CN201907264U - Ultraviolet multihearth swap radiating structure - Google Patents

Abstract

The utility model discloses an ultraviolet multihearth swap radiating structure comprising a work platform deck arranged in an ultraviolet multihearth, wherein the work platform deck consists of a plurality of rod pieces arranged horizontally side by side; and a first gas guide channel, a second gas guide channel and a cooling water channel extend from the interior of the rod piece so as to reduce the temperature, generated due to irradiation by ultraviolet tubes, of the rod piece. The ultraviolet multihearth swap radiating structure also comprises a lamp frame track and a lamp frame slidably arranged opposite to the lamp frame track; a sliding rail is arranged in the side direction of the lamp frame track; and a first strike pulley and a second strike pulley corresponding to the sliding rail group are arranged at the periphery of the lamp frame; therefore, the lamp frame is controlled to move along the sliding rail via the first and second strike pulleys, so that a worker can draw the lamp frame conveniently.

Description

The ultraviolet ray multihearth is substituted radiator structure

Technical field

The utility model relates to a kind of ultraviolet multihearth and substitutes radiator structure.

Background technology

At present ultravioletly technology such as generally be applied to drying be arranged on the industry, solidify and follow and use, be applied to printing ink as press and quicken its drying, quicken ink setting with lifting production efficiency through the ultraviolet ray irradiation.As utilizing ultraviolet curing to mould fat in electronics, IT industry, quicken to mould fat with ultraviolet ray irradiation workpiece in addition and solidify the effect that reaches sclerosis, gluing in advance needn't be worried sclerosis voluntarily in atmosphere, its sclerosis depends on that whether ultraviolet lamp shines, therefore it has other process operation of long period, do not still have amendable characteristics, quite be fit to the fast product of a large amount of speeds of production through ultraviolet pre-irradiation.

And the LCD industry of utilization ultraviolet ray irradiation, as LCD panel or contact panel printing drying process, utilize quartz burner that the workpiece that is coated with Photoresist is carried out exposure irradiation, drying operation, be that the LCD panel is in glass substrate exposure flow process, with ultraviolet ray irradiation light shield, light mask image is transferred on the glass substrate of Photoresist; The LCD panel is to dissolve through the photoresistance that developer will be exposed under the ultraviolet ray in the development flow process, takes away with the ionized water flushing again, and the follow-up heating of developing then is to reach drying effect with ultraviolet radiation modality; The LCD panel is coated between TFT substrate and the colored filter (CF) with ultraviolet fluid sealant in the CELL flow process, is beneficial to liquid crystal through priming by vacuum, at last with ultraviolet ray irradiation sclerosis, sealing liquid crystal between TFT and CF, is prevented the liquid crystal outflow simultaneously.

Can learn ultraviolet being applied in the middle of the LCD industry, one of the crucial technology of can saying so through after the above-mentioned explanation.Emphasizing under the industrial requirement now of production efficiency that can carry out every plant maintenance maintenance, excessive influence is not produced running, is that present production firm one of pursues one's goal.Therefore for quartz burner in the routine maintenance or damage and change, certainly will tear research and development design and improvement such as package assembly open at what quartz burner set about being correlated with, to meet present production firm in one of demand aspect the production equipment.

In addition, ultraviolet ray multihearth inside is to be provided with a plurality of quartz burners workpiece is shone processing, and quartz burner has certain optimum working temperature, overheated fluorescent tube cooled off it is maintained in the operating temperature, can increase lamp tube service life and illumination stability, therefore must cool to the quartz burner of ultraviolet multihearth inside makes it remain in optimum working temperature.

Summary of the invention

The purpose of this utility model is to overcome the defective of prior art, provides a kind of ultraviolet multihearth to substitute radiator structure, its can improve existing ultraviolet line oven not tool substitute the quartz burner function, and defective such as heat dissipation design is not good.

In order to reach above-mentioned purpose and effect, the utility model ultraviolet ray multihearth is substituted radiator structure and is comprised the work microscope carrier that is arranged at ultraviolet multihearth inside, this work microscope carrier is made up of a plurality of rod member horizontal Tiles, and include lamp door track and the relative lamp door established of lamp door track cunning, wherein:

This rod member top is the loading end as supporting workpiece, this rod member inside is extended with first air guide channel and second air guide channel, and this first air guide channel presents the state that is close to loading end and lays, second air guide channel presents the state that is close to the rod member bottom surface and lays, this rod member surface offers a plurality of conducting first air guide channels, in order to first diffusion hole of first air guide channel to workpiece air blowing cooling, this rod member surface offers a plurality of conducting second air guide channels, in order to second diffusion hole of second air guide channel to the quartz burner cyclical breathing;

This rod member inside is extended with the cooling water channel as the cooling rod member in addition, and this cooling water channel presents the state laying that is close to loading end.

This lamp door rail side is to being provided with slide rail;

And this lamp door week side move towards pulley and second and move towards pulley should slide rail set being provided with first, this lamp door moves towards pulley and second with first and moves towards pulley along this slide rail controlled displacements, and the interior all sides of lamp door are disposed with a plurality of ultraviolet quartz burners.

Be concaved with rail alive and be arranged at the ribs of rail alive at the loading end of rod member, this ribs can see through this lockhole be locked in rod member, and this support bar top convexes with a plurality of salient points as supporting workpiece.

Rod member of the present utility model is the stock body of rectangle, and first air guide channel and second air guide channel present the diagonal angle setting, and the end angle that this rod member is close to first air guide channel is the oblique angle, and this first diffusion hole is opened in the end face at oblique angle.

Work microscope carrier of the present utility model includes the conduit of the different cooling water channel of a plurality of connections.

Rail alive of the present utility model is positioned at a side of cooling water channel.

Ribs of the present utility model offers in an end for spiral shell spare lock and establishes the lockhole of usefulness.

Of the present utility model first to move towards pulley stressed in this slide rail in order to support lamp door in this slide rail with longitudinal sliding motion, and this second move towards pulley be laterally slide on this slide rail in order to the restriction lamp door in the slide rail lateral displacement.

Ultraviolet quartz burner of the present utility model is provided with the relative lamp door track displacement with lamp door of orientation different directions.

Description of drawings

Fig. 1 is the stereogram of the utility model ultraviolet ray multihearth.

Fig. 2 is the three-dimensional outline drawing of the utility model work microscope carrier.

Fig. 3 is the three-dimensional outline drawing of the utility model work microscope carrier rod member.

Fig. 4 is the schematic diagram of the flexible displacement of the relative rod member of the utility model work microscope carrier ribs.

Fig. 5 is the cutaway view of the utility model work microscope carrier rod member.

Fig. 6 is the schematic diagram at another visual angle of the utility model work microscope carrier rod member.

Fig. 7 is the schematic diagram of second embodiment of the utility model rod member.

Fig. 8 is the utility model lamp door group slide construction decomposing state stereogram.

Fig. 9 is the local amplification stereogram of the utility model lamp door group slide construction.

Figure 10 is a partial perspective view before the not controlled slip of the utility model lamp door group.

Figure 11 is the utility model lamp door group controlled slip state partial perspective view.

Figure 12 is the utility model is installed on the lamp door track with two lamp doors a schematic diagram.

Description of reference numerals:

1, the ultraviolet ray multihearth, 10, lamp door group slide construction, 101, support bar, 11, the lamp door track, 111, slide rail, 12, lamp door, 121, first moves towards pulley, 122, second moves towards pulley, 13, the ultraviolet ray quartz burner, 14, stabilizer is put district, 2, the work microscope carrier, 21, rod member, 211, loading end, 212, first air guide channel, 213, second air guide channel, 214, first diffusion hole, 215, the oblique angle, 216, second diffusion hole, 217, cooling water channel, 218, rail alive, 219, ribs, 2191, lockhole, 2192, salient point, 22, conduit, 23, the ventilation rod member, 24, in conjunction with plate.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated:

The utility model relates to a kind of ultraviolet multihearth and substitutes radiator structure, see also Fig. 1 to shown in Figure 6, be main embodiment of the present utility model, comprise the work microscope carrier 2 that is arranged at ultraviolet multihearth 1 inside, when this work microscope carrier 2 is arranged at ultraviolet multihearth 1, be to present the state of crossover layer by layer with quartz burner;

This workpiece stage 2 is made up of a plurality of rod member 21 horizontal Tiles, this rod member 21 is the stock body of rectangle, these rod member 21 tops are the loading end 211 as supporting workpiece, these rod member 21 inside are extended with first air guide channel 212 and second air guide channel 213, and first air guide channel 211 and second air guide channel 213 present the diagonal angle setting, this first air guide channel 212 presents the state that is close to loading end 211 and lays, second air guide channel 213 presents the state that is close to rod member 21 bottom surfaces and lays, these rod member 21 surfaces offer a plurality of conducting first air guide channels 212, first diffusion hole 214 in order to 212 pairs of workpiece air blowings of first air guide channel cooling, the end angle that this rod member 21 is close to first air guide channel 212 is oblique angle 215, and this first diffusion hole 214 is opened in the end face at oblique angle 215, when blowing by 212 pairs of workpiece of first air guide channel, seen through the angle that oblique angle 215 changes first diffusion hole, 214 corresponding workpiece, avoid workpiece to present covering first diffusion hole 214 and influence the air blowing effect, these rod member 21 surfaces offer a plurality of conducting second air guide channels 213 in addition, in order to second diffusion hole 216 of 213 pairs of quartz burner cyclical breathings of second air guide channel;

Described cyclical breathing is meant that second air guide channel 213 with the part sees through 216 pairs of quartz burners air blowings of second diffusion hole, and the second local air guide channel 213 is air-breathing towards quartz burner through second diffusion hole 216, seen through the cooling effect that second air guide channel 213 reaches cyclical breathing around making quartz burner, presented its cyclical breathing best results that is crisscross arranged with air-breathing with second air guide channel 213 of blowing especially;

These rod member 21 inside are extended with the cooling water channel 217 as cooling rod member 21 in addition, and this cooling water channel 217 presents the state that is close to loading end 211 and lays, see through cooling water channel 217 water conservancy diversion cooling liquids to reduce the temperature that rod member 21 is produced by the quartz burner irradiation, be concaved with rail 218 alive and be arranged at the ribs 219 of rail 218 alive at the loading end 211 of this rod member 21, this work rail 218 is positioned at a side of cooling water channel 217, this ribs 219 is prolonged rail 218 alive and is laid in rod member 21 tops, and can prolong rail 218 alive and pull out as an alternative, and this ribs 219 offers in an end for spiral shell spare lock and establishes the lockhole 2191 of usefulness, this ribs 219 can see through this lockhole 2191 and be locked in rod member 21, and these support bar 219 tops convex with a plurality of salient points 2192 as supporting workpiece.

This workpiece stage 2 includes the conduit 22 of the different cooling water channel 217 of a plurality of connections, sees through the end end to end that conduit 22 is connected in different cooling water channel 217, must make cooling water channel 217 present the serial connection water conservancy diversion.

See also shown in Figure 2, enforcement signal for a kind of instrument microscope carrier 2 of present embodiment, this work microscope carrier 2 can see through a plurality of ventilation rod members 23 and connect rod member 21 in conjunction with plate 24 and form, this is the spacing A that are to form 21 of rod member 21 and rod members in conjunction with plate 24 purposes, be convenient to gripping in order to robotic arm, put workpiece, but this spacing A is not absolute demand, visual workpiece is put mode and radiating efficiency difference, and (spacing A is healed rod member that I puts the more, promote radiating efficiency relatively) amplified, dwindle or cancel, this ventilation rod member 23 only has quartz burner cyclical breathing and water conservancy diversion cooling liquid to reduce the effect of ventilation rod member 23 temperature, this ventilation rod member 23 is not absolute demand, and visual radiating efficiency difference is increased and decreased or cancels.

Seeing through 212 pairs of workpiece of first air guide channel blows, controlled the temperature that workpiece is produced by the quartz burner irradiation, seeing through 213 pairs of quartz burner cyclical breathings of second air guide channel in addition must make quartz burner remain in optimum working temperature, and but these cooling water channel 217 water conservancy diversion cooling liquids to be reducing the temperature that rod member 21 is produced by the quartz burner irradiation, and exempt to influence that first air guide channel 212 is blown and the efficient of second air guide channel, 213 cyclical breathings.

Consult shown in Figure 7 again, second embodiment for present embodiment rod member 21, its the first diffusion hole 214A and second diffusion hole are slotted hole shape (among the figure be representative with the first diffusion hole 214A), increase pore size with the slotted hole kenel, make the first diffusion hole 214A and second diffusion hole have better radiating effect.

Please cooperate and consult Fig. 1 and the 8th to shown in Figure 12, the lamp door group slide construction 10 of present embodiment includes lamp door track 11 and the relative lamp door track 11 sliding lamp doors of establishing 12, this lamp door track 11 is disposed at this ultraviolet ray multihearth 1 inner bracing piece 101 relatively, and constitute the state of multilayers with a plurality of lamp door tracks 11, select suitable spacing lamp door to be set in ultraviolet multihearth 1 for the user, to form the ultraviolet multihearth 1 of multilayer lamp door 12 irradiations, wherein;

This lamp door track 11 is provided with slide rail 111 in its side direction;

And these lamp door 12 all sides to should slide rail 111 groups be provided with first and move towards pulley 121 and second and move towards pulley 122, but this lamp door 12 moves towards pulley 121 and second with first and moves towards pulley 122 controlled slips in this slide rail 111, first to move towards pulley 121 stressed in this slide rail 111 in order to support lamp door 12 weight own in this slide rail 111 with longitudinal sliding motion for this, and this second move towards pulley 122 laterally slide on this slide rail 111 in order to restriction lamp door 12 in slide rail 111 prevention lateral displacements, all sides are disposed with a plurality of ultraviolet quartz burners 13 in this lamp door 12 in addition, and in lamp door all sides wherein a side establish stabilizer and put district's 14 usefulness for a plurality of stabilizer assembly settings, in order to stable voltage and the balance electrical power that exports ultraviolet quartz burner to, this ultraviolet ray quartz burner 13 is provided with orientation and lamp door 12 relative lamp door track 11 displacement different directions.

About the present embodiment occupation mode, please cooperate and consult shown in Fig. 1,10,11, the staff desires to carry out that routine is inspected or during repair and replacement, direct these lamp door 12 1 sides of pull, this lamp door 12 moves towards pulley 121, second with first and moves towards pulley 122 relative slide rail 111 rotation displacements, can this lamp door 12 of pull to outer displacement as shown in figure 11, what make things convenient for that the staff carries out ultraviolet quartz burner 13 or stabilizer inspects or damages replacing;

After finishing above-mentioned maintenance or damage changing operation, the staff pushes lamp door, moves towards pulley 121, second by first equally and moves towards pulley 122 relative slide rail 111 rotation displacements, can recover lamp door 12 to original position as shown in figure 10; By can obviously learning after the above-mentioned explanation, the lamp door 12 illumination operations that present embodiment can influential other layer, and meet the device requirement of being particular about production efficiency now, reach the purpose of present embodiment in view of the above.

What deserves to be mentioned is, present embodiment first move towards pulley 121 and second move towards pulley 122 respectively vertically with laterally slide in the slide rail 111, this first moves towards pulley 121 in the mode of longitudinal sliding motion in this slide rail 111, it can provide lamp door 12 gravity to be scattered on the slide rail 111, and second move towards pulley 122 laterally to slide on the mode in this slide rail 111, can prevent that lamp door 12 is offset when relative slide rail 111 displacements, and be able to the running of smooth pull and propelling movement lamp door 12.

When being implemented on lamp door track 11 with double-deck lamp door about the utility model embodiment, see also shown in Figure 12, lamp door 12 part-structures the most the lower layer of with middle demonstration expose to outside the lamp door track 11, and the lamp door 12 of another layer is positioned at slide rail 111, and are positioned on another group lamp door 12.

As shown in Figure 1, the mode that successively stacks with work microscope carrier 2 and lamp door group slide construction 10 in the ultraviolet multihearth of the present utility model 1 constitutes that (the superiors are work microscope carrier 2, this layer top be place work piece not), and workpiece places on the salient point 2192 of lamp door group slide construction 10 belows work microscope carrier 2, provide in view of the above workpiece is carried out ultraviolet treatment with irradiation, and have the heat radiation function of substituting ultraviolet quartz burner 13 and gas, water-cooled.

Only be specific embodiment of the utility model below, do not limit protection domain of the present utility model with this; Any replacement and the improvement done on the basis of not violating the utility model design all belong to protection domain of the present utility model.

Claims (8)

1. a ultraviolet multihearth is substituted radiator structure, it is characterized in that comprise the work microscope carrier that is arranged at ultraviolet multihearth inside, this work microscope carrier is made up of a plurality of rod member horizontal Tiles, and include lamp door track and the relative lamp door established of lamp door track cunning, wherein:

This rod member top is the loading end as supporting workpiece, this rod member inside is extended with first air guide channel and second air guide channel, and this first air guide channel presents the state that is close to loading end and lays, second air guide channel presents the state that is close to the rod member bottom surface and lays, this rod member surface offers a plurality of conducting first air guide channels, in order to first diffusion hole of first air guide channel to workpiece air blowing cooling, this rod member surface offers a plurality of conducting second air guide channels, in order to second diffusion hole of second air guide channel to the quartz burner cyclical breathing;

This rod member inside is extended with the cooling water channel as the cooling rod member in addition, and this cooling water channel presents the state laying that is close to loading end.

This lamp door rail side is to being provided with slide rail;

And this lamp door week side move towards pulley and second and move towards pulley should slide rail set being provided with first, this lamp door moves towards pulley and second with first and moves towards pulley along this slide rail controlled displacements, and the interior all sides of lamp door are disposed with a plurality of ultraviolet quartz burners.

2. ultraviolet multihearth according to claim 1 is substituted radiator structure, it is characterized in that, be concaved with rail alive and be arranged at the ribs of rail alive at the loading end of this rod member, this ribs can see through this lockhole be locked in rod member, and this support bar top convexes with a plurality of salient points as supporting workpiece.

3. ultraviolet multihearth according to claim 1 is substituted radiator structure, it is characterized in that, this rod member is the stock body of rectangle, and first air guide channel and second air guide channel present the diagonal angle setting, the end angle that this rod member is close to first air guide channel is the oblique angle, and this first diffusion hole is opened in the end face at oblique angle.

4. ultraviolet multihearth according to claim 1 is substituted radiator structure, it is characterized in that, this work microscope carrier includes the conduit of the different cooling water channel of a plurality of connections.

5. ultraviolet multihearth according to claim 2 is substituted radiator structure, it is characterized in that, this work rail is positioned at a side of cooling water channel.

6. ultraviolet multihearth according to claim 2 is substituted radiator structure, it is characterized in that, this ribs offers in an end for spiral shell spare lock and establishes the lockhole of usefulness.

7. ultraviolet multihearth according to claim 1 is substituted radiator structure, it is characterized in that, first to move towards pulley stressed in this slide rail in order to support lamp door in this slide rail with longitudinal sliding motion for this, and this second move towards pulley with laterally slide on this slide rail in order to the restriction lamp door in the slide rail lateral displacement.

8. ultraviolet multihearth according to claim 1 is substituted radiator structure, it is characterized in that, this ultraviolet ray quartz burner is provided with the relative lamp door track displacement with lamp door of orientation different directions.

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