CN208337339U - A kind of parallel heat abstractor - Google Patents

Abstract

A kind of parallel heat abstractor is applied to unit, including radiator, mounting plate, partition, axial flow blower, heat dissipation chamber, unit room, air feed shutter and air draft blinds；Heat dissipation chamber and unit room are separated by partition, and mounting plate is located in heat dissipation chamber, and axial flow blower is fixedly installed on a mounting board；Unit is set in unit room, and air feed shutter and air draft blinds are set to the same side of heat dissipation chamber.The utility model concentrates heat dissipation by unified heat dissipation channel, can radiate for single unit and increase heat dissipation capacity, heat dissipation work when can also complete more units while run and does not reduce radiating efficiency；The present apparatus is structurally reasonable, easy for installation, and radiating efficiency is high, occupies little space, and flexible layout can be adjusted according to actual state and be used, and can be widely used in various generating set multimachine and arrange the radiating requirements separately or simultaneously run.

Description

A kind of parallel heat abstractor

Technical field

The utility model relates to generator heat-radiation field, specially all types of generating sets multimachine arrange under the premise of The parallel heat abstractor of unit when separately or simultaneously running.

Background technique

Currently, unit uses extensively, numerous types, and various generating set is generally multiple to adapt in the form of multimachine arrangement Miscellaneous process requirements are separately or simultaneously run to adapt to different technique.Therefore, the cooling system of configuration is also corresponding complicated.

In the prior art, the cooling system of unit is independent mating, i.e. every machine in most of multimachine arrangement systems Group is independently arranged cooling system.Such case causes the arrangement space of total system excessive, simultaneously mutually independent to dissipate Hot systems can also affect one another, and reduce radiating efficiency.

Summary of the invention

In order to solve the problems, such as that background technique proposes, using the parallel heat abstractor of the utility model, dissipated by parallel connection Hot systems directly reduce cooling system occupied space, while also saving the arrangement space of total system.It can be dissipated for single unit Heat simultaneously increases heat dissipation capacity, heat dissipation work when can also complete more units while run and does not reduce radiating efficiency.

A kind of parallel heat abstractor, including radiator, mounting plate, partition, axial flow blower, heat dissipation chamber, unit room, air inlet Blinds and air draft blinds；Heat dissipation chamber and unit room are separated by partition, and mounting plate is located in heat dissipation chamber, axial flow blower fixed setting On a mounting board；Unit is set in unit room, and air feed shutter and air draft blinds are set to the same side of heat dissipation chamber.

Further, the air feed shutter is located at the downside of air draft blinds；When axial flow blower can be made to draw ambient atmosphere It is unlikely to the thermal current that suction apparatus is discharged from air draft blinds.

Further, the mounting plate is located at indoor top of radiating；When unit in device works, temperature will be increased, The heat of generation flows up gas in device under the action of hot pressing, for the exchange speed for improving heat inside and outside device as far as possible Rate improves heat dissipation effect, and the mounting plate that axial flow blower is fixed at is located at heat dissipation chamber top, and can improve the space of device Utilization rate.

Further, the projected area of the air feed shutter and the respective blinds of air draft blinds in device side is not more than it The 60% of shared lateralarea；With ensuring air-flow while steady flow, extraneous dust storm rainwater can be obstructed well and enters device It is interior.

Further, the distance between the air feed shutter and air draft blinds are not less than 5 meters；Ensure the air feed shutter of device Circulating current is not formed at air draft blinds, it is ensured that the radiating efficiency of device.

The utility model has the advantages that compared with prior art, the utility model concentrates heat dissipation by unified heat dissipation channel, it can be for single Platform unit radiates and increases heat dissipation capacity, heat dissipation work when can also complete more units while run and do not reduce heat dissipation effect Rate；The present apparatus largely reduces the occupied space of cooling system simultaneously, saves the arrangement space of total system；Present apparatus structure is closed Reason, easy for installation, radiating efficiency is high, occupies little space, and flexible layout can be adjusted according to actual state and be used, and can be widely used in Various generating set multimachine arranges the radiating requirements separately or simultaneously run.

Detailed description of the invention

Fig. 1: the front view of present apparatus structure；

Fig. 2；The left view of present apparatus structure；

Fig. 3；The top view of present apparatus structure；

In figure: 1- radiator；2- mounting plate；3- partition；4- axial flow blower；5- heat dissipation chamber；6- unit room；7- air inlet hundred Leaf；8- air draft blinds.

Specific embodiment

It does now in conjunction with the one embodiment of attached drawing to the utility model and further illustrates.

A kind of parallel heat abstractor, including radiator 1, mounting plate 2, partition 3, axial flow blower 4, heat dissipation chamber 5, unit room 6, air feed shutter 7 and air draft blinds 8.

Single unit system is divided into heat dissipation chamber 5 and unit room 6 by partition 3；Mounting plate 2 is located in heat dissipation chamber 5, pushes up in radiator 5 Portion position is fixed with axial flow blower 4.

Unit is set in unit room 6, and air feed shutter 7 and air draft blinds 8 are set to the same side of heat dissipation chamber 5；Unit fortune Cold wind is sucked by air feed shutter 7 when row, cold wind passes through the discharge of air draft blinds 8 system by axial flow blower 4 again after passing through radiator 1 System.

The air feed shutter 7 is located at the downside of air draft blinds 8, and the distance between air feed shutter 7 and air draft blinds 8 are no Less than 5 meters, axial flow blower 4 can be made to be unlikely to the thermal current that suction apparatus is discharged from air draft blinds 8 when drawing ambient atmosphere.

Mounting plate 2 is located at the top of heat dissipation chamber, so that axial flow blower 4 is also disposed at the top of device.In device When unit works, temperature will be increased, and the heat of generation flows up gas in device under the action of hot pressing, be arranged in device The axial flow blower 4 on top can improve the exchange rate of heat inside and outside device as far as possible, improve heat dissipation effect, while dress can be improved The space utilization rate set.

The air feed shutter 7 and the respective blinds of air draft blinds 8 device side projected area no more than side shared by it The 60% of face area, it is ensured that air-flow steady flow while, extraneous dust storm rainwater can be obstructed well and entered in device.

Working principle: starting axial flow blower 4, axial flow blower 4, which is formed in heat dissipation chamber 5, to be outflowed by air draft blinds 8 to device Dynamic air-flow, so that forming negative pressure in device；The external world forms the extraneous air feed shutter 7 that passes through with the pressure difference in device and flows into device Take offence stream, in device unit generate heat as the air-flow circulated is brought to outside device so that maintained in device one be suitable for Temperature.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (5)

1. a kind of parallel heat abstractor, it is characterised in that including radiator, mounting plate, partition, axial flow blower, heat dissipation chamber, machine Group room, air feed shutter and air draft blinds；Heat dissipation chamber and unit room are separated by partition, and mounting plate is located in heat dissipation chamber, axis stream wind Machine is fixedly installed on a mounting board；Unit is set in unit room, and air feed shutter and air draft blinds are set to the same of heat dissipation chamber Side.

2. a kind of parallel heat abstractor according to claim 1, it is characterised in that: the air feed shutter is located at air draft hundred The downside of leaf.

3. a kind of parallel heat abstractor according to claim 1, it is characterised in that: the mounting plate is located in heat dissipation chamber Top.

4. a kind of parallel heat abstractor according to claim 1, it is characterised in that: the air feed shutter and air draft blinds Respective blinds is in 60% of the projected area of device side no more than lateralarea shared by it.

5. a kind of parallel heat abstractor according to claim 2, it is characterised in that: the air feed shutter and air draft blinds The distance between be not less than 5 meters.