CN110976247B - Device of super mute skin sense panel of lamp system - Google Patents

Abstract

The invention belongs to the technical field of photocuring, and particularly relates to a device for a lamp-made ultra-matte skin-feel plate, which comprises a gallium lamp box, a xenon lamp box and a mercury lamp box which are sequentially arranged along the conveying direction of the plate, wherein conveying belts for conveying the plate are arranged among the gallium lamp box, the xenon lamp box and the mercury lamp box, and meanwhile, closed spaces for accommodating the plate conveyed in place through the conveying belts are respectively arranged; wherein, the xenon lamp box is internally provided with an oxygen driving device, and generates ultraviolet light with the wavelength of 172nm in the xenon lamp box. When the 172nm excimer xenon lamp is adopted to radiate the UV coating, because the ultraviolet light penetration capability of the wave band is limited, the UV coating only carries out photocuring on the coating with the thickness of about 0.1um on the surface of the coating, and the coating with the deeper thickness is still in a liquid state, so that the photocured surface coating can generate uniform wrinkles due to shrinkage to generate a microscopic concave-convex surface, thereby achieving the effect of matte skin feel, overcoming the defect that the matting powder can not achieve the ultra-matte skin feel, and having no need of the matting powder.

Description

Device of super mute skin sense panel of lamp system

Technical Field

The invention belongs to the technical field of photocuring, and particularly relates to a device for a lamp-made ultra-matte skin-feel plate.

Background

At present, no 172nm excimer lamp ultra-matte skin-feel plate device is produced in China, the ultra-matte skin-feel plate device is widely applied to the ultra-matte surface coating of wood plates, and the ultra-matte surface coating is realized by adding filler of matting powder into UV (ultraviolet) paint, and the method has the following defects:

1. the matte effect of the surface obtained by adding the filler is that the protruding parts formed by the filler in the coating scatter light to achieve the matte effect, and the matte effect is irregular and uneven and has uncomfortable hand feeling. The surface obtained by curing with a 172nm lamp is a matte effect due to scattering of light by the corrugations of the entire surface. The matte effect is more uniform, and the surface skin feel is good.

2. The matting powder belongs to nanometer ultrafine powder, generates flying dust when in use, and has great harm to respiratory tract.

3. The matting powder has thickening and thixotropy, and the viscosity of the coating is not easy to control.

4. The matting powder belongs to nanometer ultrafine powder, has small thickening and thixotropy, needs to be imported for good matting effect, and is expensive.

In view of the above problems, the present inventors have made extensive research and innovation based on practical experience and professional knowledge in engineering applications of such products for many years, and together with the application of theory, in order to create a device for producing a light-made ultra-matte skin-feel sheet material, which is more practical.

Disclosure of Invention

The invention provides a device for manufacturing a lamp type super-matte skin-feel plate, which effectively solves the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that: the method comprises the following steps:

a device for manufacturing a super-matte skin-feel plate by lamps comprises a gallium lamp box, a xenon lamp box and a mercury lamp box which are sequentially arranged along the conveying direction of the plate, wherein conveying belts for conveying the plate are arranged among the gallium lamp box, the xenon lamp box and the mercury lamp box, and closed spaces for accommodating the plate conveyed in place by the conveying belts are respectively arranged;

wherein, the xenon lamp box is internally provided with an oxygen-expelling device which generates ultraviolet light with the wavelength of 172 nm.

Further, drive oxygen device is including setting up in the draught fan of export, a plurality of nitrogen gas nozzles and the oxygen detector of the outside nitrogen gas storage tank of UNICOM.

Furthermore, the enclosed spaces of the gallium lamp box, the xenon lamp box and the mercury lamp box are respectively connected with an environment-friendly treatment system through a concentrated hole site, and the environment-friendly treatment system is used for collecting and/or treating the waste gas and heat in the enclosed spaces.

Furthermore, the closed space comprises a main body, two door bodies arranged at the head end and the tail end of the plate conveying direction on the main body, and a detachable cover plate arranged at the top of the main body, wherein each light source is connected with the cover plate.

Further, the cover plate comprises at least two parts which are arranged in a relatively rotating mode, wherein at least one part can rotate under the condition that the other parts are arranged in a sealing mode relative to the main body to open the closed space and drive the lamp source to move out of the closed space.

Furthermore, the cover plate is provided with at least two rows of guide wheel sets relative to the inner side surface of the closed space along the conveying direction of the conveying belt, the rotating plane of each guide wheel in each guide wheel set is parallel to the inner side surface, and the lamp source is connected with the guide wheel sets in a sliding mode through a sliding plate.

Further, the lamp source with be provided with high adjusting device between the apron, high adjusting device includes two ladder fixture blocks of opposite directions motion, two the ladder fixture block is along the perpendicular to the linear guide of conveyer belt removes, the ladder fixture block is for the outside of other side and the fixed spring coupling that sets up of one end, two be provided with the ladder installation piece between the ladder fixture block, the ladder installation piece with the ladder fixture block cooperates through the stair structure of slope, the stair structure include horizontally non return face, and with the spigot surface that the non return face slope set up.

Furthermore, the top of the sliding plate is provided with an adjusting rod penetrating through the cover plate, a hole in the cover plate, which is used for penetrating through the adjusting rod, is a straight hole, a rubber structure is filled in the straight hole, a gap is arranged on the rubber structure, and the gap is sealed by coating and extruding the adjusting rod.

Further, the section of the part of the adjusting rod, which is covered by the rubber structure, is rectangular.

Further, the device for manufacturing the ultra-matte skin-feel plate by using the lamp is provided with a control circuit, wherein the control circuit comprises an alternating current power supply, a main power switch, a power panel main control panel and a key control panel; the power panel main control board is controlled by the main power switch, and is provided with a relay, a transformer and a single chip microcomputer, a normally open contact group of the relay is connected in series in a power supply loop of the electronic ballast, the transformer is connected with the lamp source, and the key control board is connected with the single chip microcomputer.

Through the technical scheme, the invention has the beneficial effects that:

when the 172nm excimer xenon lamp is adopted to radiate the UV coating, because the ultraviolet light penetration capability of the wave band is limited, the UV coating is only photocured on the coating with the thickness of about 0.1um on the surface of the coating, and the coating with the deeper thickness is still in a liquid state, so that the photocured surface coating can generate uniform wrinkles due to shrinkage to generate a microscopic concave-convex surface, thereby achieving the effect of matte skin feel, overcoming the defect that the matting powder cannot achieve the ultra-matte skin feel, and finally enabling all coatings of the plate to achieve complete curing by matching with a gallium lamp box and a mercury lamp box without expensive matting powder.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is an overall frame view of a device for making a lighted extra matte skin feel panel;

fig. 2 is an exploded schematic view of the enclosed space (door not shown);

FIG. 3 is another schematic angle view of FIG. 2;

FIG. 4 is a cross-sectional view of the cover plate (including the slide plate and the light source);

FIG. 5 is a schematic view showing the relative rotation of two parts of the cover plate;

FIG. 6 is a schematic view of the slide plate of FIG. 5 being displaced;

FIG. 7 is a schematic view of the installation of the height adjustment device;

FIG. 8 is an enlarged view of a portion of FIG. 7 at A;

FIG. 9 is a schematic illustration of the step mounting block of FIG. 8 in an displaced position;

FIG. 10 is a schematic view of the mounting of the adjustment lever relative to the cover plate;

FIG. 11 is an enlarged view of a portion of FIG. 7 at B;

FIG. 12 is an enlarged view of a portion of FIG. 10 at C;

reference numerals: gallium lamp box 1, xenon lamp box 2, mercury lamp box 3, conveyer belt 4, storage tank 5, main part 6, apron 7, lamp source 8, leading wheel 9, sliding plate 10, ladder fixture block 11, spring 12, ladder installation piece 13, regulation pole 14, rubber structure 15, gap 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it should be noted that the orientations or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, the device for manufacturing the ultra-matte skin-feel plate by the lamp comprises a gallium lamp box 1, a xenon lamp box 2 and a mercury lamp box 3 which are sequentially arranged along the conveying direction of the plate, wherein a conveying belt 4 for conveying the plate is arranged among the gallium lamp box 1, the xenon lamp box 2 and the mercury lamp box 3, and closed spaces for accommodating the plate conveyed in place by the conveying belt 4 are respectively arranged; wherein, the xenon lamp box 2 is internally provided with an oxygen driving device, and generates ultraviolet light with the wavelength of 172nm in the oxygen driving device.

When the 172nm excimer xenon lamp is adopted to radiate the UV coating, because the ultraviolet light penetration capability of the wave band is limited, the UV coating is only photocured on the coating with the thickness of about 0.1um on the surface of the coating, and the coating with the deeper thickness is still in a liquid state, so that the photocured surface coating can generate uniform wrinkles due to shrinkage to generate a microscopic concave-convex surface, thereby achieving the effect of matte skin feel, overcoming the defect that the matting powder cannot achieve the ultra-matte skin feel, and finally achieving the complete curing of each coating of the plate by matching with the gallium lamp box 1 and the mercury lamp box 3 without expensive matting powder. The 172nm excimer xenon lamp has low energy consumption of only 5W/cm, the 172nm Vacuum UV (VUV) wave band is an unstable molecule of the excimer, is a molecular state generated by external energy excitation of laser gas, has the existence time of only tens of nanoseconds, and generates ultraviolet photon radiation in the process of converting from a bound excited state to a weak bound ground state, different excited state molecules generate ultraviolet photons with different wavelengths, and the energy of the photons is usually between 3.5-10eV, which is enough to open most chemical bonds. The ultraviolet output energy of 172nm is concentrated, the ultraviolet output intensity is high and can reach 100mW/cm2, expensive matte powder and skin feeling auxiliary agents are not needed, the glossiness of the matte film after the film is cured is below 2 (60 degrees), the skin feeling is good, and the film is resistant to stain and scraping.

In this embodiment, the oxygen-expelling device is arranged to effectively overcome the problem of oxygen inhibition, eliminate oxygen inhibition to improve the efficiency of radical polymerization, and simultaneously avoid ozone generated by 172nm photon irradiation, specifically, the oxygen content is preferably controlled to be less than 100 ppm.

In this embodiment, the conveyor belt 4 may be continuous or spaced for the purpose of facilitating installation and position adjustment of the apparatus, as shown in fig. 1, which can achieve the technical purpose of the present invention. The conveyor belt 4 is preferably subjected to stepless speed regulation, and anti-deviation devices can be arranged on two sides of the conveyor belt to ensure smooth conveying, and a Teflon mesh belt can be adopted in specific implementation.

Preferably, the oxygen-purging device comprises an induced draft fan arranged at the outlet, a plurality of nitrogen nozzles communicated with the external nitrogen storage tank 5 and an oxygen detector. The oxygen in the airtight space is replaced by the nitrogen from the storage tank 5 through the nitrogen nozzle, and the replaced oxygen is led out from an outlet under the driving of the draught fan, wherein the replacement process is controlled through the detection result of the oxygen detector, and the driving effect is guaranteed. The content of nitrogen in the storage tank 5 is preferably more than 90%, and oxygen in the xenon lamp box 2 can be completely driven away by continuously keeping a certain pressure by utilizing the characteristic that the nitrogen is stable in chemical property and is deposited on the bottom in a specific weight, so that the oxygen is isolated from contacting with a workpiece.

Before the nitrogen nozzle and the oxygen detector enter the closed space, the nitrogen nozzle and the oxygen detector are preferably adsorbed and filtered by activated carbon, so that the effective removal of oxygen is ensured.

The enclosed spaces of the gallium lamp box 1, the xenon lamp box 2 and the mercury lamp box 3 are respectively connected with an environment-friendly treatment system through a concentrated hole site, and the environment-friendly treatment system is used for collecting and/or treating waste gas and heat in the enclosed spaces. By the mode, the environment in the use space of the equipment is more favorable for the health requirement of an operator, and the energy consumption is effectively reduced by centralized treatment.

As a preferred embodiment, as shown in fig. 2 to 4, the enclosed space includes a main body 6, two door bodies disposed at the head and the tail ends of the plate conveying direction on the main body 6, and a detachable cover plate 7 disposed at the top of the main body 6, each light source 8 is connected to the cover plate 7, and the installation of the light source 8 is more convenient by the detachable cover body 7, wherein a sealing structure needs to be disposed at a portion where the cover plate is connected to the main body 6, as shown in fig. 2, a sealing strip disposed at the top of the main body 6 can ensure the effectiveness of sealing at the joint of the cover plate 7 and the main body 6 after the cover plate 7 is pressed under the action of gravity, in order to further optimize the above technical effects, protruding edges covering the local part of the main body 6 can be disposed at two sides of the cover plate 7, so that the sealing performance of the.

Preferably, the cover 7 includes at least two parts rotatably disposed with respect to each other, wherein at least one part can rotate to open the sealed space and drive the lamp source 8 to move out of the sealed space under the condition that the other part is hermetically disposed with respect to the main body 6. Through the mode that above-mentioned folding was opened, 7 local opening of accessible apron and adjust the lamp source to the convenience of further improvement operation, in this preferred scheme, need increase seal structure between each part, for example inlay sealing strip etc. of establishing, thereby can realize effectual sealedly after guaranteeing each part laminating, avoid gaseous revealing.

Specifically, the cover plate 7 is provided with at least two rows of guide wheel sets relative to the inner side surface of the closed space along the conveying direction of the conveying belt 4, the rotating plane of each guide wheel 9 in the guide wheel sets is parallel to the inner side surface, the lamp source 8 is connected with the guide wheel sets in a sliding mode through a sliding plate 10, through the arrangement of the sliding plate 10, the position of the light source 8 can be moved in a linear direction to the part of the cover 7 that can be opened, which part carries the light source 8 out of the enclosed space as shown in figures 5 and 6, by the arrangement of the guide wheels 9, there is an advantage over a continuous guide structure, see in particular the difference in position of the slide plate 10 in fig. 4 and 5, as long as the bottom of the slide plate 10 in both figures is not connected to the right-hand part of the horizontal cover plate 7, the light source 8 can be moved out, and the movable range of the light source 8 can be increased through the mode.

In order to guarantee the curing effect, as shown in fig. 7-9, be provided with height adjusting device between lamp source 8 and the apron 7, height adjusting device includes two ladder fixture blocks 11 of opposite motion, two ladder fixture blocks 11 move along the linear guide of perpendicular to conveyer belt 4, ladder fixture block 11 is connected with the fixed spring 12 that sets up of one end for the outside of other side, be provided with ladder installation piece 13 between two ladder fixture blocks 11, ladder installation piece 13 cooperates through the stair structure of slope with ladder fixture block 11, the stair structure includes the horizontally non return face, and the spigot surface that sets up with the non return face slope. Ladder installation piece 13 extrudees ladder fixture block 11 through the direction face with ladder fixture block 11 complex slope ladder structure at the rebound in-process, thereby make two ladder fixture blocks 11 keep away from relatively, and after stopping the extrusion, ladder installation piece 13 is restricted and is avoided the whereabouts through the non return face, spring 12 provides reliable extrusion force at this in-process, can make lamp source 8 install with ladder installation piece 13 in advance through above-mentioned structure, install through the quick realization of the mode of extruding ladder fixture block 11, wherein ladder structure's density that sets up is big more, the regulation of height is more accurate, when needs reduce the height, through the realization that the mode of opening apron 7 is also quick, thereby guarantee the repeatability that lamp source 8 set up to the distance of conveyer belt.

In the above-described embodiment of the invention, the light source 8 of the device can be operated on the conveyor belt 4 in a bi-directional manner, and can be placed at an angle of 90 degrees to the conveyor belt 4, or can be placed parallel to the conveyor belt 4. In the operation of the above device, in order to obtain a working environment with good heat dissipation, the lamp source 8, the power supply and the box body are preferably integrated with a cooling fan, which can be obtained by the integration in the prior art.

As shown in fig. 10 to 12, it is preferable that the top of the sliding plate 10 is provided with an adjusting rod 14 penetrating through the cover plate 7, a hole in the cover plate 7 for penetrating the adjusting rod 14 is a straight hole, the straight hole is filled with a rubber structure 15, the rubber structure 15 is provided with a gap 16, and the gap 16 is sealed by coating and extruding the adjusting rod 14. During use, the adjustment rod 14 can be moved outside the enclosed space to adjust the position of the internal light source 8, and the rubber structure 15 can be arranged to position the adjustment rod 14 while allowing the possibility of movement, and of course, the diameter of the adjustment rod 14 can be reduced appropriately at the slit 16, or the adjustment rod can be configured as a sheet structure with a rectangular cross section to ensure effective sealing, and the positioning of the sliding plate 10 can be achieved by the above-mentioned pressing of the rubber structure 15 when the cover plate 7 is partially rotated.

The device for manufacturing the lamp type ultra-matte skin-feel panel is provided with the following control circuit, wherein the control circuit comprises an alternating current power supply, a main power switch, a power panel main control panel and a key control panel; the power panel main control board is controlled by a main power switch, and is provided with a relay, a transformer and a single chip microcomputer, a normally open contact group of the relay is connected in series in a power supply loop of the electronic ballast, the transformer is connected with the lamp source 8, and the key control board is connected with the single chip microcomputer. Through above-mentioned control circuit, can realize the stepless dimming of lamp source 8, the fluorescent tube mountable accumulates the timer, records fluorescent tube life, reminds to change on time. In the invention, a special magnesium aluminum alloy lampshade is adopted, the light-gathering type design is adopted, the production efficiency is high, each set of UV system is independently controlled, and the number of the lamp tubes is started according to the production.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The device for manufacturing the ultra-matte skin-feel plate by the lamp is characterized by comprising a gallium lamp box (1), a xenon lamp box (2) and a mercury lamp box (3) which are sequentially arranged along the conveying direction of the plate, wherein a conveying belt (4) for conveying the plate is arranged among the gallium lamp box, the xenon lamp box and the mercury lamp box, and closed spaces for accommodating the plate conveyed in place by the conveying belt (4) are respectively arranged; wherein, an oxygen-expelling device is arranged in the xenon lamp box (2), and ultraviolet light with the wavelength of 172nm is generated in the xenon lamp box;

the closed space comprises a main body (6), two door bodies arranged at the head end and the tail end of the plate conveying direction on the main body (6), and a detachable cover plate (7) arranged at the top of the main body (6), wherein each light source (8) is connected with the cover plate (7); the cover plate (7) comprises at least two parts which are arranged in a relative rotating manner, wherein at least one part rotates under the condition that the other parts are arranged in a sealing manner relative to the main body (6) to open the closed space and drive the lamp source (8) to move out of the closed space; the cover plate (7) is provided with at least two rows of guide wheel sets relative to the inner side surface of the closed space along the conveying direction of the conveying belt (4), the rotating plane of each guide wheel (9) in each guide wheel set is parallel to the inner side surface, and the lamp source (8) is connected with the guide wheel sets in a sliding mode through a sliding plate (10); a height adjusting device is arranged between the lamp source (8) and the cover plate (7), the height adjusting device comprises two step fixture blocks (11) which move in opposite directions, the two step fixture blocks (11) move along a linear guide rail perpendicular to the conveying belt (4), the step fixture blocks (11) are connected with a spring (12) which is fixedly arranged at one end of each other relative to the outer side of the other side, a step mounting block (13) is arranged between the two step fixture blocks (11), the step mounting blocks (13) are matched with the step fixture blocks (11) through inclined step structures, and each step structure comprises a horizontal non-return surface and a guide surface which is obliquely arranged with the non-return surface; the top of the sliding plate (10) is provided with an adjusting rod (14) penetrating through the cover plate (7), a hole in the cover plate (7) for penetrating through the adjusting rod (14) is a straight hole, a rubber structure (15) is filled in the straight hole, a gap (16) is formed in the rubber structure (15), and the gap (16) is sealed by coating and extruding the adjusting rod (14).

2. The device of the lighted ultra-matte skin-feel panel according to claim 1, wherein the oxygen-purging device comprises an induced draft fan arranged at the outlet, a plurality of nitrogen nozzles communicated with an external nitrogen storage tank (5), and an oxygen detector.

3. The device of the lamp-made ultra-matte skin-feel sheet material as claimed in claim 1 or 2, wherein the enclosed spaces of the gallium lamp box (1), the xenon lamp box (2) and the mercury lamp box (3) are respectively connected with an environmental treatment system through a centralized hole site, and the environmental treatment system is used for collecting and/or treating waste gas and heat in the enclosed spaces.

4. Device of a light ultra matte skin feel panel according to claim 1, wherein the portion of the cross section of the adjusting bar (14) covered by the rubber structure (15) is rectangular.

5. The device of the light ultra-matte skin-feel panel according to claim 1, wherein the device is provided with a control circuit, wherein the control circuit comprises an alternating current power supply, a main power switch, a power panel main control panel and a key control panel; the power panel main control board is controlled by the main power switch, and is provided with a relay, a transformer and a single chip microcomputer, a normally open contact group of the relay is connected in series in a power supply loop of the electronic ballast, the transformer is connected with the lamp source (8), and the key control board is connected with the single chip microcomputer.

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