CN212970614U - Heat radiator for power plant's electrical equipment - Google Patents

Abstract

The utility model relates to the technical field of electrical equipment, in particular to a heat dissipation device of electrical equipment of a power plant, which comprises an equipment main body, a heat dissipation device and a fan, wherein the lower end of the equipment main body is provided with a base, the upper end of the equipment main body is connected with the heat dissipation device, the lower end of the heat dissipation device is provided with a connecting plate, the upper end of the heat dissipation device is provided with a connecting ear plate near the four corners, the connecting ear plate is internally provided with a connecting hole, one side of the heat dissipation device is provided with a plurality of groups of oblique heat dissipation tube assembly air outlets and auxiliary heat dissipation tube assembly air outlets, the interior of the heat dissipation device is provided with oblique heat dissipation tube assemblies near the oblique heat dissipation tube assembly air outlets, the interior of the heat dissipation device is provided with auxiliary heat dissipation tube assemblies near the auxiliary heat dissipation tube assembly, the whole effect is good.

Description

Heat radiator for power plant's electrical equipment

Technical Field

The utility model relates to an electrical equipment technical field specifically is a power plant's electrical equipment's heat abstractor.

Background

The power plant electrical equipment can generate a large amount of heat during use, heat is required to be dissipated, an existing heat dissipation device easily causes heat backflow and influences heat dissipation efficiency, and therefore the heat dissipation device of the power plant electrical equipment is required to improve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a power plant's electrical equipment's heat abstractor to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a heat dissipation device of electrical equipment of a power plant comprises an equipment main body, a heat dissipation device and a fan, wherein a base is arranged at the lower end of the equipment main body, the upper end of the equipment main body is connected with the heat dissipation device, a connecting plate is arranged at the lower end of the heat dissipation device, a connecting lug plate is arranged at the upper end of the heat dissipation device, which is close to four corners, a connecting hole is arranged in the connecting lug plate, a plurality of groups of oblique heat dissipation tube assembly air outlets and auxiliary heat dissipation tube assembly air outlets are arranged at one side of the heat dissipation device, oblique heat dissipation tube assemblies are arranged in the heat dissipation device and close to the oblique heat dissipation tube assembly air outlets, auxiliary heat dissipation tube assemblies are arranged in the heat dissipation device and close to the auxiliary heat dissipation tube assembly air outlets, a plurality of, the one end that slant cooling tube subassembly and supplementary cooling tube subassembly kept away from slant cooling tube subassembly air outlet and supplementary cooling tube subassembly air outlet is connected with an album wind storehouse, the one end that slant cooling tube subassembly and supplementary cooling tube subassembly were kept away from in collection wind storehouse is connected with the air-supply line, the one end that collection wind storehouse was kept away from to the air-supply line is connected with the fan.

Preferably, the fixing plate and the heat sink are connected by bolts.

Preferably, the fixing plate is connected with the inclined radiating pipe assembly and the auxiliary radiating pipe assembly in a sleeved mode.

Preferably, through bolted connection between slant cooling tube subassembly, supplementary cooling tube subassembly and heat abstractor, the wind storehouse, just be connection structure between slant cooling tube subassembly, supplementary cooling tube subassembly and the wind storehouse.

Preferably, the air collecting bin and the air inlet pipe are of an integrated structure, and the air inlet pipe is connected with the fan through a flange.

Preferably, the device body and the heat sink are connected by bolts.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, through the slant cooling tube subassembly and the auxiliary cooling tube subassembly that set up, slant cooling tube subassembly, auxiliary cooling tube subassembly and heat abstractor, through bolted connection between the storehouse of collection wind, and be connection structure between slant cooling tube subassembly, auxiliary cooling tube subassembly and the storehouse of collection wind, slant cooling tube subassembly and auxiliary cooling tube subassembly evenly distributed are in heat abstractor, can effectively absorb the inside heat of heat abstractor, take away the heat through the air flow, form the heat radiation structure on equipment main part upper portion.

2. The utility model discloses in, heat dissipation chamber through setting up, fixed plate and thermovent, through bolted connection between fixed plate and the heat abstractor, fixed plate and slant cooling tube subassembly, cup joint the connection between the supplementary cooling tube subassembly, heat in the equipment main part passes through fixed plate and thermovent and carries to the slant cooling tube subassembly and the supplementary cooling tube subassembly in the heat abstractor on, make things convenient for the heat to carry, and the setting up of fixed plate makes things convenient for the fixed of slant cooling tube subassembly and supplementary cooling tube subassembly, make things convenient for thermal transport more, heat abstractor upper portion is equipped with the heat dissipation chamber, make the periphery of slant cooling tube subassembly and supplementary cooling tube subassembly have effectual heat flow space, make slant cooling tube subassembly and supplementary cooling tube subassembly absorbed the heat more even.

3. The utility model discloses in, through the collection wind storehouse that sets up, formula structure as an organic whole between collection wind storehouse and the air-supply line, through flange joint between air-supply line and the fan, during the use, the fan starts, carry to collection wind storehouse through the air-supply line, then discharge behind slant cooling tube subassembly and the auxiliary cooling tube subassembly, thereby discharge the hot-air in slant cooling tube subassembly and the auxiliary cooling tube subassembly, the setting in collection wind storehouse, form the air intake of large tracts of land, can effectively prevent the hot-air backward flow in slant cooling tube subassembly and the auxiliary cooling tube subassembly, and the heat dissipation efficiency is improved.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is a top view of the structure of the present invention;

FIG. 3 is a side view of the structure of the present invention;

fig. 4 is a side sectional structure view of the present invention.

In the figure: 1-equipment body, 2-base, 3-heat dissipation device, 4-air collecting bin, 5-air inlet pipe, 6-fan, 7-connecting ear plate, 8-connecting plate, 9-connecting hole, 10-oblique heat dissipation pipe assembly air outlet, 11-auxiliary heat dissipation pipe assembly air outlet, 12-heat dissipation cavity, 13-oblique heat dissipation pipe assembly, 14-auxiliary heat dissipation pipe assembly, 15-fixing plate and 16-heat dissipation port.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution:

a heat dissipation device of electrical equipment of a power plant comprises an equipment main body 1, a heat dissipation device 3 and a fan 6, wherein a base 2 is arranged at the lower end of the equipment main body 1, the upper end of the equipment main body 1 is connected with the heat dissipation device 3, the equipment main body 1 and the heat dissipation device 3 are connected through a bolt, a connecting plate 8 is arranged at the lower end of the heat dissipation device 3, a connecting ear plate 7 is arranged at the upper end of the heat dissipation device 3 close to the four corners, a connecting hole 9 is formed in the connecting ear plate 7, a plurality of groups of inclined heat dissipation tube assembly air outlets 10 and auxiliary heat dissipation tube assembly air outlets 11 are formed in one side of the heat dissipation device 3, an inclined heat dissipation tube assembly 13 is arranged in the heat dissipation device 3 close to the inclined heat dissipation tube assembly air outlets 10, an auxiliary heat dissipation tube assembly 14 is arranged, the fixing plate 15 is connected with the inclined radiating tube assembly 13 and the auxiliary radiating tube assembly 14 in a sleeved manner, the fixing plate 15 is connected with the radiating device 3 through bolts, a plurality of groups of radiating ports 16 are formed at the position, close to the fixing plate 15, of the lower end inside the radiating device 3, one ends, far away from the inclined radiating tube assembly air outlet 10 and the auxiliary radiating tube assembly air outlet 11, of the inclined radiating tube assembly 13 and the auxiliary radiating tube assembly 14 are connected with the air collecting bin 4, the inclined radiating tube assembly 13, the auxiliary radiating tube assembly 14, the radiating device 3 and the air collecting bin 4 are connected through bolts, a connecting structure is formed between the inclined radiating tube assembly 13 and the air collecting bin 4, one end, far away from the inclined radiating tube assembly 13 and the auxiliary radiating tube assembly 14, of the air collecting bin 4 is connected with the air inlet pipe 5, one end, far away from the air collecting bin 4, of the, the air inlet pipe 5 is connected with the fan 6 through a flange.

The utility model discloses work flow: firstly, the main body 1 and the heat dissipating device 3 are connected through a bolt, the air collecting bin 4 is arranged, the air collecting bin 4 and the air inlet pipe 5 are in an integral structure, the air inlet pipe 5 and the fan 6 are connected through a flange, in use, the fan 6 is started, the air is conveyed to the air collecting bin 4 through the air inlet pipe 5 and then is exhausted through the inclined heat radiating pipe assembly 13 and the auxiliary heat radiating pipe assembly 14, so that hot air in the inclined heat radiating pipe assembly 13 and the auxiliary heat radiating pipe assembly 14 is exhausted, the air collecting bin 4 is arranged to form a large-area air inlet, hot air backflow in the inclined heat radiating pipe assembly 13 and the auxiliary heat radiating pipe assembly 14 can be effectively prevented, and through the arranged inclined heat radiating pipe assembly 13 and the auxiliary heat radiating pipe assembly 14, the inclined heat radiating pipe assembly 13, the auxiliary heat radiating pipe assembly 14 and the heat dissipating device 3 are connected through a bolt, and the inclined heat radiating, The auxiliary radiating pipe assembly 14 and the air collecting bin 4 are connected, the inclined radiating pipe assembly 13 and the auxiliary radiating pipe assembly 14 are uniformly distributed in the radiating device 3, the heat in the radiating device 3 can be effectively absorbed, the heat is taken away through air flow, a radiating structure at the upper part of the equipment main body 1 is formed, the fixed plate 15 and the radiating device 3 are connected through bolts through the arranged radiating cavity 12, the fixed plate 15 and the radiating port 16, the fixed plate 15, the inclined radiating pipe assembly 13 and the auxiliary radiating pipe assembly 14 are connected in a sleeved mode, when the heat in the equipment main body 1 is transmitted to the inclined radiating pipe assembly 13 and the auxiliary radiating pipe assembly 14 in the radiating device 3 through the fixed plate 15 and the radiating port 16, the heat transmission is convenient, the fixing of the inclined radiating pipe assembly 13 and the auxiliary radiating pipe assembly 14 is convenient due to the arrangement of the fixed plate 15, and, the upper part of the heat dissipation device 3 is provided with the heat dissipation cavity 12, so that the peripheries of the inclined heat dissipation pipe assembly 13 and the auxiliary heat dissipation pipe assembly 14 are provided with effective heat flow spaces, the heat absorption of the inclined heat dissipation pipe assembly 13 and the auxiliary heat dissipation pipe assembly 14 is more uniform, the heat dissipation efficiency is improved, the whole structure is simple, the effect is good, and the stability and the practicability are higher.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a heat abstractor of power plant's electrical equipment, includes equipment main part (1), heat abstractor (3) and fan (6), its characterized in that: the heat dissipation device is characterized in that a base (2) is arranged at the lower end of the device body (1), a heat dissipation device (3) is connected to the upper end of the device body (1), a connecting plate (8) is arranged at the lower end of the heat dissipation device (3), a connecting lug plate (7) is arranged at the position, close to the four corners, of the upper end of the heat dissipation device (3), a connecting hole (9) is formed in the connecting lug plate (7), a plurality of groups of inclined heat dissipation tube assembly air outlets (10) and auxiliary heat dissipation tube assembly air outlets (11) are formed in one side of the heat dissipation device (3), inclined heat dissipation tube assemblies (13) are arranged in the position, close to the inclined heat dissipation tube assembly air outlets (10), of the heat dissipation device (3), auxiliary heat dissipation tube assemblies (14) are arranged in the position, close to the auxiliary heat dissipation tube assembly air outlets (11, the heat dissipation device is characterized in that a plurality of groups of heat dissipation ports (16) are formed in the position, close to a fixing plate (15), of the lower end of the interior of the heat dissipation device (3), one ends, far away from an inclined heat dissipation pipe assembly air outlet (10) and an auxiliary heat dissipation pipe assembly air outlet (11), of inclined heat dissipation pipe assemblies (13) and auxiliary heat dissipation pipe assemblies (14) are connected with an air collection bin (4), one ends, far away from the inclined heat dissipation pipe assemblies (13) and the auxiliary heat dissipation pipe assemblies (14), of the air collection bin (4) are connected with air inlet pipes (5), and one ends, far away from the air collection bin (4).

2. A heat sink for electrical power plant equipment according to claim 1, wherein: the fixing plate (15) is connected with the heat dissipation device (3) through bolts.

3. A heat sink for electrical power plant equipment according to claim 1, wherein: the fixing plate (15) is connected with the inclined radiating pipe assembly (13) and the auxiliary radiating pipe assembly (14) in a sleeved mode.

4. A heat sink for electrical power plant equipment according to claim 1, wherein: the heat dissipation device is characterized in that the oblique heat dissipation pipe assembly (13), the auxiliary heat dissipation pipe assembly (14), the heat dissipation device (3) and the wind collection bin (4) are connected through bolts, and the oblique heat dissipation pipe assembly (13), the auxiliary heat dissipation pipe assembly (14) and the wind collection bin (4) are connected through connecting structures.

5. A heat sink for electrical power plant equipment according to claim 1, wherein: the air collecting bin (4) and the air inlet pipe (5) are of an integrated structure, and the air inlet pipe (5) and the fan (6) are connected through flanges.

6. A heat sink for electrical power plant equipment according to claim 1, wherein: the equipment main body (1) and the heat dissipation device (3) are connected through bolts.

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