CN110639779A

CN110639779A - Multi-line heat dissipation type sealed UV curing lampshade

Info

Publication number: CN110639779A
Application number: CN201911073652.7A
Authority: CN
Inventors: 马庆飞; 曹晓焱; 张洪涛; 张玉铭; 柏建雨; 陈龙
Original assignee: Xuzhou Xugong Precision Industry Technology Co Ltd
Current assignee: Xuzhou Xugong Precision Industry Technology Co Ltd
Priority date: 2019-11-06
Filing date: 2019-11-06
Publication date: 2020-01-03

Abstract

The invention relates to a multi-line heat dissipation type sealed UV curing lampshade, which comprises a lampshade body; the lamp tube fixing device is characterized in that a plurality of groups of lamp tube positioning assemblies are fixedly arranged in the cover body, a tube cavity is formed in the center of each lamp tube positioning assembly, an inserting mechanism is inserted in the tube cavity, a UV lamp tube is assembled on the inserting mechanism, the UV lamp tube is in heat transfer with a curing piece through an irradiation port formed in the upper portion and the lower portion of each lamp tube positioning assembly, the curing piece is attached to a porous carrier, and the porous carrier is transversely fixed between every two adjacent groups of lamp tube positioning assemblies. The invention adopts the way of arranging the lamp shades in an up-down layered way, thereby increasing the irradiation area of the light; meanwhile, the movable lampwick equipment is drawn and placed, so that the placing efficiency of the lampshade is improved, and the flexibility of the lampshade is also improved. The built-in water cooling technology greatly reduces the loss of the lamp tube in the lampshade.

Description

Multi-line heat dissipation type sealed UV curing lampshade

Technical Field

The invention relates to the technical field of UV curing machines, in particular to a multi-line heat dissipation type sealed UV curing lampshade.

Background

UV curing is ultraviolet curing, which refers to the process of converting a substance from a low molecule to a high molecule. UV curing generally refers to the curing conditions or requirements of adhesives, coatings, inks, or other potting sealants that require curing with ultraviolet light, as distinguished from thermal curing, cross-linking agent curing, natural curing, and the like. This variation is referred to as "UV curing".

The national intellectual property office of the people's republic of china has announced a utility model about UV solidification lamp shade, and this utility model's authorized public number is: CN 202290524U. Comprises a housing, a shutter and a pneumatic motor; the pneumatic motor is arranged at one end of the outer cover; the shutter is arranged in the housing and driven to open and close by a pneumatic motor.

Disclosure of Invention

The invention aims to solve the technical problem of providing a multi-line heat dissipation type sealed UV curing lampshade which has the advantages that the upper optical fiber and the lower optical fiber are complemented, the irradiation dead angle is reduced, the lamp wick is convenient to replace, and the heat dissipation efficiency is high.

In order to solve the technical problem, the invention provides a multi-line heat dissipation type sealed UV curing lampshade, which comprises a lampshade body; the lamp tube fixing device is characterized in that a plurality of groups of lamp tube positioning assemblies are fixedly arranged in the cover body, a tube cavity is formed in the center of each lamp tube positioning assembly, an inserting mechanism is inserted in the tube cavity, a UV lamp tube is assembled on the inserting mechanism, the UV lamp tube is in heat transfer with a curing piece through an irradiation port formed in the upper portion and the lower portion of each lamp tube positioning assembly, the curing piece is attached to a porous carrier, and the porous carrier is transversely fixed between every two adjacent groups of lamp tube positioning assemblies.

Furthermore, the lamp tube positioning assembly comprises a water cooling plate, a plurality of liquid cooling holes are formed in the water cooling plate, a limiting groove is formed in the inner side face of the water cooling plate, and the water cooling plate is fixedly connected with the bottom plate.

Furthermore, the bottom plate center is equipped with the power contact, the power contact outer lane is the concave surface form, the bonding of power contact concave surface outside has the packing ring.

Furthermore, the plug-in mechanism comprises a front carrier plate and a rear carrier plate, a UV lamp tube is installed between the front carrier plate and the rear carrier plate, lug plates are fixed on two sides of the front carrier plate and the rear carrier plate, a connecting rod is connected between the two lug plates, the center of the top of the rear carrier plate is connected with a switch contact wire core, and an insulating buffer layer is adhered to the outer ring of the switch contact wire core.

Furthermore, the bottom of the front loading plate is provided with a movable handle.

Furthermore, a negative pressure cylinder and a pushing cylinder are respectively arranged on two sides of the cover body, an output port of the negative pressure cylinder is connected with a pipeline arranged in the porous carrier, and a clamping key arranged on the porous carrier is connected with an output port of the pushing cylinder.

After the structure is adopted, compared with the prior art, the invention adopts a lamp shade arrangement form of upper and lower layers, and the irradiation area of the light is increased; meanwhile, the movable lampwick equipment is drawn and placed, so that the placing efficiency of the lampshade is improved, and the flexibility of the lampshade is also improved. The built-in water cooling technology greatly reduces the loss of the lamp tube in the lampshade.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a multi-line heat dissipation type sealed UV curing lamp cover according to the present invention.

Fig. 2 is a top view of the multi-circuit heat dissipation type sealed UV curable lamp shade insertion mechanism of the present invention.

FIG. 3 is a schematic view of the structure of the positioning assembly of the multi-circuit heat dissipation type sealed UV curable lampshade lamp tube.

In the figure: the lamp tube positioning device comprises a cover body 1, a lamp tube positioning component 2-1, a pushing cylinder 3-1, a negative pressure cylinder 3-2, a carrying platform 4, a clamping key 4-1, an inserting mechanism 5, a rear carrier plate 5-1, a front carrier plate 5-2, an ear plate 5-3, a connecting rod 6, a UV lamp tube 7, an insulating buffer layer 8, a switch contact wire core 9, a movable handle 10, a power supply contact 11, a water cooling plate 12-1, a liquid cooling hole 12-1, a limiting groove 13, a gasket 14 and a tube cavity 15.

Detailed Description

As shown in fig. 1 and 2, a multi-circuit heat dissipation type sealed UV curing lamp housing includes a housing body; the lamp tube fixing device is characterized in that a plurality of groups of lamp tube positioning assemblies 2 are fixedly arranged in the cover body 1, a tube cavity 15 is formed in the center of each lamp tube positioning assembly 2, an inserting mechanism 5 is inserted in the tube cavity 15, a UV lamp tube 7 is assembled on the inserting mechanism 5, the UV lamp tube 7 is in heat transfer with a curing piece through an irradiation port 2-1 formed in the upper portion and the lower portion of each lamp tube positioning assembly 2, the curing piece is attached to a porous carrying platform 4, and the porous carrying platform 4 is transversely fixed between every two adjacent groups of lamp tube positioning assemblies 2. The invention adopts a batch thermal processing structure. The cover body 1 is divided into a multilayer structure, and the lamp tube positioning components 2 and the irradiation regions are longitudinally arranged in a staggered mode. The lamp tube positioning component 2 is internally inserted with an inserting mechanism 5, and the UV lamp tube 7 arranged on the inserting mechanism 5 can be sleeved and taken out at any time. The curing area of the one-way irradiation port which is half of the wall of the irradiation port 2-1 at the upper side and the lower side of the UV lamp tube 7 is large. In order to enhance the loading capacity of the porous stage 4, the holes on the surface of the porous stage 4 adsorb the object through the airflow negative pressure effect of the built-in pipeline, so that the inverted positioning is completed, and the curing irradiation is matched.

As shown in fig. 1 and 2, the lamp positioning assembly 2 includes a water cooling plate 12, a plurality of liquid cooling holes 12-1 are formed in the water cooling plate 12, a limiting groove 13 is formed in an inner side surface of the water cooling plate 12, and the water cooling plate 12 is fixedly connected to the base plate. In order to ensure that the solidified object can be shaped quickly, the lamp tube positioning assembly 2 is provided with a water cooling plate 12, and a plurality of liquid cooling holes 12-1 are arranged in the water cooling plate 12. Meanwhile, the limiting groove 13 formed in the inner side surface of the water cooling plate 12 can clamp the connecting rod 6 connected with the upper ear plate 5-3 of the inserting mechanism 5, so that the UV lamp tube 7 can be protected from being damaged in the inserting process.

As shown in fig. 3, a power contact 11 is assembled at the center of the bottom plate, the outer ring of the power contact 11 is concave, and a gasket 14 is bonded on the outer side of the concave of the power contact 11. In order to ensure a good contact environment for the power supply, the power supply contact 11 is disposed at the center of the bottom plate, and a gasket 14 is bonded to the outer ring of the power supply contact 11.

As shown in fig. 1 and 2, the inserting mechanism 5 includes a front carrier 5-2 and a rear carrier 5-1, a UV lamp tube 7 is installed between the front carrier 5-2 and the rear carrier 5-1, ear plates 5-3 are fixed on two sides of the front carrier 5-2 and the rear carrier 5-1, a connecting rod 6 is connected between the two ear plates 5-3, a switch contact wire core 9 is connected to the center of the top of the rear carrier 5-1, and an insulating buffer layer 8 is adhered to the outer ring of the switch contact wire core 9. Wherein, in order to fix the UV lamp tube 7, the front and the back of the fixed UV lamp tube 7 are respectively and fixedly provided with a front carrier plate 5-2 and a back carrier plate 5-1, and in order to protect the side wings of the UV lamp tube 7, the ear plates 5-3 at the two sides of the front carrier plate 5-2 and the back carrier plate 5-1 are connected with a connecting rod 6.

As shown in fig. 2, the bottom of the front carrier plate 5-2 is equipped with a movable handle 10. Wherein the UV lamp 7 can be extracted by the worker by means of the movable handle 10.

As shown in fig. 1, a negative pressure cylinder 3-2 and a pushing cylinder 3-1 are respectively installed on two sides of the cover body 1, an output port of the negative pressure cylinder 3-2 is connected with a pipeline arranged in a porous carrier 4, and a clamping key 4-1 installed on the porous carrier 4 is connected with an output port of the pushing cylinder 3-1. Wherein, the negative pressure cylinder 3-2 extracts the gas in the pipeline built in the porous carrier 4 and forms negative pressure, thereby fixing the solidified object attached on the surface. The ejection cylinder 3-1 fixes the material from the side through the gas ejection clamping key 4-1.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many variations or modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims

1. A multi-circuit heat dissipation type sealed UV curing lampshade comprises a lampshade body; the method is characterized in that: the lamp tube fixing device is characterized in that a plurality of groups of lamp tube positioning assemblies (2) are fixedly installed in the cover body (1), a tube cavity (15) is formed in the center of each lamp tube positioning assembly (2), an inserting mechanism (5) is inserted into the tube cavity (15), a UV lamp tube (7) is assembled on the inserting mechanism (5), the UV lamp tube (7) is in heat transfer with a curing piece through an irradiation opening (2-1) formed in the lamp tube positioning assemblies (2) from top to bottom, the curing piece is attached to the porous carrier (4), and the porous carrier (4) is transversely fixed between every two adjacent groups of lamp tube positioning assemblies (2).

2. The multi-circuit heat dissipating sealed UV curable lamp housing of claim 1, wherein: the lamp tube positioning assembly (2) comprises a water cooling plate (12), a plurality of liquid cooling holes (12-1) are formed in the water cooling plate (12), a limiting groove (13) is formed in the inner side face of the water cooling plate (12), and the water cooling plate (12) is fixedly connected with the bottom plate.

3. The multi-circuit heat dissipating sealed UV curable lamp housing of claim 2, wherein: the bottom plate center is equipped with power contact (11), power contact (11) outer lane is the concave surface form, power contact (11) concave surface outside bonding has packing ring (14).

4. The multi-circuit heat dissipating sealed UV curable lamp housing of claim 1, wherein: the plug-in mounting mechanism (5) comprises a front carrier plate (5-2) and a rear carrier plate (5-1), a UV lamp tube (7) is mounted between the front carrier plate (5-2) and the rear carrier plate (5-1), lug plates (5-3) are fixed on two sides of the front carrier plate (5-2) and the rear carrier plate (5-1), a connecting rod (6) is connected between the two sets of lug plates (5-3), the center of the top of the rear carrier plate (5-1) is connected with a switch contact wire core (9), and an insulating buffer layer (8) is adhered to the outer ring of the switch contact wire core (9).

5. The multi-circuit heat dissipating sealed UV curable lamp housing of claim 4, wherein: the bottom of the front carrier plate (5-2) is provided with a movable handle (10).

6. The multi-circuit heat dissipating sealed UV curable lamp housing of claim 1, wherein: the two sides of the cover body (1) are respectively provided with a negative pressure cylinder (3-2) and a pushing cylinder (3-1), the output port of the negative pressure cylinder (3-2) is connected with a pipeline arranged in the porous carrier (4), and a clamping key (4-1) arranged on the porous carrier (4) is connected with the output port of the pushing cylinder (3-1).