CN208263600U - A kind of high intensity low emissivity glass - Google Patents

Abstract

The utility model discloses a kind of high-intensitive low emissivity glasses, including protective frame, the inside of the protective frame is provided with glass in one week, the junction of the glass and protective frame is provided with sealing strip, one layer of the surface of the glass is provided with decorating film, the utility model joined the advantages of various types of non-browning glass in non-browning glass, by being provided with the various substances for preventing radiation on glass, for example protective layer is provided on glass, antiultraviolet separation layer, radiation protection reflecting layer, metallic insulation layer, anti-oxidant separation layer, wear-resistant dope layer and neutralization protective layer, pass through the device of these radiation protections, distributing for radiation can be effectively prevented, also solves the deficiency of various non-browning glasses simultaneously, various the advantages of preventing radiant glass, are pooled together, the control that thus effectively can be easily radiated , be conducive to the use of non-browning glass in this way.

Description

A kind of high intensity low emissivity glass

Technical field

The utility model belongs to non-browning glass correlative technology field, and in particular to a kind of high intensity low emissivity glass.

Background technique

Non-browning glass refers to the special glass with protection such as x-ray, gamma-rays radioactive ray function.In recent years, With the development in the fields such as Radiation Medicine, atomic energy industry, radiation protection problem is also had received widespread attention.Mainly there is nickel alloy The types such as the radiation protection organic glass of silk screen shielding, high lead optical glass and addition metallic element.Radioactive ray belongs to height The electromagnetic wave of energy, this ray can cause the atom of medium that ionization phenomena occurs when passing through different media, thus be called Do ionizing ray.The wavelength of electromagnetic wave is shorter, and penetration capacity is just stronger.Since the wavelength of ray and the size of atom belong to together One order of magnitude, so molecular absorption coefficient, can be added by the atomic absorption coefficient of each element of ingredient and be obtained.Therefore, group It can be calculated by this principle at the mass-absorption coefficient of the various oxides of glass.The composition of simple glass can not effectively absorb This kind of ray, it is necessary to which its absorption energy could be improved by introducing the high element of a large amount of atomic numbers such as lead and bismuth in glass composition Power.Further, since glass itself after absorbing strong radioactive ray, easily becomes dark-brown, therefore devitrification is needed toward contact Want glass itself radiation resistance with higher.

Existing non-browning glass technology has the following problems: existing non-browning glass is divided into different types, commonly Non-browning glass, light transmittance is low, has an impact to vision；High lead optical glass, it is poor that there are chemical stabilities, the resistance to spoke of glass itself The problems such as penetrating property difference is easy to change；Radiation protection organic glass, strength of glass hardness is low, and scratch-resistant performance is poor, and alpha ray shield range also compares Relatively limited, various types of non-browning glasses respectively have advantage and disadvantage to be unfavorable for radiation protection glass in this way for using very big limitation The popularization of glass.

Utility model content

The purpose of this utility model is to provide a kind of high-intensitive low emissivity glasses, to solve to propose in above-mentioned background technique Various types of non-browning glasses there is the advantage and disadvantage of radiation protection, the problem of being unfavorable for the use of non-browning glass.

To achieve the above object, the utility model provides the following technical solutions: a kind of high intensity low emissivity glass, including anti- Frame is protected, the inside of the protective frame is provided with glass for one week, and the junction of the glass and protective frame is provided with sealing strip, described One layer of the surface of glass is provided with decorating film.

Preferably, the protective frame includes connector, mounting groove, framework, security bar and filler strip, and the inside of the framework is set It is equipped with security bar, the security bar is internally provided with mounting groove, and the mounting groove is internally provided with filler strip, the framework Junction is provided with connector, and the protective frame is fixedly connected by mounting groove with glass.

Preferably, the glass includes protective layer, antiultraviolet separation layer, radiation protection reflecting layer, metallic insulation layer, antioxygen Change separation layer, wear-resistant dope layer and neutralize protective layer, antiultraviolet separation layer is provided on the right side of the protective layer, it is described anti- It is provided with radiation protection reflecting layer on the right side of ultraviolet light separation layer, is provided with metallic insulation layer on the right side of the radiation protection reflecting layer, It is provided with anti-oxidant separation layer on the right side of the metallic insulation layer, is provided with wear-resistant coating on the right side of the anti-oxidant separation layer Layer, neutralization protective layer is provided on the right side of the wear-resistant dope layer.

Preferably, the upper and lower ends of the mounting groove are provided with filler strip, and the material of the filler strip is elastic rubber.

Preferably, decorating film is provided on the glass, the decorating film is applied to the tow sides of glass and each side is equal Width goes out glass a part.

Preferably, the main metal of metallic insulation layer is the metallic elements such as lead, barium, samarium and these metallic elements have There is the advantages of realizing its shielding property.

Compared with prior art, the utility model has the beneficial effects that the utility model joined in non-browning glass The advantages of various types of non-browning glass, by being provided with the various substances for preventing radiation on glass, such as in glass Protective layer, antiultraviolet separation layer, radiation protection reflecting layer, metallic insulation layer, anti-oxidant separation layer, wear-resistant painting are provided on glass The bed of material and neutralization protective layer can be effectively prevented distributing for radiation by the device of these radiation protections, while also solve each The deficiency of kind of non-browning glass, various the advantages of preventing radiant glass, are pooled together, thus can effectively easily into The control of row radiation, is conducive to the use of non-browning glass in this way.

Detailed description of the invention

Fig. 1 is the non-browning glass structural schematic diagram of the utility model；

Fig. 2 is the protective frame structural schematic diagram of the utility model；

Fig. 3 is the inside glass structural schematic diagram of the utility model；

In figure: 1, protective frame；11, connector；12, mounting groove；13, framework；14, security bar；15, filler strip；2, glass； 21, protective layer；22, antiultraviolet separation layer；23, radiation protection reflecting layer；24, metallic insulation layer；25, anti-oxidant separation layer；26, Wear-resistant dope layer；27, protective layer is neutralized；3, sealing strip；4, decorating film.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of high intensity low emissivity glass, including protection Frame 1, the inside of protective frame 1 are provided with glass 2 for one week, and glass 2 and the junction of protective frame 1 are provided with sealing strip 3, glass 2 One layer of surface is provided with decorating film 4.

In order to protect non-browning glass to be damaged, in the utility model, it is preferred that protective frame 1 includes connector 11, peace Tankage 12, framework 13, security bar 14 and filler strip 15, framework 13 are internally provided with security bar 14, the inside setting of security bar 14 There is mounting groove 12, mounting groove 12 is internally provided with filler strip 15, and the junction of framework 13 is provided with connector 11, and protective frame 1 is logical Mounting groove 12 is crossed to be fixedly connected with glass 2.

In order to preferably reach the function of radiation protection, in the utility model, it is preferred that glass 2 includes protective layer 21, anti-purple Outside line separation layer 22, radiation protection reflecting layer 23, metallic insulation layer 24, anti-oxidant separation layer 25, wear-resistant dope layer 26 and neutralization Protective layer 27, the right side of protective layer 21 are provided with antiultraviolet separation layer 22, and the right side of antiultraviolet separation layer 22 is provided with anti- Radiation reflecting layer 23, the right side in radiation protection reflecting layer 23 are provided with metallic insulation layer 24, and the right side of metallic insulation layer 24 is provided with Anti-oxidant separation layer 25, the right side of anti-oxidant separation layer 25 are provided with wear-resistant dope layer 26, the right side of wear-resistant dope layer 26 It is provided with and neutralizes protective layer 27.

In order to mitigate the impact force that non-browning glass is collided, in the utility model, it is preferred that mounting groove 12 up and down Both ends are provided with filler strip 15, and the material of filler strip 15 is elastic rubber.

In order to enable non-browning glass is more beautiful, in the utility model, it is preferred that be provided with decorating film on glass 2 4, decorating film 4 is applied to the tow sides of glass 2 and the wide glass a part out in each side.

In order to preferably work, in the utility model, it is preferred that the main metal of metallic insulation layer 24 is lead, barium, samarium etc. Metallic element and these metallic elements have the advantages that realize its shielding property.

The working principle and process for using of the utility model: after the utility model installs, when radiation protection glass to be used It when glass, is placed in the mounting groove 12 in protective frame 1 in the edge of glass 2 first, at this moment clamps security bar 14, make the anti-of two sides Guard strip 14 is adjacent to glass 2, then the filler strip 15 of 2 upper and lower ends of glass is clamped, and is thus capable of fixing glass 2, at this moment will protection Framework 13 in frame 1 is fixedly connected with the connector 11 of the junction of surrounding, then closely connects the soft item 2 of anticollision with protective frame 1 It connects to form protection, when the substance for having radiation will dissipate, the at this moment antiultraviolet separation layer on the glass 2 outside non-browning glass 22 will isolation ultraviolet, the radiation protection reflecting layer 23 inside antiultraviolet separation layer 22 can prevent the substance of radiation from entering room It is interior, while metallic insulation layer 24 can also prevent distributing for heat, maintain room temperature, if under moist environment, can by it is anti-oxidant every Absciss layer 25 prevents, and is thus not in the situation of oxidation, the surface of glass 2 is equipped with wear-resistant dope layer 26, in this way for anti- The service life of radiant glass will greatly be reinforced, while under the action of protective layer 21, so that non-browning glass surface is not It can be damaged.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of high intensity low emissivity glass, including protective frame (1), it is characterised in that: the inside of the protective frame (1) is set for one week It is equipped with glass (2), the junction of the glass (2) and protective frame (1) is provided with sealing strip (3), the surface one of the glass (2) Layer is provided with decorating film (4).

2. a kind of high-intensitive low emissivity glass according to claim 1, it is characterised in that: the protective frame (1) includes connecting Connector (11), mounting groove (12), framework (13), security bar (14) and filler strip (15), being internally provided with for the framework (13) are anti- Guard strip (14), the security bar (14) are internally provided with mounting groove (12), and the mounting groove (12) is internally provided with filler strip (15), the junction of the framework (13) is provided with connector (11), and the protective frame (1) passes through mounting groove (12) and glass (2) it is fixedly connected.

3. a kind of high-intensitive low emissivity glass according to claim 1, it is characterised in that: the glass (2) includes protection Layer (21), radiation protection reflecting layer (23), metallic insulation layer (24), anti-oxidant separation layer (25), resists antiultraviolet separation layer (22) It wears dope layer (26) and neutralizes protective layer (27), be provided with antiultraviolet separation layer (22) on the right side of the protective layer (21), It is provided with radiation protection reflecting layer (23) on the right side of the antiultraviolet separation layer (22), the right side of the radiation protection reflecting layer (23) It is provided with metallic insulation layer (24), is provided with anti-oxidant separation layer (25), the antioxygen on the right side of the metallic insulation layer (24) Change and be provided with wear-resistant dope layer (26) on the right side of separation layer (25), is provided with neutralization on the right side of the wear-resistant dope layer (26) Protective layer (27).

4. a kind of high-intensitive low emissivity glass according to claim 2, it is characterised in that: above and below the mounting groove (12) Both ends are provided with filler strip (15), and the material of the filler strip (15) is elastic rubber.

5. a kind of high-intensitive low emissivity glass according to claim 1 or 2, it is characterised in that: be arranged on the glass (2) Have decorating film (4), the decorating film (4) is applied to the tow sides of glass (2) and the wide glass a part out in each side.