WO2014146484A1 - Novel solar reflector and manufacturing process thereof - Google Patents

Abstract

A novel solar reflector and manufacturing process thereof, the reflector comprising a glass substrate (1), a metallic reflective layer (2), and paint film protective layers (3, 4, 5), each layer being closely bonded to the neighboring layers, characterized in that the paint film protective layers (3, 4, 5) are epoxy resin paint. The solar reflector not only has good sunlight reflectivity, but also high weather resistance (acid resistance, alkali resistance, impact resistance, corrosion resistance, wind resistance, and sandstorm resistance), high hardness and long service life, and can be widely used in solar thermal power generating equipment.

Description

 Novel solar reflector and manufacturing process thereof

 Field of practice

 The present invention relates to the field of solar energy technology, and in particular to a novel solar energy mirror and a manufacturing process thereof. Background With the emergence of energy crises and environmental pollution problems, solar energy has gradually gained attention. Solar thermal power generation technology is emerging in countries such as Europe and the United States. China is a big energy-consuming country, and the average level of exploitable energy is very low. With the lack of energy resources, solar thermal power generation technology has gradually entered China's vision and is increasingly being valued by China.

 Solar thermal power generation technology refers to: The use of large-scale array parabolic or dish-shaped mirrors to collect solar thermal energy, the supply of steam through heat exchange devices, combined with the traditional turbine generator technology, to achieve the purpose of book power generation. The use of solar thermal power generation technology avoids the expensive silicon crystal photoelectric conversion process, which can greatly reduce the cost of solar power generation. Moreover, this form of solar energy utilization has an advantage over other forms of solar energy conversion, that is, the hot water of solar energy can be stored in a huge container, and can still drive steam turbines several hours after the sun sets. .

 The conventional solar thermal power mirror plate usually comprises a glass substrate, a metal reflective layer, a metal protective layer, a protective paint layer, etc. The solar mirror manufacturing process is as follows, including a cleaning process: cleaning the glass layer, and processing the glass surface into a clean surface Sensitization procedure: The glass layer is sensitized with a tin chloride aqueous solution; the glass layer is washed with water to remove the remaining tin chloride aqueous solution; silver plating layer procedure: silver nitrate and reducing solution Contacting, the surface of the glass layer is coated with a silver film layer; copper plating layer procedure: spraying copper sulfate and reducing liquid (such as iron powder, zinc powder) on the silver film layer to form a copper film layer; A mirror back coat (back paint, single layer or double layer) is applied to the film to form a protective layer. Because of the chemical nature, the protective layer is usually a mirror-back paint containing lead to make the mirror resistant to corrosion and prolonged aging.

 Due to the rise of environmental awareness in recent years, the treatment of lead-containing components in outer protective paints has become infeasible because lead-containing treatments cause environmental pollution during the manufacturing process, and the recycling of their products is a greater burden. Invisible increases the cost.

Summary of the invention

 The object of the present invention is to provide a low-cost, environmentally-friendly solar thermal power generation mirror plate, which can meet the weather resistance (acid resistance, alkali resistance, impact resistance, corrosion resistance, weather resistance, sand resistance) and stability of the solar mirror plate. At the same time of demand, reduce costs and meet environmental protection needs.

 The invention provides a novel solar mirror, comprising a glass substrate, a metal reflective layer and a paint film protective layer, wherein adjacent layers are tightly combined; and the paint film protective layer is epoxy resin paint.

Wherein, the epoxy resin paint is a mixture of an epoxy resin and a hardener. The epoxy resin means that the epoxy equivalent is 200~2100 epoxy resin. The mass ratio of the hardener to the epoxy resin is 2% to 16%. The paint film protective layer is a three-layer epoxy paint. The single layer epoxy resin paint has a thickness of 20 to 45 μm.

 The invention also provides a manufacturing process for producing the above novel solar mirror, comprising a cleaning procedure, a sensitizing procedure, and a silver plating layer procedure, and the like, further comprising the step of coating the epoxy resin paint.

 Wherein, the epoxy resin paint is coated on the upper surface of the metal layer of the solar energy mirror by a curtain coating method. Further, a step of thoroughly mixing the hardener with the epoxy resin to form an epoxy resin paint is also included. It also includes the step of heating the epoxy paint.

 The solar mirror of the invention not only has high solar reflectance, but also has weather resistance (acid resistance, alkali resistance, impact resistance, corrosion resistance, weather resistance, sand resistance), good stability, high hardness and long service life, and can be widely used. Used in solar thermal power plants.

 Compared with the prior art, the technical solution of the present invention has the following beneficial effects: The paint of the epoxy resin and the curing agent is tested with a pendulum type hardness tester, and the durability is better, and the water resistance is good. It has better water resistance, better sealing performance than ordinary paint, and better corrosion resistance and radiation resistance. The mirror plate made of epoxy resin back paint, because the epoxy resin paint does not contain lead, the mirror chemical reaction section does not need copper plating layer, and the process is friendly to the ecological environment and human health. Figure i

 The advantages and spirit of the present invention will be further understood from the following detailed description of the invention.

 1 is a schematic view showing the structure of a solar mirror according to the present invention.

detailed description

 Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

 One embodiment of the present invention is shown in FIG. 1. The epoxy resin-backed solar thermal power generation mirror plate of the present invention comprises a glass substrate 1, a metal reflective layer 2, a first paint film protective layer 3, and a second paint film. The protective layer 4 and the third paint film protective layer 5 are combined with each other by a spray silver plating or a sputter aluminum plating process and a lacquering process. A two-component eco-friendly paint blended with an epoxy equivalent of 200-2100 and 2%-16% of a curing agent before use. The two-component paint is applied to a silver-plated or aluminized mirror. On the board, a total of three layers of epoxy resin and hardener are mixed.

 The solar thermal power generation mirror plate includes a glass substrate and a reflective film is plated on the glass substrate. The glass substrate is 1. 5_8 mm ultra-white float glass; the reflective film may be a metallic silver film or an aluminum film.

 The manufacturing process of the novel solar mirror of the present invention is as follows:

 1. Selection 1. 5-8mm ultra-white float glass is used as the glass substrate of the solar thermal mirror plate.

2. The glass substrate is cleaned, and a highly reflective metallic silver film or aluminum film is plated on the substrate, and the reflectance is 93%. 3. Mix epoxy resin with an epoxy equivalent of 200-2100 and 2%-16% curing agent before use to form a two-component eco-friendly paint. A paint mixed with an epoxy resin and a hardener, because the sealing functional group for the sealed substrate (silver) is 0H- and ether-based 0-, the paint made of acrylic acid, alkyd, and amino acid urethane is only 0H-based sealing substrate, better sealing. Therefore, its corrosion resistance is also better.

 4. Choose a copper-free mirror process to ensure that copper is not contaminated with heavy metals during the mirroring process. The first paint film protective layer, the second paint film protective layer and the third paint film protective layer of the solar thermal power mirror plate of the present invention are selected from the lead-free environmentally-friendly epoxy resin paint. The first paint film protective layer and the second paint film protective layer have anti-corrosion effects, and the third paint film protective layer has the advantages of ultraviolet resistance, friction resistance and good appearance gloss.

 5. Heat the paint film protective layer to cure it. After curing and curing, the epoxy resin and the hardener have a three-dimensional structure, which is more rigid than other single-component resins, and has better durability, water resistance and water resistance. A paint made of acrylic acid, alkyd, and amino acid urethane is a two-dimensional linear structure after curing.

 The mirror plate made of epoxy resin back paint is friendly to the ecological environment and human health. Epoxy paint does not contain lead, and its mirror chemical reaction section does not require copper plating. It is friendly to the ecological environment and human health.

 The solar thermal power mirror plate produced by the above process has high reflectivity, weather resistance (acid resistance, alkali resistance, impact resistance, corrosion resistance, weather resistance, sand resistance), good stability, high hardness and long service life, manufacturing process Simple, low cost, environmentally friendly and non-polluting, which is conducive to market promotion.

 The description of the present invention is merely a preferred embodiment of the present invention, and the above embodiments are merely illustrative of the technical solutions of the present invention and are not intended to limit the present invention. Any technical solution that can be obtained by a person skilled in the art according to the concept of the present invention by logic analysis, reasoning or limited experimentation is within the scope of the present invention.

Claims

Request

A novel solar mirror comprising a glass substrate, a metal reflective layer, a paint film protective layer, and an adjacent layer closely bonded; wherein the paint film protective layer is an epoxy resin paint.

 2. A novel solar mirror according to claim 1 wherein: said epoxy resin paint is a mixture of an epoxy resin and a hardener.

 The novel solar energy mirror according to claim 2, wherein the epoxy resin is an epoxy resin having an epoxy equivalent of 200 to 2,100.

 The novel solar energy mirror according to claim 2, wherein the ratio of the hardener to the epoxy resin is 2% to 16%.

 The novel solar mirror according to claim 1, wherein the paint film protective layer is a three-layer epoxy resin paint.

 A novel solar mirror according to claim 5, wherein: said single layer epoxy paint has a thickness of 20 to 45 μm.

 7. A process for producing a novel solar mirror according to any one of claims 1 to 6, comprising a cleaning procedure, a sensitization procedure, a silver plating layer procedure, and a copper plating layer procedure, wherein: Also included is the step of applying an epoxy paint.

 8. The novel solar mirror manufacturing process according to claim 7, wherein: the epoxy resin paint is coated on the upper surface of the metal layer of the solar mirror in a curtain coating manner.

 9. The novel solar mirror manufacturing process according to claim 7, further comprising the step of thoroughly mixing the hardener with the epoxy resin to form an epoxy resin paint.

 10. The novel solar mirror manufacturing process according to claim 7, further comprising the step of heating the epoxy resin paint.