CN2899382Y - Separated jacketed electronic inductive ballast - Google Patents
Separated jacketed electronic inductive ballast Download PDFInfo
- Publication number
- CN2899382Y CN2899382Y CN 200620041458 CN200620041458U CN2899382Y CN 2899382 Y CN2899382 Y CN 2899382Y CN 200620041458 CN200620041458 CN 200620041458 CN 200620041458 U CN200620041458 U CN 200620041458U CN 2899382 Y CN2899382 Y CN 2899382Y
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- Prior art keywords
- fluorescent tube
- power converter
- ballast
- electronic power
- inductive ballast
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model relates to an electronic inductive ballast of separated-jacket type, comprising an inductive ballast, an electric power converter which can be connected to one end of a T5 fluorescence lamp, a voltage-limiting protector which can be connected to another end of the fluorescence lamp. The two connection terminals of the electric power converter are respectively connected to the two connection terminals of the voltage-limiting protector through the inductive ballast and an over-current protector. The utility model can be used to replace a T8 fluorescence lamp by a T5 fluorescence lamp, and has the advantages of convenient replacement; time, labour and cost saving; energy saving and longer life-span of lamp.
Description
Technical field
The utility model relates to a kind of Ballasts Used in Fluorescent Light, the split socket joint type electronic inductance ballast of using when particularly a kind of T8 fluorescent tube with fluorescent lamp changes the T5 fluorescent tube into.
Background technology
The current starting stage that is in novel T5 fluorescent tube replace old type T8 fluorescent tube in the world.Because the T5 fluorescent tube, has many advantages such as high brightness, efficient, energy-conservation, eyeshield, longevity, environmental protection with rare-earth trichromatic luminescent material of new generation.But the T8 fluorescent tubes that still use in a large number at present to be replaced with the T5 fluorescent tube, will abandon the fluorescent lamp corollary equipment of original the whole series, not only take a lot of trouble expensive but also waste multiple resources such as copper, silicon, steel, insulating material.
The utility model content
The purpose of this utility model is to provide a kind of split socket joint type electronic inductance ballast can be applied to the T8 fluorescent tube is replaced with the T5 fluorescent tube, keeps original fluorescent lamp corollary equipment basically, and it is convenient to change, time saving and energy saving province expense.
For achieving the above object, the utility model adopts following technical proposals:
A kind of split socket joint type electronic inductance ballast; comprise an Inductive ballast; it is characterized in that having one and can connect the electronic power converter of T5 fluorescent tube one end, the stop voltage protector that can connect the T5 fluorescent tube other end, two splicing ears of described electronic power converter are connected two splicing ears of described stop voltage protector respectively with an overcurrent protective device by described Inductive ballast.
Above-mentioned electronic power converter is the socket cap with the stop voltage protector and can overlaps to wear and be connected the T5 fluorescent tube: there are two of two jacks and the T5 fluorescent tube one end pin couplings of pegging graft its socket cap the inner, and socket cap outer end have two peg graft pin can with the base coupling that is fixed on the Fluorescent Light and Fixtures.
Have the heat radiation slotted eye on the shell of above-mentioned electronic power converter.
Above-mentioned overcurrent protective device is the small column body, its termination have two peg graft pin can with the starter base inserting.
The utility model has following conspicuous substantive distinguishing features and advantage compared with prior art:
1, changes conveniently: only need change T8 fluorescent tube and starter, need not change original device and circuit, substitute starter, put on the socket cap in the T5 lamp tube ends and just can directly substitute the T8 fluorescent tube with overcurrent protective device; The replacing time only needs 1~2 minute, does not easy and simple to handlely need the professional, and more not needing to stop work has a power failure.
2, low cost: tube stand originally, Inductive ballast, base, starter base and wiring etc. all can intactly make full use of.
3, power and energy saving, ballast efficiency factor height
4, can use the replacement of T5 fluorescent tube 58W, the 36W of 35W, 28W, 21W, 14W, the T8 fluorescent tube of 30W, 18W respectively.Under the prerequisite that brightness of illumination improves, energy-conservationly can reach between 40% to 22% respectively; Under the situation that brightness of illumination equates, energy-conservationly reach as high as 50%.
5, the protection of overcurrent protection and stop voltage is arranged, fail safe is good.
Even 6, filament blows, fluorescent tube still can be lighted, further prolonging lamp tube useful life.
7, the frequency of fluorescent tube two terminal voltages is about 50KHz, the frequency domain of the human energy perception of overflowing far away; No stroboscopic, no AC power frequency noise are a kind of green illuminations.
8, comply with the national standard requirements: fluorescent tube two ends filament pre-heating, prolonging lamp tube useful life; Power factor 〉=0.9, electric current crest factor≤1.7.
Description of drawings
Fig. 1 is the fluorescent lamp system block diagram that the utility model is applied to be replaced with the T5 fluorescent tube.
Fig. 2 is the outline drawing of the electronic power converter among Fig. 1.
Fig. 3 is the outline drawing of the stop voltage protector among Fig. 1.
Fig. 4 is the outline drawing of the overcurrent protective device among Fig. 1.
Fig. 5 is overcurrent protective device and stop voltage protector performance diagram.
Fig. 6 is the circuit theory diagrams of electronic power converter among Fig. 1.
Fig. 7 is the circuit theory diagrams of overcurrent protective device among Fig. 1.
Fig. 8 is the circuit theory diagrams of stop voltage protector among the figure.
Embodiment
Details are as follows in conjunction with the accompanying drawings for a preferred embodiment of the present utility model:
Referring to Fig. 1; this split socket joint type electronic inductance ballast includes an Inductive ballast 1; an electronic power converter that can connect T5 fluorescent tube 4 one ends 3, the stop voltage protector 5 that can connect T5 fluorescent tube 4 other ends are arranged, and two splicing ears of described electronic power converter 3 are connected two splicing ears of described stop voltage protector 5 respectively with an overcurrent protective device 8 by described Inductive ballast 1.
Referring to Fig. 2, Fig. 3 and Fig. 4; above-mentioned electronic power converter 3 is the socket cap with stop voltage protector 5 and can overlaps to wear and be connected T5 fluorescent tube 4: there are two of two jacks and the T5 fluorescent tube one end pin couplings of pegging graft its socket cap the inner, and socket cap outer end have two peg graft pin can with base 2,6 couplings that are fixed on the Fluorescent Light and Fixtures 9.Have the heat radiation slotted eye on the shell of above-mentioned electronic power converter 3.Above-mentioned overcurrent protective device 8 is the small column body, its termination have two peg graft pin can with the starter base inserting.
The circuit structure of above-mentioned electronic power converter 3, overcurrent protective device 8 and stop voltage protector 5 is respectively as Fig. 6, Fig. 7 and shown in Figure 8.
Operation principle:
1. the electronic power converter 3
When the electronic power converter of Fig. 6 powers on, the start-up circuit of forming by resistance R 1, capacitor C 3 and bidirectional trigger diode DIAC, when institute's charging voltage reaches the puncture voltage of bidirectional trigger diode DIAC on the capacitor C 3, for half-bridge lower end transistor T 2 base stages provide a positive triggering pulse, make T2 begin conducting.The positive feedback of saturable transformer causes the enough big voltage of L2 winding output to make T2 base stage positively biased, jumps to saturation conduction fast.Institute's charging voltage constitutes loop discharge, start-up circuit end-of-job by diode D5 and T2 on the capacitor C 3.
T2 jumps to saturation conduction fast, and the collector current of T2 makes and produces in capacitor C 4, C5 inductance L 3, the L4 branch road because of electric current rises to excitation, and forming frequency is the series resonance of fo, and resonance is lighted fluorescent tube at the high pressure of C4 and the generation of L4 junction.Because ω L3<<ω L4,1/ (ω C5)<<1/ (ω C4), frequency of oscillation fo is mainly by L4 and C4 decision.
It is to rise because of generation electric current in capacitor C 4, C5 inductance L 3, the L4 branch road increases in time that the electronic power converter enters steady state condition, so that the saturable transformer magnetic core is gradually saturated, flux value changes gradually and reduces, the induced potential decline that the L2 winding produces.T2 base drive descends thereupon, and the collector current that flows through the L3 winding also descends.Descend, can produce the induced potential of reversed polarity at L1, L2, three windings of L3 because of the inductance prevention collector current of winding.Voltage positive feedback rises to the reversed polarity induced potential, and the L2 winding produces enough big reversed polarity induced potential becomes instead partially the T2 base stage, withdraws from saturated jumping to and ends; The L1 winding produces enough big reversed polarity induced potential makes the T1 base stage become positively biased, withdraws from by jumping to saturated.So go round and begin again, T2 and T1 take turns saturated and end, and form the vibration operating mode.The frequency of oscillation of steady state condition is by comprehensive decision such as saturable transformer magnetic core size, saturation flux density, umber of turn, transistor storage time.
Resistance R 2 provides initial DC channel for the collector current of T2, easily produces gain so that the T2 working point enters the linear amplification district, lights fluorescent tube thereby make the easy starting of oscillation of inverter enter operating mode.The R2 resistance should rationally be chosen, and its resistance is too big, and the inverter difficult oscillation starting can not be worked; Its resistance too low power consumption is big, and the electronic power transducer effciency descends.
Fluorescent tube one end filament pre-heating is the effect of the industrial frequency AC input starting current of bridge rectifier.Fluorescent tube other end filament pre-heating voltage is that above-mentioned series resonance electric current dividing potential drop on inductance L 4 produces.By the selected parameter of design, guarantee that the voltage magnitude preheating of dividing potential drop generation appropriately and not can be burnt filament.
2. the stop voltage protector 5
3. overcurrent protector 8
For than the high-power fluorescent lamp electric ballast; when fluorescent tube has been broken or do not have fluorescent tube; resonant circuit does not have damping; and that circuit will produce will be very high-power; have bigger source current this moment; overheated for preventing that overcurrent from producing, even damage components and parts, it is very necessary taking the overcurrent protection measure.
The characteristic curve of overcurrent protector is seen Fig. 2, and electrical schematic diagram is seen Fig. 7.Its operation principle is:
Diode D1~D4 constitutes rectifier bridge, and the AC rectification of importing is become direct current.Polarity as shown in Figure 7.During operate as normal, positive voltage is given triggering signal of bidirectional thyristor TRIAC, the bidirectional thyristor TRIAC conducting of main channel through resistance R 2.The ballast electric current constitutes the loop through rectifier bridge to TRIAC, R1.Because the R1 resistance is very little, makes the pressure drop on the R1 very low, causes U
C1Lower, so diode D5 and triode T end.Because voltage-stabiliser tube VS does not puncture, so this branch road is obstructed, LED does not work among this moment another subaisle branch road R5-LED-VS.When overcurrent, the pressure drop of big electric current on R1 raises, and makes U
C1Voltage and then raise, cause diode D5 and triode T conducting.The collector voltage of triode T reduces, and the bidirectional thyristor TRIAC of main channel is ended, and this moment, LED was bright, sends over-current signal because voltage-stabiliser tube VS punctures, and the ballast electric current circulates in above-mentioned another subaisle branch road R5-LED-VS.Because the bidirectional thyristor TRIAC of main channel ends, and subaisle light-emitting diode current in loop is placed restrictions in very little value by resistance R 5, so played overcurrent protection.
Claims (4)
1. split socket joint type electronic inductance ballast; comprise an Inductive ballast (1); it is characterized in that having one and can connect the electronic power converter (3) of T5 fluorescent tube (4) one ends, the stop voltage protector (5) that can connect T5 fluorescent tube (4) other end, two splicing ears of described electronic power converter (3) are connected two splicing ears of described stop voltage protector (5) respectively with an overcurrent protective device (8) by described Inductive ballast (1).
2. split socket joint type electronic inductance ballast according to claim 1; it is characterized in that described electronic power converter (3) to be the socket cap with stop voltage protector (5) and can overlap to wear and be connected T5 fluorescent tube (4): there are two of two jacks and the T5 fluorescent tube one end pin couplings of pegging graft its socket cap the inner, and socket cap outer end have two peg graft pin can with base (2, the 6) coupling that is fixed on the Fluorescent Light and Fixtures (9).
3. split socket joint type electronic inductance ballast according to claim 2 is characterized in that having the heat radiation slotted eye on the shell of described electronic power converter (3).
4. split socket joint type electronic inductance ballast according to claim 2 is characterized in that described overcurrent protective device (8) is the small column body, its termination have two peg graft pin can with the starter base inserting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200620041458 CN2899382Y (en) | 2006-04-28 | 2006-04-28 | Separated jacketed electronic inductive ballast |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200620041458 CN2899382Y (en) | 2006-04-28 | 2006-04-28 | Separated jacketed electronic inductive ballast |
Publications (1)
Publication Number | Publication Date |
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CN2899382Y true CN2899382Y (en) | 2007-05-09 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 200620041458 Expired - Fee Related CN2899382Y (en) | 2006-04-28 | 2006-04-28 | Separated jacketed electronic inductive ballast |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2453532A3 (en) * | 2010-11-15 | 2012-09-05 | Empress International Limited | Fluorescent tube converter and protection circuit |
WO2015003374A1 (en) * | 2013-07-11 | 2015-01-15 | 吉瑞高新科技股份有限公司 | Electronic cigarette |
-
2006
- 2006-04-28 CN CN 200620041458 patent/CN2899382Y/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2453532A3 (en) * | 2010-11-15 | 2012-09-05 | Empress International Limited | Fluorescent tube converter and protection circuit |
WO2015003374A1 (en) * | 2013-07-11 | 2015-01-15 | 吉瑞高新科技股份有限公司 | Electronic cigarette |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20070509 Termination date: 20110428 |