KR101348961B1 - Solar array heat shield and solar concentrator - Google Patents

Abstract

The present invention relates to a solar heat collecting plate and a solar light collecting device of the solar panel, the solar cell mounted on the upper surface; A heat shield plate installed at a side of the solar cell panel and installed to be deployed at a predetermined angle; And hinges each of which is fixed at both ends of the solar panel and the heat shield plate, and a driving part of a shape memory alloy material is mounted on an outer circumferential surface thereof.

Description

Solar array heat shield and solar concentrator of solar panel

The present invention relates to a solar tube light collecting device that combines a heat shield plate of a solar panel, and more particularly, to a heat shield plate combining solar light collecting device of a solar panel that allows a shielding plate to be developed by a hinge part using a shape memory alloy. .

In general, space aircraft such as satellites require continuous propulsion for space or attitude control in space, and thus, energy supply for sustaining propulsion must be continuously performed.

At this time, the energy source required for satellites and the like must be collected by itself by condensing sunlight, and is mainly equipped with solar cells on both wings to allow swimming in space using energy generated by the condensation of sunlight.

As such, satellites using sunlight as an energy source are driven by a thruster for attitude control and orbital operation in outer space. The solar panel and the solar panel are driven by a flame emitted from the thruster during the propulsion of the thruster. Thermal damage of the solar cell mounted on the upper surface may occur, and the problem that the solar cell is contaminated by the continuous inflow of the flame is generated.

Accordingly, there is a need for a heat shield plate that can prevent the flame generated from the thruster from flowing into the solar panel side in the conventional satellite or the like.

Japanese Patent Laid-Open No. 2003-212198

Therefore, the present invention was devised to solve the above-mentioned disadvantages and problems in the conventional solar panel of the satellite, by installing a heat shield plate that is developed by the hinge portion made of a shape memory alloy on the side of the solar panel, An object of the present invention is to provide a solar heat collecting plate and a solar collector of a solar panel that can protect a solar cell of a solar panel from a flame.

In addition, another object of the present invention is to form a reflecting film on the inner surface of the heat shield plate developed by the hinge portion made of a shape memory alloy, thereby combining the heat shield plate of the solar panel that can collect the sunlight to the solar cell side A solar condenser is provided.

The object of the present invention, the solar panel is mounted on a solar cell on the upper surface; A heat shield plate installed at a side of the solar cell panel and installed to be deployed at a predetermined angle; Both ends are fixed to the solar panel and the heat shield, respectively, and a hinge part mounted on the outer circumferential surface of the shape memory alloy material; is achieved by providing a heat shield plate combined solar light collecting device of a solar panel.

At this time, the drive of the shape memory alloy material mounted on the outer circumferential surface of the hinge portion is an alloy member that can be deformed by the application of an electric field, the drive may be configured in the form of a spring wound, the drive unit when applying the electric field By contracting and relaxing, one end portion can be rotated at a predetermined angle.

At this time, the rotation angle of the one end of the drive unit is preferably to be rotated in the range of 90 ° to 150 °.

The solar panel is coupled to the yoke mounted on the main body of the satellite to one side end side, a plurality of them may be stacked and spread to one side.

In addition, the heat shield plate is deployed at a predetermined angle from the side of the solar panel by the driving of the hinge portion, it can be unfolded by rotating the drive unit of the shape memory alloy material by a magnetic field applied to the hinge portion.

In this case, the deployment angle of the heat shield plate may be unfolded within a range of 90 ° to 150 ° based on the solar panel according to the rotation angle of the driving unit mounted to the hinge part.

The inner surface of the heat shield plate may be coated with a reflective film to allow the reflection of sunlight.

On the other hand, the hinge portion may be mainly composed of a cylindrical shape, the driving portion of the shape memory alloy material is installed on the outer peripheral surface of the cylindrical body, each of the connecting portion may be provided on both sides of the cylindrical body.

In this case, the driving unit may be configured in the form of a coil wound in a spring shape, both ends of the driving unit is fixed to the connection portion, respectively, the connection portion may be closely coupled to the solar panel and the heat shield plate, respectively.

And, between the hinge parts mounted on both sides of the lower portion of the heat shield plate may be further provided with a stop bent in the center portion.

Therefore, the heat shield plate combined solar light collecting device of the solar panel according to the present invention protects the solar cell of the solar panel from the flame by the heat shield plate deployed by the hinge portion made of a shape memory alloy on the side of the solar panel, There is an advantage that can prevent the contamination of the battery.

In addition, the present invention by forming a reflective film on the inner surface of the heat shield plate to collect the sunlight to the solar cell side can exhibit the effect of improving the light collecting efficiency of the sunlight.

1 is a perspective view before and after deployment of the heat shield plate of the solar panel according to the present invention.
Figure 2 is a block diagram of a state in which the heat shield plate combined solar light collecting device of the solar panel according to the present invention is deployed.
Figure 3 is an enlarged view of the heat shield plate employed in the solar panel according to the present invention.
Figure 4 is a block diagram of a hinge portion employed in the heat shield plate and the solar light collecting device of the solar panel according to the present invention.
5 is a perspective view of a shape memory alloy member employed in the hinge portion applied to the present invention.

Matters concerning the operational effects, including the technical configuration for the above object of the heat shield plate combined solar light collecting device of the solar panel according to the present invention will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention. will be.

First, Figure 1 is a perspective view before and after deployment of the heat shield plate of the solar panel according to the present invention.

As shown, the heat shield plate combined solar concentrator 100 of the present invention is the solar panel 110 and the heat shield plate 120 and the heat shield plate 120 mounted on the side of the solar panel 110 solar panel It may be composed of a hinge portion 130 that is deployed at the side of the (110).

Solar panel 110 may be installed on the side of the body (not shown), such as satellite, two or more layers are laminated so that it can be unfolded from the body of the satellite through the yoke 150 mounted on one side of the solar panel (110). It may be configured in the form.

In addition, the solar panel 110 has a plurality of solar cells 111 are arranged regularly in a multi-row cross-section on the upper surface, it can concentrate the energy by condensing the sunlight through the solar cells (111).

On the other hand, a plurality of heat shielding plate 120 is installed in a row on the side of the solar panel 110 may be installed to be deployed at the same time. That is, the heat shield plate 120 installed at the side of the solar panel 110 may be unfolded at a predetermined angle at the side of the solar panel 110 according to the application of the electric field.

As shown in FIG. 1, when the electric field is not applied to the solar panel 110, the heat shield plate 120 may be kept folded on the upper surface of the solar panel 110, and the electric field may be applied to the solar panel 110. When applied, the heat shield plate 120 may be maintained in an unfolded state on the side of the solar panel 110.

As described above, the configuration of the heat shield plate which maintains the folded state and the developed state on the solar panel 110 according to whether the electric field is applied will be described in more detail with reference to the schematic diagram and enlarged view as follows.

2 is a block diagram of a state in which the heat shield plate combined solar light collecting device of the solar panel according to the present invention is deployed, Figure 3 is an enlarged view of the heat shield plate employed in the solar panel according to the present invention.

As shown in FIG. 2, the heat shielding plate 120 may be opened at a side of the solar panel 110 having the plurality of solar cells 111 mounted on an upper surface thereof. In this case, the heat shield plate 120 may be rotatably coupled by the hinge unit 130 mounted as the solar panel 110 and the connection member.

The heat shield plate 120 may be opened at a predetermined angle on the side of the solar panel 110 to prevent the flame generated from the outside of the solar panel 110 flows into the solar cell 111.

In addition, a reflective film 121 may be further formed on an inner surface of the heat shield plate 120. The reflective film 121 may be formed of a reflective member such as a mirror, so that the sunlight irradiated from the upper portion of the solar panel 110 may be reflected to the inside of the solar panel 110 to be focused on the solar cell 111. can do. Therefore, the heat shield 120 may block the flame outside the solar panel 110 and at the same time reflect the sunlight to the solar cell 111 side to improve the condensing efficiency of the solar light.

On the other hand, the plurality of heat shield plate 120 coupled to the side of the solar panel 110 is driven by the hinge 130 mounted between the solar panel 110 and the heat shield plate 120 as shown in FIG. By folding and unfolding can be achieved.

That is, when the electric field is not applied to the hinge unit 130, the heat shield plate 120 may be kept folded on the solar panel 110 as shown in FIG. 3 (a), and the electric field is connected to the hinge unit 130. When this is applied, as shown in FIG. 3 (b), the heat shield plate 120 may be maintained in a developed state at the side of the solar panel 110.

In this case, the hinge 130 may be mounted on both sides of the lower portion of the heat shield plate 120, and when the electric field is applied, the hinge 130 may be driven by the driving unit 131 coupled to the outer peripheral surface of the hinge 130. The heat shield plate 120 may be linked to the side.

Here, the driving unit 131 coupled to the hinge 130 is made of a shape memory alloy material, which will be described in more detail below.

In addition, the stopper 140 may be further installed between the pair of hinge parts 130 supported by the heat shield plate 120 to be rotatable. The stop unit 140 may be configured in a form in which the central portion is bent, one side of the bent surface may be formed of a Velcro type.

That is, when the heat shield 120 is unfolded by the hinge 130 at the side of the solar panel 110 as shown in FIG. 3 (b), the bent surface of the stop 140 is the side of the solar panel 110. It is in close contact with the heat shield plate 120 can be prevented from being developed at a predetermined angle or more, and at this time, the surface of the bent surface of the stop portion 140 is in close contact with the side of the solar panel 110 is formed as a velcro type Even if the electric field is not applied, the stop surface of the stop 140 is in close contact with the side of the solar panel 110 in a deployed state, it is possible to maintain the developed state.

At this time, the deployment angle of the heat shield plate 120 in the side of the solar panel 110 is preferably maintained between 90 ° to 150 °. When the deployment angle of the heat shield plate 120 is 90 ° or less, the flame blocking to the solar cell 111 is possible to some extent, but the reflection of sunlight is not achieved at all, and the deployment angle of the heat shield plate 120 is 150 degrees. If the temperature is greater than or equal to the solar cell 111, flame blocking and sunlight reflection efficiency cannot be expected.

On the other hand, the configuration of the hinge 130 is described in more detail with reference to the drawings as follows.

4 is a configuration diagram of a hinge portion employed in the heat shield plate and the solar light collecting device of the solar panel according to the present invention, Figure 5 is a perspective view of a shape memory alloy member employed in the hinge portion applied to the present invention.

As shown, the heat shield plate and the solar light collecting device according to the present invention may be rotatably coupled to the plurality of heat shield plate 120 on the side of the solar panel 110 through the hinge portion 130.

The hinge 130 may be a driving unit 131 of the shape memory alloy material on the outer peripheral surface of the cylindrical body. In addition, connecting portions 132 and 133 may be provided at both sides of the driving unit 131, respectively.

As shown in FIG. 5, the driving unit 131 may be configured in the form of a coil wound in a spring shape, and both ends thereof may be closely coupled to the connecting parts 132 and 133 as shown in FIG. 4. have.

In addition, the shape memory alloy constituting the driving unit 131 is an alloy member whose shape can be deformed by an electric field, and is formed in a coil shape wound in the form of a spring, and one end portion thereof is contracted or relaxed when an electric field is applied. It can be rotated at an angle.

In this case, both ends of the driving unit 131 may be coupled to the connecting portion 132 fixed to the solar panel 110 and the connecting portion 133 fixed to the lower side of the heat shield 120, and the driving unit 131. By the contraction, relaxation of any one of the connection portion 133 of the connection portion 132, 133 may be rotated to one side.

The connection parts 132 and 133 are tightly coupled to the solar panel 110 and the heat shield plate 120, respectively, so that the connection part 133 of the hinge part 130 is interlocked by the rotational drive of the driving part 131. Accordingly, the heat shield plate 120 to which the connection portion 133 is coupled may be rotated at the side of the solar panel 110.

At this time, the connection portion 133 provided in the hinge portion 130 is driven in the corresponding angle range as one end of the driving portion 131 is rotated in the range of 90 ° to 150 °, the solar panel as described above On the side of the 110, the heat shield plate 120 may be rotated within the range of 90 ° to 150 ° to be deployed or folded.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

110. Solar cell 111. Solar cell
120. Heat shield 121. Reflector
130.Hinge section 131.Driver section
132, 133. Connection 140. Stop
150. York

Claims (10)

A solar panel having a solar cell mounted on an upper surface thereof;
A heat shield plate installed at a side of the solar cell panel and installed to be deployed at a predetermined angle; And
Both ends are fixed to the solar panel and the heat shield plate, respectively, the hinge portion of the shape memory alloy material is mounted on the outer peripheral surface;
Between the hinge parts mounted on both sides of the lower part of the heat shield plate, a stop portion having a central portion bent is further installed.
The heat shield plate combined solar light collecting device of the solar panel of the bending surface of the stop portion, the surface in close contact with the side of the solar panel is formed of a Velcro type.
The method of claim 1,
The driving unit is an alloy member that can be changed in shape by the application of an electric field, the driving unit is configured in a coil shape wound in the form of a spring is rotated at a predetermined angle by one end is contracted, relaxed when applying the electric field Solar light collector
3. The method of claim 2,
The heat shield plate combined solar light collecting device of the solar panel is rotated in the range of 90 ° to 150 ° of the one end of the drive unit.
The method of claim 1,
The solar panel is coupled to the yoke mounted on the main body of the satellite to one side end side, a plurality of stacked solar heat shield plate combined solar light collecting device of the solar panel is spread to one side.
The method of claim 1,
The heat shield plate is deployed at a predetermined angle from the side of the solar panel by the driving of the hinge portion, the heat shield plate of the solar panel unfolded by the rotation of the drive unit of the shape memory alloy material by a magnetic field applied to the hinge portion. Combined solar concentrator.
The method of claim 5,
The deployment angle of the heat shield plate is a heat shield plate of the solar panel combined solar concentrator deployed in the range of 90 ° to 150 ° based on the solar panel according to the rotation angle of the drive unit mounted to the hinge portion.
The method of claim 1,
The heat shield plate combined solar light collecting device of the solar panel coated with a reflective film on the inner surface of the heat shield plate.
The method of claim 1,
The hinge portion, the heat-shielding plate solar collector of the solar panel is provided with a drive of the shape memory alloy material on the outer circumferential surface of the cylindrical body, each of the connection portion is provided on both sides of the cylindrical body.
9. The method of claim 8,
Both ends of the driving unit are fixed to the connection portion, respectively, the heat shield plate combined solar light collecting device of the solar panel is coupled to the solar panel and the heat shield in close contact respectively.
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