CN213032919U - 20X80 trilateral frameless UV-LED module - Google Patents

Abstract

The utility model belongs to the technical field of the solidification machine, a solidification module is related to, in particular to trilateral no frame UV-LED module of 20X 80. The device solves the problems that the curing efficiency of microelectronic components is high, the energy is saved, the device can be adjusted randomly according to the specification of a test sample, and the combination meets various size requirements. This product is including being square shell, has the inner chamber in the shell, and the intracavity is equipped with the heat dissipation scale in the shell, is equipped with radiator fan on the heat dissipation scale, has seted up the radiating part on the just right shell of radiator fan, and the below that lies in the heat dissipation scale in the shell still is equipped with the heat dissipation copper pipe, and the heat dissipation copper pipe upper end is worn to establish in the heat dissipation scale, the top that lies in the heat dissipation scale on the shell still is equipped with the power strip, and the power strip is connected with the equal electricity of radiator fan and heat dissipation copper pipe, still is equipped with the connector with the power strip electricity on the up. The product can be spliced at will without damage, and is energy-saving and efficient.

Description

20X80 trilateral frameless UV-LED module

Technical Field

The utility model belongs to the technical field of the solidification machine, a solidification module is related to, in particular to trilateral no frame UV-LED module of 20X 80.

Background

With the rapid development of modern industry, the UV curing machine is being widely used for the instant drying of wood boards, plywood, furniture, steel plates, building materials, lenses, leather and the like after being coated with UV paint: the waiting drying time is saved, and the coating process time is greatly shortened. But lack corresponding exquisite, nimble, convenient UV module in relevant fields such as electronic components, optic fibre of subdivision. And the irradiation length, intensity and line width of the ultraviolet light source can be controlled and the temperature can be accurately controlled according to different product requirements. Therefore, the problem of solving the above existing problem is that we are not ready to deal with things at present.

SUMMERY OF THE UTILITY MODEL

To the technical insufficiency at present, the utility model provides a 20X80 trilateral no frame UV-LED module. The device aims to solve the technical problems that the curing efficiency of microelectronic components is high, energy is saved, the device can be adjusted randomly according to the specification of a test sample, and various size requirements can be met through combination.

In order to realize the purpose, the utility model adopts the technical scheme that:

the utility model provides a 20X80 trilateral frameless UV-LED module, is including being square shell, the inner chamber has in the shell, its characterized in that, be equipped with the heat dissipation scale in the shell inner chamber, be equipped with radiator fan on the heat dissipation scale, radiator fan has just seted up on the just right shell the radiating part, the radiating part is interior concavity setting, a plurality of lower louvres have been seted up on the bottom surface of radiating part, a plurality of louvres of going up have still been seted up to the side direction of radiating part, the below that lies in the heat dissipation scale in the shell still is equipped with the heat dissipation copper pipe, and the heat dissipation copper pipe upper end is worn to establish in the heat dissipation scale, the top that lies in the heat dissipation scale on the shell still is equipped with the power strip, power strip and radiator fan and the equal electricity federation of heat dissipation copper pipe, still be equipped.

According to the characteristics of small size and high accuracy of electronic components and circuit boards, a set of miniature UV curing device is designed, and three-side frameless design can be spliced randomly without damage according to the size of a product. The device light source contact surface adopts special reflecting material, and the printing opacity cover design has the length that accurate optics angle can realize the light, the control of scope, and is energy-conserving, high-efficient. The heat dissipation of light source adopts the material that purity is high and multi-angle louvre to guarantee that the circulation of air is smooth and easy, in time discharges the heat, guarantees LED's life-span. The control of the light intensity adopts an independent power control module to control each LED, thereby realizing accurate control.

The design is a 20 × 80 unit module designed according to the size of an electronic component, and the shell has three sides without frames and can be spliced in any three directions. The radiator is specially customized according to the high heat of the LED, the upper radiating holes and the lower radiating holes form multi-angle radiating holes, and the multi-angle radiating holes are specifically designed according to the air output and the air output space of the radiating fan, and particularly, the sinking design is designed according to the trend of air flow and the air quantity calculation when the multiple modules are stacked. The splicing, communication, control and display are convenient. The built-in control power panel accurately controls the LED voltage, and the current realizes the accurate control of the light intensity.

In the above 20X80 three-sided frameless UV-LED module, two sets of heat dissipation scales are provided, and each set of heat dissipation scale is provided with a heat dissipation fan.

In the above 20X80 three-sided frameless UV-LED module, the heat dissipation copper tubes have at least 2 tubes and are arranged side by side in the heat dissipation scale.

In the above 20X80 trilateral frameless UV-LED module, an LED lamp bead is further arranged below the heat dissipation copper pipe in the shell, a light transmitting cover which is right opposite to the LED lamp bead is arranged on the lower end face of the shell, and the LED lamp bead is also electrically connected with the power panel.

The front end of the LED light source is provided with a light-transmitting cover, and the radian is calculated according to the condensation light so as to ensure the power consumption of the light source to be gathered. The four sides of the LED lamp bank are fixed baffles designed according to the size and the characteristics, wherein the left side and the right side of the fixed baffles can be flexibly disassembled, and the splicing of different requirements is facilitated.

In the above-mentioned 20X80 three-sided borderless UV-LED module, the housing comprises a detachable left side plate, a right side plate and an upper side plate.

The utility model has the advantages that: according to the characteristics of small size and high accuracy of electronic components and circuit boards, a set of miniature UV curing device is designed, and three-side frameless design can be spliced in an optional lossless mode according to the size of the product; the light source contact surface of the device adopts special reflective materials, and the light-transmitting cover is designed with an accurate optical angle to realize the control of the length and range of light, thereby being energy-saving and efficient.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a half sectional view of the present invention.

Detailed Description

As shown in fig. 1 and fig. 2, a 20X80 trilateral frameless UV-LED module, including being square shell 1, an inner cavity is provided in shell 1, a characteristic is that, heat dissipation scale 2 is provided in the inner cavity of shell 1, heat dissipation fan 3 is provided on heat dissipation scale 2, heat dissipation part 4 is provided on shell 1 right opposite to heat dissipation fan 3, heat dissipation part 4 is provided in a concave shape, a plurality of lower heat dissipation holes 41 are provided on the bottom surface of heat dissipation part 4, a plurality of upper heat dissipation holes 42 are further provided in the side direction of heat dissipation part 4, heat dissipation copper pipe 5 is further provided in shell 1 below heat dissipation scale 2, the upper end of heat dissipation copper pipe 5 is penetrated in heat dissipation scale 2, power supply board 6 is further provided above heat dissipation scale 2 on shell 1, power supply board 6 is electrically connected with heat dissipation fan 3 and heat dissipation copper pipe 5, connector 7 electrically connected with power supply board 6 is further provided on the upper end surface of shell 1.

According to the characteristics of small size and high accuracy of electronic components and circuit boards, a set of miniature UV curing device is designed, and three-side frameless design can be spliced randomly without damage according to the size of a product. The device adopts special reflecting material for the light source contact surface, and the printing opacity cover 9 design has the accurate optics angle can realize the length of light, the control of scope, and is energy-conserving, high-efficient. The heat dissipation of light source adopts the material that purity is high and multi-angle louvre to guarantee that the circulation of air is smooth and easy, in time discharges the heat, guarantees LED's life-span. The control of the light intensity adopts an independent power control module to control each LED, thereby realizing accurate control.

The design is a 20 × 80 unit module designed according to the size of an electronic component, and the shell 1 has no frame on three sides and can be spliced in any three directions. The radiator is specially customized according to the high heat of the LED, the upper radiating holes 42 and the lower radiating holes 41 form multi-angle radiating holes which are specifically designed according to the air output and the air output space of the radiating fan, and particularly, the sinking design is designed according to the trend of air flow and the air quantity calculation when multiple modules are stacked. The splicing, communication, control and display are convenient. The built-in control power panel 6 accurately controls the led voltage, and the current realizes the precise control of the light intensity.

Preferably, the heat dissipation scales 2 are provided with two groups, and each group of heat dissipation scales 2 is provided with a heat dissipation fan 3.

Preferably, the heat dissipation copper pipes 5 have at least 2 and are arranged in the heat dissipation scales 2 in a penetrating manner side by side.

Preferably, the LED lamp beads 8 are further arranged below the heat dissipation copper pipe 5 in the shell 1, the lower end face of the shell 1 is provided with a light-transmitting cover 9 facing the LED lamp beads 8, and the LED lamp beads 8 are also electrically connected with the power panel 6.

The front end of the LED light source is provided with a light-transmitting cover 9, and the radian is calculated according to the condensation light so as to ensure the power consumption of the light source to be gathered. The four sides of the LED lamp bank are fixed baffles designed according to the size and the characteristics, wherein the left side and the right side of the fixed baffles can be flexibly disassembled, and the splicing of different requirements is facilitated.

Preferably, the housing 1 comprises a detachable left side plate, a detachable right side plate and an upper side plate.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, and are only for convenience of description, and are not intended to indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and therefore, are not to be considered as limitations of the present invention, and the fundamental principles, main features, and advantages of the present invention have been shown and described above, as would be understood by those skilled in the art.

Claims (5)

1. A20X 80 trilateral frameless UV-LED module comprises a square shell (1), wherein an inner cavity is formed in the shell (1), and is characterized in that heat dissipation scales (2) are arranged in the inner cavity of the shell (1), a heat dissipation fan (3) is arranged on each heat dissipation scale (2), a heat dissipation part (4) is arranged on the shell (1) which is right opposite to each heat dissipation fan (3), each heat dissipation part (4) is arranged in an inwards concave manner, a plurality of lower heat dissipation holes (41) are formed in the bottom surface of each heat dissipation part (4), a plurality of upper heat dissipation holes (42) are formed in the lateral direction of each heat dissipation part (4), a heat dissipation copper pipe (5) is further arranged below each heat dissipation scale (2) in the shell (1), the upper end of each heat dissipation copper pipe (5) is arranged in the corresponding heat dissipation scale (2) in a penetrating manner, a power supply board (6) is further arranged above each heat dissipation scale (2, the power panel (6) is electrically connected with the heat radiation fan (3) and the heat radiation copper pipe (5), and a connector (7) electrically connected with the power panel (6) is further arranged on the upper end face of the shell (1).

2. The 20X80 three-sided borderless UV-LED module according to claim 1, wherein there are two sets of heat dissipating fins (2), and each set of heat dissipating fins (2) has a heat dissipating fan (3) thereon.

3. A 20X80 three-sided borderless UV-LED module according to claim 1 or 2, characterized in that said heat dissipating copper tube (5) has at least 2 and is arranged side by side in said heat dissipating scale (2).

4. The 20X80 three-sided frameless UV-LED module set forth in claim 3, wherein an LED lamp bead (8) is further disposed below the heat dissipation copper tube (5) in the housing (1), a light-transmitting cover (9) facing the LED lamp bead (8) is disposed on the lower end face of the housing (1), and the LED lamp bead (8) is also electrically connected with the power panel (6).

5. A20X 80 three-sided borderless UV-LED module according to claim 4, characterized in that said housing (1) comprises a detachable left, right and upper side plate.

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