CN203358039U - UV (ultraviolet) light curing machine for printed product - Google Patents

UV (ultraviolet) light curing machine for printed product Download PDF

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Publication number
CN203358039U
CN203358039U CN 201320459725 CN201320459725U CN203358039U CN 203358039 U CN203358039 U CN 203358039U CN 201320459725 CN201320459725 CN 201320459725 CN 201320459725 U CN201320459725 U CN 201320459725U CN 203358039 U CN203358039 U CN 203358039U
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mentioned
printed matter
lamp
blowing
conveying device
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陈晓滨
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Abstract

The utility model relates to an UV (ultraviolet) light curing machine for a printed product. The UV light curing machine comprises a stander, a printed product conveying device, a cooling device and UV light sources, wherein the printed product conveying device is arranged on the stander; the UV light sources comprise a plurality of UV lamp units; the cooling device comprises an outer box body, a blower, a blowing distribution box and a plurality of blowing mechanisms; the outer box body, the blower and the blowing distribution box are respectively arranged on the stander, the outer box body is located above the printed product conveying device, the blowing distribution box is located above the outer box body or on one side of the outer box body, and an air outlet of the blower is communicated with an air inlet of the blowing distribution box through a blowing pipe; the plurality of blowing mechanisms are respectively located in the outer box body and are uniformly arranged along the conveying direction of the printed product, air inlets of the blowing mechanisms are communicated with the air outlet of the blowing distribution box, air outlets of the blowing mechanisms are opposite to the printed product conveying device, one UV lamp unit is arranged between every two adjacent blowing mechanisms, and the UV lamp units face towards the printed product conveying device. The UV light curing machine has good curing and cooling effects.

Description

A kind of printed matter UV photo solidification machine
Technical field
The utility model relates to a kind of corollary equipment of printing machine, and more particularly, the utility model relates to a kind of printed matter UV photo solidification machine.
Background technology
UV light (Ultra-Violet Rays) is ultraviolet, has been widely used in industry-by-industry, and for example, in printing industry, printed matter UV photo solidification machine is exactly that a kind of UV of utilization light is by the special equipment of UV ink solidification.
Be printed with UV printing ink on the surface of printed matter after, because UV printing ink does not also have drying, solidifies, so printed matter must be accepted the irradiation of the UV lamp (being quartz burner) of printed matter UV photo solidification machine, like this, under the irradiation of UV lamp, Photoepolymerizationinitiater initiater in UV printing ink just can absorb the photon of certain wavelength, thereby forms free radical or ion, trigger monomer and oligomer reaction, therefore, UV printing ink just can rapid draing and is solidificated on printed matter.
At present, printed matter UV photo solidification machine to printed matter surface in the process that is cured of UV printing ink, in order to improve the curing rate of printed matter UV photo solidification machine, must make the UV lamp of printed matter UV photo solidification machine send high-intensity UV light, like this, the UV printing ink on printed matter surface could solidify rapidly under the irradiation of high intensity UV light; But if, on the high intensity UV irradiation printed matter that the UV lamp sends, just the temperature of printed matter can raise sharp, therefore, the phenomenons such as distortion, jaundice just easily appear in printed matter, thereby have influence on the quality of printed matter.
The utility model content
The technical problems to be solved in the utility model is to provide a kind of printed matter UV photo solidification machine, not only curing rate is fast for this printed matter UV photo solidification machine, and, this printed matter UV photo solidification machine can avoid printed matter significantly to heat up, thereby effectively prevent that the generation of the phenomenons such as distortion, jaundice from appearring in printed matter, guaranteed the quality of printed matter.
In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is as follows:
A kind of printed matter UV photo solidification machine, comprise frame, printed matter conveying device, cooling device and UV light source, and above-mentioned printed matter conveying device is located on frame; It is characterized in that:
Above-mentioned UV light source comprises a plurality of UV lamps unit;
Above-mentioned cooling device comprises outer case, hair-dryer, blowing distributor box and a plurality of blower mechanism;
Above-mentioned outer case, hair-dryer, blowing distributor box are located at respectively on frame, and above-mentioned outer case is positioned at the top of printed matter conveying device, and above-mentioned blowing distributor box is positioned at the top of outer case or is positioned at a side of outer case; The air outlet of above-mentioned hair-dryer is communicated with the air inlet of blowing distributor box by blower;
Above-mentioned a plurality of blower mechanism is located at respectively in outer case, and above-mentioned a plurality of blower mechanisms evenly arrange along the throughput direction of printed matter; The air inlet of above-mentioned blower mechanism is communicated with the air outlet of blowing distributor box, and the air outlet of above-mentioned blower mechanism is relative with the printed matter conveying device; Be provided with a UV lamp unit between above-mentioned adjacent two blower mechanisms, above-mentioned UV lamp unit is towards the printed matter conveying device.
Optimal technical scheme as blower mechanism in the utility model:
Described blower mechanism comprises blowing chamber, airduct and blowing nozzle; Above-mentioned blowing chamber is located in outer case, and the air inlet of above-mentioned blowing chamber is communicated with the air outlet of blowing distributor box by airduct, and the air outlet of above-mentioned blowing chamber is relative with the printed matter conveying device; Above-mentioned blowing nozzle is located on the air outlet of blowing chamber, and above-mentioned blowing nozzle is towards the printed matter conveying device.
When hair-dryer starts, hair-dryer is blown into extraneous fresh air in the blowing distributor box by blower, the blowing distributor box is distributed to each blower mechanism equably by fresh air again, like this, fresh air just enters into blowing chamber by airduct, fresh air in blowing chamber blows to the printed matter on the printed matter conveying device through blowing nozzle again, thereby printed matter is carried out to cooling processing.
Because fresh air is the printed matter vertically blowed on the printed matter conveying device, so fresh air can be pressed on printed matter on the printed matter conveying device, thereby be convenient to the conveying of printed matter.
Further improved technical scheme as cooling device in the utility model:
Described cooling device also comprises an air suction mechanism, and above-mentioned air suction mechanism comprises induced-draught fan, aspiration channel and lower air-breathing groove, and above-mentioned induced-draught fan, aspiration channel and lower air-breathing groove are located at respectively on frame; Above-mentioned lower air-breathing groove is positioned at the below of printed matter conveying device, and the air inlet of above-mentioned lower air-breathing groove is towards the printed matter conveying device, and the air inlet of above-mentioned lower air-breathing groove is simultaneously corresponding with the blowing nozzle of each blower mechanism; Above-mentioned induced-draught fan is communicated with the gas outlet of lower air-breathing groove by aspiration channel.
When induced-draught fan starts, because lower air-breathing groove is positioned at the below of printed matter conveying device, the air inlet of lower air-breathing groove is towards the printed matter conveying device, so, induced-draught fan will siphon away through the hot-air of printed matter conveying device by aspiration channel, thereby makes the printed matter on the printed matter conveying device can be cooling fast; Simultaneously, because the air inlet of lower air-breathing groove is simultaneously corresponding with the blowing nozzle of each blower mechanism, so the air blowing of air-breathing and each blower mechanism blowing nozzle of lower air-breathing groove forms convection current, thereby make the printed matter on the printed matter conveying device can be cooling more rapidly.
Optimal technical scheme as UV lamp unit in the utility model:
Described UV lamp unit comprises lamp box, UV lamp and cold light glass; Above-mentioned lamp box is arranged between adjacent two blower mechanisms, and above-mentioned lamp box is towards the printed matter conveying device; Above-mentioned UV lamp is arranged in lamp box; Above-mentioned cold light glass is arranged on lamp box, and above-mentioned cold light glass is between UV lamp and printed matter conveying device.
When the UV lamp is luminous, the UV light that the UV lamp sends is radiated on the printed matter on the printed matter conveying device by cold light glass, because cold light glass has heat insulation effect, and cold light glass can also filter the infrared ray in UV light, so, cold light glass can reduce the temperature after printed matter is accepted the UV irradiation, thereby avoid printed matter significantly to heat up, effectively prevent that the generation of the phenomenons such as distortion, jaundice from appearring in printed matter, guaranteed the quality of printed matter.
Further improved technical scheme as UV lamp unit in the utility model:
Described UV lamp unit also comprises a UV lamp cooling body, above-mentioned UV lamp cooling body comprises UV lamp induced-draught fan and UV lamp aspiration channel, above-mentioned lamp box is provided with air inlet and air outlet, and above-mentioned air inlet and air outlet are communicated with, and the air outlet of above-mentioned lamp box is communicated with UV lamp induced-draught fan by UV lamp aspiration channel.
When UV lamp induced-draught fan starts, the outer gas of lamp box just can enter from the air inlet of lamp box in lamp box, gas in lamp box flows in UV lamp aspiration channel from the air outlet of lamp box again, gas in UV lamp aspiration channel is siphoned away by UV lamp induced-draught fan again, like this, the heat produced when the gas of the lamp box of flowing through just can be worked the UV lamp is taken away, thereby has improved the working environment of UV lamp, guaranteed that the UV lamp can work, extended the service life of UV lamp.
Optimal technical scheme as printed matter conveying device in the utility model:
Described printed matter conveying device comprises motor, drive roll, driven voller and cycloconveyor belt, and above-mentioned motor, drive roll and driven voller are located at respectively on frame, and above-mentioned motor and drive roll are in transmission connection, and above-mentioned drive roll and driven voller be arranged in parallel; Above-mentioned cycloconveyor belt is coated on drive roll and driven voller, and above-mentioned cycloconveyor belt is horizontally disposed with.
When electric machine rotation, motor drives drive roll to rotate, and drive roll just can drive cycloconveyor belt and rotate at drive roll and driven voller cocycle; When printed matter is positioned on cycloconveyor belt, cycloconveyor belt just can be fed forward printed matter.
Optimal technical scheme as cycloconveyor belt in the utility model:
Described cycloconveyor belt preferably adopts netted cycloconveyor belt.
Above-mentioned netted cycloconveyor belt can allow fresh air see through, thereby avoids unordered flow of fresh air and the conveying of printed matter is impacted.
The utility model beneficial effect against existing technologies is:
Because this printed matter UV photo solidification machine comprises a plurality of UV lamps unit, so this printed matter UV photo solidification machine can send high-intensity UV light, thereby make the UV printing ink on printed matter surface can rapid curing, therefore, the curing rate of this printed matter UV photo solidification machine is fast, and solidification effect is good;
Simultaneously, because this printed matter UV photo solidification machine comprises a plurality of blower mechanisms, above-mentioned a plurality of blower mechanism is located at respectively in outer case, above-mentioned a plurality of blower mechanism evenly arranges along the throughput direction of printed matter, be provided with a UV lamp unit between adjacent two blower mechanisms, so, on the throughput direction of printed matter, blower mechanism and UV lamp units alternately occur, like this, at printed matter in course of conveying, this printed matter UV photo solidification machine is that the cooling and curing mode hocketed is processed printed matter by " quenching → UV photocuring → quenching → UV photocuring ... ", therefore, the good cooling results of this printed matter UV photo solidification machine, thereby avoid printed matter significantly to heat up, effectively prevent that distortion from appearring in printed matter, the generation of the phenomenons such as jaundice, guaranteed the quality of printed matter.
The accompanying drawing explanation
Fig. 1 is the structural representation of the utility model preferred embodiment;
Fig. 2 is UV lamp unit structural representation in the longitudinal direction in the utility model preferred embodiment.
The specific embodiment
As depicted in figs. 1 and 2, the printed matter UV photo solidification machine in this preferred embodiment, comprise frame 1, printed matter conveying device 2, cooling device 3 and UV light source 4.
Above-mentioned printed matter conveying device 2 comprises motor 20, drive roll 21, driven voller 22 and netted cycloconveyor belt 23;
Above-mentioned motor 20, drive roll 21 and driven voller 22 are located at respectively on frame 1, and above-mentioned motor 20 is in transmission connection with drive roll 21, and above-mentioned drive roll 21 and driven voller 22 be arranged in parallel;
Above-mentioned netted cycloconveyor belt 23 is coated on drive roll 21 and driven voller 22, and above-mentioned netted cycloconveyor belt 23 is horizontally disposed with.
Above-mentioned cooling device 3 comprises outer case 30, hair-dryer 31, blowing distributor box 32, a plurality of blower mechanism 33 and an air suction mechanism 34;
Above-mentioned outer case 30, hair-dryer 31, blowing distributor box 32 are located at respectively on frame 1, above-mentioned outer case 30 is positioned at the top of printed matter conveying device 2 its netted cycloconveyor belts 23, above-mentioned blowing distributor box 32 is positioned at the top of outer case 30, obviously, above-mentioned blowing distributor box 32 also can be positioned at a side of outer case 30;
The air outlet of above-mentioned hair-dryer 31 is communicated with the air inlet of blowing distributor box 32 by blower 312;
Above-mentioned a plurality of blower mechanism 33 is located at respectively in outer case 30, and above-mentioned a plurality of blower mechanisms 33 evenly arrange along the throughput direction (direction in Fig. 1 shown in solid arrow) of printed matter 10;
Above-mentioned blower mechanism 33 comprises blowing chamber 331, airduct 332 and blowing nozzle 333;
Above-mentioned blowing chamber 331 is located in outer case 30, and the air inlet of above-mentioned blowing chamber 331 is communicated with the air outlet of blowing distributor box 32 by airduct 332, and the air outlet of above-mentioned blowing chamber 331 is relative with the netted cycloconveyor belt 23 of printed matter conveying device 2;
Above-mentioned blowing nozzle 333 is located on the air outlet of blowing chamber 331, and above-mentioned blowing nozzle 333 is towards the netted cycloconveyor belt 23 of printed matter conveying device 2;
Above-mentioned air suction mechanism 34 comprises induced-draught fan 341, aspiration channel 342 and lower air-breathing groove 343;
Above-mentioned induced-draught fan 341, aspiration channel 342 and lower air-breathing groove 343 are located at respectively on frame 1;
Above-mentioned lower air-breathing groove 343 is positioned at the below of printed matter conveying device 2 its netted cycloconveyor belts 23, the air inlet of above-mentioned lower air-breathing groove 343 is towards the netted cycloconveyor belt 23 of printed matter conveying device 2, and the air inlet of above-mentioned lower air-breathing groove 343 is simultaneously corresponding with the blowing nozzle 333 of each blower mechanism 33;
Above-mentioned induced-draught fan 341 is communicated with the gas outlet of lower air-breathing groove 343 by aspiration channel 342.
Above-mentioned UV light source 4 comprises a plurality of UV lamps unit 40, between above-mentioned adjacent two blower mechanisms 33, is provided with a UV lamp unit 40;
Above-mentioned UV lamp unit 40 comprises lamp box 401, UV lamp 402, cold light glass 403 and a UV lamp cooling body 5;
Above-mentioned lamp box 401 is arranged between adjacent two blower mechanisms 33, and above-mentioned lamp box 401 is towards the netted cycloconveyor belt 23 of printed matter conveying device 2;
Above-mentioned UV lamp 402 is arranged in lamp box 401;
Above-mentioned cold light glass 403 is arranged on lamp box 401, and above-mentioned cold light glass 403 is between the netted cycloconveyor belt 23 of UV lamp 402 and printed matter conveying device 2;
Above-mentioned UV lamp cooling body 5 comprises UV lamp induced-draught fan 51 and UV lamp aspiration channel 52, above-mentioned lamp box 401 is provided with air inlet 53 and air outlet 54, above-mentioned air inlet 53 and air outlet 54 are communicated with, and the air outlet 54 of above-mentioned lamp box 401 is communicated with UV lamp induced-draught fan 51 by UV lamp aspiration channel 52.
Below the course of work of this printed matter UV photo solidification machine is described in detail:
When the printed matter 10 that is printed with UV printing ink on this printed matter UV photo solidification machine effects on surface is cured, starter motor 20, hair-dryer 31, induced-draught fan 341 and UV lamp induced-draught fan 51, simultaneously, make UV lamp 402 electrified light emittings;
When motor 20 rotates, motor 20 drives drive roll 21 to rotate, drive roll 21 just can drive netted cycloconveyor belt 23 and rotate at drive roll 21 and driven voller 22 cocycles, and like this, the netted cycloconveyor belt 23 of cycle rotation just can constantly be fed forward printed matter 10;
When UV lamp 402 is luminous, the UV light that UV lamp 402 sends is radiated on the printed matter 10 on printed matter conveying device 2 its netted cycloconveyor belts 23 by cold light glass 403, because this printed matter UV photo solidification machine comprises a plurality of UV lamps unit 40, so the UV lamp 402 of a plurality of UV lamps unit 40 can send high-intensity UV light, like this, the lip-deep UV printing ink of printed matter 10 solidifies rapidly under the irradiation of high intensity UV light, therefore, the curing rate of this printed matter UV photo solidification machine is fast, and solidification effect is good;
When hair-dryer 31 starts, hair-dryer 31 is blown into extraneous fresh air in blowing distributor box 32 by blower 312, each blower mechanism 33 distributed to fresh air more equably by blowing distributor box 32, like this, fresh air just enters into blowing chamber 331 by airduct 332, fresh air in blowing chamber 331 blows to the printed matter 10 on the netted cycloconveyor belt 23 of printed matter conveying device 2 through blowing nozzle 333 again, thereby printed matter 10 is carried out to cooling processing;
Because this printed matter UV photo solidification machine comprises a plurality of blower mechanisms 33, above-mentioned a plurality of blower mechanism 33 is located at respectively in outer case 30, above-mentioned a plurality of blower mechanism 33 evenly arranges along the throughput direction of printed matter 10, be provided with a UV lamp unit 40 between adjacent two blower mechanisms 33, so, on the throughput direction of printed matter 10, blower mechanism 33 and UV lamp unit 40 alternately occur, like this, at printed matter 10 in course of conveying, this printed matter UV photo solidification machine is that the cooling and curing mode hocketed is processed printed matter 10 by " quenching → UV photocuring → quenching → UV photocuring ... ", simultaneously, because cold light glass 403 has heat insulation effect, and cold light glass 403 can also filter the infrared ray in UV light 402, so, cold light glass 403 can reduce printed matter and accept the postradiation temperature of UV light 402, therefore, the good cooling results of this printed matter UV photo solidification machine, thus avoid printed matter 10 significantly to heat up, effectively prevent that the generation of the phenomenons such as distortion, jaundice from appearring in printed matter 10, guaranteed the quality of printed matter 10,
When induced-draught fan 341 starts, because lower air-breathing groove 343 is positioned at the below of printed matter conveying device 2 its netted cycloconveyor belts 23, the air inlet of lower air-breathing groove 343 is towards the netted cycloconveyor belt 23 of printed matter conveying device 2, so, induced-draught fan 341 will siphon away through the hot-air of printed matter conveying device 2 its netted cycloconveyor belts 23 by aspiration channel 342, thereby makes the printed matter 10 on printed matter conveying device 2 its netted cycloconveyor belts 23 can be cooling fast; Simultaneously, because the air inlet of lower air-breathing groove 343 is simultaneously corresponding with the blowing nozzle 333 of each blower mechanism 33, so, the air blowing formation convection current of air-breathing and each blower mechanism 33 its blowing nozzles 333 of lower air-breathing groove 343, thus make the printed matter 10 on printed matter conveying device 2 its netted cycloconveyor belts 23 can be cooling more rapidly;
When UV lamp induced-draught fan 51 starts, lamp box 401 outer gases just can enter from the air inlet 53 of lamp box 401 in lamp box 401, gas in lamp box 401 flows in UV lamp aspiration channel 52 from the air outlet 54 of lamp box 401 again, gas in UV lamp aspiration channel 52 is siphoned away by UV lamp induced-draught fan 51 again, like this, the heat that the gas of lamp box 401 of flowing through produces just can be by UV lamp 402 work the time is taken away, thereby improved widely the working environment of UV lamp 402, guaranteed that UV lamp 402 can work, extended the service life of UV lamp 402.
In addition, because fresh air is the printed matter 10 vertically blowed on printed matter conveying device 2 its netted cycloconveyor belts 23, so fresh air can be pressed on printed matter 10 on the netted cycloconveyor belt 23 of printed matter conveying device 2, thereby be convenient to the conveying of printed matter 10.
The throughput direction that direction in Fig. 1 shown in solid arrow is printed matter 10;
The flow direction that direction in Fig. 1 shown in dotted arrow is air.
The content of the above specific embodiment is only preferred embodiment of the present utility model, and above preferred embodiment not is used for limiting practical range of the present utility model; Every various equivalents of making according to the protection domain of its claim of the utility model, all covered by the protection domain of its claim of the utility model.

Claims (7)

1. a printed matter UV photo solidification machine, comprise frame, printed matter conveying device, cooling device and UV light source, and above-mentioned printed matter conveying device is located on frame; It is characterized in that:
Above-mentioned UV light source comprises a plurality of UV lamps unit;
Above-mentioned cooling device comprises outer case, hair-dryer, blowing distributor box and a plurality of blower mechanism;
Above-mentioned outer case, hair-dryer, blowing distributor box are located at respectively on frame, and above-mentioned outer case is positioned at the top of printed matter conveying device, and above-mentioned blowing distributor box is positioned at the top of outer case or is positioned at a side of outer case; The air outlet of above-mentioned hair-dryer is communicated with the air inlet of blowing distributor box by blower;
Above-mentioned a plurality of blower mechanism is located at respectively in outer case, and above-mentioned a plurality of blower mechanisms evenly arrange along the throughput direction of printed matter; The air inlet of above-mentioned blower mechanism is communicated with the air outlet of blowing distributor box, and the air outlet of above-mentioned blower mechanism is relative with the printed matter conveying device; Be provided with a UV lamp unit between above-mentioned adjacent two blower mechanisms, above-mentioned UV lamp unit is towards the printed matter conveying device.
2. printed matter UV photo solidification machine according to claim 1, it is characterized in that: described blower mechanism comprises blowing chamber, airduct and blowing nozzle; Above-mentioned blowing chamber is located in outer case, and the air inlet of above-mentioned blowing chamber is communicated with the air outlet of blowing distributor box by airduct, and the air outlet of above-mentioned blowing chamber is relative with the printed matter conveying device; Above-mentioned blowing nozzle is located on the air outlet of blowing chamber, and above-mentioned blowing nozzle is towards the printed matter conveying device.
3. printed matter UV photo solidification machine according to claim 2, it is characterized in that: described cooling device also comprises an air suction mechanism, above-mentioned air suction mechanism comprises induced-draught fan, aspiration channel and lower air-breathing groove, and above-mentioned induced-draught fan, aspiration channel and lower air-breathing groove are located at respectively on frame; Above-mentioned lower air-breathing groove is positioned at the below of printed matter conveying device, and the air inlet of above-mentioned lower air-breathing groove is towards the printed matter conveying device, and the air inlet of above-mentioned lower air-breathing groove is simultaneously corresponding with the blowing nozzle of each blower mechanism; Above-mentioned induced-draught fan is communicated with the gas outlet of lower air-breathing groove by aspiration channel.
4. printed matter UV photo solidification machine according to claim 1, it is characterized in that: described UV lamp unit comprises lamp box, UV lamp and cold light glass; Above-mentioned lamp box is arranged between adjacent two blower mechanisms, and above-mentioned lamp box is towards the printed matter conveying device; Above-mentioned UV lamp is arranged in lamp box; Above-mentioned cold light glass is arranged on lamp box, and above-mentioned cold light glass is between UV lamp and printed matter conveying device.
5. printed matter UV photo solidification machine according to claim 4, it is characterized in that: described UV lamp unit also comprises a UV lamp cooling body, above-mentioned UV lamp cooling body comprises UV lamp induced-draught fan and UV lamp aspiration channel, above-mentioned lamp box is provided with air inlet and air outlet, above-mentioned air inlet and air outlet are communicated with, and the air outlet of above-mentioned lamp box is communicated with UV lamp induced-draught fan by UV lamp aspiration channel.
6. printed matter UV photo solidification machine according to claim 1, it is characterized in that: described printed matter conveying device comprises motor, drive roll, driven voller and cycloconveyor belt, above-mentioned motor, drive roll and driven voller are located at respectively on frame, above-mentioned motor and drive roll are in transmission connection, and above-mentioned drive roll and driven voller be arranged in parallel; Above-mentioned cycloconveyor belt is coated on drive roll and driven voller, and above-mentioned cycloconveyor belt is horizontally disposed with.
7. printed matter UV photo solidification machine according to claim 6, it is characterized in that: described cycloconveyor belt adopts netted cycloconveyor belt.
CN 201320459725 2013-07-26 2013-07-26 UV (ultraviolet) light curing machine for printed product Expired - Lifetime CN203358039U (en)

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Application Number Priority Date Filing Date Title
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Cited By (18)

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Publication number Priority date Publication date Assignee Title
CN104029479A (en) * 2014-06-27 2014-09-10 苏州铉动三维空间科技有限公司 UV (ultraviolet) photocuring device
CN105414746A (en) * 2015-12-30 2016-03-23 哈尔滨工业大学 Simultaneous cooling assisted connection method based on laser additive manufacturing
CN105437761A (en) * 2016-01-23 2016-03-30 广东印彩科技有限公司 UV light curing machine
CN105444485A (en) * 2015-11-24 2016-03-30 洛阳开拓新能源开发有限公司 Biomass fuel cooling system
CN106903986A (en) * 2017-02-28 2017-06-30 胡和萍 A kind of printing drier
CN107053832A (en) * 2017-04-25 2017-08-18 谢英 A kind of newspaper printing rapid ink drying equipment
CN107160850A (en) * 2017-08-01 2017-09-15 广东云印科技有限公司 A kind of circulated air dries the printing machine of ink
CN107185770A (en) * 2017-07-18 2017-09-22 中山松德印刷机械有限公司 A kind of mould release membrance coating LED light solidification production line
CN107324114A (en) * 2017-08-02 2017-11-07 广东云印科技有限公司 A kind of delivery device of printing machine
CN108528805A (en) * 2018-06-27 2018-09-14 丁文铃 A kind of heavy duty detergent shaping hair dryer
CN108556475A (en) * 2018-07-02 2018-09-21 安徽万纳包装科技股份有限公司 A kind of UV ink printed layers solidification drying device
CN108656724A (en) * 2018-04-21 2018-10-16 海宁市天祥包装机械厂 The drying unit of intaglio press
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CN110450537A (en) * 2019-09-11 2019-11-15 海盐创美印业有限公司 A kind of reasonable UV printing solidification equipment of illumination
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CN110802932A (en) * 2019-12-11 2020-02-18 张义雄 Energy-saving label printing machine
CN110802933A (en) * 2019-12-11 2020-02-18 张义雄 Label printing machine

Cited By (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104029479A (en) * 2014-06-27 2014-09-10 苏州铉动三维空间科技有限公司 UV (ultraviolet) photocuring device
CN105444485A (en) * 2015-11-24 2016-03-30 洛阳开拓新能源开发有限公司 Biomass fuel cooling system
CN105414746A (en) * 2015-12-30 2016-03-23 哈尔滨工业大学 Simultaneous cooling assisted connection method based on laser additive manufacturing
CN105437761A (en) * 2016-01-23 2016-03-30 广东印彩科技有限公司 UV light curing machine
CN106903986A (en) * 2017-02-28 2017-06-30 胡和萍 A kind of printing drier
CN107053832A (en) * 2017-04-25 2017-08-18 谢英 A kind of newspaper printing rapid ink drying equipment
CN107185770A (en) * 2017-07-18 2017-09-22 中山松德印刷机械有限公司 A kind of mould release membrance coating LED light solidification production line
CN107160850A (en) * 2017-08-01 2017-09-15 广东云印科技有限公司 A kind of circulated air dries the printing machine of ink
CN107324114A (en) * 2017-08-02 2017-11-07 广东云印科技有限公司 A kind of delivery device of printing machine
CN107324114B (en) * 2017-08-02 2019-04-02 颍上科技印刷有限公司 A kind of delivery device of printing machine
CN108656724A (en) * 2018-04-21 2018-10-16 海宁市天祥包装机械厂 The drying unit of intaglio press
CN108528805A (en) * 2018-06-27 2018-09-14 丁文铃 A kind of heavy duty detergent shaping hair dryer
CN108528805B (en) * 2018-06-27 2020-12-01 临沂高新区金迪科技信息服务中心 Efficient shaping and blow-drying machine
CN108556475A (en) * 2018-07-02 2018-09-21 安徽万纳包装科技股份有限公司 A kind of UV ink printed layers solidification drying device
CN109874234A (en) * 2019-03-14 2019-06-11 安徽天兵电子科技股份有限公司 A kind of pcb board roasting plant
CN109955587A (en) * 2019-05-16 2019-07-02 深圳市聚超能电子科技有限公司 A kind of the UV-LED drying unit and method of intelligent recognition printed matter width
CN110450537A (en) * 2019-09-11 2019-11-15 海盐创美印业有限公司 A kind of reasonable UV printing solidification equipment of illumination
CN110802934A (en) * 2019-12-11 2020-02-18 张义雄 Quick-drying label printing machine
CN110802932A (en) * 2019-12-11 2020-02-18 张义雄 Energy-saving label printing machine
CN110802933A (en) * 2019-12-11 2020-02-18 张义雄 Label printing machine

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