JPS5912178A - Heat converter - Google Patents

Abstract

PURPOSE:To increase heat exchange efficiency by a method wherein a disc is attached to a driving shaft connected to a wind-mill or the like and a disc brake, energized by a liquid pressure generating device connected to a follower shaft, is dipped into liquid utilized for a heat medium together with the disc. CONSTITUTION:The driving shaft is connected to the rotating shaft of the wind mill 1, supported rotatably on a supporting table 2, through a gear mechanism 5. The follower shaft is provided at the intermediate part of the driving shaft 4 through the gear mechanism 5 while the follower shaft is provided with a liquid pump 8 through a coupling 7. The inlet side of the liquid pump 8 is connected to a liquid tank 9 while the outlet side thereof is branched into two paths, and one of them is connected to a brake liquid pressure pipeline system 12, being connected to the disc brake 11 in the liquid tank 9, through a booster 10 while the other of them is connected to a a heat exchanging pipeline system 14 comming back to the liquid tank 9 through a heat exchanger 13. The disc 15 is attached to the lower end of the driving shaft 4 and is assembled into the disc brake 11. Friction heat is generated by sliding contact between the disc 15 and the disc brake 11 to heat the liquid in the liquid tank 9.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application This invention relates to a heat conversion device, and more particularly to a device that converts natural energy received by a windmill or waterwheel into thermal energy via a brake device.

(Roast) Conventional technology As a device for converting the energy of natural forces into thermal energy, for example, a device that converts the wind energy received by a windmill into thermal energy is known.This device uses a windmill to drive a hydraulic pump, A pressure-heat converter is provided on the pump side, and in such a device, a disc brake for emergency stopping is provided on the drive shaft that is intaglio-engraved by the windmill.

(c) Problems to be solved by the invention In the above conventional technology, the rotation of the wind turbine is transmitted to the drive shaft,
The drive shaft drives a hydraulic pump to increase the pressure, and then a pressure-to-heat converter converts energy. Therefore, since the rotational force is first converted into pressure and then converted into thermal energy, it has a drawback that the conversion efficiency is lower than that which directly converts the rotational force into thermal energy.

Note that the same can be said of a heat conversion device using a water wheel instead of a wind turbine.

In order to solve the above problems, this invention attaches a disk to the drive shaft connected to the windmill or water turbine, and attaches a hydraulic pressure generating device to the driven shaft branched from the drive shaft. A disc brake operated by the hydraulic pressure generating device is immersed together with the disc in a heat transfer liquid.

(e) Example As shown in the drawings, the device according to the present invention utilizes wind energy.

The windmill 1 is rotatably supported on a support base 2, and a gear mechanism 3
A vertical drive shaft 4 extends below the support base 2 via. A gear mechanism 5 is also provided in the middle of the drive shaft 4, and a suitable joint 7 is connected to the branched driven shaft 6 via the gear mechanism a5.
A fluid pump 8 is provided via. The inlet side of this fluid pump 8 is connected to a liquid tank 9, and the outlet side of the pump 8 is branched into two paths, one of which is the brake fluid pressure that reaches the disc brake 11 in the liquid tank 9 via a booster 10. A piping system 12 is formed. The other side forms a heat exchange piping system 14 that returns to the liquid tank 9 via a heat exchange device 13.

The lower end of the drive shaft 4 is submerged in the liquid in the liquid tank 9, and a disc 15 attached to the lower end is combined with the disc brake 11 in the liquid.

Therefore, (3) 12...brake hydraulic piping system, 15...disk hydraulic pressure that acts on the disc brake 11 is set appropriately, and the brake pad is connected to the disc 15.
When it is brought into sliding contact with the surface under an appropriate pressure, frictional heat is generated on the sliding surface, and the liquid in the liquid tank 9 is heated by the heat. The heated liquid is sucked as a heat medium by the fluid pump 8 and sent from the discharge side via a branch path to the heat exchange device 13, where it is heat exchanged and used for any purpose.

(F) Effect The device of this invention uses a disc brake to directly convert the rotational force of a windmill or waterwheel into thermal energy, so it has the effect of having a better heat exchange rate than conventional devices. be. Further, since the disc brake can be used as a brake for emergency stopping, the device can be simplified.

[Brief explanation of drawings]

The drawing is a schematic illustration of the device of the invention. 1... Windmill, 4... Drive shaft, 5... Gear mechanism, 6
... Driven shaft, 8 ... Fluid pump, 11 ... Disc brake, (4)

Claims (1)

[Claims] A disk is attached to a drive shaft connected to a windmill or water turbine, a hydraulic pressure generating device is connected to a driven shaft branched from the pivot shaft,
A heat conversion device comprising a disc brake operated by the hydraulic pressure generator and immersed together with the disc in a heat transfer liquid.