CN203941409U - The intelligent monitor system that a kind of electric capacity production scene is used - Google Patents

Abstract

The utility model provides a kind of electric capacity intelligent monitor system that production scene is used, and it includes monitor control mechanism, counter, organisation of working inductive probe, equipment oil sense probe and the equipment ON/OFF inductor being arranged on field apparatus; Monitor control mechanism, organisation of working inductive probe, equipment oil sense probe and equipment ON/OFF inductor are collected and are sent in data reception module by equipment and machining information, data reception module is sent to the data of collection in controller, controller arranges data analyze by data analysis module, and the data of its arrangement comprise the abrasion condition of device fabrication quantity, equipment running status, consumable accessory, machine open/close time and the live video of equipment; When storing by storage module, the data after analysis send data on display terminal by communication module.The counting of native system is accurate, is conducive to the maintaining of equipment, and has the advantages such as automatic alert device consumable accessory replacing time.

Description

The intelligent monitor system that a kind of electric capacity production scene is used

Technical field

The utility model relates to electric capacity production equipment, refers in particular to the intelligent monitor system that a kind of electric capacity production scene is used.

Background technology

Electric capacity is one of a large amount of electronic components that use in electronic equipment, is widely used in handing over every straight-through in circuit, coupling, bypass, filtering, resonant tank, energy conversion, the aspects such as control.Along with making rapid progress of electronic information technology, the update speed of digital electronic goods is more and more faster, take the products such as flat panel TV LCD and PDP, notebook computer, digital camera as main consumer electronics product volume of production and marketing sustainable growth, driven capacitor industrial growth.And driven the development of associated materials, equipment Industry, China to become global capacitor big producing country.

But the relevant device of existing production electric capacity is all by manually going to detect, safeguard and counting etc.Adopt and have in this way a lot of shortcomings, as the running status of discovering device the first, in time, workman often set time section goes to check, but the turnout of equipment every day often do not fix, and so, often can cause the excessive damage of machine utilization; The second, the processing assembly on equipment is just changed often after there is defective products in a large number, causes waste of raw materials; Three, the processing quantity of equipment is also to adopt artificial counting, often occurs false, situation about failing to report; Four, workman's the switching on and shutting down time calculates by checking card, and cannot determine the working time of equipment, is unfavorable for equipment maintenance etc.

Summary of the invention

The purpose of this utility model is to provide a kind of electric capacity intelligent monitor system that production scene is used.

For achieving the above object, technical scheme provided by the utility model is: the intelligent monitor system that a kind of electric capacity production scene is used, and it includes monitor control mechanism, counter, organisation of working inductive probe, equipment oil sense probe and the equipment ON/OFF inductor being arranged on field apparatus; Monitor control mechanism, organisation of working inductive probe, equipment oil sense probe and equipment ON/OFF inductor are collected and are sent in data reception module by equipment and machining information, data reception module is sent to the data of collection in controller, controller arranges data analyze by data analysis module, and the data of its arrangement comprise the abrasion condition of device fabrication quantity, equipment running status, consumable accessory, machine open/close time and the live video of equipment; When storing by storage module, the data after analysis send data on display terminal by communication module.

The intelligent monitoring circuit that electric capacity production scene is used, described circuit includes the first electrochemical capacitor, the second electrochemical capacitor, the 4th electrochemical capacitor, the 5th electrochemical capacitor, the first operational amplifier, the second operational amplifier; Wherein, the 4th electrochemical capacitor, the 5th electrochemical capacitor one end are connected with power supply, and the other end is connected with the 8th resistance, the 9th resistance one end, and the 8th resistance other end is connected to the tenth resistance one end after being connected with the 9th resistance again; The negative terminal that the 9th resistance other end is connected to the first operational amplifier enters end, the output terminal of the first operational amplifier is connected to the 6th electrochemical capacitor one end after being connected with the tenth resistance other end again, the 6th electrochemical capacitor other end is connected with first potentiometer one end, the first potentiometer other end is connected with the 7th electrochemical capacitor one end, the 7th electrochemical capacitor other end is connected with the 12 resistance one end, and the 12 resistance other end is connected to the second operational amplifier again negative terminal after being connected with the 6th resistance, the 7th resistance one end respectively enters end; The anode of the first operational amplifier enter end respectively with the positive input terminal of the second operational amplifier, the positive input terminal of the 3rd operational amplifier and the tenth electrochemical capacitor one end be connected; The 7th resistance other end is connected with the output terminal of the 17 resistance, the 13 resistance and the second operational amplifier respectively; The 13 resistance other end is connected with second potentiometer one end, and the second potentiometer other end enters end with the 15 resistance, the 3rd operational amplifier negative terminal respectively and is connected; The 15 resistance other end is connected with output terminal, the 8th electrochemical capacitor one end of the 3rd operational amplifier respectively, the 8th electrochemical capacitor other end is connected with the 16 resistance, the 11 electrochemical capacitor, second diode one end respectively, the 16 resistance, the 11 electrochemical capacitor, the second diode other end and reometer interconnection ground connection; The tenth electrochemical capacitor one end is connected with the 20 resistance, the 21 resistance one end respectively, the tenth electrochemical capacitor other end be connected with the 21 resistance other end after and direct supply in succession; The 20 resistance other end is connected with the 9th electrochemical capacitor, first electric capacity one end respectively; The first electric capacity other end is connected with transformer; The 6th resistance other end is connected with second electric capacity one end, and the second electric capacity other end is connected with the 3rd potentiometer; The 3rd potentiometer one end is connected with second electrochemical capacitor one end, and the other end is connected with peripheral hardware after being connected with the 4th resistance again; The 4th resistance is connected with the first transistor emitter; The second electrochemical capacitor other end is connected with the second resistance, the 3rd resistance and the first transistor collector respectively; The second resistance other end is connected with the first transistor base and first electrochemical capacitor one end respectively; The first electrochemical capacitor other end is connected with peripheral hardware, first resistance one end respectively; The first resistance other end is connected on transformer after being connected with the D pin of the 3rd resistance, field effect transistor again; The G pin of field effect transistor is connected with the 4th electric capacity, the 18 resistance one end respectively after being connected with the 3rd electric capacity one end again; The 4th electric capacity other end is connected with the 5th electric capacity, tunable capacitor one end respectively after being connected with first inductance one end again, and the 5th electric capacity other end is connected with the 17 resistance, the first diode respectively; The first diode other end is connected on the emitter of the second triode after being connected with tunable capacitor, the first inductance, the 18 resistance, the 6th electric capacity, the second inductance, the 19 resistance successively again; The 6th electric capacity other end is connected with the 3rd electric capacity; The S pin of field effect transistor is connected with the 3rd electric capacity, the 6th electric capacity, the second inductance, the 7th electric capacity respectively; The 7th electric capacity other end is affixed in the base stage of the second triode after being connected with the 19 resistance one end again; The collector of the second triode is connected with transformer, transformer grounding.

The utility model is after adopting such scheme, by the relevant induction installation collecting device information on the equipment of being installed at, information exchange after collecting is crossed to data reception module simultaneously and be sent in controller, controller arranges the data analysis of collecting by data analysis module; And reduced data is stored and shows at the scene or be sent in other data terminal, facilitate supvr to consult at any time, understand equipment running status, the counting of native system is accurate, be conducive to the maintaining of equipment, and there is the advantages such as automatic alert device consumable accessory replacing time.

Accompanying drawing explanation

Fig. 1 is control principle drawing of the present utility model.

Fig. 2 is circuit theory diagrams of the present utility model.

Embodiment

Below in conjunction with institute's drawings attached, the utility model is described in further detail, preferred embodiment of the present utility model is: referring to accompanying drawing 1 and accompanying drawing 2, the intelligent monitor system that electric capacity production scene is used described in the present embodiment includes monitor control mechanism 1, counter 2, organisation of working inductive probe 3, equipment oil sense probe 4 and the equipment ON/OFF inductor 5 being arranged on field apparatus; Monitor control mechanism 1, organisation of working inductive probe 3, equipment oil sense probe 4 and equipment ON/OFF inductor 5 are collected equipment and machining information be sent in data reception modules 6, data reception module 6 is sent to the data of collection in controller 7, controller 7 arranges data analyze by data analysis module 8, and the data of its arrangement comprise the abrasion condition of device fabrication quantity, equipment running status, consumable accessory, machine open/close time and the live video of equipment; When storing by storage module 9, the data after analysis send data on display terminal 11 by communication module 10.Circuit in described controller includes the first electrochemical capacitor C1, the second electrochemical capacitor C2, the 4th electrochemical capacitor C4, the 5th electrochemical capacitor C5, the first operational amplifier CF1, the second operational amplifier CF2, wherein, the 4th electrochemical capacitor C4, the 5th electrochemical capacitor C5 one end are connected with power supply, and the other end is connected with the 8th resistance R 8, the 9th resistance R 9 one end, and the 8th resistance R 8 other ends are connected to the tenth resistance R 10 one end again after being connected with the 9th resistance R 9, the negative terminal that the 9th resistance R 9 other ends are connected to the first operational amplifier CF1 enters end, the output terminal of the first operational amplifier CF1 is connected to the 6th electrochemical capacitor C6 one end after being connected with the tenth resistance R 10 other ends again, the 6th electrochemical capacitor C6 other end is connected with first potentiometer RP1 one end, the first potentiometer RP1 other end is connected with the 7th electrochemical capacitor C7 one end, the 7th electrochemical capacitor C7 other end is connected with the 12 resistance R 12 one end, the 12 resistance R 12 other ends respectively with the 6th resistance R 6, the negative terminal that is connected to again the second operational amplifier CF2 after the 7th resistance R 7 one end are connected enters end, the anode of the first operational amplifier CF1 enter end respectively with the positive input terminal of the second operational amplifier CF2, the positive input terminal of the 3rd operational amplifier CF3 and the tenth electrochemical capacitor C10 one end be connected, the 7th resistance R 7 other ends are connected with the output terminal of the 17 resistance R the 17, the 13 resistance R 13 and the second operational amplifier CF2 respectively, the 13 resistance R 13 other ends are connected with second potentiometer RP2 one end, and the second potentiometer RP2 other end enters end with the 15 resistance R 15, the 3rd operational amplifier CF3 negative terminal respectively and is connected, the 15 resistance R 15 other ends are connected with output terminal, the 8th electrochemical capacitor C8 one end of the 3rd operational amplifier CF3 respectively, the 8th electrochemical capacitor C8 other end is connected with the 16 resistance R the 16, the 11 electrochemical capacitor C11, second diode VD2 one end respectively, the 16 resistance R the 16, the 11 electrochemical capacitor C11, the second diode VD2 other end and reometer interconnection ground connection, the tenth electrochemical capacitor C10 one end is connected with the 20 resistance R the 20, the 21 resistance R 21 one end respectively, the tenth electrochemical capacitor C10 other end be connected with the 21 resistance R 21 other ends after and direct supply in succession, the 20 resistance R 20 other ends are connected with the 9th electrochemical capacitor C9, first capacitor C 21 one end respectively, first capacitor C 21 other ends are connected with transformer T1, the 6th resistance R 6 other ends are connected with second capacitor C 22 one end, and second capacitor C 22 other ends are connected with the 3rd potentiometer RP3, the 3rd potentiometer RP3 one end is connected with second electrochemical capacitor C2 one end, and the other end is connected with peripheral hardware W after being connected with the 4th resistance R 4 again, the 4th resistance R 4 is connected with the first triode Q1 emitter, the second electrochemical capacitor C2 other end is connected with the second resistance R 2, the 3rd resistance R 3 and the first triode Q1 collector respectively, second resistance R 2 other ends are connected with the first triode Q1 base stage and first electrochemical capacitor C1 one end respectively, the first electrochemical capacitor C1 other end is connected with peripheral hardware W, first resistance R 1 one end respectively, first resistance R 1 other end is connected on transformer T1 after being connected with the D pin of the 3rd resistance R 3, field effect transistor Q11 again, the G pin of field effect transistor Q11 is connected with the 4th capacitor C the 24, the 18 resistance R 18 one end respectively after being connected with the 3rd capacitor C 23 one end again, the 4th capacitor C 24 other ends are connected with the 5th capacitor C 25, tunable capacitor CD2 one end respectively after being connected with first inductance L 1 one end again, and the 5th capacitor C 25 other ends are connected with the 17 resistance R 17, the first diode VD1 respectively, the first diode VD1 other end is connected on the emitter of the second triode Q2 after being connected with tunable capacitor CD2, the first inductance L the 1, the 18 resistance R 18, the 6th capacitor C 26, the second inductance L the 2, the 19 resistance R 19 successively again, the 6th capacitor C 26 other ends are connected with the 3rd capacitor C 23, the S pin of field effect transistor Q11 is connected with the 3rd capacitor C 23, the 6th capacitor C 26, the second inductance L 2, the 7th capacitor C 27 respectively, the 7th capacitor C 27 other ends are affixed in the base stage of the second triode Q2 after being connected with the 19 resistance R 19 one end again, the collector of the second triode Q2 is connected with transformer T1, transformer T1 ground connection.By the relevant induction installation collecting device information on the equipment of being installed at, the information exchange after collecting to be crossed to data reception module simultaneously and be sent in controller, controller arranges the data analysis of collecting by data analysis module; And reduced data is stored and shows at the scene or be sent in other data terminal, facilitate supvr to consult at any time, understand equipment running status, the counting of native system is accurate, be conducive to the maintaining of equipment, and there is the advantages such as automatic alert device consumable accessory replacing time.

For example, when said system is installed on capacitance group grain machine, its system includes on-site supervision probe, counter, pressing inductive probe, turns cincture probe, machine open/close inductor, fixed claw induction mechanism, controller, wherein, controller is arranged in the electric cabinet or pulpit of group grain machine, controller respectively with on-site supervision control head, counter, pressing inductive probe, turn cincture probe, machine open/close inductor, fixed claw induction mechanism and be electrically connected to; Described pressing inductive probe, turn pressing that cincture probe, fixed claw induction mechanism be arranged on respectively group grain machine, turn on cincture and fixed claw; On-site supervision probe is arranged on group grain machine top by support; Controller is connected with display terminal by wireless routing; Display terminal is on-the-spot display screen, mobile phone or controls computer.During use, by being installed at pressing inductive probe on group grain machine, turning cincture probe, machine open/close inductor, fixed claw induction mechanism collecting device information, information exchange after collecting is crossed to data reception module simultaneously and be sent in control single chip computer, control single chip computer arranges the data analysis of collecting by data analysis module; And reduced data is shown at the scene or be sent in other data terminal, facilitate supvr to consult at any time.When to maintenance while maybe needing to change consumable accessory (as pressing, turn cincture), system automatic control equipment is shut down, and can continue operation, the operational reliability of support equipment after must manually eliminating or change associated components.

The embodiment of the above is only the preferred embodiment of the utility model, not with this, limits practical range of the present utility model, therefore the variation that all shapes according to the utility model, principle are done all should be encompassed in protection domain of the present utility model.

Claims (1)

1. the intelligent monitor system that electric capacity production scene is used, is characterized in that: it includes monitor control mechanism (1), counter (2), organisation of working inductive probe (3), equipment oil sense probe (4) and the equipment ON/OFF inductor (5) being arranged on field apparatus; Monitor control mechanism (1), organisation of working inductive probe (3), equipment oil sense probe (4) and equipment ON/OFF inductor (5) are collected equipment and machining information be sent in data reception modules (6), data reception module (6) is sent to the data of collection in controller (7), controller (7) arranges data analyze by data analysis module (8), and the data of its arrangement comprise the abrasion condition of device fabrication quantity, equipment running status, consumable accessory, machine open/close time and the live video of equipment; When storing by storage module (9), the data after analysis send data on display terminal (11) by communication module (10).