CN215071763U - Multipurpose power supply for ultraviolet irradiation for printing and curing - Google Patents

Abstract

The utility model discloses a printing of multipurpose is ultraviolet ray for solidification and shines and uses power relates to power technical field. The utility model discloses a power fixed plate, EMI wave filter, power module, fan fixed plate and radiator fan, fixedly connected with EMI wave filter on the power fixed plate, power fixed plate below fixedly connected with power module, power module one side joint is fixed with fan fixed plate, fixedly connected with radiator fan in the fan fixed plate, power module one corner fixedly connected with output interface, the last fixedly connected with charging converter of EMI wave filter. The utility model discloses a set up power fixed plate, fixed screw, power module, fan fixed plate, fan screw, radiator fan, fan shell, fan screw, dust screen, the converter that charges, connector and the head that charges, the printing solidification of having solved current multipurpose can only use a wire joint to charge with the mouth that charges of ultraviolet irradiation power, not convenient scheduling problem.

Description

Multipurpose power supply for ultraviolet irradiation for printing and curing

Technical Field

The utility model belongs to the technical field of the power, especially, relate to a multipurpose power for ultraviolet irradiation for printing solidification.

Background

The power supply is an indispensable part in various electronic equipment, the performance of the power supply is directly related to the technical indexes of the electronic equipment and whether the electronic equipment can work safely and reliably, key components of a power supply module work in a high-frequency switching state, the power consumption is low, the conversion rate is high, the volume and the weight of the power supply module are only 20% and 30% of those of a linear power supply, the power supply module becomes a mainstream product of a regulated power supply, and a special power supply is required for the ultraviolet irradiation for multipurpose printing and curing, but the following defects still exist in the practical use of the power supply:

1. the charging port of the existing multipurpose ultraviolet light irradiation power supply for printing and curing can only be charged by one wire connector, which is not convenient enough;

2. the existing multipurpose ultraviolet light irradiation power supply for printing and curing is inconvenient to disassemble and is not beneficial to the maintenance and replacement of internal parts;

3. the existing multipurpose ultraviolet light irradiation power supply for printing and curing has poor heat dissipation effect, heat cannot be effectively dissipated, and the structure of the ultraviolet light irradiation power supply is easy to damage to influence work.

Therefore, the existing multipurpose power source for ultraviolet irradiation for printing and curing cannot meet the requirements in practical use, so that improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multipurpose ultraviolet light irradiation power supply for printing and curing, which solves the problem that the charging port of the existing multipurpose ultraviolet light irradiation power supply for printing and curing can only be charged by one wire connector and is not convenient and fast by arranging a power supply fixing plate, a fixing screw, a power supply module, a fan fixing plate, a fan screw hole, a cooling fan, a fan shell, a fan screw, a dust screen, a charging converter, a connector and a charging head; the multipurpose ultraviolet irradiation power supply for printing and curing is inconvenient to disassemble and is not beneficial to the maintenance and replacement of internal parts; the multipurpose ultraviolet light for printing and curing has poor radiating effect, heat cannot be effectively radiated, and the structure of the multipurpose ultraviolet light for printing and curing is easy to damage so as to influence the work.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a printing of multipurpose is ultraviolet ray irradiation power for solidification, including power fixed plate, EMI wave filter, power module, fan fixed plate and radiator fan, fixedly connected with EMI wave filter on the power fixed plate, power fixed plate and exterior structure fixed connection, power fixed plate below fixedly connected with power module, power module are power supply unit's major structure, power module one side joint is fixed with the fan fixed plate, fixedly connected with radiator fan in the fan fixed plate, power module one corner fixedly connected with output interface, fixedly connected with charging converter on the EMI wave filter, charging converter are the additional structure of device.

Further, fixedly connected with display screen on the power fixed plate, display screen and power module circuit connection, power fixed plate four corners is rotated and is connected with outer fixed screw, and outer fixed screw passes the power fixed plate and rotates and connect on external structure, rotate on the inboard power fixed plate of outer fixed screw and be connected with interior fixed screw, interior fixed screw passes the power fixed plate and rotates and connect on power module, be provided with the filter draw-in groove on the power fixed plate, filter draw-in groove inner joint is fixed with the EMI wave filter, be provided with the filter screw on the power fixed plate of filter draw-in groove both sides, the internal rotation of filter screw is connected with the filter screw on the EMI wave filter.

Further, EMI wave filter top front end is provided with the mouth that charges, the mouth that charges is inside to be fixed with three contact head that charges, and three contact head that charges interval suitable distance is fixed inside the mouth that charges, EMI wave filter top rear end is provided with the switch, and the switch is the pivot movable, EMI wave filter round is fixed with wave filter fixed stop, and wave filter fixed stop fixed connection is on power fixing plate, rotate on the wave filter fixed stop and be connected with two wave filter screws, the wave filter screw passes wave filter fixed stop and rotates in the wave filter screw of connection on power fixing plate, the EMI wave filter rear is provided with two wave filter conducting strips, and two wave filter conducting strips interval suitable distance is fixed in EMI wave filter rear.

Further, a plurality of heat dissipation holes are formed in the rear of the power supply module and located at the relative positions of the heat dissipation fans on the power supply module, an output clamping groove is formed in one corner of the power supply module, an output interface is fixedly connected to the inner side of the front of the power supply module in a clamping mode, and two clamping plates are fixedly connected to the inner side of the front of the power supply module and clamped in clamping grooves of the fan fixing plate.

Furthermore, a fan groove is formed in the middle of the fan fixing plate, a radiating fan is fixed in the fan groove in a clamped mode, four fan screw holes are formed in the fan fixing plate on the periphery of the fan groove, fan screws on the radiating fan are connected to the fan screw holes in a rotating mode, clamping grooves are formed in two sides of the fan fixing plate, and clamping plates on the power module are fixed in the clamping grooves in a clamped mode.

Further, radiator fan includes fan shell, fan screw, fan main part and dust screen, fan shell four corners is rotated and is connected with the fan screw, and fan shell fixed connection is on the fan fixed plate, and the fan screw passes the fan shell and rotates in the fan screw of connection on the fan fixed plate, the inside rotation of fan shell is connected with the fan main part, the outside fixedly connected with dust screen of fan shell, dust screen and fan shell hug closely fixedly.

Furthermore, two output contact heads are arranged inside the front end of the output interface, the two output contact heads are fixed in a groove inside the output interface at a proper interval, two output conducting strips are fixed at the rear end of the output interface, and the two output conducting strips are fixed at the rear end of the output interface at a proper interval.

Further, the converter that charges includes limiting plate, connector, the head and the protective sheath that charge, limiting plate below fixedly connected with connector, during the connector inserts the mouth that charges on the EMI wave filter, limiting plate top fixedly connected with head that charges is provided with two contact heads in the head that charges, the first outside fixedly connected with protective sheath that charges.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the converter that charges, connector and charging head, the printing solidification of having solved current multipurpose can only use a wire joint to charge with the mouth that charges of ultraviolet irradiation power, problem convenient inadequately, the utility model discloses when charging for power module, if the wire joint of external electric wire is two contact holes, it is not fashionable to charge intraoral three charging contact head with the EMI wave filter, then insert the converter that charges among the EMI wave filter, the converter that charges passes through connector and EMI wave filter circuit connection, makes external electric current pass through the converter that charges and pass to the EMI wave filter, the converter that charges is provided with two contact heads in the head that charges, charges with external connection of electric lines.

2. The utility model solves the problems that the prior multipurpose power supply for ultraviolet irradiation for printing and curing is inconvenient to disassemble and is not beneficial to the maintenance and replacement of internal parts by arranging a power supply fixing plate, a fixing screw, a power supply module, a fan fixing plate, a fan screw hole, a radiator fan, a fan shell and a fan screw, each part of the utility model can be disassembled, so that the maintenance or the replacement is more convenient, the power supply module is clamped and fixed with the fan fixing plate and the radiator fan through a clamping plate to work on the power supply module for radiating heat of the power supply module, and the fan fixing plate and the radiator fan can be drawn out of the power supply module for convenient disassembly and maintenance, the fan shell is rotatably connected with the fan screw hole through the fan screw so as to be fixedly connected with the fan fixing plate and can be disassembled, the power supply fixing plate is rotatably connected with the power supply module through an internal fixing screw so as to be fixedly connected on the power supply module, and can be made detachable.

3. The utility model is provided with the power supply module, radiator fan, fan shell and dust screen, it is poor with the power radiating effect to have solved the printing solidification of current multipurpose for ultraviolet irradiation, the heat can not effectively be effluvium, the problem of its structure influence work of fragile, the utility model discloses power module during operation produces the heat, the fan main part passes through radiator fan and power module circuit connection, its rotation of electric drive produces wind-force and dispels the heat for power module during operation produces, the dust screen is hugged closely fixedly with the fan shell, the dust screen is used for preventing that the dust from getting into power module from inside from radiator fan, damage power module influences its work, the power module rear is provided with a plurality of louvres, the louvre is located radiator fan relative position on power module, at radiator fan during operation, can rather than producing the air convection, make the radiating effect better.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a schematic structural view of the power fixing plate of the present invention;

fig. 3 is a schematic structural diagram of the EMI filter of the present invention;

fig. 4 is a schematic structural diagram of the power module of the present invention;

fig. 5 is a schematic structural view of the fan fixing plate of the present invention;

fig. 6 is a schematic structural view of the heat dissipation fan of the present invention;

fig. 7 is a schematic structural diagram of the output interface of the present invention;

fig. 8 is a schematic structural diagram of the charging converter of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a power supply fixing plate; 101. a display screen; 102. an external fixing screw; 103. an internal fixing screw; 104. a filter card slot; 105. a filter screw hole; 200. an EMI filter; 201. a charging port; 202. a charging contact; 203. a switch; 204. a filter fixing baffle; 205. a filter screw; 206. a filter conducting strip; 300. a power supply module; 301. heat dissipation holes; 302. an output card slot; 303. a clamping and connecting plate; 400. a fan fixing plate; 401. a fan groove; 402. a fan screw hole; 403. a clamping groove; 500. a heat radiation fan; 501. a fan case; 502. a fan screw; 503. a fan main body; 504. a dust screen; 600. an output interface; 601. an output contact; 602. outputting the conducting strip; 700. a charging converter; 701. a limiting plate; 702. a connector; 703. a charging head; 704. and (6) a protective sleeve.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-8, the present invention relates to a multi-purpose power supply for ultraviolet irradiation for printing and curing, which comprises a power fixing plate 100, an EMI filter 200, a power module 300, a fan fixing plate 400 and a heat dissipating fan 500, wherein the EMI filter 200 is fixedly connected to the power fixing plate 100, the power fixing plate 100 is fixedly connected to an external structure, the power module 300 is fixedly connected to the external structure through the power fixing plate 100 to work thereon, the EMI filter 200 is a first barrier of the power module 300, and mainly functions to filter high-frequency noise and interference signals in a power grid, and simultaneously prevents electromagnetic radiation generated in the power module 300 from leaking outside to reduce interference of the power module 300 itself to the outside, the power module 300 is fixedly connected to the lower part of the power fixing plate 100, the power module 300 is a main structure of a power supply apparatus, and can be directly connected to an external power supply, the power module 300 can be charged to store electric quantity, a fan fixing plate 400 is clamped and fixed on one side of the power module 300, the fan fixing plate 400 is used for fixing the heat dissipation fan 500 to dissipate heat for the power module 300, the power module 300 can be detached from the heat dissipation fan 500, maintenance is convenient, the heat dissipation fan 500 is fixedly connected in the fan fixing plate 400, wind power generated by the heat dissipation fan 500 dissipates heat generated when the power module 300 works, an output interface 600 is fixedly connected at one corner of the power module 300, the output interface 600 is used for outputting an electric signal for the power module 300, a charging converter 700 is fixedly connected to the EMI filter 200 and is an accessory structure of the device, when an external electric wire needing to be charged is not matched with a charging port 201 on the EMI filter 200, the charging converter 700 is inserted into the EMI filter 200 to charge the power module 300.

As shown in fig. 1 and 2, a display screen 101 is fixedly connected to a power fixing plate 100, the display screen 101 is electrically connected to a power module 300, the display screen 101 can display the electric quantity and other working conditions of the power module 300, the outer fixing screws 102 are rotatably connected to four corners of the power fixing plate 100, the outer fixing screws 102 pass through the power fixing plate 100 and are rotatably connected to an external structure, the power fixing plate 100 is rotatably connected to the external structure through the outer fixing screws 102, so that the power fixing plate 100 and the whole device are fixedly connected to the external structure, the inner fixing screws 103 are rotatably connected to the power fixing plate 100 inside the outer fixing screws 102, the inner fixing screws 103 pass through the power fixing plate 100 and are rotatably connected to the power module 300, the power fixing plate 100 is rotatably connected to the power module 300 through the inner fixing screws 103, so that the power module 300 is fixedly connected to the power module 300 and is fixed to the external structure, the power fixing plate 100 is provided with a filter clamping groove 104, the filter clamping groove 104 is internally and fixedly clamped with an EMI filter 200, the power fixing plate 100 enables the EMI filter 200 to be clamped inside the power fixing plate through the filter clamping groove 104 and penetrates through the power fixing plate 100 to be electrically connected with a power module 300, the power fixing plate 100 on two sides of the filter clamping groove 104 is provided with filter screw holes 105, filter screws 205 on the EMI filter 200 are rotatably connected in the filter screw holes 105, the power fixing plate 100 penetrates through filter fixing baffles 204 through the filter screws 205 to be rotatably connected with the filter screw holes 105 to be fixedly connected with the EMI filter 200, and the EMI filter 200 can be stably fixed above the power module 300 to work.

As shown in fig. 1 and 3, a charging port 201 is disposed at the front end above the EMI filter 200 for connecting to a charging plug for charging, three charging contacts 202 are fixed inside the charging port 201, the three charging contacts 202 are fixed inside the charging port 201 at proper intervals, the EMI filter 200 is connected to an external power source through the charging contacts 202 in the charging port 201, thereby charging the power module 300, a switch 203 is disposed at the rear end above the EMI filter 200, the switch 203 is movable, the switch 203 can turn on or off the power module 300 for charging, a filter fixing baffle 204 is fixed to the EMI filter 200, the filter fixing baffle 204 is fixedly connected to the power fixing plate 100, the EMI filter 200 is fixedly connected to the power fixing plate 100 through the filter fixing baffle 204, two filter screws 205 are rotatably connected to the filter fixing baffle 204, and the filter screws 205 pass through the filter fixing baffle 204 and are rotatably connected to filter screw holes 105 of the power fixing plate 100 In the EMI filter, the filter fixing baffle 204 is rotatably connected to the filter screw hole 105 through the filter screw 205 so as to be fixedly connected to the power fixing plate 100, so that the EMI filter 200 can be stably fixed above the power module 300 to work, two filter conductive sheets 206 are disposed behind the EMI filter 200, the two filter conductive sheets 206 are fixed behind the EMI filter 200 at a proper distance, and the filter conductive sheets 206 are used for being electrically connected to the power module 300.

As shown in fig. 1 and 4, a plurality of heat dissipation holes 301 are disposed behind the power module 300, the heat dissipation holes 301 are located at opposite positions of the heat dissipation fan 500 on the power module 300, when the heat dissipation fan 500 works, air convection can be generated between the heat dissipation fan 500 and the heat dissipation fan, so that the heat dissipation effect is better, an output slot 302 is disposed at one corner of the power module 300, an output interface 600 is fixedly clamped in the output slot 302, the power module 300 is clamped in the output slot 302 by the output slot 600 and is electrically connected to the output interface 600, two clamping plates 303 are fixedly connected to the inner side in front of the power module 300, the clamping plates 303 are clamped and fixed in clamping grooves 403 of the fan fixing plate 400, the power module 300 is clamped and fixed to the fan fixing plate 400 and the heat dissipation fan 500 by the clamping plates 303, so that the power module 300 works on the power module 300 to dissipate heat of the power module 300, and the fan fixing plate 400 and the heat dissipation fan 500 can be drawn out of the power module 300, is convenient to disassemble and maintain.

As shown in fig. 1 and 5, a fan groove 401 is disposed in the middle of the fan fixing plate 400, a heat dissipating fan 500 is fastened and fixed in the fan groove 401, the fan fixing plate 400 is fastened and fixed in the heat dissipating fan 500 through the fan groove 401, and penetrates through the fan fixing plate 400 to be electrically connected with the power module 300, so as to dissipate heat of the power module 300, four fan screw holes 402 are disposed on the fan fixing plate 400 around the fan groove 401, a fan screw 502 on the heat dissipating fan 500 is rotatably connected in the fan screw hole 402, the fan fixing plate 400 penetrates through the fan shell 501 through the fan screw 502 to be rotatably connected with the fan screw hole 402 so as to be fixedly connected with the heat dissipating fan 500, so that the heat dissipating fan 500 can be stably fixed on one side of the power module 300 for operation, fastening grooves 403 are disposed on both sides of the fan fixing plate 400, fastening plates 303 on the power module 300 are fastened and fixed in the fastening grooves 403, the fan fixing plate 400 is fastened and fixed with the power module 300, thereby fixing the heat dissipation fan 500 at one side of the power module 300 for operation, and allowing the fan fixing plate 400 and the heat dissipation fan 500 to be drawn out of the power module 300 for easy detachment and maintenance.

As shown in fig. 1 and 6, the heat dissipation fan 500 includes a fan case 501, fan screws 502, a fan body 503 and a dust screen 504, the fan screws 502 are rotatably connected to four corners of the fan case 501, the fan case 501 is fixedly connected to the fan fixing plate 400, the heat dissipation fan 500 is fixedly connected to the fan fixing plate 400 through the fan case 501, the fan screws 502 pass through the fan case 501 and are rotatably connected to fan screw holes 402 on the fan fixing plate 400, the fan case 501 is rotatably connected to the fan screw holes 402 through the fan screws 502 and is thereby fixedly connected to the fan fixing plate 400, so that the heat dissipation fan 500 can be stably fixed to one side of the power module 300 for operation, the fan body 503 is rotatably connected to the inside of the fan case 501, the fan body 503 is electrically connected to the power module 300 through the heat dissipation fan 500, wind power generated by rotation of the electric power driver dissipates heat generated by the operation of the power module 300, the dust screen 504 is fixedly connected to the outside of the fan case 501, the dust screen 504 is tightly attached to the fan case 501, and the dust screen 504 is used to prevent dust from entering the power module 300 from the cooling fan 500 and damaging the power module 300 to affect the operation thereof.

As shown in fig. 1 and 7, two output contacts 601 are arranged inside the front end of the output interface 600, the two output contacts 601 are fixed in a groove inside the output interface 600 at an appropriate interval, the output interface 600 outputs power to the outside through the output contacts 601, two output conductive sheets 602 are fixed at the rear end of the output interface 600 at an appropriate interval, the two output conductive sheets 602 are fixed at the rear end of the output interface 600 at an appropriate interval, and the output conductive sheets 602 are used for being in circuit connection with the power module 300, so that the output interface 600 outputs an electrical signal for the power module 300.

As shown in fig. 1 and 7, the charging converter 700 includes a limiting plate 701, a connector 702, a charging head 703 and a protective sleeve 704, the connector 702 is fixedly connected below the limiting plate 701, the connector 702 is inserted into the charging port 201 on the EMI filter 200, the charging converter 700 is electrically connected to the EMI filter 200 through the connector 702, so that an external current is transmitted to the EMI filter 200 through the charging converter 700, the charging head 703 is fixedly connected above the limiting plate 701, two contacts are provided in the charging head 703, which is different from three contacts in the EMI filter 200, when the external electrical wire is two contact holes, the charging converter 700 is used, the protective sleeve 704 is fixedly connected outside the charging head 703, and when the charging converter 700 is not used, the protective sleeve 704 is fixed on the charging head 703 for protecting the charging converter 700.

One specific application of this embodiment is: the utility model relates to a multipurpose power supply for ultraviolet irradiation for printing and curing, the power fixing plate 100 is rotatably connected with an external structure through an external fixing screw 102 so that the power fixing plate 100 and the whole device are fixedly connected on the external structure, a power module 300 is the main structure of the power supply device, which can be directly connected with an external power supply for power supply and can also be charged for storing electric quantity, an EMI filter 200 is connected with the external power supply through a charging contact 202 in a charging port 201 so as to charge the power module 300, the EMI filter 200 is the first barrier of the power module 300 and mainly functions in filtering high-frequency noise and interference signals in the power grid, and simultaneously, the electromagnetic radiation generated in the power module 300 is prevented from leaking outside, so as to reduce the interference of the power module 300 to the outside, the output interface 600 outputs electric power outwards through an output contact 601, the output 602 of the output interface 600 is electrically connected with the power module 300, the output interface 600 outputs electrical signals for the power module 300, the power module 300 generates heat when working, the fan main body 503 is electrically connected with the power module 300 through the heat dissipation fan 500, the power drives the fan to rotate to generate wind force to dissipate the heat generated by the power module 300 when working, the dust-proof net 504 is tightly attached and fixed with the fan housing 501, the dust-proof net 504 is used for preventing dust from entering the power module 300 from the heat dissipation fan 500, the power module 300 is damaged to influence the working, a plurality of heat dissipation holes 301 are arranged behind the power module 300, the heat dissipation holes 301 are positioned at the relative positions of the heat dissipation fan 500 on the power module 300, and when the heat dissipation fan 500 works, air convection can be generated with the heat dissipation fan 500, so that the heat dissipation effect is better, each component of the utility model can be disassembled, so that the maintenance or the replacement is more convenient, the power module 300 is fixed with the fan fixing plate 400 and the heat dissipation fan 500 through the clamping plate 303, when the power module 300 is charged, if the wire end of the external wire is two contact holes and is not engaged with the three charging contacts 202 in the charging port 201 of the EMI filter 200, the charging converter 700 is inserted into the EMI filter 200, the charging converter 700 is electrically connected with the EMI filter 200 through the connector 702, so that the external current is transmitted to the EMI filter 200 through the charging converter 700, and two contacts are arranged in the charging head 703 of the charging converter 700, and the charging device is connected with an external wire for charging.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides a printing of multipurpose is ultraviolet ray for solidification and is shone power, includes power fixed plate (100), EMI wave filter (200), power module (300), fan fixed plate (400) and radiator fan (500), its characterized in that: fixedly connected with EMI wave filter (200) on power fixed plate (100), power fixed plate (100) below fixedly connected with power module (300), power module (300) one side joint is fixed with fan fixed plate (400), fixedly connected with radiator fan (500) in fan fixed plate (400), power module (300) one corner fixedly connected with output interface (600), fixedly connected with charging converter (700) on EMI wave filter (200).

2. The power supply for ultraviolet irradiation for multipurpose printing curing according to claim 1, wherein a display screen (101) is fixedly connected to the power supply fixing plate (100), outer fixing screws (102) are rotatably connected to four corners of the power supply fixing plate (100), inner fixing screws (103) are rotatably connected to the power supply fixing plate (100) at the inner side of the outer fixing screws (102), a filter clamping groove (104) is formed in the power supply fixing plate (100), and filter screw holes (105) are formed in the power supply fixing plate (100) at two sides of the filter clamping groove (104).

3. The power supply for ultraviolet irradiation for multipurpose printing curing according to claim 1, wherein a charging port (201) is provided at the upper front end of the EMI filter (200), three charging contacts (202) are fixed inside the charging port (201), a switch (203) is provided at the upper rear end of the EMI filter (200), a filter fixing baffle (204) is fixed to the EMI filter (200) in a circle, two filter screws (205) are rotatably connected to the filter fixing baffle (204), and two filter conducting strips (206) are provided at the rear of the EMI filter (200).

4. The power supply for ultraviolet irradiation for printing and curing of claim 1, wherein a plurality of heat dissipation holes (301) are formed at the rear of the power module (300), an output slot (302) is formed at one corner of the power module (300), and two clamping plates (303) are fixedly connected to the inner side of the front of the power module (300).

5. The power supply for ultraviolet irradiation for printing and curing in a multipurpose manner as claimed in claim 1, wherein a fan groove (401) is formed in the middle of the fan fixing plate (400), four fan screw holes (402) are formed in the fan fixing plate (400) around the fan groove (401), and clamping grooves (403) are formed in both sides of the fan fixing plate (400).

6. The power supply for ultraviolet irradiation for multipurpose printing curing according to claim 1, wherein the heat dissipation fan (500) comprises a fan housing (501), fan screws (502), a fan main body (503) and a dust screen (504), the fan screws (502) are rotatably connected to four corners of the fan housing (501), the fan main body (503) is rotatably connected to the inside of the fan housing (501), and the dust screen (504) is fixedly connected to the outside of the fan housing (501).

7. The power supply for ultraviolet irradiation for printing and curing in multiple uses as claimed in claim 1, wherein two output contacts (601) are disposed inside the front end of the output interface (600), and two output conductive sheets (602) are fixed to the rear end of the output interface (600).

8. The multipurpose power supply for ultraviolet irradiation for printing curing according to claim 1, wherein the charging converter (700) comprises a limiting plate (701), a connector (702), a charging head (703) and a protective sleeve (704), the connector (702) is fixedly connected below the limiting plate (701), the charging head (703) is fixedly connected above the limiting plate (701), and the protective sleeve (704) is fixedly connected outside the charging head (703).

Images