JPS5990776A - Solar motor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention is a solar motor that converts thermodynamic energy into mechanical energy using a thermodynamic fluid in a circuit, the motor being essentially driven by the thermodynamic energy of the fluid. -C
The evaporator, liquefier, and sword/ranari are interlocked with the operating mechanical devices, and the mechanical devices are a single integral movable member, and their reciprocating motion is based on the pressure difference between the evaporator and the liquefier. At the end, the pressure difference is eliminated, and the mechanical device basically consists of a horizontal rocking shaft and an integral tube, through which the interior of the evaporator and the interior of the liquefier communicate. The tube wall is hermetically connected to the evaporator wall and the liquefier wall, and the tube does not extend into the liquefier but extends deep into the evaporator. Such is the case.

In particular, the present invention relates to a sophisticated solar motor for supplying mechanical energy or electrical energy for, for example, water conveyance or Ma.

Thursday 5 iti F! Atri operates to provide an even supply of energy by using heat sources and cold high and low temperature fluids, regardless of short-term (night and day) changes in the sky key. The following motor is provided.

In order to achieve the above object, the motor of the present invention has a liquefier having a wide heat exchange surface with the air, and an evaporator having a cutout that divides the lower part of the evaporator tank into one chamber. It is characterized in that the connecting tube extends deeply into one chamber, and in the female chamber a heat exchanger for the thermodynamic fluid is housed (11).

Furthermore, the present invention is characterized in that the liquefier consists of a group of tubes that are fused with air.

Another feature of the present invention is that the evaporator consists of a hexahedral box whose surface is deformed so that it is wider than a flat surface.

One feature of the history of wood inventions is that the evaporator is cylindrical with a curved evaporation surface.

A further feature of the invention is that the evaporator has six rounded ends.
This is because it has a J-shape.

Yet another feature of the present invention is that the evaporator is made of or surrounded by a heat insulating material, and the liquefier is made of a material with good thermal conductivity. The details will be explained with reference to the attached drawings.

As shown in FIG. 1, the motor of the present invention has a tank+i+
It includes a movable or swinging part having an evaporator (■) consisting of an evaporator (■) and a liquefier (river) consisting of a relatively large hollow member (2) with a large heat exchange surface with the outside air.

Tank f of the evaporator (phantom and liquefier (If) are evaporator CI)
1) are connected to each other via a connecting tube (3) extending deep inside. A horizontal plate or partition plate (4) is provided at the bottom of the tank i1, and the lower part of the tank i11 is
It is separated into two parts (5, 6) and is configured such that communication occurs only when the liquid level in the tank exceeds the height of the horizontal plate (4). Portion C (+1 L) of connecting tube (3)
/i The heat exchanger (7) extends to the part (6) of the tank fi+ and is connected to the heat source (8) via the lead-in line (9) and the lead-out line (1o) to the part (6) of the tank (1). It is provided.

The liquefier (b) hollow member (2) consists of a group of tubes (11, 12, 18, 14) interconnected by a connecting tube ai at the lower end and a connecting tube (+6) at the upper end. The connecting tube t15)ii communicates with the partial proboscis of the connecting tube (3).

Inside the hollow member (2) of the liquefier (II), there is a cold source (0)
A heat exchanger (7) is provided which connects to the inlet conduit (+8) and extends from the outlet conduit (9). Duplex part (
81, 82) is a 7-lung portion 63) equipped with insulation material (b)
The liquefier-side tube portion and the evaporator-side tube portion (marked) are connected to each other via the liquefier side tube portion (marked), and are configured so that no heat exchange occurs by conduction.

The device configured as described above rotates around a support shaft (21) that forms an equilibrium point.

The tank (1) contains a thermodynamic liquid which is evaporated by the heat applied to the heat exchanger (7).

The liquid level in the tank tll is the tube state in the tank +11 -
As long as the opening of the tube is higher than the position of the tube, the pressure of the gas phase above the liquid level cannot escape and the liquid flows into the tube.
11 onto the tube section u2, which causes the device to swing and lift the evaporator tank 0+. When a certain rocking position is reached, the liquid level in the tank (1) opens the opening of the tube part (2) and the gas passes through the tube part (31, 82) to the liquefier (II). Inflow. At the same time, the liquid column falls into the tank (1) and the gas liquefies in the liquefier (■). The movable device then swings in the opposite direction back to its original position, ending the operating cycle.

The larger the amplitude of this oscillation, the better. Therefore, the tank (
The lower part of 1) is divided into two parts (5, 6) by a horizontal plate (4).
Therefore, in the first stage of operation, the liquid column reaches the liquefier (ro) until the liquid level in part (6) of tank t1 opens the entrance part (c) of tube part c (It). ), creating a considerable imbalance.The faster the movement in the opposite direction, the better, and in this second stage of operation, the horizontal plate (4 ) The liquid is held in the tank part (6) opposite the tank.

Figures 2 and 8 show alternative embodiments of the invention.

In this embodiment, the movable device is fixed to a drive shaft (4I) supported in seven frames via a bracket +47J. This device is equipped with a cylindrical evaporator with a curved end surface (2), a liquefier chamber consisting of a group of tubes, and a connecting tube (2).

The connecting tubes (the evaporator (45) side portions are connected to each other by an adiabatic connection (451) to prevent heat exchange by conduction between the evaporator and the liquefier (451).

Figure 3 shows the details of the evaporator (43), that is, the horizontal plate (
4) and a tube (46) extending to the tank part behind this horizontal plate (481) is shown.

Figures 4 and 5 show further embodiments of the motor in two different positions. This motor is basically the same as the motor shown in FIG.
) and a connecting tube that connects the evaporator 51 to the liquefier (511).

The evaporator ■ is equipped with a partition (to) similar to the horizontal plate (4) and a heat exchanger (541), and the liquefier T511 is equipped with a cold heat exchanger (to). (51)11
−j separated from each other by an adiabatic connection ω. This device is integrated with the output shaft (571), and its movement is transmitted to the outside.

In the attitude shown in FIG. 4, the liquid column rises in the tube in the direction of arrow A and reaches the liquefier 1511.

FIG. 5 shows the rocking position of this nJ ml device. From this point on, the liquid passes through the tube (521) in the direction of arrow B and returns to the tank of the evaporator ω, and the device is shown in FIG. Return to posture 0 In the embodiments shown in Figs. 9 and 4, the liquefier (45°55) consists of a group of tubes, but the liquefier in the embodiments shown in Figs. 6 and 7 is box-shaped; Surface (61, 71)
The heat exchange surface with the air becomes larger ↓ It has a wavy shape.

Generally, the evaporator Vi is formed of or surrounded by insulation to reduce heat losses. Conversely, the liquefier is made of conductive material to facilitate heat exchange with the air.

As shown in Figures 1 and 4, the cold heat exchanger (11, 55
) may extend further downward from the inside of the liquefier (2, 51) and be disposed in the tube portion of the connecting duplex (82, 52) that is closer to the liquefier than the adiabatic connecting portion (88, 56).

The heat source (8) for the evaporator is preferably a high heat transfer fluid heated, for example, by a solar thermal integrator. Heat source (8
) should be selected so that it is permanently supplied to the motor day and night.

As the cold heat source, for example, a cold water source obtained from a cold heat facility utilizing solar energy is desirable.

The motor of the invention is particularly suitable for use in isolated areas with no electricity supply, thereby providing a potable water supply.
．． It allows for self-sufficiency in mechanical energy to drive used bonogs, or can be used as a generator.

[Brief explanation of the drawing]

Fig. 1 is a diagram of the principle of the motor of Kihachi, Fig. 2 is a perspective view of the first embodiment, Fig. 8 is a detailed view of the evaporator of the motor of Fig. 2, and Figs. 4 and 5 are the motor of the second embodiment. Figures 6 and 7 showing two different postures of the embodiment are views showing modified examples of the liquefier. l, 43.50.60.70...evaporator, 2.
51.61,71 ... liquefier, 7.
54... Heat exchanger, 11.12.18.14... Tube group.

Claims (1)

[Claims] ■ A solar motor that uses a thermodynamic fluid in its circuit to convert thermodynamic energy into mechanical energy, and the motor is basically coupled to a mechanical device that operates by the thermodynamic energy of the fluid. The mechanical device is a single integral sliding member, and the pressure difference between the evaporator and the liquefier is eliminated at the end of their reciprocating motion. The mechanical device basically consists of a horizontal swing shaft and an integral tube, through which the inside of the evaporator and the inside of the liquefier communicate, and the tube wall is said liquefier (
2゜51.61.71) has a wide heat exchange surface to the air, said evaporator (1, 48, 50) is provided with a partition dividing the lower part of the evaporator tank into two chambers, an evaporator and a liquefier. The tubes (81, 46, 52) connecting the two extend deeply into one chamber, and the other chamber houses a heat exchanger (7, 54) for thermodynamic fluid. motor. ■ The liquefier (2) fuses the air with a group of tubes (1
Pf characterized by consisting of 1.1g, 18.14)
; i'F gN range of the motor described in ■. ■ The evaporator (60, 70) consists of a hexahedral box,
The motor according to the scope of the patent M Ice, characterized in that its surface is airfoil-shaped so that it is wider than if it were a flat surface. (2) The motor according to the special ffFM ice Q range (2), characterized in that the evaporator (1, 48) has a cylindrical shape with a curved end surface. (2) The motor according to claim (2), wherein the evaporator has a hexahedral shape with rounded ends. ■ Claims characterized in that the evaporator is made of a heat insulating material or is surrounded by a heat insulating material, and the liquefier is made of a material with good thermal conductivity.
The motor described in .