the tray is fixedly connected with a rotary disk of the rotary driver through screws.

Drawings

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

FIG. 2 is a schematic diagram of the slew drive of FIG. 1;

fig. 3 is a schematic structural diagram of the heat dissipation device in fig. 1.

In the figure:

1. a base; 2. a rotary drive; 2-1, a turntable shell; 2-2, a turntable; 2-3, a drive shaft housing; 2-4, a driving shaft; 3. a rotary motor; 4. a tray; 5. a heat sink; 5-1, a water collecting pipe; 5-2, a water outlet joint; 5-3, a first mounting rail; 5-4, a protective mesh enclosure; 5-5, a fan motor; 5-6, a fan; 5-7, an upper mounting seat; 5-8, bellows; 5-9 parts of a water diversion pipe; 5-10 parts of water inlet joint; 5-11, heat dissipation calandria; 5-12, a second mounting rail; 5-13, a lower mounting seat; 6. and (5) cooling the water pump.

Detailed Description

For further understanding of the contents, features and effects of the present invention, the following embodiments are described in detail.

Referring to fig. 1, the generator heat dissipation system of the anchor boat of the present invention includes a base 1, a rotary driver 2 and a rotary motor 3 for providing power to the rotary driver 2 are installed on the base 1, a tray 4 is installed on the rotary driver 2, and a heat dissipation device 1 is installed on the tray 4.

Wherein, base 1 is used for whole cooling system to install fixedly on the deck of anchor ship, as shown in the figure, base 1 can be a thick steel plate, and this thick steel plate adopts screw and anchor ship's deck fixed connection. The rotary motor 3 provides power for the rotary driver 2, under the driving action of the rotary motor 3, the rotary part of the rotary driver 2 generates reciprocating rotation action, so as to drive the tray 4 to generate reciprocating rotation action, and the heat dissipation device 1 is used for blowing cooling air flow to the generator facility and blowing away hot air flow generated by the generator facility, thereby achieving the purposes of heat dissipation and temperature reduction.

Referring to fig. 2, it can be seen that:

the rotary driver 2 comprises a rotary disc shell 2-1 and a driving shaft shell 2-3 which are fixedly connected and communicated, the rotary disc 2-2 is installed in the rotary disc shell 2-1, the driving shaft 2-4 is installed in the driving shaft shell 2-3, the driving shaft 2-4 drives the rotary disc 2-2 to rotate forwards or backwards, and the outer end of the driving shaft 2-4 is in butt joint connection with a motor shaft of the driving motor 3.

Furthermore, the turntable 2-2 is a worm wheel disc, the driving shaft 2-4 is a worm shaft, the turntable 2-2 and the driving shaft 2-4 form a worm and gear structure, and when the driving motor 3 drives the driving shaft 2-4, namely the worm shaft, to rotate in the forward direction and the reverse direction, the turntable 2-2, namely the worm wheel disc, rotates in the forward direction and the reverse direction.

In this embodiment, the tray 4 may be a thick steel plate. A rotary disc shell 2-1 and a driving shaft shell 2-3 of the rotary driver 2 are fixedly connected with the base 1 through screws, and the tray 4 is fixedly connected with the rotary disc 2-2 of the rotary driver 2 through screws. Specifically, a plurality of threaded holes can be arranged at the bottoms of a turntable shell 2-1 and a driving shaft shell 2-3 of the rotary driver 2, a plurality of countersunk screw holes are arranged on the base 1, and screws are screwed into the countersunk screw holes to fixedly connect the base 1 and the rotary driver 2; a plurality of threaded holes can be formed in the upper end face of the rotary table 2-2, a plurality of countersunk screw holes are formed in the tray 4, and screws are screwed into the countersunk screw holes to fixedly connect the tray 4 with the rotary table 2-2 of the rotary driver 2.

Referring to fig. 3, it can be seen that:

the heat dissipation device 5 comprises air boxes 5-8 with the front part and the rear part both open, the air boxes 5-8 comprise inner frames which are positioned inside and are obtained by welding metal sectional materials, metal plates are welded and installed on the upper part, the lower part, the left part and the right part of the inner frames, and the metal plates are not arranged on the front and the rear parts of the inner frames. The rear part of the air box 5-8 is provided with an air cooling assembly, the front part of the air box is provided with a water cooling assembly, wherein the air cooling assembly is used for blowing airflow to pass through the water cooling assembly, and the water cooling assembly is used for carrying out water-cooled cooling on the airflow.

The air cooling assembly comprises a fan 5-6 and a fan motor 5-5 for providing power for the fan 5-6, a protective mesh enclosure 5-4 is arranged outside the fan 5-6, and safety is improved by the protective mesh enclosure 5-4. The fan motor 5-5 is directly installed and fixed at the rear part of the inner frame of the air box 5-8 through a motor support, the protective mesh enclosure 5-4 is fixedly connected with the motor support, and the fan 5-6 is packaged inside.

The water cooling component comprises a water distribution pipe 5-9 and a water collection pipe 5-1 which are oppositely arranged, a plurality of heat dissipation calandria 5-11 are arranged between the water distribution pipe 5-9 and the water collection pipe in parallel, a water inlet connector 5-10 is arranged at the bottom of the water distribution pipe 5-9, and a water outlet connector 5-2 is arranged at the top of the water collection pipe 5-1. The cooling water source enters the water distribution pipe 5-9 through the water inlet joint 5-10, then enters the water collection pipe 5-1 through each heat dissipation calandria 5-11, and finally is discharged from the water outlet joint 5-2. The water inlet joint 5-10 and the water outlet joint 5-2 are used for connecting the water cooling assembly into a cooling water circulation system.

In the embodiment, an upper mounting seat 5-7 is arranged between the upper ends of a water distribution pipe 5-9 and a water collection pipe 5-1 of the water cooling assembly, a lower mounting seat 5-13 is arranged between the lower ends of the water distribution pipe and the water collection pipe, the upper mounting seat 5-7 and the lower mounting seat 5-13 are fixedly connected with an air box 5-8 through screws, and specifically, the upper mounting seat 5-7 and the lower mounting seat 5-13 are fixedly connected with the front part of an inner frame of the air box 5-8 through screws.

In this embodiment, the heat dissipation device 5 further includes a first mounting rail 5-3 and a second mounting rail 5-12 that are arranged in parallel, and both the first mounting rail 5-3 and the second mounting rail 5-12 are mounted and fixed on the tray 4, specifically, both the first mounting rail 5-3 and the second mounting rail 5-12 may be fixedly connected to the tray 4 by bolts, or may be directly welded and fixed to the tray 4. The first mounting rail 5-3 and the second mounting rail 5-12 are provided with strip-shaped mounting holes, and the air box 5-8 is fixedly mounted between the two mounting rails by screws, so that the air box 5-8 and the accessory components thereof can be adjusted and moved back and forth along the mounting rails to realize the back and forth adjustment of the position.

Specifically, a fixing block with a mounting hole may be provided at the bottom of the rear portion of the inner frame of the air box 5-8, a bolt may be provided in the bar-shaped mounting holes of the two mounting rails, the bolt may pass through the mounting hole of the fixing block, and the air box 5-8 may be fixedly connected to the two mounting rails by loosening/tightening the bolt.

The cooling water pump 6 is used for conveying a cooling water source to the water cooling assembly, and the cooling water pump 6 conveys the cooling water source to the water cooling assembly through the pipeline and forms circular flow. The cooling water source can be a cooling water preparation device configured along with the anchor boat facility, or can be a field water source of a construction water area, such as lake water, river water, seawater and the like, and the cooling water pump 6 extracts the water source and conveys the water source to the water cooling assembly to discharge the water source after heat exchange is finished. When the latter method is adopted, a filter needs to be configured for the source water pipeline, impurities which easily cause system pipeline blockage are filtered, and the water source is cleaned. In consideration of the corrosion problem of seawater, the water cooling assembly, the pipelines thereof and the cooling water pump 6 are cleaned by a pure water source after a certain time of operation, and the water cooling assembly, the related pipelines and the cooling water pump 6 can be detached and replaced when a fault occurs.

The working process is as follows:

the cooling water pump 6 pumps a cooling water source into the water cooling assembly to form the circulating flow of cooling water; the fan motor 5-5 drives the fan 5-6 to rotate at a high speed, so that the air flow at the rear part flows forwards and passes through the gaps between the heat dissipation calandria 5-11, and the temperature of the air flow is reduced when the air flow passes through the water cooling assembly;

the controller controls the rotary motor 3 to rotate forwards and reversely, so that the rotary driver 2 drives the tray 4 and the heat dissipation device 5 to rotate forwards and reversely, namely, a back-and-forth air sweeping action within a certain angle interval is formed, the generator facility of the anchor boat is positioned in the air sweeping space, cooling air flow is blown to the generator facility to generate a direct cooling effect, and meanwhile, hot air generated by the generator facility is blown away by the air flow to achieve the heat dissipation purpose.

Claims (6)

1. The utility model provides a generator cooling system of anchor boat, characterized by: the device comprises a base (1), wherein a rotary driver (2) and a rotary motor (3) for providing power for the rotary driver (2) are installed on the base (1), a tray (4) is installed on the rotary driver (2), and a heat dissipation device (5) is installed on the tray (4); the heat dissipation device (5) comprises an air box (5-8) with an opening at the front part and the rear part, an air cooling component is arranged at the rear part of the air box (5-8), and a water cooling component is arranged at the front part; the air cooling assembly comprises a fan (5-6) and a fan motor (5-5) for providing power for the fan (5-6), and a protective mesh enclosure (5-4) is arranged outside the fan (5-6); the water cooling assembly comprises a water distribution pipe (5-9) and a water collection pipe (5-1) which are oppositely arranged, a plurality of heat dissipation calandria (5-11) are arranged between the water distribution pipe and the water collection pipe in parallel, a water inlet connector (5-10) is arranged at the bottom of the water distribution pipe (5-9), a water outlet connector (5-2) is arranged at the top of the water collection pipe (5-1), and the water cooling assembly further comprises a cooling water pump (6) for conveying a cooling water source to the water cooling assembly.

2. The anchor boat generator heat dissipation system of claim 1, wherein: the rotary driver (2) comprises a rotary disc shell (2-1) and a driving shaft shell (2-3) which are fixedly connected and communicated, the rotary disc (2-2) is installed in the rotary disc shell (2-1), the driving shaft (2-4) is installed in the driving shaft shell (2-3), and the driving shaft (2-4) drives the rotary disc (2-2) to rotate forwards or reversely.

3. The anchor boat generator heat dissipation system of claim 2, wherein: the rotary table (2-2) is a worm wheel disc, the driving shaft (2-4) is a worm shaft, and the rotary table (2-2) and the driving shaft (2-4) form a worm and gear structure.

4. The anchor boat generator heat dissipation system of claim 3, wherein: the heat dissipation device (5) further comprises a first mounting rail (5-3) and a second mounting rail (5-12) which are arranged in parallel, and the two mounting rails are mounted and fixed on the tray (4); strip-shaped mounting holes are formed in the first mounting rail (5-3) and the second mounting rail (5-12), and the air box (5-8) is mounted and fixed between the two mounting rails through screws.

5. The anchor boat generator heat dissipation system of claim 4, wherein: an upper mounting seat (5-7) is arranged between the upper ends of a water distribution pipe (5-9) and a water collection pipe (5-1) of the water cooling assembly, a lower mounting seat (5-13) is arranged between the lower ends of the water distribution pipe and the water collection pipe, and the upper mounting seat (5-7) and the lower mounting seat (5-13) are fixedly connected with an air box (5-8) through screws.

6. The anchor boat generator heat dissipation system of claim 5, wherein: a rotary disc shell (2-1) and a driving shaft shell (2-3) of the rotary driver (2) are fixedly connected with a base (1) through screws, and a tray (4) is fixedly connected with the rotary disc (2-2) of the rotary driver (2) through screws.

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