CN203223290U - Flexible power turbine device - Google Patents

Abstract

The utility model relates to a flexible power turbine device which is used for increasing the output power of an engine, lowering the wear to equipment and prolonging the service life by using waste gas to do work on the engine. The flexible power turbine device provided by the utility model comprises a volute casing, a turbine and a transmission shaft, wherein the turbine is located in the volute casing, one end of the transmission shaft is connected with the turbine, the other end of the transmission shaft is connected with a magnetism conducting disc and a driving disc, the driving disc is made from a conductive material, the magnetism conducting disc is located at the side, close to the turbine, of the driving disc in the axial direction, a magnet disc is arranged at the side, far away from the turbine, of the driving disc and is arranged opposite to the driving disc, a plurality of permanent magnets are mounted on the end face, facing to the driving disc, of the magnet disc and are distributed in a manner that N and S poles are alternated, and an output shaft is connected onto the magnet disc and is connected with a main shaft of the engine.

Description

The flexible dynamic turbine device

Technical field

The utility model relates to technical field of automobile engine, particularly relates to a kind of flexible dynamic turbine device that utilizes engine combustion waste gas to improve engine output.

Background technique

In the prior art, in the motor that adopts turbosupercharger, the waste gas that engine chamber produces is used to promote turbine rotation, is discharged into the external world afterwards, in the motor that adopts mechanical supercharger or natural inflow, the waste gas that engine chamber produces then directly is discharged in the external world.

Above-mentioned directly all also have certain energy from the waste gas of engine chamber discharge even the waste gas of discharging from turbosupercharger, directly emit this part energy is wasted, the patent No. is that 200720102307.8 Chinese patent discloses a kind of scheme of utilizing tail gas to drive the turbine accelerating motor, waste pipe is connected with the suction tude of turbo machine, turbo machine is by the small gear on the output shaft and the engagement of the gearwheel on the engine spindle, increase the output power of engine spindle, though this scheme has been saved energy, improved the output power of motor, but output shaft passes through meshed transmission gear with engine spindle, wearing and tearing between each parts are big, impact force to axle is big, and working life is lower.

The model utility content

The technical problems to be solved in the utility model provides a kind of flexible dynamic turbine device, utilizes above-mentioned waste gas that motor is done work, and improves engine output, and reduces equipment attrition, improves working life.

The utility model flexible dynamic turbine device, comprise volute, turbine, transmission shaft, described turbine is arranged in volute, one end of transmission shaft connects turbine, the other end is connected with magnetic conductive disk and driving disc, described driving disc adopts conductive material to make, described magnetic conductive disk is located axially at driving disc near a side of turbine, described driving disc is provided with lifting magnet away from a side of turbine, described lifting magnet and driving disc are opposed, and lifting magnet is equipped with the polylith permanent magnet on the end face of driving disc, and described permanent magnet is with N, the S utmost point distributes alternately, be connected with output shaft on the described lifting magnet, described output shaft is connected with engine spindle.

The utility model flexible dynamic turbine device, wherein every block of described permanent magnet is fan-shaped, evenly distributes along lifting magnet end face circumferencial direction.

The utility model flexible dynamic turbine device, wherein said permanent magnet are provided with 4, and the fan angle of every block permanent magnet is 90 °.

The utility model flexible dynamic turbine device, wherein every block of described permanent magnet is cylindrical, is embedded in the end face of described lifting magnet.

The utility model flexible dynamic turbine device, wherein said permanent magnet are provided with 4, evenly distribute along lifting magnet end face circumferencial direction.

The utility model flexible dynamic turbine device, the material of wherein said magnetic conductive disk are magnetic conductive soft iron.

The utility model flexible dynamic turbine device, wherein said transmission shaft, output shaft are supported on the bearing, and the bearing outside of transmission shaft has the bearing refrigerating seat, and described bearing refrigerating seat is provided with cooling-oil inlet and cooling-oil outlet.

The utility model flexible dynamic turbine device, wherein said volute connects the Waste gas outlet of turbosupercharger.

The utility model flexible dynamic turbine device difference from prior art is that the utility model flexible dynamic turbine device is by arranging magnetic conductive disk, the conduction driving disc, and the lifting magnet of installation permanent magnet, waste gas promotes the turbine rotation, the drive transmission shaft rotates, the magnetic line of force that forms between the permanent magnet on the driving disc rotation septum magnet dish of feasible conduction and magnetic conductive disk, produce electric current at driving disc, electric current further produces electromagnetic force with the magnet effect and drives the lifting magnet motion, driving output shaft by lifting magnet again rotates, and then engine spindle done work, improve the output power of engine spindle, make the meshed transmission gear between each parts change flexible electromagnetic force transmission into simultaneously, greatly reduce in the operation wearing and tearing and impact to equipment, improve the working life of equipment.

Below in conjunction with accompanying drawing flexible dynamic turbine device of the present utility model is described further.

Description of drawings

Fig. 1 is the sectional view of the utility model flexible dynamic turbine device;

Fig. 2 a is the plan view of permanent magnet distribution form one on lifting magnet in the utility model flexible dynamic turbine device;

Fig. 2 b is the left view of permanent magnet distribution form one on lifting magnet in the utility model flexible dynamic turbine device;

Fig. 3 a is the plan view of permanent magnet distribution form two on lifting magnet in the utility model flexible dynamic turbine device;

Fig. 3 b is that sectional view is looked on the left side of permanent magnet distribution form two on lifting magnet in the utility model flexible dynamic turbine device.

Embodiment

As shown in Figure 1, present embodiment flexible dynamic turbine device comprises volute 1, turbine 2, transmission shaft 3, turbine 2 is arranged in volute 1, volute 1 is communicated with the Waste gas outlet of turbosupercharger, transmission shaft 3 is supported on the high-speed bearing, high-speed bearing is with bearing refrigerating seat 9 outward, bearing refrigerating seat 9 is provided with cooling-oil inlet 10 and cooling-oil outlet 11, one end of transmission shaft 3 connects turbine 2, the other end is connected with magnetic conductive disk 4 and driving disc 5, the material of magnetic conductive disk 4 is magnetic conductive soft iron, and driving disc 5 adopts conductive material to make, and magnetic conductive disk 4 is located axially at driving disc 5 near a side of turbine 2.Driving disc 5 is provided with lifting magnet 6 away from a side of turbine 2, lifting magnet 6 is opposed with driving disc 5, shown in Fig. 2 a, 2b, lifting magnet 6 along the circumferential direction is distributed with 4 block permanent magnets 7 towards the end face of driving disc 5, permanent magnet distributes alternately with N, the S utmost point, and each block permanent magnet 7 is fan-shaped, is installed on the surface of lifting magnet 6, be connected with output shaft 8 on the lifting magnet 6, output shaft 8 is connected with engine spindle by gear.

When the waste gas of turbosupercharger enters in the volute 1 of present embodiment, exhaust energy promotes turbine 2 rotations, be attached thereto transmission shaft 3 rotations that connect thereby drive, transmission shaft 3 drives the magnetic conductive disk 4 and the driving disc 5 that are connected its other end and rotates synchronously, be distributed between permanent magnet 7 on the lifting magnet 6 and the magnetic conductive disk 4 and have the magnetic line of force, the driving disc 5 rotation cutting magnetic lines of conductive material produce electric current, electric current and magnet effect form electromagnetic force and drive lifting magnet 6 rotations, lifting magnet 6 drives the output shaft 8 that connects thereon and rotates, output shaft 8 is realized being connected to the motor acting by the engagement of the gear on gear and the engine spindle, the output power of raising motor.

Above-described embodiment is described preferred implementation of the present utility model, be not that scope of the present utility model is limited, for example, the quantity of the permanent magnet on the lifting magnet is not limited to 4, so long as N, the S utmost point distribute alternately, quantity can be set as required; Permanent magnet the form on the lifting magnet of being installed to also is not limited to and is installed in the lip-deep sector unit of lifting magnet, can also be the cylindrical block that embeds in the lifting magnet, shown in Fig. 3 a, 3b; Magnetic conductive disk is selected for use the effective material of magnetic conduction to make and is got final product, and must not adopt soft iron; Be not limited in being connected between output shaft and the engine spindle and adopt gear to connect, Placements such as belt pulley of the prior art all can; Volute of the present utility model utilizes the waste gas of getting rid of again except the Waste gas outlet that can be communicated with turbosupercharger as above-mentioned mode of execution, the Waste gas outlet that also can directly connect engine chamber, the waste gas that the firing chamber is got rid of is shunted, the turbine rotation that a part is used for the promotion turbosupercharger provides fresh air to motor, a part enters into volute of the present utility model, for turbine of the present utility model provides power; For the motor of natural inflow and employing engine driven supercharging, the Waste gas outlet of its firing chamber can be directly connected on the volute of the present utility model.

Under the prerequisite that does not break away from the utility model design spirit, various distortion and improvement that those of ordinary skills make the technical solution of the utility model all should fall in the definite protection domain of the utility model claims.

Claims (8)

1. flexible dynamic turbine device, it is characterized in that: comprise volute, turbine, transmission shaft, described turbine is arranged in volute, one end of transmission shaft connects turbine, the other end is connected with magnetic conductive disk and driving disc, described driving disc adopts conductive material to make, described magnetic conductive disk is located axially at driving disc near a side of turbine, described driving disc is provided with lifting magnet away from a side of turbine, described lifting magnet and driving disc are opposed, and lifting magnet is equipped with the polylith permanent magnet on the end face of driving disc, and described permanent magnet is with N, the S utmost point distributes alternately, be connected with output shaft on the described lifting magnet, described output shaft is connected with engine spindle.

2. flexible dynamic turbine device according to claim 1, it is characterized in that: every block of described permanent magnet is fan-shaped, evenly distributes along lifting magnet end face circumferencial direction.

3. flexible dynamic turbine device according to claim 2, it is characterized in that: described permanent magnet is provided with 4, and the fan angle of every block permanent magnet is 90 °.

4. flexible dynamic turbine device according to claim 1, it is characterized in that: every block of described permanent magnet is cylindrical, is embedded in the end face of described lifting magnet.

5. flexible dynamic turbine device according to claim 4, it is characterized in that: described permanent magnet is provided with 4, evenly distributes along lifting magnet end face circumferencial direction.

6. according to each described flexible dynamic turbine device of claim 1-5, it is characterized in that: the material of described magnetic conductive disk is magnetic conductive soft iron.

7. flexible dynamic turbine device according to claim 6, it is characterized in that: described transmission shaft, output shaft are supported on the bearing, and the bearing outside of transmission shaft has the bearing refrigerating seat, and described bearing refrigerating seat is provided with cooling-oil inlet and cooling-oil outlet.

8. flexible dynamic turbine device according to claim 6 is characterized in that: the Waste gas outlet of described volute connection turbosupercharger.

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