CN216788536U - Heat dissipation electricity generation formula turbo charger - Google Patents

Abstract

The utility model discloses a heat dissipation power generation type turbocharger which comprises an intermediate body, an engine oil circulating port, a turbine, a tail gas inlet, a tail gas outlet, a gas compressor, a supercharging air inlet, a supercharging air outlet and a heat dissipation power generation device, wherein the intermediate body is of a cylindrical structure, the top end of the intermediate body is provided with the engine oil circulating port which is symmetrically distributed, the front end of the intermediate body is provided with the turbine which is fixed by bolts, the bottom of the intermediate body is provided with the tail gas inlet, the middle part of the front end face of the turbine is provided with the tail gas outlet, the middle part of the rear end face of the intermediate body is provided with the gas compressor which is fixed by bolts, the middle part of the rear end face of the intermediate body is provided with the supercharging air inlet, the top of the left end face of the gas compressor is provided with the cylindrical tubular supercharging air outlet, and the outer side of the circumferential surface of the gas compressor is provided with the heat dissipation power generation device. The utility model effectively reduces the temperature of the pressurized air through reasonable design, and simultaneously utilizes the temperature of the cooling liquid in the heat dissipation process to heat the cooling liquid to circularly drive the generator to generate electricity, thereby effectively improving the energy utilization efficiency.

Description

Heat dissipation electricity generation formula turbo charger

Technical Field

The utility model relates to a turbocharger, in particular to a heat dissipation power generation type turbocharger.

Background

Along with the continuous development of the automobile industry and the continuous increase of the environmental protection requirement, the power lifting device for fully utilizing the tail gas of the vehicle is widely applied to various vehicles with different prices, but the air after the turbocharger used at present needs to be connected with an intercooler for heat dissipation and then enters the engine for combustion supporting to cause the waste of energy utilization efficiency, and the heat dissipation efficiency is lower, so that a novel heat dissipation power generation type turbocharger is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a heat-dissipation power generation type turbocharger to solve the technical problem.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a heat dissipation power generation formula turbo charger, includes midbody, machine oil circulation mouth, turbine, tail gas entry, tail gas export, compressor, pressure boost air inlet, pressure boost gas outlet, heat dissipation power generation facility, the midbody is opened the machine oil circulation mouth that has the symmetry formula to distribute for cylindrical structure and top, the positive front end of midbody is installed the turbine of bolt fastening and is opened bottom and have the tail gas entry, open at the positive terminal surface middle part of turbine has the tail gas export, midbody rear end face mid-mounting has the compressor of bolt fastening and mid-mounting to have the pressure boost air inlet, open at compressor left end face top has cylindrical tubulose pressure boost gas outlet and circumference surface outside to install heat dissipation power generation facility.

On the basis of the technical scheme, the heat dissipation and power generation device comprises a box body, an air cooling heat dissipation device, a control box, a heat exchange pipe sleeve, a circulating power generator and a heat dissipation and circulation bin, the air cooling heat dissipation device is installed on the box body in a four-side rectangular structure and the rear side of the top end, the control box with the rectangular structure is installed in the middle of the front end face of the box body, the heat exchange pipe sleeve is installed on the inner side of the box body and wrapped on the outer side of the pipe wall of the pressurization air outlet, the rear end face of the heat exchange pipe sleeve is provided with the circulating power generator in an annular mode and connected with the heat exchange pipe sleeve through a pipeline, and the heat dissipation and circulation bin is installed on the top end of the circulating power generator and connected with the heat exchange pipe sleeve through a pipeline.

On the basis of the technical scheme, the air-cooled heat dissipation device comprises heat dissipation fins, heat dissipation silicone grease, belt pulleys, fan blades and a belt, the heat dissipation fins are buckled on the inner side of the top end of the heat dissipation circulation bin and connected through the heat dissipation silicone grease, the belt pulleys fixed by bolts are installed at the left end of the heat dissipation fins and are hinged and fixed with the box body through bearings, and the fan blades fixed by key connection are installed at the left end of the belt pulleys and are connected with the circulation generator at the bottom through the belt.

Compared with the prior art, the utility model has the following advantages: the turbocharger absorbs the heat of the high-temperature tail gas and the supercharged high-temperature air, further improves the heat dissipation efficiency, meanwhile, the supercharged air needing to be dissipated by the intercooler improves the temperature of the cooling liquid to rise through the interior of the heat dissipation and power generation device and drives the circulating power generator to generate power, meanwhile, the power generator rotates to further drive the fan blades to dissipate the heat of the heat dissipation fin plates to increase the temperature difference of the cooling liquid, then further improves the power generation efficiency, and reasonably utilizes energy.

Drawings

Fig. 1 is a schematic view of the external structure of the present invention.

Fig. 2 is a schematic structural connection diagram of the heat dissipation power generation device of the present invention.

Fig. 3 is a schematic structural view of an air-cooled heat dissipation device according to the present invention.

In the figure: 1. the device comprises an intermediate body, 2, an engine oil circulating port, 3, a turbine, 4, a tail gas inlet, 5, a tail gas outlet, 6, a gas compressor, 7, a pressurizing gas inlet, 8, a pressurizing gas outlet, 9, a heat dissipation power generation device, 10, a box body, 11, an air cooling heat dissipation device, 12, a control box, 13, a heat exchange pipe sleeve, 14, a circulating power generator, 15, a heat dissipation circulating bin, 16, a heat dissipation fin plate, 17, heat dissipation silicone grease, 18, a belt pulley, 19, fan blades, 20 and a belt.

Detailed Description

The utility model is explained in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1-3, a heat dissipation power generation type turbocharger comprises an intermediate body 1, an engine oil circulation port 2, a turbine 3, a tail gas inlet 4, a tail gas outlet 5, a gas compressor 6, a supercharging air inlet 7, a supercharging air outlet 8 and a heat dissipation power generation device 9, wherein the intermediate body 1 is of a cylindrical structure, the top end of the intermediate body is provided with the engine oil circulation port 2 which is symmetrically distributed, the turbine 3 fixed by bolts is installed at the front end of the intermediate body 1, the bottom of the intermediate body is provided with the tail gas inlet 4, the tail gas outlet 5 is arranged in the middle of the positive end face of the turbine 3, the gas compressor 6 fixed by bolts is installed in the middle of the rear end face of the intermediate body 1, the supercharging air inlet 7 is arranged in the middle of the intermediate body, the top of the left end face of the gas compressor 6 is provided with the cylindrical tubular supercharging air outlet 8, and the heat dissipation power generation device 9 is installed on the outer side of the circumferential surface.

Heat dissipation power generation facility 9 includes box 10, air-cooled heat abstractor 11, control box 12, heat transfer pipe box 13, cycle generator 14, heat dissipation circulation storehouse 15, box 10 installs air-cooled heat abstractor 11 for four sides rectangle structure and top rear side, box 10 positive terminal surface mid-mounting has the control box 12 of rectangle structure, box 10 inboard is installed heat transfer pipe box 13 and is wrapped up in the 8 pipe walls outsides of pressure boost gas outlet, 13 rear end face ann of heat transfer pipe box encircles there is cycle generator 14 and pass through the pipe connection, cycle generator 14 top is installed heat dissipation circulation storehouse 15 and is connected with heat transfer pipe box 13 through the pipeline.

The air-cooled heat dissipation device 11 comprises heat dissipation fins 16, heat dissipation silicone grease 17, a belt pulley 18, fan blades 19 and a belt 20, the heat dissipation fins 16 are buckled on the inner side of the top end of the heat dissipation circulation bin 15 and are connected through the heat dissipation silicone grease 17, the belt pulley 18 fixed by bolts is installed at the left end of the heat dissipation fins 16 and is hinged and fixed with the box body 10 through a bearing, the fan blades 19 fixed by key connection are installed at the left end of the belt pulley 18 and are connected with the circulation generator 14 at the bottom through the belt 20.

The working principle of the utility model is as follows: the tail gas exhausted by the engine drives the turbine to rotate, then the rotor in the intermediate body drives the impeller in the compressor to rotate and pressurize to enhance power of the engine, meanwhile, the liquid cooling circulation in the heat dissipation power generation device absorbs heat to accelerate heat dissipation, then the cooling liquid is circulated through the heat exchange pipe sleeve, the circulation generator and the pipeline connection of the heat dissipation circulation bin to further drive the generator impeller to rotate to generate power, the fan blades perform air cooling heat dissipation on the heat dissipation fin plates through the belt and the belt pulley while the generator rotates, and the temperature difference of cooling is further enhanced to improve the generated energy.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that variations, modifications, substitutions and alterations can be made in the embodiment without departing from the principles and spirit of the utility model.

Claims (3)

1. The utility model provides a heat dissipation electricity generation formula turbo charger, includes midbody (1), machine oil circulation mouth (2), turbine (3), tail gas entry (4), tail gas export (5), compressor (6), pressure boost air inlet (7), pressure boost gas outlet (8), heat dissipation power generation facility (9), its characterized in that: midbody (1) is cylindrical structure and top and opens engine oil circulation mouth (2) that has the symmetric distribution, turbine (3) and bottom that bolt fastening are installed to midbody (1) positive front end are opened and are had tail gas entry (4), open at the positive terminal surface middle part of turbine (3) has tail gas export (5), midbody (1) rear end face mid-mounting has compressor (6) and middle part of bolt fastening to open there is pressure boost air inlet (7), open at compressor (6) left end face top has cylindrical tubulose pressure boost gas outlet (8) and circumference surface outside to install heat dissipation power generation facility (9).

2. A heat-dissipating power-generating turbocharger according to claim 1, wherein: heat dissipation power generation facility (9) include box (10), air-cooled heat abstractor (11), control box (12), heat transfer pipe box (13), circulating power generator (14), heat dissipation circulation storehouse (15), box (10) are four sides rectangle structure and top rear side and install air-cooled heat abstractor (11), box (10) positive terminal surface mid-mounting has control box (12) of rectangle structure, box (10) inboard is installed heat transfer pipe box (13) and is wrapped up in pressure boost gas outlet (8) pipe wall outside, heat transfer pipe box (13) rear end face ann ring has circulating power generator (14) and passes through the pipe connection, circulating power generator (14) top is installed heat dissipation circulation storehouse (15) and is connected with heat transfer pipe box (13) through the pipeline.

3. A heat-dissipating power-generating turbocharger according to claim 2, wherein: air-cooled heat abstractor (11) is including heat dissipation fin (16), heat dissipation silicone grease (17), belt pulley (18), flabellum (19), belt (20), heat dissipation circulation storehouse (15) top inboard lock joint has heat dissipation fin (16) and connects through heat dissipation silicone grease (17), the fixed belt pulley (18) of bolt is installed to heat dissipation fin (16) left end and is articulated fixed with box (10) through the bearing, fan blade (19) that the key-type connection is fixed are installed to belt pulley (18) left end and are connected with circulating generator (14) of bottom through belt (20).

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