CN218197510U - UV lamp curing mechanism of printing machine - Google Patents

Abstract

The utility model relates to a printing machine UV lamp solidification constructs, including cooling shell, shading lamp stand, fluorescent tube and joint design, the fluorescent tube set firmly in on the shading lamp stand, the shading lamp stand set up in on the cooling shell, the joint design set up in one side of cooling shell, just the joint design with the cooling shell with shading lamp stand intercommunication, the coolant liquid is followed the joint design lets in, flows through in proper order the cooling shell with behind the shading lamp stand, through the joint design flows out. Above-mentioned printing machine UV lamp solidification constructs adopts air-cooled and water-cooled mode to the fluorescent tube cooling, can improve cooling efficiency, and the water-cooling can be through cooling housing and shading lamp stand moreover, and furthest improves cooling efficiency, and then can reduce the temperature of fluorescent tube fast, guarantees the life of fluorescent tube.

Description

UV lamp curing mechanism of printing machine

Technical Field

The utility model belongs to the technical field of the printing machine equipment technique and specifically relates to a printing machine UV lamp solidification mechanism is related to.

Background

The UV lamp box can be called a UV oven and an ultraviolet lamp box, and is a machine for UV curing in a simple way; most of UV (ultraviolet) lamp tubes used in the existing UV lamp box are halogen UV lamp tubes and mercury UV lamp tubes, and the existing UV lamp box adopts an air cooling heat dissipation mode, so that the heat dissipation efficiency of the UV lamp box is low, and the reliability of the UV lamp box is further reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a printing machine UV lamp solidification constructs to solve above-mentioned technical problem, improve the radiating efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a printing machine UV lamp solidification constructs, including cooling shell, shading lamp stand, fluorescent tube and joint design, the fluorescent tube set firmly in on the shading lamp stand, the shading lamp stand set up in on the cooling shell, the joint design set up in one side of cooling shell, just the joint design with the cooling shell with shading lamp stand intercommunication, the coolant liquid is followed the joint design lets in, flows through in proper order the cooling shell with behind the shading lamp stand, through the joint design flows out.

As a preferable technical solution, a first water path is arranged on the cooling shell, and the first water path is arranged at the bottom of the cooling shell and is located at two ends of the cooling shell.

As a preferable technical scheme, a circulation plate is further arranged on the cooling shell, and the circulation plate is communicated with the two first water paths.

As a preferable technical scheme, the cooling shell further comprises an air suction opening and an air suction hole, the air suction hole is uniformly formed in the bottom of the cooling shell, and the air suction opening is communicated with the air suction hole.

As a preferred technical scheme, the shading lamp holder comprises a driving structure, a shading sheet and a shading support plate, wherein two sides of the shading sheet are hinged to the shading support plate, and the driving structure drives the shading sheet to rotate.

As a preferable technical scheme, the shading lamp holder further comprises a second water path, and the second water path is arranged on the shading sheet.

As a preferred technical scheme, the shading lamp holder further comprises a circulating structure, the circulating structure is fixedly arranged on the shading support plate, and the circulating structure is communicated with the two second water paths.

As a preferable technical scheme, a driving rack is arranged on the driving structure, a driving gear meshed with the driving rack is arranged at the end part outside the second water path, and the driving structure drives the driving rack to rotate.

As a preferred technical scheme, joint design is including connecting end plate, cable gas connector module, inlet tube and outlet pipe, the cable gas connector module set firmly in connect on the end plate, and with the drive structure electricity is connected, the inlet tube passes through connect the end plate with first water pipe intercommunication, the second water pipe passes through connect the end plate with the outlet pipe intercommunication.

The beneficial effects of the utility model reside in that: above-mentioned printing machine UV lamp solidification constructs adopts air-cooled and water-cooled mode to the fluorescent tube cooling, can improve cooling efficiency, and the water-cooling can be through cooling housing and shading lamp stand moreover, and furthest improves cooling efficiency, and then can reduce the temperature of fluorescent tube fast, guarantees the life of fluorescent tube.

Drawings

Fig. 1 is an exploded schematic view of a UV lamp curing mechanism of a printing press according to the present invention;

fig. 2 is a cross-sectional view of the UV lamp curing mechanism of the printing machine according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a printing machine UV lamp solidification constructs, including cooling shell 1, shading lamp stand 2, fluorescent tube 3 and joint design 4, fluorescent tube 3 sets firmly on shading lamp stand 2, shading lamp stand 2 sets up on cooling shell 1, joint design 4 is installed in one side of cooling shell 1, and joint design 4 and cooling shell 1 and shading lamp stand 2 intercommunication, the coolant liquid lets in from joint design 4, after cooling shell 1 and shading lamp stand 2 flow through in proper order, flow out through joint design 4, can cool down fluorescent tube 3 through the mode of water-cooling, prevent that fluorescent tube 3 is overheated.

The cooling shell 1 is provided with a first water channel 12 and a circulating plate 11, the first water channel 12 is arranged at the bottom of the cooling shell 1 and is positioned at two ends of the cooling shell 1, the lamp tube 3 can be cooled to the maximum, the circulating plate 11 is communicated with the two first water channels 12, and the first water channels 12 are communicated with the joint structure 4. Shading lamp stand 2 is including second water route 25, circulation structure 24, drive structure 23, anti-dazzling screen 21 and shading extension board 22, anti-dazzling screen 21 is provided with two, shading extension board 22 sets up in anti-dazzling screen 21's both sides, anti-dazzling screen 21 is used for sheltering from the light of fluorescent tube 3 when need not to use fluorescent tube 3, and can shelter from fluorescent tube 3 through drive anti-dazzling screen 21, and then can adjust the luminance of fluorescent tube 3 through the angle that shelters from, anti-dazzling screen 21 sets up with shading extension board 22 through second water route 25 is articulated, drive structure 23 drives anti-dazzling screen 21 and rotates relative shading extension board 22, circulation structure 24 sets firmly on shading extension board 22, and circulation structure 24 and two second water routes 25 intercommunication, second water route 25 and joint design 4 intercommunication. The coolant enters the mechanism from the joint structure 4, flows from the joint structure 4 to a first water path 12 thereof in the cooling housing 1, flows through the circulating plate 11 to another first water path 12, and finally flows back to the joint structure 4, then flows from the joint structure 4 to the light-shielding lamp holder 2, flows from the joint structure 4 to a second water path 25 thereof in the light-shielding lamp holder 2, flows through the circulating structure 24 to another second water path 25, and finally flows back to the joint structure 4, and flows out of the joint structure 4.

The cooling shell 1 further comprises an air suction opening 13 and an air suction hole 14, the air suction hole 14 is uniformly formed in the bottom of the cooling shell 1, the air suction opening 13 is communicated with the air suction hole 14, the air suction opening 13 is communicated with negative air pressure, the air suction hole 14 generates negative pressure, air is driven to flow, and the temperature of the lamp tube 3 is reduced in an air cooling mode. The cooling housing 1 further comprises a cover plate 15, and the cover plate 15 is mounted on the cooling housing 1 and used for preventing dust and the like from entering the cooling housing 1. The light shielding support plate 22 is provided with a lamp pressing block 221, and the lamp pressing block 221 is abutted to the lamp 3, so that the lamp 3 can be conveniently installed.

The driving structure 23 is provided with a driving rack 231, a driving gear 251 engaged with the driving rack 231 is arranged outside the second water channel 25, the driving gear 251 is fixedly arranged at the end of the second water channel 25, and the driving structure 23 drives the driving rack 231 to rotate, so as to drive the driving gear 251 to rotate, and further drive the light shielding sheet 21 to rotate, thereby opening or shielding the lamp tube 3.

The joint structure 4 includes a joint end plate 41, a cable air joint module 42, a water inlet pipe 43 and a water outlet pipe 44, the cable air joint module 42 is fixedly disposed on the joint end plate 41 and electrically connected to the driving structure 23, the water inlet pipe 43 is communicated with one of the first water pipes 12 through the joint end plate 41, the other first water pipe 12 is communicated with one of the second water pipes 25 through the joint end plate 41, and the other second water pipe 25 is communicated with the water outlet pipe 44 through the joint end plate 41.

The above-mentioned embodiments are merely preferred examples of the present invention, and do not limit the scope of the present invention, so all equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (9)

1. The utility model provides a printing machine UV lamp solidification mechanism, its characterized in that, including cooling shell, shading lamp stand, fluorescent tube and joint design, the fluorescent tube set firmly in on the shading lamp stand, the shading lamp stand set up in on the cooling shell, the joint design set up in one side of cooling shell, just the joint design with the cooling shell with shading lamp stand intercommunication, the coolant liquid is followed the joint design lets in, flows through in proper order the cooling shell with behind the shading lamp stand, through the joint design flows out.

2. The printer UV lamp curing mechanism of claim 1, wherein a first water path is provided on the cooling housing, the first water path being provided at a bottom of the cooling housing and located at both ends of the cooling housing.

3. The printer UV lamp curing mechanism of claim 2, wherein a circulation plate is further disposed on the cooling housing, the circulation plate being in communication with the two first water paths.

4. The UV lamp curing mechanism of the printing machine according to claim 3, wherein the cooling housing further comprises an air suction opening and air suction holes, the air suction holes are uniformly arranged at the bottom of the cooling housing, and the air suction opening is communicated with the air suction holes.

5. The UV lamp curing mechanism of claim 4, wherein the light-shielding lamp holder comprises a driving mechanism, a light-shielding sheet and a light-shielding support plate, two sides of the light-shielding sheet are hinged to the light-shielding support plate, and the driving mechanism drives the light-shielding sheet to rotate.

6. The printing machine UV lamp curing mechanism according to claim 5, wherein a second water path is further included on the light-shielding lamp holder, and the second water path is disposed on the light-shielding sheet.

7. The UV lamp curing mechanism of claim 6, wherein the light-shielding lamp holder further comprises a circulating structure, the circulating structure is fixedly arranged on the light-shielding support plate, and the circulating structure is communicated with the two second water paths.

8. The UV lamp curing mechanism of claim 6 or 7, wherein a driving rack is arranged on the driving structure, a driving gear meshed with the driving rack is arranged at the end outside the second water path, and the driving structure drives the driving rack to rotate.

9. The printer UV lamp curing mechanism of claim 8, wherein the joint structure includes a joint end plate, a cable air connector module, a water inlet pipe and a water outlet pipe, the cable air connector module is fixedly disposed on the joint end plate and electrically connected to the driving structure, the water inlet pipe is communicated with the first water path through the joint end plate, and the second water path is communicated with the water outlet pipe through the joint end plate.

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