CN114798375B

CN114798375B - Ultraviolet lamp reflection cooling device

Info

Publication number: CN114798375B
Application number: CN202210499271.0A
Authority: CN
Inventors: 李和军; 梅东海; 华磊; 白希电; 张文华
Original assignee: Youweisaisi Photoelectric Technology Huzhou Co ltd
Current assignee: Anhui Xixian Technology Co ltd
Priority date: 2022-05-09
Filing date: 2022-05-09
Publication date: 2022-12-20
Anticipated expiration: 2042-05-09
Also published as: CN114798375A

Abstract

The utility model belongs to the technical field of photocuring equipment and specifically relates to a ultraviolet lamp reflection cooling device is related to, it includes the mounting bracket, be equipped with the lamp shade on the mounting bracket, the cavity has been seted up in the lamp shade, still be equipped with first storage water tank and second storage water tank on the mounting bracket, first storage water tank with all be equipped with communicating pipe, two on the second storage water tank communicating pipe connect respectively in the both ends of lamp shade, and all communicate with the cavity, still be equipped with the water pump on communicating pipe. This application is crossed the end and is filtered the lamp shade through setting up first storage water tank and second storage water tank, can make the lamp shade be in always by the water-cooled state, and water can circulate, has practiced thrift the water resource.

Description

Ultraviolet lamp reflection cooling device

Technical Field

The application relates to the field of photocuring equipment, in particular to an ultraviolet lamp reflection cooling device.

Background

UV curing, which refers to a process of converting a substance from a low molecule to a high molecule, and ultraviolet curing. The UV curing generally refers to the curing conditions or requirements of a coating (paint), ink, an adhesive (glue) or other potting sealants which need to be cured by ultraviolet rays, is different from heating curing, crosslinking agent (curing agent) curing, natural curing and the like, and has the advantages of high curing speed, low carbon, environmental protection and little pollution.

With advances in technology and the demand for efficient technology, the power of the uv lamps is also increasing. The high-power ultraviolet lamp can improve curing efficiency, but the high-power ultraviolet lamp has the problem that calorific capacity is many, the thermal diffusivity is poor. In the related art, the heat dissipation of the ultraviolet lamp is accelerated by air cooling or water cooling, but the air cooling has low heat dissipation efficiency, and the water cooling wastes water resources, so that a better ultraviolet lamp cooling device is needed.

Disclosure of Invention

In order to improve the cooling efficiency of ultraviolet lamp, this application provides an ultraviolet lamp reflection cooling device.

The application provides a pair of ultraviolet lamp reflection cooling device adopts following technical scheme:

the utility model provides an ultraviolet lamp reflection cooling device, includes the mounting bracket, be equipped with the lamp shade on the mounting bracket, the cavity has been seted up in the lamp shade, still be equipped with first storage water tank and second storage water tank on the mounting bracket, first storage water tank with all be equipped with communicating pipe, two on the second storage water tank communicating pipe connect respectively in the both ends of lamp shade, and all communicate with the cavity, still be equipped with the water pump on communicating pipe.

Through adopting above-mentioned technical scheme, set up the cavity on the lamp shade, the heat that the ultraviolet lamp produced is absorbed by the lamp shade, the aquatic in the cavity is transmitted to the heat, water flows to the lamp shade in from first storage water tank, flow again to the second storage water tank, later water flows to the lamp shade by the second storage water tank in, flow again from the lamp shade in the first storage water tank, thereby accomplish the circulation of water, water absorbs the heat on the lamp shade at the circulation in-process, thereby play better radiating effect to the lamp shade, and play the effect of water economy resource.

In a specific implementation mode, still be equipped with on the lamp shade with the outlet pipe that the cavity is linked together, the one end that the lamp shade was kept away from to the outlet pipe is connected with first branch pipe and second branch pipe, still be equipped with first cooler bin and second cooler bin on the mounting bracket, be equipped with the first connecting pipe with first storage water tank connection on the first cooler bin, be equipped with the second connecting pipe with second storage water tank connection on the second cooler bin, first branch union coupling in first cooler bin, the second branch union coupling in the second cooler bin, all be equipped with first solenoid valve on first branch pipe and the second branch pipe.

Through adopting above-mentioned technical scheme, the cavity that the water in the first storage water tank passes through in the lamp shade enters into the outlet pipe, and the water in the outlet pipe can enter into first cooler bin or second cooler bin through the control of first solenoid valve, consequently has two kinds of mode. The first working mode is as follows: when water in the water outlet pipe enters the first cooling tank, the water is cooled in the first cooling tank, and at the moment, water in the second water storage tank enters the cavity and the water outlet pipe and flows into the second cooling tank; the second working mode is as follows: when water in the first water storage tank enters the cavity and enters the water outlet pipe, if the water continuously flows to the second cooling tank, the water can be cooled in the second cooling tank, then the water in the first cooling tank flows into the first water storage tank, then the water in the second water storage tank flows into the first cooling tank through the cavity and the water outlet pipe for cooling, then the water in the second cooling tank flows into the second water storage tank, and the water in the first water storage tank flows into the second cooling tank through the cavity, so that the circulation is completed; compared with the first working mode, the second working mode also completes the circulating cooling process by water, but compared with the first working mode, the second working mode increases the water cooling time in the circulation, so that the cooling effect is better when the lampshade is cooled.

In a specific implementation manner, the first cooling tank is located above the first water storage tank, the second cooling tank is located above the second water storage tank, and the first connecting pipe and the second connecting pipe are both provided with a second electromagnetic valve.

By adopting the technical scheme, after the second electromagnetic valve on the first connecting pipe is opened, water in the first cooling tank can enter the first water storage tank through the first connecting pipe, and no additional power source is needed; when the second electromagnetic valve on the second connecting pipe is opened, water in the second cooling tank can enter the second water storage tank through the second connecting pipe, and no additional power source is needed.

In a specific implementation mode, the lampshade is arranged in an arc shape, the opening of the lampshade faces downwards, and the water outlet pipe is arranged at the top of the lampshade.

Through adopting above-mentioned technical scheme, the lamp shade is the arc type setting to can strengthen the lamp shade to the reflection effect of ultraviolet ray, thereby improve solidification efficiency, the top of lamp shade is located to the outlet pipe, thereby just can leave the cavity through the outlet pipe after the cavity in the lamp shade is filled to full, and then improved the cooling effect of water to the lamp shade.

In a specific embodiment, the lampshade is provided with a silver foil reflecting film.

Through adopting above-mentioned technical scheme, the silver foil can strengthen the reflection effect of lamp shade, and the silver foil possesses higher heat conductivity simultaneously, is favorable to the heat transfer to the cooling water in lamp shade and the lamp shade.

In a specific embodiment, first cooler bin with all be equipped with a plurality of volume boxes on the inner wall of second cooler bin, the volume box sets up along the direction of height, the volume of volume box increases from top to bottom in proper order, and is two adjacent the volume box is equipped with a plurality of cooling tubes, the cooling tube both ends communicate respectively in two the volume box, first vent has been seted up to the relative lateral wall of first cooler bin, the second vent has been seted up to the relative lateral wall of second cooler bin, first connecting pipe communicate in be located the volume box of below in the first cooler bin, the second connecting pipe communicate in be located the volume box of below in the second cooler bin.

Through adopting above-mentioned technical scheme, in the water entering volume box in the play water pipe, in the volume box that flows to lieing in the below through the cooling tube from the volume box that lies in the top again, at the mobile in-process of cooling tube, can play better ground radiating effect to the cooling of water has been accelerated.

In a specific embodiment, the side wall of the volume box is provided with a heat dissipation opening, and the heat dissipation opening is arranged close to the top wall of the volume box.

By adopting the technical scheme, the heat dissipation port is more favorable for heat dissipation of water in the volume box, and plays a role in balancing air pressure.

In a specific can implement mode, the one end that the cooling tube is located the top is buckled and is set up, and the department of buckling is close to the roof setting of volume box, and is less than the height of thermovent is located the top the mouth of pipe of cooling tube is close to the box bottom setting of volume box.

Through adopting above-mentioned technical scheme, water can increase the time that stops in the volume box, and water can dispel the heat through the thermovent when in the volume box, and when the water level was higher than the highest point of cooling tube, water can enter into the volume box of below through the cooling tube.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lampshade is subjected to bottom-crossing filtration by the first water storage tank and the second water storage tank, so that the lampshade can be always in a water-cooled state, water can circulate, and water resources are saved;

2. this application sets up the lamp shade into the arc, can obviously improve the lamp shade to the reflection effect of ultraviolet light to improve solidification efficiency.

Drawings

Fig. 1 is a schematic view of the general structure of an ultraviolet lamp reflective cooling device according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of a lamp housing of an embodiment of the present application.

Fig. 3 is a cross-sectional view of a volume box of an embodiment of the present application.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Description of the reference numerals: 1. a mounting frame; 2. a lamp shade; 3. a cavity; 4. a silver foil; 5. a first water storage tank; 6. a second water storage tank; 7. a communicating pipe; 8. a water pump; 9. a water outlet pipe; 10. a first cooling tank; 11. a second cooling tank; 12. a first connecting pipe; 13. a second connecting pipe; 14. a second solenoid valve; 15. a first branch pipe; 16. a second branch pipe; 17. a first solenoid valve; 18. a first air vent; 19. a second ventilation opening; 20. a volume box; 21. a heat dissipation port; 22. a heat radiation pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses ultraviolet lamp reflection cooling device. Referring to fig. 1 and 2, the ultraviolet lamp reflection cooling device comprises an installation frame 1, a lampshade 2 is arranged on the installation frame 1, a cavity 3 is formed in the lampshade 2, and the cavity 3 is used for containing cooling water. The lampshade 2 is arranged in an arc shape, and the concave surface of the lampshade 2 faces downwards. The concave surface of the lampshade 2 is provided with the silver foil 4, and the silver foil 4 plays a role in reflecting ultraviolet rays, so that the photocuring efficiency can be improved. In addition, the silver foil 4 has high thermal conductivity, so that heat generated by ultraviolet light can be conveniently guided to the lampshade 2 and further to cooling water in the lampshade 2.

Referring to fig. 2, still being equipped with first storage water tank 5 and second storage water tank 6 on the mounting bracket 1, all communicating pipe 7 has been connected respectively in the both ends of lamp shade 2 to all the intercommunication on the diapire of first storage water tank 5 and second storage water tank 6, two communicating pipe 7, and be close to the bottom setting in lamp shade 2 to all communicate with cavity 3. All be equipped with water pump 8 on two communicating pipes 7, under the drive of water pump 8, the water in first storage water tank 5 and the second storage water tank 6 all can enter into cavity 3 through communicating pipe 7 to fill up cavity 3, thereby water can absorb the heat energy on lamp shade 2 in cavity 3. The top of lamp shade 2 is equipped with the outlet pipe 9 that is linked together with cavity 3, and outlet pipe 9 is located the top of lamp shade 2 to the hydroenergy can be full of cavity 3 in the flow process.

Referring to fig. 2, a first cooling tank 10 located above the first water storage tank 5 and a second cooling tank 11 located above the second water storage tank 6 are further arranged on the mounting frame 1, a first connecting pipe 12 is arranged at the bottom of the first cooling tank 10, one end of the first connecting pipe 12 is communicated with the first cooling tank 10, and the other end of the first connecting pipe is communicated with the first water storage tank 5. The bottom of the second cooling tank 11 is provided with a second connecting pipe 13, one end of the second connecting pipe 13 is communicated with the second cooling tank 11, and the other end is communicated with the second water storage tank 6. The first connecting pipe 12 and the second connecting pipe 13 are both provided with a second electromagnetic valve 14, and the second electromagnetic valve 14 can control the opening and closing of the first connecting pipe 12 and the second connecting pipe 13. A first branch pipe 15 and a second branch pipe 16 communicated with the water outlet pipe 9 are arranged at the top end of the water outlet pipe 9, first electromagnetic valves 17 are arranged on the first branch pipe 15 and the second branch pipe 16, the first branch pipe 15 is connected to the top of the first cooling box 10 and communicated with the first cooling box 10, and the second branch pipe 16 is connected to the top of the second cooling box 11 and communicated with the second cooling box 11. Water in the first water storage tank 5 enters the cavity 3 through the communicating pipe 7 under the action of the water pump 8, and enters the water outlet pipe 9 after the cavity 3 is filled, and enters the first cooling tank 10 or the second cooling tank 11 under the control of the first electromagnetic valve 17, so that two working modes are provided.

When water in the first water storage tank 5 enters the first cooling tank 10 through the cavity 3 and the water outlet pipe 9, the first water storage tank 5, the communicating pipe 7, the cavity 3, the water outlet pipe 9, the first branch pipe 15, the first cooling tank 10 and the first connecting pipe 12 form a cycle, and the second water storage tank 6, the communicating pipe 7, the cavity 3, the water outlet pipe 9, the second branch pipe 16, the second cooling tank 11 and the second connecting pipe 13 form another cycle. Two circulations are gone on in turn, and water takes away the heat on the lamp shade 2 when cavity 3, and the cooling is accomplished to the heat that water released self on first cooler bin 10 and second cooler bin 11 to water can carry out effectual heat dissipation in first cooler bin 10 and second cooler bin 11, has effectively improved the radiating effect to lamp shade 2. When water in the first water storage tank 5 enters the second cooling tank 11 through the cavity 3 and the water outlet pipe 9, the second working mode is adopted, at the moment, the water in the first water storage tank 5 enters the second cooling tank 11 through the second branch pipe 16, the second connecting pipe 13 is blocked, and the water is radiated in the second cooling tank 11. When the water consumption in the first storage water tank 5 finishes, the water pump 8 of one side of the first storage water tank 5 stops working, then the water which has dissipated heat in the first cooling tank 10 can enter the first storage water tank 5, then the water in the second storage water tank 6 enters the first cooling tank 10 through the cavity 3, the water outlet pipe 9 and the first branch pipe 15, after the water consumption in the second storage water tank 6 finishes, the water pump 8 of one side of the second storage water tank 6 stops working, the water in the second cooling tank 11 enters the second storage water tank 6 through the second connecting pipe 13, and therefore circulation is completed. In the circulation process, compared with the first working mode, the heat dissipation time of the water in the second working mode is longer, and the achieved cooling effect is better.

Referring to fig. 3 and 4, two opposite side walls of the first cooling box 10 have first vents 18, two opposite side walls of the second cooling box 11 have second vents 19, the inner walls of the first cooling box 10 and the second cooling box 11 have a plurality of volume boxes 20, the volume boxes 20 are arranged along the height direction of the mounting frame 1, and the volumes of the volume boxes 20 are gradually increased from top to bottom. The side wall of the volume box 20 is provided with a heat dissipation port 21, the heat dissipation port 21 is arranged close to the top of the volume box 20, and the heat dissipation port 21 plays a role in heat dissipation and air pressure balancing. Be equipped with a plurality of cooling tubes 22 between double-phase adjacent volume box 20, cooling tube 22's bottom and the volume box 20 intercommunication that is located the cooling tube 22 below, cooling tube 22's top stretches into in the volume box 20 that is located the top, and cooling tube 22's top carries out at least once buckling, cooling tube 22's buckle department is close to the roof setting of volume box 20, and is less than thermovent 21, cooling tube 22's top mouth of pipe is close to the bottom of the box setting of volume box 20. The water in the volume box 20 can dissipate heat through the heat dissipation opening 21, when the liquid level is higher than the bent portion of the heat dissipation pipe 22, the water enters the volume below through the siphon effect of the heat dissipation pipe 22, the pipe diameter of the heat dissipation pipe 22 is smaller, and the water can dissipate heat in the process of passing through the heat dissipation pipe 22.

The application embodiment of the ultraviolet lamp reflection cooling device has the implementation principle that: water is at first cooler bin 10, first storage water tank 5, the circulation in-process of second cooler bin 11 and second storage water tank 6, hydroenergy can fill into in cavity 3 of lamp shade 2 to the heat on the lamp shade 2 can be taken away to water, play the effect to the cooling of lamp shade 2, and then play and carry out radiating effect to the ultraviolet lamp, and water is at the circulation in-process, the heat of aquatic can give off, thereby can keep the high-efficient circulation of water, the effect of saving the water resource has been reached.

Compared with the prior art, this application embodiment is through setting up first storage water tank 5 and second storage water tank 6 and crossing the end to lamp shade 2 and filter, can make lamp shade 2 be in by the water-cooled state always, and water can circulate, has practiced thrift the water resource.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An ultraviolet lamp reflection cooling device which characterized in that: the water storage and purification device comprises a mounting frame (1), wherein a lampshade (2) is arranged on the mounting frame (1), a cavity (3) is formed in the lampshade (2), a first water storage tank (5) and a second water storage tank (6) are further arranged on the mounting frame (1), communicating pipes (7) are respectively arranged on the first water storage tank (5) and the second water storage tank (6), the two communicating pipes (7) are respectively connected to two ends of the lampshade (2) and are communicated with the cavity (3), and a water pump (8) is further arranged on each communicating pipe (7);

the lamp shade (2) is further provided with a water outlet pipe (9) communicated with the cavity (3), one end, far away from the lamp shade (2), of the water outlet pipe (9) is connected with a first branch pipe (15) and a second branch pipe (16), the mounting frame (1) is further provided with a first cooling box (10) and a second cooling box (11), the first cooling box (10) is provided with a first connecting pipe (12) connected with a first water storage tank (5), the second cooling box (11) is provided with a second connecting pipe (13) connected with a second water storage tank (6), the first branch pipe (15) is connected with the first cooling box (10), the second branch pipe (16) is connected with the second cooling box (11), and the first branch pipe (15) and the second branch pipe (16) are both provided with a first electromagnetic valve (17);

the first cooling tank (10) is positioned above the first water storage tank (5), the second cooling tank (11) is positioned above the second water storage tank (6), and the first connecting pipe (12) and the second connecting pipe (13) are both provided with a second electromagnetic valve (14);

the water in the first water storage tank (5) enters the first cooling tank (10) through the cavity (3) and the water outlet pipe (9) in a first working mode, and the first water storage tank (5), the communicating pipe (7), the cavity (3), the water outlet pipe (9), the first branch pipe (15), the first cooling tank (10) and the first connecting pipe (12) form a cycle; the second water storage tank (6), the communicating pipe (7), the cavity (3), the water outlet pipe (9), the second branch pipe (16), the second cooling tank (11) and the second connecting pipe (13) form another circulation; the two circulations are alternately carried out, the water takes away the heat on the lamp shade (2) when passing through the cavity (3), and the water releases the heat on the first cooling box (10) and the second cooling box (11) to finish cooling; the water in the first water storage tank (5) enters the second cooling tank (11) through the cavity (3) and the water outlet pipe (9) and is in a second working mode, the water in the first water storage tank (5) enters the second cooling tank (11) through the second branch pipe (16), the second connecting pipe (13) is blocked, the water is cooled in the second cooling tank (11), when the water in the first water storage tank (5) is consumed, the water pump (8) on one side of the first water storage tank (5) stops working, the water which is cooled in the first cooling tank (10) can enter the first water storage tank (5), the water in the second water storage tank (6) enters the first cooling tank (10) through the cavity (3), the water outlet pipe (9) and the first branch pipe (15), after the water in the second water storage tank (6) is consumed, the water pump (8) on one side of the second water storage tank (6) stops working, the water in the second cooling tank (11) enters the second connecting pipe (13) through the second branch pipe (13), and the water storage tank (6) is circulated.

2. The ultraviolet lamp reflective cooling apparatus of claim 1, wherein: the lampshade (2) is arranged in an arc shape, the opening of the lampshade (2) faces downwards, and the water outlet pipe (9) is arranged at the top of the lampshade (2).

3. The ultraviolet lamp reflective cooling apparatus of claim 1, wherein: and a silver foil (4) is arranged on the concave surface of the lampshade (2).

4. The reflective cooling arrangement for an ultraviolet lamp according to claim 1, wherein: first cooler bin (10) with all be equipped with a plurality of volume boxes (20) on the inner wall of second cooler bin (11), the direction of height setting along mounting bracket (1) is followed in volume box (20), the volume of volume box (20) from top to bottom increases in proper order, and is double-phase adjacent volume box (20) are equipped with a plurality of cooling tubes (22), cooling tube (22) both ends communicate respectively in two volume box (20), first vent (18) have been seted up to the lateral wall that first cooler bin (10) is relative, second vent (19) have been seted up to the lateral wall that second cooler bin (11) is relative, first connecting pipe (12) communicate in volume box (20) that are located the below in first cooler bin (10), second connecting pipe (13) communicate in volume box (20) that are located the below in second cooler bin (11).

5. The ultraviolet lamp reflective cooling apparatus of claim 4, wherein: the side wall of the volume box (20) is provided with a heat dissipation opening (21), and the heat dissipation opening (21) is close to the top wall of the volume box (20).

6. The ultraviolet lamp reflective cooling apparatus of claim 5, wherein: the one end that cooling tube (22) are located the top is buckled and is set up, and the department of buckling is close to in the roof setting of volume box (20), and is less than the height of thermovent (21), be located the top the mouth of pipe of cooling tube (22) is close to in the box bottom setting of volume box (20).