CN214095631U - Spliced radiator for wind generating set - Google Patents

Abstract

The utility model discloses a splicing type radiator for a wind generating set, which solves the defects that the use of the existing integral radiator is limited and more difficult, and the key points of the technical proposal are that the splicing type radiator comprises a first radiator and a second radiator which are detachably connected with each other, a first water inlet mounting seat, a first water outlet mounting seat, a second water inlet mounting seat, a second water outlet mounting seat, a water inlet pipe and a water outlet pipe; still including sealing connection in the first coupling assembling between first water mount pad and the second water mount pad, sealing connection in the second coupling assembling between first water mount pad and the second water mount pad that intakes, the utility model discloses a concatenation formula radiator for wind generating set can realize the concatenation of radiator, and hoist and mount, installation, dismantlement are convenient, can realize integral large-scale radiator through simple structure.

Description

Spliced radiator for wind generating set

Technical Field

The utility model relates to a wind generating set radiator, in particular to concatenation formula radiator for wind generating set.

Background

The wind generating set is a large-scale device used outdoors for a long time, and with the increasing development of science and technology and the increasing demand of the generated energy of the wind generating set, the environment temperature is high, so that the heat dissipation capacity of the wind generating set is increased, and the radiator required to be cooled is also increased.

The technical problems in the prior art are as follows: the operation and use space of the engine room of the wind generating set is limited, and the integral large-scale radiator cannot be met. And the integral radiator has great difficulty in transportation, hoisting, installation and later maintenance, and a space for improvement is left.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a concatenation formula radiator for wind generating set can realize the concatenation of radiator, and hoist and mount, installation, dismantlement are convenient, can realize integral large-scale radiator through simple structure.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a spliced radiator for a wind generating set comprises a first radiator and a second radiator which are detachably connected with each other, a first water inlet mounting seat arranged at a water inlet of the first radiator, a first water outlet mounting seat arranged at a water outlet of the first radiator, a second water inlet mounting seat arranged at a water inlet of the second radiator, a second water outlet mounting seat arranged at a water outlet of the second radiator, a water inlet pipe arranged on the first radiator and positioned at one side of the water inlet of the first radiator for water inlet, and a water outlet pipe arranged on the second radiator and positioned at one side of the water outlet of the second radiator for water outlet;

the water cooling system further comprises a first connecting assembly and a second connecting assembly, wherein the first connecting assembly is connected between the first water inlet mounting seat and the second water outlet mounting seat in a sealing mode, and the second connecting assembly is connected between the first water outlet mounting seat and the second water inlet mounting seat in a sealing mode so that cooling water can flow from the first radiator to the second radiator.

Preferably, the first connection assembly comprises a first SAE halving flange mounted on the first water inlet mounting seat, a second SAE halving flange mounted on the second water outlet mounting seat, and a first steel pipe fixedly connected between the first SAE halving flange and the second SAE halving flange and used for cooling water circulation;

the second connecting assembly comprises a third SAE halving flange arranged on the first water outlet mounting seat, a fourth SAE halving flange arranged on the second water inlet mounting seat, and a second steel pipe fixedly connected between the third SAE halving flange and the fourth SAE halving flange and used for cooling water circulation.

Preferably, the mounting hole of the first water inlet mounting seat and the mounting hole of the second water outlet mounting seat are oppositely arranged, and the mounting hole of the first water outlet mounting seat and the mounting hole of the second water inlet mounting seat are oppositely arranged; the device also comprises a plurality of hexagon bolts used for fixedly mounting the first SAE halving flange, the second SAE halving flange, the third SAE halving flange and the fourth SAE halving flange respectively.

Preferably, an expansion joint for expansion and contraction and bending compensation is integrally connected to an intermediate portion of the first steel pipe and the second steel pipe; and both ends of the first steel pipe and the second steel pipe are welding type flange surfaces for installation.

Preferably, the first steel pipe and the second steel pipe are both stainless steel round steel pipes.

Preferably, the cooling channels in the first and second radiators include a plurality of parallel channels along the cooling direction and communicated with the first and second connecting assemblies.

To sum up, the utility model discloses following beneficial effect has:

the first radiator and the second radiator are connected through the first connecting assembly and the second connecting assembly through splicing treatment, and therefore a larger splicing type radiating area is achieved; and through the mode of concatenation, can conveniently realize whole installation and dismantlement at the job site, transportation and hoist and mount on the way of transporting, wholly use more high-efficient, convenient, the partial maintenance of being convenient for effectively prolongs equipment life, reduces use cost.

Drawings

FIG. 1 is a schematic structural diagram of a tiled heat sink;

FIG. 2 is a schematic top view of a tiled heat sink;

FIG. 3 is a schematic view of the internal cooling channel flow of a tiled heat sink.

In the figure: 1. a first heat sink; 11. a water inlet pipe; 12. a first water inlet mounting seat; 13. a first water outlet mounting seat; 2. a second heat sink; 21. a water outlet pipe; 22. a second water outlet mounting seat; 23. a second water inlet mounting seat; 3. a first connection assembly; 31. a first steel pipe; 32. a first SAE split flange; 33. a second SAE split flange; 4. a second connection assembly; 41. a second steel pipe; 42. a third SAE half-split flange; 43. a fourth SAE half-split flange; 5. an expansion joint; 6. a hexagon bolt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

According to one or more embodiments, a spliced radiator for a wind generating set is disclosed, as shown in fig. 1, the spliced radiator comprises a first radiator and a second radiator which are detachably connected with each other, and a first connecting assembly and a second connecting assembly which are used for connecting the first radiator and the second radiator in a communicating manner. The first radiator is provided with a water inlet pipe at one side, and the second radiator is provided with a water outlet pipe at one side; the first radiator and the second radiator are provided with water inlets and water outlets which are connected through the first connecting assembly and the second connecting assembly to communicate with each other through cooling water channels at the upper end and the lower end along the height direction.

As shown in fig. 1 and 2, the first heat sink includes a first water inlet mounting seat installed at a water inlet thereof and a first water outlet mounting seat installed at a water outlet thereof; the second radiator comprises a second water inlet mounting seat arranged at a water inlet of the second radiator and a second water outlet mounting seat arranged at a water outlet of the second radiator; the first water inlet mounting seat and the second water outlet mounting seat are arranged above the radiator along the height direction, and two mounting holes on the first water inlet mounting seat and the second water outlet mounting seat are oppositely arranged; the first water outlet mounting seat and the second water inlet mounting seat are arranged below the radiator along the height direction, and the two mounting holes in the first water outlet mounting seat and the second water inlet mounting seat are oppositely arranged. The water inlet pipe is arranged on one side of the first water inlet mounting seat of the first radiator, and the water outlet pipe is arranged on one side of the second water outlet mounting seat of the second radiator.

As shown in fig. 1 and fig. 3, the first connecting assembly is connected and installed between the first water inlet installation seat and the second water outlet installation seat, the second connecting assembly is connected and installed between the first water outlet installation seat and the second water inlet installation seat, the inner cavities of the first radiator and the second radiator are provided with cooling channels, cooling water enters the cooling channel of the inner cavity of the first radiator through the water inlet pipe, and flows into the inner cavity cooling channel of the second radiator through the second connecting assembly after passing through the cooling channel of the inner cavity, and is connected through the communication of the first connecting assembly, and partial cooling water also enters the second radiator through the first radiator, flows to the second radiator through two paths, and the flow is increased. The cooling water enters the cooling channel of the first radiator through the water inlet pipe and then enters the cooling channel of the second radiator, and the cooling water is discharged through the water outlet pipe, so that large-area heat dissipation in the spliced radiator is completed.

The first radiator and the second radiator are rectangular box-packed radiating shells, the internal cooling channel comprises a plurality of parallel channels which are arranged along the cooling direction and communicated with the first connecting assembly and the second connecting assembly, a waterfall type pipeline structure is formed inside the cavity of the first radiator and the second radiator, and after the first connecting assembly and the second connecting assembly are connected, the two cooling channels are mutually communicated to form a one-inlet-multiple-outlet parallel channel structure.

The first connection assembly and the second connection assembly are identical in structure, and the first connection assembly comprises a first SAE halving flange arranged on a first water inlet mounting seat, a second SAE halving flange arranged on a second water outlet mounting seat, and a first steel pipe fixedly connected between the first SAE halving flange and the second SAE halving flange and used for cooling water circulation; the second connecting assembly comprises a third SAE halving flange arranged on the first water outlet mounting seat, a fourth SAE halving flange arranged on the second water inlet mounting seat, and a second steel pipe fixedly connected between the third SAE halving flange and the fourth SAE halving flange and used for cooling water circulation. The device also comprises a plurality of hexagon bolts used for fixedly mounting the first SAE halving flange, the second SAE halving flange, the third SAE halving flange and the fourth SAE halving flange respectively. The expansion joints used for telescopic bending compensation are integrally connected to the middle parts of the first steel pipe and the second steel pipe, are stainless steel corrugated pipes, can be stretched in the axial direction, allow a small amount of bending, and can effectively compensate the axial length; the first steel pipe and the second steel pipe are stainless steel round steel pipes, two ends of the first steel pipe and two ends of the second steel pipe are both welded flange faces used for installation, the welded flange faces are in sealing connection with the SAE split flanges, and the flange faces of the steel pipes are embedded in inner grooves of the corresponding SAE split flanges to achieve installation.

Through the connection of first coupling assembling and second coupling assembling, can form the parallelly connected flow path, can increase heat transfer effect. The SAE halving flange can realize the detachable connection of the first radiator and the second radiator, the required installation space is small, the field portable installation and disassembly are convenient, and in the transportation process, the transportation space can be saved by the mode of firstly disassembling to the field and then assembling, and the hoisting is convenient; when the problem of failure of one radiator occurs, the radiator can be detached and replaced independently without being detached completely, so that later maintenance is facilitated.

The installation and use steps are as follows:

respectively installing a first SAE halving flange and a second SAE halving flange of a first connecting assembly to two ends of a first steel pipe, and realizing connection with inner grooves of the first SAE halving flange and the second SAE halving flange through a welding type flange surface of the first steel pipe; respectively installing a third SAE halving flange and a fourth SAE halving flange of the second connecting assembly to two ends of a second steel pipe, and realizing connection with inner grooves of the third SAE halving flange and the fourth SAE halving flange through a welding type flange surface of the second steel pipe;

each SAE halving flange is fixedly arranged on a mounting seat at a water outlet on the radiator through a plurality of hexagon bolts, and the first radiator and the second radiator on two sides are connected through a first connecting assembly and a second connecting assembly;

the cooling water is input into the water inlet pipe, passes through the cooling channel of the first radiator, then reaches one side of the second radiator through the first connecting assembly and the second connecting assembly, and is discharged through the water outlet pipe after the heat dissipation is finished through the cooling channel of the second radiator.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a concatenation formula radiator for wind generating set, characterized by: the water inlet and outlet device comprises a first radiator (1) and a second radiator (2) which are detachably connected with each other, a first water inlet mounting seat (12) arranged at a water inlet of the first radiator (1), a first water outlet mounting seat (13) arranged at a water outlet of the first radiator (1), a second water inlet mounting seat (23) arranged at a water inlet of the second radiator (2), a second water outlet mounting seat (22) arranged at a water outlet of the second radiator (2), a water inlet pipe (11) arranged on the first radiator (1) and positioned at one side of the water inlet of the first radiator (1) for water inlet, and a water outlet pipe (21) arranged on the second radiator (2) and positioned at one side of the water outlet of the second radiator (2) for water outlet;

the water cooling device is characterized by further comprising a first connecting assembly (3) connected between the first water inlet mounting seat (12) and the second water outlet mounting seat (22) in a sealing mode, and a second connecting assembly (4) connected between the first water outlet mounting seat (13) and the second water inlet mounting seat (23) in a sealing mode and used for cooling water to flow from the first radiator (1) to the second radiator (2).

2. The spliced heat radiator for a wind generating set according to claim 1, wherein: the first connecting assembly (3) comprises a first SAE halving flange (32) arranged on the first water inlet mounting seat (12), a second SAE halving flange (33) arranged on the second water outlet mounting seat (22), and a first steel pipe (31) fixedly connected between the first SAE halving flange (32) and the second SAE halving flange (33) and used for cooling water circulation;

the second connecting assembly (4) comprises a third SAE halving flange (42) arranged on the first water outlet mounting seat (13), a fourth SAE halving flange (43) arranged on the second water inlet mounting seat (23), and a second steel pipe (41) fixedly connected between the third SAE halving flange (42) and the fourth SAE halving flange (43) and used for cooling water circulation.

3. The spliced radiator for a wind generating set according to claim 2, wherein: the mounting hole of the first water inlet mounting seat (12) is opposite to the mounting hole of the second water outlet mounting seat (22), and the mounting hole of the first water outlet mounting seat (13) is opposite to the mounting hole of the second water inlet mounting seat (23); the SAE split type fan also comprises a plurality of hexagon bolts (6) which are used for fixedly mounting the first SAE split type flange (32), the second SAE split type flange (33), the third SAE split type flange (42) and the fourth SAE split type flange (43) respectively.

4. The spliced heat radiator for a wind generating set according to claim 3, wherein: the middle parts of the first steel pipe (31) and the second steel pipe (41) are integrally connected with an expansion joint (5) for expansion and bending compensation; and both ends of the first steel pipe (31) and the second steel pipe (41) are welding type flange surfaces for installation.

5. The spliced radiator for a wind generating set according to claim 4, wherein: the first steel pipe (31) and the second steel pipe (41) are both stainless steel round steel pipes.

6. The spliced heat radiator for a wind generating set according to claim 1, wherein: the cooling channels in the first radiator (1) and the second radiator (2) comprise a plurality of parallel channels which are arranged along the cooling direction and communicated with the first connecting assembly (3) and the second connecting assembly (4).

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