CN111112025A - UV curing device - Google Patents

Abstract

The application relates to the technical field of UV curing, in particular to a UV curing device. The UV curing device comprises a workpiece fixing seat which is vertically and fixedly arranged; the two vertically and fixedly arranged slideways are respectively positioned on two sides of the workpiece fixing seat, each slideway is at least connected with a first ultraviolet lamp holder in a sliding manner, and the first ultraviolet lamp holders are used for fixing ultraviolet lamps; and a first positioning fastener for fixing the first ultraviolet lamp holder on the slideway. The UV curing device that this application provided can be at any time, simple, convenient adjustment ultraviolet lamp's position, and need not to install the ultraviolet lamp stand again, directly to original ultraviolet lamp stand adjustment operation can, solved the more troublesome problem of operation of current UV curing device adjustment ultraviolet lamp position.

Description

UV curing device

Technical Field

The application relates to the technical field of UV curing, in particular to a UV curing device.

Background

At present, with the innovation and development of the handle curing technology, more and more users adopt the Ultraviolet (UV) curing technology, which generally means that after a photoinitiator (or photosensitizer) is added into a resin, the resin absorbs high-intensity Ultraviolet Rays in the Ultraviolet by Ultraviolet irradiation to generate active free radicals or ionic groups, so as to initiate polymerization, crosslinking and grafting reactions, so that the resin is converted from a liquid state to a solid state within several seconds, and the process is called "UV curing".

In the UV curing process, the curing effect of the cured workpiece is greatly influenced by the intensity of ultraviolet light energy, curing time and curing position, so that for each different cured workpiece, the influence factors are required to be accurately adjusted and verified again to be determined so as to meet the curing requirement. After the existing UV curing device changes the UV lamp or the UV curing process every time, due to the change of the irradiation position and distance of the UV lamp, the lamp holder of the UV lamp needs to be installed and fixed again, and the UV lamp holders in various positions and different specifications need to be manufactured for verification so as to meet the curing requirement. Thus, the method not only wastes time, labor, materials and cost, but also is troublesome for frequent repeated installation.

In addition, most of UV lamp holders of the existing UV curing devices are of straight cylindrical structures, most of lamp bodies of the UV lamps are inserted into the UV lamp holders to cover the UV lamps, the coverage range of the UV lamps is too large, the heat dissipation capacity of the UV lamps can be reduced, and the service life of the UV lamps can be even shortened. Furthermore, the existing UV lamp is fixed on the UV lamp fixing seat by adopting a jackscrew, the UV lamp body is extremely easy to damage by adopting the mode, the abnormal rejection condition of the UV lamp is easy to occur, the service life of the UV lamp is shortened, and the replacement cost is increased.

Disclosure of Invention

The application provides a UV curing device to solve the more troublesome problem of operation of current UV curing device adjustment ultraviolet lamp's position.

The application provides a UV curing apparatus, includes:

a workpiece fixing seat which is vertically and fixedly arranged;

the two vertically and fixedly arranged slideways are respectively positioned on two sides of the workpiece fixing seat, each slideway is at least connected with a first ultraviolet lamp holder in a sliding manner, and the first ultraviolet lamp holders are used for fixing ultraviolet lamps;

and the first ultraviolet lamp holder is fixed on the first positioning fastener of the slideway.

The utility model provides a UV solidification equipment is when carrying out the UV solidification to being fixed in treating the solidification work piece on this work piece fixing base, and need readjust after changing UV lamp or UV solidification technology change, and when needing to verify after the adjustment, all can adjust the position of ultraviolet lamp through the position of slip first ultraviolet lamp stand on connecting its slide at any time, and fasten through first location fastener, thereby adjust the irradiation position that the work piece was treated to ultraviolet lamp, in order to reach its UV solidification requirement. Compared with the prior art, this UV curing device can be at any time, it is simple, convenient adjustment ultraviolet lamp's position, and need not to install the ultraviolet lamp stand again and install the ultraviolet lamp stand of multiple different positions and adjust and verify ultraviolet lamp's position, it can directly to original ultraviolet lamp stand adjustment operation, the more troublesome problem of operation of current UV curing device adjustment ultraviolet lamp position has been solved, and adopt this UV curing device to carry out UV solidification more labour saving, save material, save cost, the work efficiency of UV solidification has still been improved.

Furthermore, one end of the first ultraviolet lamp holder is connected with the slideway in a sliding mode, and the other end of the first ultraviolet lamp holder is provided with a fixing structure capable of moving the ultraviolet lamp transversely.

Therefore, the position of the ultraviolet lamp can be adjusted transversely and longitudinally, so that the irradiation distance and the irradiation height of the ultraviolet lamp to the workpiece to be cured are adjusted, the UV curing requirement is met more quickly and accurately, and the adjustment efficiency is further improved.

Furthermore, the fixing structure is a clamping component which is opened and closed up and down, and the clamping component comprises an upper clamping part and a lower clamping part which are oppositely arranged up and down.

Compared with the mode of sleeving, the clamping mode has the advantages that the degree of tightness of the clamping mode is moderate, damage to the shell of the ultraviolet lamp can be reduced, the service life of the ultraviolet lamp is prolonged, and the clamping mode is more convenient to install and take down.

Furthermore, the two opposite sides of the upper clamping part and the lower clamping part are both concave arch structures.

Therefore, the ultraviolet lamp can be clamped more firmly and is not easy to fall off.

Furthermore, flexible parts are arranged on two opposite sides of the upper clamping part and the lower clamping part.

Therefore, the damage of the ultraviolet lamp can be further reduced, the friction force between the ultraviolet lamp and the clamping component can be increased, the sliding is prevented, and the fixation is firmer.

Further, the upper and lower clamping portions have the same width in the lateral direction,

and the width is less than one third of the length of the ultraviolet lamp.

Therefore, the covered area of the ultraviolet lamp can be reduced as much as possible, the heat dissipation capacity of the ultraviolet lamp is guaranteed, the service life of the ultraviolet lamp is further guaranteed, and dangerous conditions such as explosion caused by overheating of the ultraviolet lamp are prevented.

Further, the UV curing apparatus further includes:

one end of the second ultraviolet lamp holder is fixed on the supporting base or is connected to the slideway in a sliding mode, the side portion of the other end of the second ultraviolet lamp holder is provided with an ultraviolet lamp mounting portion, and the second ultraviolet lamp holder is arranged close to the workpiece fixing seat; and

and the second positioning fastener is used for fixing the second ultraviolet lamp holder on the supporting base or the slide way.

The irradiation angle of the ultraviolet lamp can be adjusted by rotating the second ultraviolet lamp holder in the vertical plane, so that the irradiation position of the workpiece to be cured can be accurately selected, the workpiece to be cured is enabled to avoid the irradiation dead angle, the curing is more uniform, and the curing efficiency can be improved.

Furthermore, the ultraviolet lamp mounting part is of a concave hole structure, the ultraviolet lamp is inserted along the depth direction of the concave hole and is locked by the locking part,

the locking member can be locked at different positions of the ultraviolet lamp body.

Ultraviolet lamp can be followed the shrinkage pool depth direction of shrinkage pool structure like this and be locked in its different deep position departments, and this ultraviolet lamp just can be adjusted to the distance of treating the solidification work piece to can adjust the irradiation distance that this ultraviolet lamp treats the solidification work piece, and then the distance that should treat the solidification work piece by the irradiation of adjustment that can be more accurate, the solidification requirement of treating the solidification work piece of satisfying the difference that can be better.

Furthermore, each slide is connected with at least one second ultraviolet lamp holder in a sliding mode.

Therefore, the existence of the irradiation dead angle of the handle can be further avoided, and the curing is more uniform.

Furthermore, the number of the first ultraviolet lamp holders and/or the second ultraviolet lamp holders arranged on the two slide ways is the same,

and the first ultraviolet lamp holder and/or the second ultraviolet lamp holder are arranged in the same order along the vertical direction of the slide way.

The irradiation amount of the two opposite sides of the handle is basically the same, the irradiation height, the irradiation distance and the irradiation angle are convenient to adjust correspondingly, the adjusting speed is higher, the working efficiency is higher, and the irradiation and the curing are more uniform.

Furthermore, the slideway is vertically attached and fixed on a back plate of the shell,

and a sliding door which is transversely pushed and pulled is arranged on one side opposite to the rear plate of the shell.

Based on the consideration that the ultraviolet lamp is convenient to carry out UV curing work and the space is utilized to the maximum extent, the two slide ways can be vertically attached to and fixed on the rear plate of the shell. When the UV curing device carries out UV curing work, can slide the sliding door and close this opening, can keep apart the casing inside and outside like this, the protection staff does not receive the interference and the injury of the UV curing process of going on in the casing. Compared with other types of doors, the sliding door has the advantages of labor saving, space saving and the like.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

Fig. 1 is a schematic structural diagram of a UV curing apparatus provided in an embodiment of the present application;

FIG. 2 is an exploded front view of a UV curing apparatus provided in accordance with an embodiment of the present application;

fig. 3 is a rear exploded view of a UV curing apparatus provided in an embodiment of the present application;

fig. 4 is a schematic structural view of a workpiece holder according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a handle provided in an embodiment of the present application.

Reference numerals:

1-a UV curing device;

10-a housing;

11-a base plate;

12-a back plate;

13-a top plate;

14-side plates;

20-workpiece fixing seat;

21-free end;

22-bottom end;

30-a slide way;

31-a slide block;

40-a first ultraviolet lamp holder;

41-a clamping member;

411-upper clamp;

412-lower clamp;

413-concave arch structure;

414-a retaining member;

50-a first positioning fastener; a

60-a second ultraviolet lamp holder;

61-ultraviolet lamp mounting part;

70-a second positioning fastener;

2-a handle;

3-ultraviolet lamp;

4-a base;

5-a sliding door;

6-handle.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

The present application is described in further detail below with reference to specific embodiments and with reference to the attached drawings.

As shown in fig. 1, the present embodiment provides a UV curing apparatus 1, which performs UV curing on a workpiece to be cured, where UV is an abbreviation of Ultraviolet ray (Ultraviolet ray), and UV curing generally refers to a process of converting a paint, an ink, an adhesive, a resin or other potting sealant from a liquid state to a solid state by using Ultraviolet Rays, and the present embodiment exemplifies that the workpiece to be cured is a handle 2, and the handle 2 is, as shown in fig. 5, a resin handle made of a resin material, and the UV curing principle of the handle 2 may be that a resin added with a photoinitiator (or a photosensitizer) is irradiated with Ultraviolet Rays, and after absorbing high-intensity Ultraviolet Rays in the Ultraviolet Rays, active radicals or ionic radicals are generated, so as to initiate polymerization, crosslinking and grafting reactions, so that the resin is converted from a liquid state to a solid state within several seconds.

As shown in fig. 1 to 3, the UV curing apparatus 1 provided in the embodiment of the present application may include a housing 10, and the housing 10 may be used as a supporting base for collecting various devices therein, thereby facilitating movement and carrying. The housing 10 may include a top plate 13 and a bottom plate 11 disposed opposite to each other, and two side plates 14 and a back plate 12 disposed opposite to each other, wherein the top plate 13, the back plate 12, the bottom plate 11 and the two side plates 14 are assembled into a semi-closed housing 10 having an opening, and the opening side (i.e., the side opposite to the back plate 12) may be provided with a sliding door 5 capable of sliding in a lateral sliding manner. When the UV curing device 1 performs UV curing work, the sliding door 5 can be slid to close the opening, so that the inside and the outside of the shell 10 can be isolated, and workers are protected from being interfered and injured by the UV curing process performed in the shell 10; when the cured handle 2 needs to be taken out, or the handle 2 needs to be replaced, or the position of the ultraviolet lamp 3 needs to be adjusted, the sliding door 5 can be slid to open the opening. Of course, the sliding door 5 can be replaced by any one of other types of doors, such as a revolving door, a folding door, a spring door, etc., and the sliding door 5 has the advantages of labor saving, space saving, etc., compared with other types of doors. In order to open or close the sliding door 5 more easily, a handle 6 may be fixed to the outer side thereof. In addition, the housing 10 of the UV curing apparatus 1 may be placed on a base 4 having a certain height to facilitate the work of the worker.

The UV curing apparatus 1 of the above embodiment may further include a workpiece fixing base 20 for fixing a workpiece to be cured (e.g., the handle 2), a first ultraviolet lamp holder 40 for fixing the ultraviolet lamp 3, and a slide 30 slidably coupled to the first ultraviolet lamp holder 40. As shown in fig. 1, 2 and 4, the workpiece fixing seat 20 is vertically disposed, a bottom end 22 of the workpiece fixing seat can be fixed on the bottom plate 11 of the housing 10, a connection fixing manner of the bottom end 22 and the bottom plate 11 can be any one of bolt connection, riveting, pin connection, clamping and the like, another end (i.e., a free end 21) of the workpiece fixing seat can be disposed toward the top plate 13, and the free end 21 can be inserted into the handle 2 to be cured to fix the handle 2 thereto; one end of the first ultraviolet lamp holder 40 can be slidably connected to the slide way 30, and the other end can be provided with a fixing structure for fixing the ultraviolet lamp 3; correspondingly, the UV curing device 1 may further include a first positioning fastener 50 for fixing the first ultraviolet lamp holder 40 to the slide 30, and the first positioning fastener 50 may specifically include a screw and a nut. The number of the slideways 30 can be two, and the slideways are respectively positioned on two sides of the workpiece fixing seat 20, and each slideway 30 is at least connected with one first ultraviolet lamp holder 40 in a sliding manner so as to meet the requirement that the workpiece to be cured is irradiated by the ultraviolet lamp 3 to cover the area; the slide ways 30 are fixed on the housing 10, specifically, on the back plate 12 or the side plates 14 of the housing 10, and preferably, the two slide ways 30 may be vertically attached and fixed on the back plate 12 of the housing 10 in consideration of facilitating the UV curing work of the ultraviolet lamp 3 and utilizing the space to the maximum extent; the slide 30 may further include a slider 31, and the uv lamp holder may be detachably coupled to an opposite side of the slider 31 to facilitate maintenance and replacement of the uv lamp holder.

Compared with the prior art, when the UV curing device 1 provided by the embodiment of the present application performs UV curing on the to-be-cured workpiece fixed on the workpiece fixing seat 20, and needs to be readjusted after the ultraviolet lamp 3 is replaced or the UV curing process is changed, and needs to be verified after adjustment, the position of the ultraviolet lamp 3 can be adjusted at any time by sliding the position of the first ultraviolet lamp holder 40 on the connecting slideway 30, and the first ultraviolet lamp holder is fastened by the first positioning fastener 50, so that the irradiation position of the to-be-cured workpiece by the ultraviolet lamp 3 is adjusted, and the UV curing requirement is met. This UV curing device 1 can be at any time, it is simple, convenient adjustment ultraviolet lamp 3's position, and need not to install again the ultraviolet lamp stand and install the ultraviolet lamp stand of multiple different positions and adjust and verify ultraviolet lamp 3's position, it can directly to original ultraviolet lamp stand adjustment operation, the more troublesome problem of operation of current UV curing device adjustment ultraviolet lamp position has been solved, and adopt this UV curing device 1 to carry out UV solidification more labour saving and time saving, save the material, save the cost, the work efficiency of UV solidification has still been improved.

Specifically, the fixing structure of the first ultraviolet lamp holder 40 for fixing the ultraviolet lamp 3 in the foregoing embodiment may be a fixing structure of the ultraviolet lamp 3 that can move transversely, such as a sleeving structure or a clamping structure, so as to adjust the position of the ultraviolet lamp 3 transversely and longitudinally, thereby adjusting the irradiation distance and the irradiation height of the ultraviolet lamp 3 to the workpiece to be cured, so as to achieve the UV curing requirement more quickly and accurately, and further improve the adjustment efficiency.

Preferably, the fixing structure may be a clamping member 41, the clamping member 41 may include an upper clamping portion 411 and a lower clamping portion 412 that are disposed opposite to each other in an up-down direction, the embodiment of the present application preferably employs a tubular ultraviolet lamp 3, the ultraviolet lamp 3 may specifically be an LED ultraviolet lamp, the ultraviolet lamp 3 may be clamped and fixed between the upper clamping portion 411 and the lower clamping portion 412, the position of the ultraviolet lamp 3 may be adjusted by moving laterally to adjust the irradiation distance of the ultraviolet lamp 3 to the handle 2, and for more reliable fixing, the upper clamping portion 411 and the lower clamping portion 412 may be locked by a locking member 414. Compared with the sleeving mode, the clamping mode has moderate fixed tightness, can reduce the damage to the shell of the ultraviolet lamp 3, prolongs the service life of the ultraviolet lamp 3, and is more convenient to install and take down.

And more preferably, as shown in fig. 2, since the tubular ultraviolet lamp 3 is preferably used in the embodiment of the present application, two opposite sides of the upper clamping portion 411 and the lower clamping portion 412 can be oppositely arranged to form an inward concave arch structure 413, and the size and the radian of the arch can be set according to the cross-sectional shape of the ultraviolet lamp 3, so that the ultraviolet lamp 3 can be clamped more firmly and is not easy to fall off.

In addition to the above embodiments, in order to further reduce the damage of the ultraviolet lamp 3, flexible members may be disposed on two opposite sides of the upper clamping portion 411 and the lower clamping portion 412, and the flexible members may be made of any one material of soft glue, sponge, soft fiber, and the like. Thus, not only the damage of the ultraviolet lamp 3 can be further reduced, but also the friction force between the ultraviolet lamp 3 and the holding member 41 can be increased, thereby preventing the sliding and making the fixation more firm.

Further, in order to reduce the covered area of the lamp body of the ultraviolet lamp 3, so as to ensure the heat dissipation capability of the lamp body itself, and further ensure the service life of the lamp body, and prevent the occurrence of dangerous situations such as explosion caused by overheating of the ultraviolet lamp 3, the clamping width of the clamping member 41 of the foregoing embodiment may be reduced as much as possible, specifically, the width of the upper clamping portion 411 and the width of the lower clamping portion 412 in the transverse direction may be the same, and the width may be less than one third of the length of the lamp body of the ultraviolet lamp 3.

In addition, the UV curing apparatus 1 provided by the embodiment of the present application may further include a second ultraviolet lamp holder 60 rotatable in a vertical plane, the second ultraviolet lamp holder 60 being disposed adjacent to the workpiece fixing base 20, one end of which can be fixed to a supporting base, in particular to the back plate 12 of the aforementioned casing 10, or the end can be connected to the slide way 30 in a sliding way, the side part of the other end can be provided with an ultraviolet lamp mounting part 61, one end of the ultraviolet lamp 3 is mounted on the ultraviolet lamp mounting part 61, the other end is arranged towards the workpiece to be solidified which is mounted on the workpiece fixing seat 20, correspondingly, the UV curing apparatus 1 may also be provided with a second positioning fastener 70 for securing the second UV lamp holder 60 to the support base or skid 30, the second positioning fastener 70 has a structure similar to that of the first positioning fastener 50, and will not be described in detail, and the ultraviolet lamp 3 mounted to the second ultraviolet lamp holder 60 may be a mercury lamp or an LED lamp. The irradiation angle of the ultraviolet lamp can be adjusted by rotating the second ultraviolet lamp holder 60 in the vertical plane, so that the irradiation position of the workpiece to be cured can be accurately selected, the workpiece to be cured is free from irradiation dead angles, the curing is more uniform, and the curing efficiency can be improved.

Specifically, aforementioned ultraviolet lamp installation part 61 can be the shrinkage pool structure, and ultraviolet lamp 3 can insert along its shrinkage pool depth direction to through retaining member 414 locking, the staff can be according to the requirement adjustment of UV solidification and install the ultraviolet lamp 3 on ultraviolet lamp holder 60 to the distance of treating the solidification work piece, after the distance is confirmed, this ultraviolet lamp 3 can be through retaining member 414 locking in this position department, this retaining member 414 can be in the different positions department locking of this ultraviolet lamp 3 lamp body, so as to adjust at will. Ultraviolet lamp 3 can be followed the shrinkage pool depth direction of shrinkage pool structure like this and be locked in its different deep position departments, and this ultraviolet lamp just can be adjusted to the distance of treating the solidification work piece to can adjust this ultraviolet lamp 3 and treat the irradiation distance of solidification work piece, and then the distance that should treat the solidification work piece by the irradiation of adjustment that can be more accurate, the solidification requirement of treating the solidification work piece of satisfying the difference that can be better.

The aforementioned embodiment that can be rotated in the vertical plane may be that the number of the second positioning fasteners 70 that are correspondingly arranged on the second ultraviolet lamp holder 60 is one, and the second positioning fasteners 70 may be screws and nuts, and the screws may be inserted into the second ultraviolet lamp holder 60 in a direction perpendicular to the slide way 30 and locked by the nuts, so that the second ultraviolet lamp holder 60 can be freely rotated in the vertical plane before the nuts are locked. Similarly, at least two first positioning fasteners 50 are correspondingly disposed on the first ultraviolet lamp holder 40 to fix the first ultraviolet lamp holder 40 in a limited manner.

In order to further avoid the existence of the dead angle of the handle 2 irradiation and make the curing more uniform, at least one second ultraviolet lamp holder 60 is respectively connected to the two slide ways 30 at the two sides of the workpiece fixing seat 20. Preferably, the two slideways 30 may be provided with the same number of first ultraviolet lamp holders 40 and/or second ultraviolet lamp holders 60, and the order in which each first ultraviolet lamp holder 40 and/or each second ultraviolet lamp holder 60 are arranged along the vertical direction of the slideway 30 is the same, for example, as shown in fig. 1, each slideway 30 is slidably connected with two first ultraviolet lamp holders 40 and one second ultraviolet lamp holder 60, and is arranged in sequence from top to bottom, so that the irradiation amount on the two opposite sides of the handle 2 is substantially the same, the irradiation height, the irradiation distance, and the irradiation angle are conveniently and correspondingly adjusted, the adjustment speed is faster, the working efficiency is higher, and the irradiation and the curing are more uniform.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A UV curing apparatus (1), comprising:

a workpiece fixing seat (20) which is vertically and fixedly arranged;

the two vertical sliding ways (30) are fixedly arranged and are respectively positioned on two sides of the workpiece fixing seat (20), each sliding way (30) is at least connected with a first ultraviolet lamp holder (40) in a sliding manner, and the first ultraviolet lamp holders (40) are used for fixing the ultraviolet lamps (3); and

and the first positioning fastener (50) is used for fixing the first ultraviolet lamp holder (40) on the slide way (30).

2. UV curing device (1) according to claim 1,

one end of the first ultraviolet lamp holder (40) is connected with the slideway (30) in a sliding way, and the other end of the first ultraviolet lamp holder is provided with a fixing structure which can move the ultraviolet lamp (3) transversely.

3. UV curing device (1) according to claim 2,

the fixing structure is a clamping component (41) which is opened and closed up and down, and the clamping component (41) comprises an upper clamping part (411) and a lower clamping part (412) which are oppositely arranged up and down.

4. UV curing device (1) according to claim 3,

the two opposite sides of the upper clamping part (411) and the lower clamping part (412) are both arranged into concave arch structures (413).

5. UV curing device (1) according to claim 3 or 4,

and flexible parts are arranged on two opposite sides of the upper clamping part (411) and the lower clamping part (412).

6. UV curing device (1) according to claim 3,

the upper clip portion (411) and the lower clip portion (412) have the same width in the lateral direction,

and the width is less than one third of the length of the ultraviolet lamp (3).

7. UV curing device (1) according to claim 1 or 2, further comprising:

a second ultraviolet lamp holder (60) which can rotate in the vertical plane, wherein one end of the second ultraviolet lamp holder is fixed on a supporting base or is connected to the slideway (30) in a sliding manner, the side part of the other end of the second ultraviolet lamp holder is provided with an ultraviolet lamp mounting part, and the second ultraviolet lamp holder (60) is arranged close to the workpiece fixing seat (20); and

a second positioning fastener (70) for fixing the second ultraviolet lamp holder (60) to the supporting base or the slideway (30).

8. UV curing device (1) according to claim 7,

the ultraviolet lamp mounting part is of a concave hole structure, the ultraviolet lamp is inserted along the depth direction of the concave hole and is locked by a locking part (414),

the locking piece (414) can be locked at different positions of the lamp body of the ultraviolet lamp (3).

9. UV curing device (1) according to claim 7,

at least one second ultraviolet lamp holder (60) is connected to each slide way (30) in a sliding manner.

10. UV curing device (1) according to claim 9,

the number of the first ultraviolet lamp holders (40) and/or the second ultraviolet lamp holders (60) arranged on the two slideways (30) is the same,

and the first ultraviolet lamp holder (40) and/or the second ultraviolet lamp holder (60) are arranged in the same order along the vertical direction of the slide way (30).

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