CN214063119U

CN214063119U - Mechanical hydraulic hybrid heat dissipation system

Info

Publication number: CN214063119U
Application number: CN202022569559.XU
Authority: CN
Inventors: 白金旺; 庞建中; 刘果; 刘春颖; 李志明; 任占江; 王荣
Original assignee: Beiben Trucks Group Co Ltd
Current assignee: Beiben Trucks Group Co Ltd
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-08-27
Anticipated expiration: 2030-11-09

Abstract

The utility model relates to a mechanical hydraulic hybrid cooling system, which comprises a main cooling module and an auxiliary cooling module; the main radiating module comprises an air-air intercooler, a main radiator, a main air guide hood and a main radiating module fan which are sequentially arranged; the main heat dissipation module fan is arranged on an engine wheel train, is driven to rotate by an engine, sucks air from the front end of the air-air intercooler, and cools through the main heat radiator and the main air guide hood; the auxiliary heat dissipation module comprises an auxiliary heat dissipation module fan, an auxiliary air guide cover, an auxiliary radiator and an expansion water tank which are arranged in sequence; the fan of the auxiliary heat dissipation module is connected with the hydraulic motor, and the hydraulic motor drives the fan to work to suck wind from the rear end of the radiator. The utility model discloses a machinery hydraulic pressure mixed heat dissipation scheme, energy-conservation, high efficiency, control are accurate. Meet the increasing requirements of the market on the heat dissipation system and achieve the expected design target. High heat dissipation power, high efficiency and energy conservation.

Description

Mechanical hydraulic hybrid heat dissipation system

Technical Field

The utility model belongs to the technical field of the vehicle heat dissipation, concretely relates to machinery hydraulic pressure mixes cooling system.

Background

With the continuous expansion of the functions of the whole vehicle, the emission regulations of the fifth country and the sixth country are increasingly strict, and the energy-saving heat dissipation system with higher vehicle matching heat dissipation power, higher efficiency and higher control precision is required. The traditional heat dissipation scheme of the heavy truck adopts an independent cooling system (namely, the cooling system is positioned at the front end of the engine, and the fan is arranged on the engine wheel system), the fan adopts a temperature-control silicon oil fan or an electric-control silicon oil fan, the rotating speed is not accurately controlled, the heat dissipation efficiency is not high, the heat dissipation is limited by the whole vehicle arrangement, the size of the radiator is limited, and the heat dissipation power is not high. Cannot meet the increasing requirement of heat dissipation capacity.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mechanical hydraulic pressure mixes cooling system, the technical problem that solve is: the problems of low power, low efficiency and inaccurate control precision of the existing radiator are solved.

In order to solve the technical problem, the utility model provides a mechanical hydraulic pressure hybrid cooling system of mechanical hydraulic pressure hybrid cooling system, its characterized in that: comprises a main radiating module and an auxiliary radiating module; the main radiating module comprises an air-air intercooler, a main radiator, a main air guide hood and a main radiating module fan which are sequentially arranged; the main heat dissipation module fan is arranged on an engine wheel train, is driven to rotate by an engine, sucks air from the front end of the air-air intercooler, and cools through the main heat radiator and the main air guide hood; the auxiliary heat dissipation module comprises an auxiliary heat dissipation module fan, an auxiliary air guide cover, an auxiliary radiator and an expansion water tank which are arranged in sequence; the fan of the auxiliary heat dissipation module is connected with the hydraulic motor, and the hydraulic motor drives the fan to work to suck wind from the rear end of the radiator.

Has the advantages that: the utility model discloses a machinery hydraulic pressure mixed heat dissipation scheme, energy-conservation, high efficiency, control are accurate. Meet the increasing requirements of the market on the heat dissipation system and achieve the expected design target. High heat dissipation power, high efficiency and energy conservation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a heat dissipation diagram of the present invention.

Detailed Description

In order to make the objects, contents and advantages of the present invention clearer, the following description will be made in further detail with respect to the embodiments of the present invention.

The utility model provides a pair of mechanical hydraulic pressure mixed cooling system, its characterized in that: the device comprises a main radiating module, an auxiliary radiating module and a hydraulic component; the main radiating module is fixed on the front part of the frame through a bracket 5, and the auxiliary radiating module and the hydraulic assembly are fixed on an independent frame of the crossbeam through a bracket combination 16;

the main radiating module comprises an air-air intercooler 1, a radiator 2, a main air guide hood 3 and a main radiating module fan 4 which are sequentially arranged;

the air-air intercooler 1, the radiator 2 and the main air guide cover 3 are integrated into a whole; the main radiating module fan 4 is arranged on an engine wheel train, is driven by an engine to rotate, sucks air from the front end of the air-air intercooler 1, and cools through the radiator 2 and the main air guide hood 3;

the auxiliary heat dissipation module comprises an auxiliary heat dissipation module fan 12, an auxiliary air guiding cover 13, a radiator 14 and an expansion water tank 15 which are arranged in sequence;

the auxiliary heat dissipation module fan 12 is connected with the hydraulic motor 8, and is driven to work by the hydraulic motor, so that wind is sucked from the rear end of the radiator 14 to cool the radiator 14;

the hydraulic component mainly comprises a hydraulic pump 6, a proportional valve 7, a hydraulic motor 8, a reversing valve block 9, a control valve block 10 and a hydraulic oil tank 11;

the hydraulic pump 6 is arranged on the engine and driven by the engine to work, the proportional valve 7 is arranged on the hydraulic pump 6 and used for controlling the flow of the hydraulic pump 6, the hydraulic pump is connected with the hydraulic motor 8 through a hydraulic oil pipe, and the reversing valve block 9 and the control valve block 10 are arranged on the hydraulic motor and used for controlling the flow of the hydraulic motor;

the hydraulic oil tank 11 supplies oil for the hydraulic pump through a hydraulic oil pipe, and an oil return port of the hydraulic oil tank is connected with the hydraulic motor 8.

The heat dissipation principle is as follows:

the water outlet of the engine is connected with the water inlet of the auxiliary radiator, the water outlet of the auxiliary radiator is connected with the water inlet of the main radiator, and the water outlet of the main radiator is connected with the water return port of the engine water pump;

the engine body realizes heat dissipation small circulation: the water outlet of the engine water pump, the heat exchanger, the thermostat and the engine water return port are sequentially circulated.

The utility model has the advantages of adopt mechanical hydraulic pressure mixed heat dissipation scheme, energy-conservation, high efficiency, control are accurate. Meet the increasing requirements of the market on the heat dissipation system and achieve the expected design target.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims

1. The utility model provides a mechanical hydraulic pressure mixes cooling system which characterized in that: comprises a main radiating module and an auxiliary radiating module; the main radiating module comprises an air-air intercooler, a main radiator, a main air guide hood and a main radiating module fan which are sequentially arranged; the main heat dissipation module fan is arranged on an engine wheel train, is driven to rotate by an engine, sucks air from the front end of the air-air intercooler, and cools through the main heat radiator and the main air guide hood; the auxiliary heat dissipation module comprises an auxiliary heat dissipation module fan, an auxiliary air guide cover, an auxiliary radiator and an expansion water tank which are arranged in sequence; the fan of the auxiliary heat dissipation module is connected with the hydraulic motor, and the hydraulic motor drives the fan to work to suck wind from the rear end of the radiator.

2. The mechanical-hydraulic hybrid heat dissipation system of claim 1, wherein: the air-air intercooler, the main radiator and the main air guide cover are integrated into a whole.

3. The mechanical-hydraulic hybrid heat dissipation system of claim 1, wherein: the main radiating module is fixed on the front part of the frame through a bracket.

4. The mechanical-hydraulic hybrid heat dissipation system of claim 1, wherein: the hydraulic component mainly comprises a hydraulic pump, a proportional valve, a hydraulic motor, a reversing valve block, a control valve block and a hydraulic oil tank; the hydraulic pump is arranged on the engine and driven by the engine to work, a proportional valve is arranged on the hydraulic pump and used for controlling the flow of the hydraulic pump, the hydraulic pump is connected with the hydraulic motor through a hydraulic oil pipe, and the reversing valve block and the control valve block are both arranged on the hydraulic motor and used for controlling the flow of the hydraulic motor; the hydraulic oil tank supplies oil for the hydraulic pump through a hydraulic oil pipe, and an oil return port of the hydraulic oil tank is connected with the hydraulic motor.

5. The mechanical-hydraulic hybrid heat dissipation system of claim 4, wherein: the auxiliary heat dissipation module and the hydraulic assembly are fixed on an independent frame of the girder through a support combination.

6. The mechanical-hydraulic hybrid heat dissipation system of claim 4, wherein: the water outlet of the engine is connected with the water inlet of the auxiliary radiator, the water outlet of the auxiliary radiator is connected with the water inlet of the main radiator, and the water outlet of the main radiator is connected with the water return port of the engine water pump.

7. The mechanical-hydraulic hybrid heat dissipation system of claim 4, wherein: the water outlet of the engine water pump, the heat exchanger, the thermostat and the engine water return port are sequentially circulated.