CN2613379Y - Solidifying dryer for coating and printed layer on surface of glass container - Google Patents

Abstract

The utility model provides a curing drying device for the glass vessel surface coating layer and printing layer. The traditional curing method adopts the air heating drying method, in which the electrical bar is used as the thermal resource. The method is inferior in that the drying time is long and the energy consumed is great. The utility model provides the curing drying device comprising a drying furnace body which is polygonal or cylindrical, a reflex housing plate which is polygonal or cylindrical and is positioned in the drying furnace body and installed along the length direction, a far-infrared illuminating lamp which is installed along the length direction of the drying furnace body, a mesh belt movable along the length direction of the drying furnace which is positioned within the illumination scope of the far-infrared illuminating lamp. The utility model of drying device is characterized by low consumption of electricity, short drying time and good curing performance for the resin-emulsion paint and resin ink.

Description

The curing drying device of glass container external coating layer and printed layers

Technical field

The utility model relates to the curing drying device of glass container external coating layer and printed layers, belongs in the dry technology category of the curing technology of glass container surface heat curable coating and glass container surface resin printing ink.

Background technology

In general the processing method of glass container external coating or printing is divided into two big classes.

One class is to use inorganic coating or inorganic ink, with high temperature (300～600 ℃) sintering method.

Another kind of cold coating or the resin printing ink of being to use with the method that 150～200 ℃ temperature are carried out heat cure, perhaps uses UV (ultraviolet ray irradiation) to replace heat cure, printing ink equally also to adopt ultraviolet ray irradiation curable ink.

In the thermal curing methods, if use is heat-curing resin coating and resin printing ink, general drying mode all is to adopt the heated-air drying mode.So-called heated-air drying mode is exactly with heated with ambient air with electrical bar or combustion gas hot pin, with the blower fan circulation, make whole furnace air temperature uniformity, under 150～200 ℃ temperature, with 15～20 minutes time, heat-curing resin coating or resin printing ink are carried out dry solidification.

Adopt the heated-air drying mode, its thermal source is an electrical bar, and then power consumption is very big, and generally all about 150～200KW, dry required time is also longer.For example propylene melmac coating, acrylic acid-epoxy resin coating are solidified with traditional heated-air drying mode, need under 180～200 ℃ temperature, and be 20 fens kinds hardening time, and consumption electric power is 200KW.

Special needs to be pointed out is, with inorganic coating, inorganic ink Comparatively speaking, transparency height after cold coating, the application of resin printing ink.Behind the hot setting, the different in kind of inorganic coating and cold coating, the cold coating bottle is recyclable to be utilized again, and to the protection environment, efficent use of resources is more favourable, thereby extensively is subjected to people's welcome, and can envision in the future can be increasing to the demand of resin-coated bottle.

Summary of the invention

So the purpose of this utility model will address the above problem exactly, the curing drying device of a kind of glass container top layer application layer and printed layers is provided, it is few that it had both consumed electric power, and drying time is short, makes the solidification effect of cold coating, resin printing ink better again.

For achieving the above object, the utility model provides the curing drying device of a kind of glass container external coating layer and printed layers, comprising:

Drying oven shaft, its shape are polygonal or cylindrical shape;

The reflection cover plate for polygonal or columnar reflection cover plate, is arranged in the described drying oven shaft, and installs along its length;

Red place far away line irradiation light is installed along the length direction of described drying oven shaft;

The guipure that can move along the length direction of drying oven is arranged in the range of exposures of described far-infrared radiation lamp.

In the curing drying device of above-mentioned glass container external coating layer and printed layers, when described far-infrared radiation lamp was worked, its temperature was set in 300～600 ℃ of scopes.

In the curing drying device of above-mentioned glass container external coating layer and printed layers, described reflection cover plate is to make with stainless steel material or aluminum alloy materials.

In the curing drying device of above-mentioned glass container external coating layer and printed layers, described far-infrared radiation lamp itself is provided with reflecting plate.

Operation principle of the present utility model is: with far-infrared radiation light irradiation glass container, the application layer of curing glass vessel surface reflects cover plate and the far infrared of far-infrared radiation lamp can be reflected again according to making solidification effect better to the glass container dual-radiation fast.

Description of drawings

Fig. 1 is the structural representation of drying oven of the present utility model;

The texture edge schematic diagram of Fig. 2 drying oven of the present utility model;

Fig. 3 is the structural representation of embodiment of another shape of patent drying oven of the present utility model.

The specific embodiment

The utility model is described in further detail by the following examples.

As shown in Figures 1 to 3, curing drying device of the present utility model is used for solidifying dry glass container P external coating layer and printed layers Q.

This drying device is made up of drying oven shaft 1, reflection cover plate 2, far-infrared radiation lamp 3 and guipure 4, please referring to Fig. 1.

Drying oven shaft 1 is a polygonal or columnar, and temperature can be maintained within a certain range in the stove.Drying oven shaft 1 shown in Figure 2 is linear, also can be the U font.Paint booth (not drawing among the figure) is arranged before the porch of drying oven, destatic chamber (not drawing among the figure).Glass container P enters paint booth after static is removed in the chamber of destaticing, application or finish printing after enter drying oven.When glass container P by drying oven inside, when come out in the exit, the coating on glass container P surface has been solidified in other words bone dry fully.

Reflection cover plate 2 is along the length direction design of the inside of drying oven body 1.The reflecting surface 2A of reflection cover plate 2 makes of stainless steel material or aluminum alloy materials can improve reflection efficiency.From this point, reflection cover plate 2 is all made of stainless steel material or aluminum alloy materials as integral body, and then effect is better.If reflecting surface 2A makes of stainless steel material or aluminum alloy materials, other parts are made without stainless steel material or aluminum alloy materials, and so at two-part connecting portion, the material of other parts will be stood 300～600 ℃ high temperature.The shape of reflection cover plate 2 is consistent with shaft 1 shape, or polygonal (see figure 1), or columnar (see figure 3), can more effectively improve the radiation response of far-infrared radiation lamp 3 like this.

Far-infrared radiation lamp 3 is installed on the reflection cover plate 2.Far-infrared radiation lamp 3 is the same with reflection cover plate 2, installs along the drying oven length direction.The concrete installation site of far-infrared radiation lamp 3 be the reflection cover plate 2 the top and/or one-sided and/or one-sided below, (seeing Fig. 1, Fig. 3) why is far-infrared radiation lamp 3 only installed in the one-sided of reflection cover plate 2? because can utilize reflection cover plate 2 so better.That is to say, this one side of far-infrared radiation lamp 3 is not installed, the far infrared reflection past on opposite can be impinged upon on the surface of glass container.

In addition, far-infrared radiation lamp 3 itself also has reflecting plate 3A, and the shape of reflecting plate 3A is a center curvature with irradiation light 3.

Glass container P is subjected to the direct irradiation of far-infrared radiation lamp 3 on the one hand, the irradiation of reflecting plate 3A polymerization light, the reflection ray irradiation that is subjected to reflecting cover plate 2 on the other hand again.At this moment, far-infrared radiation lamp 3 surface of the light tube temperature can be set in 300～600 ℃ of scopes, a certain design temperature error can be controlled at ± 3～5 ℃ of scopes in.

Guipure 4 has load bearing seat 4A, and load bearing seat 4A bearing glass container P in the range of exposures of far-infrared radiation lamp 3, moves (see figure 2) along the length direction of drying oven 1.The kind of guipure 4 has the mesh formula, spindle formula, chain-type etc.The drying device of this patent, begin till the outlet from the inlet of drying oven 1, guipure 4 is carrying glass container P this interval moving, the application layer on 3 pairs of glass container surfaces of far-infrared radiation lamp and printed layers Q are cured dry the processing, and the translational speed of guipure 4 should be set with reference to drying time.

Form the heat-curing resin of glass container P external coating layer and printed layers Q, its kind has: allyl resin, epoxy resin, silicone resin, amino-alkyd resin etc.

Drying device of the present utility model not only be fit to solidify dry these resinous coats, and the heat-curing resin coating of other kinds is also had splendid curing drying effect.And no matter coating is a liquid type, or two-liquid type, be sprayed coating, or printed layers, it is constant to solidify drying effect.

For example: propylene melmac coating or acrylic acid-epoxy resin coating, if solidify drying with conventional method, such as using the heat-wind circulate drying stove, with 180～200 ℃ temperature, need 20 minutes hardening time, consumes electric power 200KW.And with the drying device of the utility model profit, the surface temperature of far-infrared radiation lamp 3 is set in 480 ℃, and only need 5 minutes hardening time, consume electric power 60KW.

Above embodiment illustrates that device of the present utility model is to finish the patent purpose.That is to say at glass container P external coating layer and printed layers Q and solidify in this field of drying device, drying device of the present utility model, its shaft 1 shape is a polygonal or columnar.Reflection cover plate 2 also is a polygonal or columnar, and reflection cover plate 2 is installed along the drying oven length direction.Far-infrared radiation lamp 3 is to install along reflection cover plate 2 length directions, and guipure 4 bearing glass container P in the range of exposures of far-infrared radiation lamp 3, move along the length direction of drying oven 1.The drying oven of this kind structure has good curing drying effect.From consuming electric power, drying device of the present utility model has only 1/3rd of traditional heat-wind circulate drying stove.

During 3 work of far-infrared radiation lamp, the surface of the light tube temperature can be set in 300～600 ℃ of scopes.And the reflecting surface 2A of reflection cover plate 2 makes of stainless steel material or aluminum alloy materials, so just can obviously shorten and solidify drying time.

The drying device of this patent has solidification effect preferably to heat-curing resin coatings such as allyl resin coating, epoxy coating, silicone coating, amino-alkyd resin coatings.It is also better to solidify dried coating transparency.

It is few that drying device of the present utility model consumes electric power, and drying time is short, and it is better to solidify drying effect, and the coating transparency is also better.

Claims (2)

1. the curing drying device of glass container external coating layer and printed layers comprises:

Drying oven shaft, its shape are polygonal or cylindrical shape;

The reflection cover plate for polygonal or columnar reflection cover plate, is arranged in the described drying oven shaft, and installs along its length;

Red place far away line irradiation light is installed along the length direction of described drying oven shaft;

The guipure that can move along the length direction of drying oven is arranged in the range of exposures of described far-infrared radiation lamp.

2. the curing drying device of glass container external coating layer as claimed in claim 1 and printed layers is characterized in that, described far-infrared radiation lamp itself is provided with reflecting plate.

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