CN208351289U - Have both the UVA solidification control device of concentration and distributed architecture - Google Patents

Abstract

The utility model discloses a kind of UVA for having both concentration and distributed architecture to solidify control device, including centralized DC power supplier, Centralized Controller, N number of LED light source mould group, N number of DC/DC power supply and detection module and temperature alarming module；Centralized DC power supplier is electrically connected with Centralized Controller, each DC/DC power supply and detection module and temperature alarming module respectively, Centralized Controller is electrically connected with each LED light source mould group and temperature alarming module respectively, and each DC/DC power supply and detection module are electrically connected with each LED light source mould group respectively.The utility model has the following beneficial effects: the utility model is matched by centralized DC power supplier and N number of DC/DC power supply and detection module, the concentration supply power and Distributed power of system are realized, it is more energy saving；Alarm is monitored to the temperature of light source in solidification process by Centralized Controller and temperature alarming module, so that system is more safe and reliable.

Description

Have both the UVA solidification control device of concentration and distributed architecture

Technical field

The utility model relates to UVA LED light source curing technology fields, more particularly, to a kind of collection that can be realized system Chinese style power supply and Distributed power make the UVA solidification control device for having both concentration and distributed architecture that system is more safe and reliable.

Background technique

UVA LED light source mould group replaces mercury lamp to be mounted on inside equipment and has carried out illumination to curing materials as ultraviolet source Through the trend for becoming development.UV LED wave band is more concentrated without clutter, choose as needed specific band remove from mercury lamp add it is miscellaneous The power consumption of wave, along with the characteristic of LED power saving, electricity required for equipment is run is well below mercury lamp, and radiating treatment Easier than mercury lamp very much, light source luminescent directive property is higher, does not have and makes outside a large amount of light escape to employee's skin around At chronic injury, space proportion shared by curing apparatus can also be effectively improved when different.But currently, each solidify what producer used Curing apparatus takes the mode directly powered mostly, and does not have warning function, influences the safety of system.

Utility model content

The utility model directly powers to overcome equipment existing in the prior art to use and does not have warning function Deficiency provides a kind of concentration supply power and Distributed power that can be realized system, makes system is more safe and reliable to have both It concentrates and solidifies control device with the UVA of distributed architecture.

To achieve the goals above, the utility model uses following technical scheme:

A kind of UVA solidification control device having both concentration and distributed architecture, including centralized DC power supplier, concentration control Device, N number of LED light source mould group, N number of DC/DC power supply and detection module processed and temperature alarming module；Centralized DC power supplier point It is not electrically connected with Centralized Controller, each DC/DC power supply and detection module and temperature alarming module, Centralized Controller is respectively and respectively A LED light source mould group and the electrical connection of temperature alarming module, each DC/DC power supply and detection module respectively with each LED light source mould Group electrical connection.

The utility model is matched by centralized DC power supplier and N number of DC/DC power supply and detection module, to entire System carries out concentration supply power and Distributed power；By Centralized Controller and temperature alarming module to light source in solidification process Temperature is monitored alarm.

Preferably, further including touch display screen and for electro-detection and emergency braking module；Touch display screen and for electric-examination Both emergency braking modules are surveyed to be electrically connected with centralized DC power supplier and Centralized Controller respectively.

Preferably, the centralization DC power supplier includes the first MCU module, AC/DC module, switch control mould Block, the first low-voltage power supply module, the first current sampling module, first voltage sampling module and first communication module；First MCU mould Block is sampled with AC/DC module, switch control module, the first low-voltage power supply module, the first current sampling module, first voltage respectively Module and first communication module electrical connection, AC/DC module respectively with each DC/DC power supply and detection module, the first current sample Module, first voltage sampling module and switch control module electrical connection, the first low-voltage power supply module are electrically connected with first communication module It connects.

Preferably, DC/DC power supply and detection module include the second MCU module, DC/DC module, the second low-voltage power supply mould Block, the second current sampling module, second voltage sampling module and second communication module；Second MCU module respectively with DC/DC mould Block, the second low-voltage power supply module, the second current sampling module, second voltage sampling module and second communication module electrical connection, DC/ DC module is electrically connected with the second current sampling module and second voltage sampling module respectively, and the second low-voltage power supply module is logical with second Believe module electrical connection.

Preferably, temperature alarming module includes UVA light-source temperature detection circuit and sound light alarming circuit；UVA light source temperature Degree detection circuit and sound light alarming circuit, which are divided equally, not to be electrically connected with centralized DC power supplier and Centralized Controller, UVA light source Temperature sensing circuit is electrically connected with sound light alarming circuit.

Preferably, sound light alarming circuit includes sound effect integrated circuit IC, transistor V, loudspeaker BL, light emitting diode VL Anode, resistance R2, capacitor C1 and capacitor C2；Sound effect integrated circuit IC respectively with UVA light-source temperature detection circuit, transistor V, Loudspeaker BL, light emitting diode VL, resistance R2, capacitor C1 and capacitor C2 electrical connection, the collector of transistor V respectively with loudspeaker The electrical connection of the cathode of BL and light emitting diode VL, the emitter of transistor V are electrically connected with capacitor C1 and capacitor C2 respectively, capacitor C2 It is electrically connected respectively with the anode of loudspeaker BL and light emitting diode VL.

Therefore, the utility model has the following beneficial effects: the utility model passes through centralized DC power supplier and N number of DC/DC power supply and detection module match, and realize the concentration supply power and Distributed power of system, more energy saving；Pass through Centralized Controller and temperature alarming module are monitored alarm to the temperature of light source in solidification process, so that system is more safe Reliably.

Detailed description of the invention

Fig. 1 is a kind of system block diagram of the utility model；

Fig. 2 is a kind of functional block diagram of the centralized DC power supplier of the utility model；

Fig. 3 is the DC/DC power supply of the utility model and a kind of functional block diagram of detection module；

Fig. 4 is a kind of schematic diagram of the temperature alarming module of the utility model.

In figure: centralized DC power supplier 1, Centralized Controller 2, LED light source mould group 3, DC/DC power supply and detection module 4, temperature alarming module 5, touch display screen 6, for electro-detection and emergency braking module 7, the first MCU module 11, AC/DC module 12, switch control module 13, the first low-voltage power supply module 14, the first current sampling module 15, first voltage sampling module 16, One communication module 17, the second MCU module 41, DC/DC module 42, the second low-voltage power supply module 43, the second current sampling module 44, Second voltage sampling module 45, second communication module 46, UVA light-source temperature detection circuit 51, sound light alarming circuit 52.

Specific embodiment

The utility model is described further with specific embodiment with reference to the accompanying drawing:

Embodiment as shown in Figure 1 is a kind of UVA solidification control device for having both concentration and distributed architecture, including centralization DC power supplier 1, the DC/DC power supply of LED light source mould group 3,10 of Centralized Controller 2,10 and detection module 4, temperature alarming Module 5, touch display screen 6 and for electro-detection and emergency braking module 7；Centralized DC power supplier respectively with centralized control Device, each DC/DC power supply and detection module, temperature alarming module, touch display screen and for electro-detection and emergency braking module electricity Connection, Centralized Controller respectively with each LED light source mould group, temperature alarming module, touch display screen and for electro-detection and urgent Brake module electrical connection, each DC/DC power supply and detection module are electrically connected with each LED light source mould group respectively.

As shown in Fig. 2, centralized DC power supplier includes the first MCU module 11, AC/DC module 12, switch control mould Block 13, the first low-voltage power supply module 14, the first current sampling module 15, first voltage sampling module 16 and first communication module 17；First MCU module respectively with AC/DC module, switch control module, the first low-voltage power supply module, the first current sampling module, First voltage sampling module and first communication module electrical connection, AC/DC module respectively with each DC/DC power supply and detection module, First current sampling module, first voltage sampling module and switch control module electrical connection, the first low-voltage power supply module and first Communication module electrical connection.

As shown in figure 3, each DC/DC power supply and detection module include the second MCU module 41, DC/DC module 42, second Low-voltage power supply module 43, the second current sampling module 44, second voltage sampling module 45 and second communication module 46；2nd MCU Module respectively with DC/DC module, the second low-voltage power supply module, the second current sampling module, second voltage sampling module and second Communication module electrical connection, DC/DC module are electrically connected with the second current sampling module and second voltage sampling module respectively, and second is low Pressure power supply module is electrically connected with second communication module.

As shown in figure 4, temperature alarming module includes UVA light-source temperature detection circuit 51 and sound light alarming circuit 52；Acousto-optic Warning circuit includes sound effect integrated circuit IC, transistor V, loudspeaker BL, the anode of light emitting diode VL, resistance R2, capacitor C1 With capacitor C2；Sound effect integrated circuit IC respectively with UVA light-source temperature detection circuit, transistor V, loudspeaker BL, light emitting diode VL, resistance R2, capacitor C1 and capacitor C2 electrical connection, the collector of transistor V is respectively with loudspeaker BL's and light emitting diode VL Cathode electrical connection, the emitter of transistor V is electrically connected with capacitor C1 and capacitor C2 respectively, capacitor C2 respectively with loudspeaker BL and hair The anode electrical connection of optical diode VL；UVA light-source temperature detection circuit and sound light alarming circuit divide equally not with centralized direct current Source module and Centralized Controller electrical connection.

The utility model uses on the production line of each printery, powers on to whole device, Centralized Controller receives Device normal power supply, system are stablized, and that after urgent abnormal signal, operator does not input related letter by touch display screen System is switched under pre-set operating mode by breath, Centralized Controller according to the information of input, is passed through after alternating current input Become smooth straight multiple groups DC power supply after crossing AC/DC module, it is each LED that each group DC power supply passes through DC/DC module respectively Light source module group power supply realizes mutual electric appliance isolation, is controlled by Centralized Controller, only light the LED light for needing work Source mould group, distribution export each road power.When system work is under output mode, Centralized Controller is to each LED light source mould group Temperature, voltage, electric current, power, input power etc. detected, when there are abnormal conditions in any one, Centralized Controller It controls sound light alarming circuit and works for electro-detection and emergency braking module, close the power supply of the LED light source mould group of whole device Power supply stops working.

It should be understood that the present embodiment is merely to illustrate the utility model rather than limitation the scope of the utility model.Furthermore It should be understood that after reading the content taught by the present invention, those skilled in the art can make the utility model various Change or modification, these equivalent forms also fall within the scope of the appended claims of the present application.

Claims (6)

1. a kind of UVA solidification control device for having both concentration and distributed architecture, which is characterized in that including centralized DC power supply mould Block (1), Centralized Controller (2), N number of LED light source mould group (3), N number of DC/DC power supply and detection module (4) and temperature alarming module (5)；Centralized DC power supplier respectively with Centralized Controller, each DC/DC power supply and detection module and temperature alarming module Electrical connection, Centralized Controller are electrically connected with each LED light source mould group and temperature alarming module respectively, each DC/DC power supply and inspection Module is surveyed to be electrically connected with each LED light source mould group respectively.

2. the UVA solidification control device according to claim 1 for having both concentration and distributed architecture, which is characterized in that also wrap Include touch display screen (6) and for electro-detection and emergency braking module (7)；Touch display screen and for electro-detection and emergency braking module It is electrically connected respectively with centralized DC power supplier and Centralized Controller.

3. the UVA solidification control device according to claim 1 for having both concentration and distributed architecture, which is characterized in that described Centralized DC power supplier includes the first MCU module (11), AC/DC module (12), switch control module (13), the first low pressure Power supply module (14), the first current sampling module (15), first voltage sampling module (16) and first communication module (17)；First MCU module respectively with AC/DC module, switch control module, the first low-voltage power supply module, the first current sampling module, first electricity Press sampling module and first communication module electrical connection, AC/DC module respectively with each DC/DC power supply and detection module, the first electricity It flows sampling module, first voltage sampling module and switch control module electrical connection, the first low-voltage power supply module and communicates mould with first Block electrical connection.

4. the UVA solidification control device according to claim 1 for having both concentration and distributed architecture, which is characterized in that each DC/DC power supply and detection module include the second MCU module (41), DC/DC module (42), the second low-voltage power supply module (43), Second current sampling module (44), second voltage sampling module (45) and second communication module (46)；Second MCU module respectively with DC/DC module, the second low-voltage power supply module, the second current sampling module, second voltage sampling module and second communication module electricity Connection, DC/DC module are electrically connected with the second current sampling module and second voltage sampling module respectively, the second low-voltage power supply module It is electrically connected with second communication module.

5. the UVA solidification control device according to claim 1 or 2 or 3 or 4 for having both concentration and distributed architecture, feature It is, temperature alarming module includes UVA light-source temperature detection circuit (51) and sound light alarming circuit (52)；The inspection of UVA light-source temperature Slowdown monitoring circuit and sound light alarming circuit, which are divided equally, not to be electrically connected with centralized DC power supplier and Centralized Controller, UVA light-source temperature Detection circuit is electrically connected with sound light alarming circuit.

6. the UVA solidification control device according to claim 5 for having both concentration and distributed architecture, which is characterized in that acousto-optic Warning circuit includes sound effect integrated circuit IC, transistor V, loudspeaker BL, the anode of light emitting diode VL, resistance R2, capacitor C1 With capacitor C2；Sound effect integrated circuit IC respectively with UVA light-source temperature detection circuit, transistor V, loudspeaker BL, light emitting diode VL, resistance R2, capacitor C1 and capacitor C2 electrical connection, the collector of transistor V is respectively with loudspeaker BL's and light emitting diode VL Cathode electrical connection, the emitter of transistor V is electrically connected with capacitor C1 and capacitor C2 respectively, capacitor C2 respectively with loudspeaker BL and hair The anode electrical connection of optical diode VL.