CN203472279U - Low-temperature type ultraviolet ray solidifying device - Google Patents

Abstract

The utility model discloses a low-temperature type ultraviolet ray solidifying device which comprises an electric part box, a continuous conveying mechanism, a solidifying box and an air draft system. The continuous conveying mechanism and the solidifying box are both installed on the upper side of the electric part box, the continuous conveying mechanism passes through the interior of the solidifying box, an ultraviolet ray lamp cover with an ultraviolet ray lamp tube is installed in the solidifying box, the air draft system is arranged on the upper side of the solidifying box and communalized to the interior of the solidifying box, an evaporation glass cold mirror capable of reflecting ultraviolet rays and transmitting infrared rays is adopted to the ultraviolet ray lamp cover, and a cold air conveying structure is further installed in the solidifying box. The low-temperature type ultraviolet ray solidifying device is high in practicability, the temperature of the surface of a working object can be rapidly reduced to provide a favorable environment for solidification, the service life of the lamp tube can be greatly prolonged, and the production efficiency of products is greatly improved.

Description

A kind of low form ultraviolet curing device

Technical field

The utility model relates to printing, paint industry, relates in particular to a kind of low form ultraviolet curing device.

Background technology

Please refer to Fig. 1, traditional ultraviolet curing device comprises electric parts case a, continuous conveying mechanism b, ultraviolet lampshade c and exhausting system d.Described ultraviolet lampshade c is arranged on the upside of described electric parts case a, and described ultraviolet lampshade c adopts mirror-reflection aluminium sheet to carry out uv reflectance.Described continuous conveying mechanism b is also arranged on the below of upside and the described ultraviolet lampshade c of process of electric parts case a.Described exhausting system d connects the upper end of described ultraviolet lampshade c, the hot blast producing for taking ultraviolet lampshade c away.

Because described ultraviolet lampshade c adopts mirror-reflection aluminium sheet, carry out uv reflectance, mirror-reflection aluminium sheet cannot filter infrared ray, and infrared reflection is in the thing surface that is cured, and makes that working substance surface temperature is too high to be damaged.Described exhausting system d only carries out cooling to the fluorescent tube of ultraviolet lampshade c, the outside room temperature cold wind of ultraviolet curing device enters described ultraviolet lampshade c internal cavities by described exhausting system d, outside ultraviolet curing device is discharged in described exhausting system d forced draft, wind path so circulates.Yet heat in lamp house can not be effectively taken away in the circulation of room temperature cold wind, causes lamp house accumulated heat, curing room temperature is up to 85 ℃.Therefore, easily cause working substance to occur being out of shape, breaking, peel off etc. defect; Greatly reduce on the other hand fluorescent tube service life.

Utility model content

The purpose of this utility model is to provide a kind of low form ultraviolet curing device, has solved working substance surface temperature too high and occur being out of shape, breaking, peel off and fluorescent tube is benefited from low problem of life-span.

For achieving the above object, the utility model provides a kind of low form ultraviolet curing device, comprise electric parts case, continuous conveying mechanism, solidify case and exhausting system, described continuous conveying mechanism and curing case are installed in the upside of described electric parts case, and described continuous conveying mechanism is through the inside of described curing case, in described curing case, the ultraviolet lampshade with quartz burner is installed, described exhausting system is located at the upside of described curing case and is communicated to the inside of described curing case, described ultraviolet lampshade adopts can uv reflectance and see through ultrared evaporation glass Cold Mirrors, in described curing case, cold air structure for conveying is also installed.

Preferably, the upper end of described ultraviolet lampshade is connected with pipeline, and described pipeline is connected to described exhausting system.

Preferably, described cold air structure for conveying comprises cold duct and cold air nozzle, and described cold duct is connected to cold air supply device, and described cold air nozzle connects puts described cold duct.

Preferably, described cold air nozzle is coniform.

Compared with prior art, low form ultraviolet curing device of the present utility model is owing to adopting evaporation glass Cold Mirrors to carry out uv reflectance, evaporation glass Cold Mirrors can see through infrared ray, uv reflectance, the light reflecting irradiates on working substance after one deck evaporation quartz glass filters out part infrared ray again, can effectively reduce working substance surface temperature; In addition, owing to utilizing cold air structure for conveying initiatively to send into cold wind to solidifying the curing room of case, make to solidify that indoor air circulation is faster, heat exchange is more abundant, has taken away a large amount of radiant heat, quartz burner is carried out to abundant effective cooling simultaneously; Combination through cold air structure for conveying and evaporation glass Cold Mirrors, can make working substance surface temperature below 50 ℃, has avoided working substance to occur all rough sledding, the service life of also having improved quartz burner because of excess Temperature simultaneously.

By following description also by reference to the accompanying drawings, it is more clear that the utility model will become, and these accompanying drawings are used for explaining embodiment of the present utility model.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of ultraviolet curing device of the prior art.

Fig. 2 is the schematic diagram of the utility model low form ultraviolet curing device.

The specific embodiment

With reference now to accompanying drawing, describe embodiment of the present utility model, in accompanying drawing, similarly element numbers represents similar element.

Please refer to Fig. 2, described low form ultraviolet curing device comprises electric parts case 1, continuous conveying mechanism 2, solidifies case 3 and exhausting system 4.Described continuous conveying mechanism 2 and curing case 3 are installed in the upside of described electric parts case 1, and described continuous conveying mechanism 2 is through the inside of described curing case 3.Described exhausting system 4 is located at the upside of described curing case 3 and is communicated to the inside of described curing case 3.Ultraviolet lampshade 5 and cold air structure for conveying 6 with quartz burner are installed in described curing case 3.Described ultraviolet lampshade 5 adopts can uv reflectance and see through ultrared evaporation glass Cold Mirrors.The upper end of described ultraviolet lampshade 5 is connected with pipeline 7, and described pipeline 7 is connected to described exhausting system 4.Described cold air structure for conveying 6 comprises cold duct 8 and cold air nozzle 9, and described cold duct 8 is connected to cold air supply device (not shown), and described cold air nozzle 9 connects puts described cold duct 8.Described cold air nozzle 9 is coniform.

During work, working substance delivers in described curing case 3 through described continuous conveying mechanism 2, irradiates to solidify by described continuous conveying mechanism 2, to be transported out by the quartz burner on described ultraviolet lampshade 5 again.In the process of irradiating at quartz burner, can produce heat, and this part heat is extracted out by described exhausting system 4, and in the process of irradiating at quartz burner, from described cold air structure for conveying 6 toward the interior transporting cold-air of described curing case 3, to reduce the temperature of solidifying in case 3.

In sum, because adopting evaporation glass Cold Mirrors, described ultraviolet lampshade 5 carries out ultraviolet reflection, evaporation glass Cold Mirrors can see through infrared ray, uv reflectance, the light reflecting irradiates on working substance after one deck evaporation glass filters out part infrared ray again, can effectively reduce working substance surface temperature; In the quartz burner irradiation at described ultraviolet lampshade 5, utilize the curing room of 6 pairs of described curing casees 3 of described cold air structure for conveying initiatively to send into cold wind, the curing indoor air circulation that makes described curing case 3 is faster, heat exchange is more abundant, and taken away a large amount of radiant heat, quartz burner is carried out fully effectively cooling simultaneously.Combination through described cold air structure for conveying 6 and evaporation glass Cold Mirrors, can make working substance surface temperature below 50 ℃, has avoided working substance to occur all rough sledding, the service life of also having improved quartz burner because of excess Temperature simultaneously.

Above combination most preferred embodiment is described the utility model, but the utility model is not limited to the embodiment of above announcement, and should contain the various modifications of carrying out according to essence of the present utility model, equivalent combinations.

Claims (4)

1. a low form ultraviolet curing device, comprise electric parts case, continuous conveying mechanism, solidify case and exhausting system, described continuous conveying mechanism and curing case are installed in the upside of described electric parts case, and described continuous conveying mechanism is through the inside of described curing case, in described curing case, the ultraviolet lampshade with quartz burner is installed, described exhausting system is located at the upside of described curing case and is communicated to the inside of described curing case, it is characterized in that: described ultraviolet lampshade adopts can uv reflectance and see through ultrared evaporation glass Cold Mirrors, in described curing case, cold air structure for conveying is also installed.

2. low form ultraviolet curing device as claimed in claim 1, is characterized in that: the upper end of described ultraviolet lampshade is connected with pipeline, and described pipeline is connected to described exhausting system.

3. low form ultraviolet curing device as claimed in claim 1, is characterized in that: described cold air structure for conveying comprises cold duct and cold air nozzle, and described cold duct is connected to cold air supply device, and described cold air nozzle connects puts described cold duct.

4. low form ultraviolet curing device as claimed in claim 3, is characterized in that: described cold air nozzle is coniform.

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