JP3922054B2 - Discharge lamp protective cover, discharge lamp lighting device, and method for detecting forgotten removal of discharge lamp protective cover - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a discharge lamp protective cover for covering a discharge lamp for protecting the discharge lamp, and a discharge lamp lighting device capable of detecting that the discharge lamp is covered with the discharge lamp protective cover.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a discharge lamp having a high bulb internal pressure is provided with an explosion-proof protective cover from the time it is packaged after manufacture, taken out of the packaging box, and attached to the discharge lamp lighting device.
[0003]
In recent years, the safety awareness of the handling of discharge lamps has increased, and at the same time, the number of cases in which the responsibility of the manufacturer has been questioned due to the enforcement of the PL Law, etc. In consideration of safety in handling the discharge lamp, a protective cover has been attached to the discharge lamp.
[0004]
[Problems to be solved by the invention]
By the way, as described above, the protective cover is dangerous if the discharge lamp is not covered with the protective cover until the discharge lamp is taken out from the packing box and attached to the discharge lamp device. The work is carried out in a state in which is mounted on the discharge lamp. However, there is a concern about forgetting to remove the protective cover from the discharge lamp after work.
[0005]
If you forget to remove the protective cover from the discharge lamp and turn on the discharge lamp, the protective cover will emit smoke and fire due to heat and light emitted from the discharge lamp, and the protective cover will burn into the lamp envelope. May be damaged.
[0006]
In view of the above-mentioned problems of the prior art, the object of the present invention is to make it possible to reliably prevent forgetting to remove the protective cover covering the discharge lamp after the discharge lamp is installed in the discharge lamp lighting device. An object of the present invention is to provide a protective cover for a lamp and a discharge lamp lighting device capable of detecting forgetting to remove the protective cover for the discharge lamp.
[0007]
[Means for Solving the Problems]
The present invention employs the following means in order to solve the above problems.
The first means is characterized in that a resistance circuit connected between both terminals or both caps of the discharge lamp is provided on a discharge lamp protective cover for covering the discharge lamp.
[0008]
The second means is characterized in that a capacitor circuit connected between both terminals or both caps of the discharge lamp is provided on a discharge lamp protective cover for covering the discharge lamp.
[0009]
A third means is a discharge lamp lighting device for lighting a discharge lamp by applying a high voltage. The cover is covered with the discharge lamp protective cover according to claim 1 or 2, which is scheduled to be removed before the discharge lamp is turned on. Between both terminals of the discharge lamp For detection before the discharge lamp is lit Apply voltage Shi Discharge run Both Between terminals Detect voltage A continuity detecting means for detecting a continuity state and a notification means for outputting a notification signal based on a detection result of the continuity detection means are provided.
[0010]
The fourth means is characterized in that in the third means, there is provided lighting regulation means for regulating lighting of the discharge lamp based on a detection result of the conduction detection means.
[0011]
A fifth means is a method for detecting forgetting to remove a protective cover for a discharge lamp provided with a resistor or a capacitor connected between both terminals or between both caps of the discharge lamp, and before starting the discharge lamp, When a conduction state between the input terminals of the discharge lamp is detected, the discharge lamp is notified that the discharge lamp protective cover is attached.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a plan view showing a state in which a discharge lamp is covered with a protective cover for a discharge lamp according to the invention of the present embodiment.
[0013]
In the figure, 1 is a discharge lamp, 2 is a lamp envelope of the discharge lamp 1, 3 is a cap of the discharge lamp 1, 4 is a protective cover for the discharge lamp provided so as to cover the lamp envelope 2 of the discharge lamp 1, Reference numeral 41 denotes a protective cover body, 42 denotes a resistance circuit formed on the discharge lamp protective cover 4, 5 denotes a terminal of the discharge lamp 1, and 6 denotes a connection between the discharge lamp protective cover 4 and the discharge lamp terminal 5. Lead wire.
[0014]
As shown in the figure, the discharge lamp protective cover 4 uniformly covers the lamp envelope 2 and a resistance circuit 42 made of a conductive paint using carbon or the like on a part of the surface of the protective cover main body 41. Is formed. Further, both ends of the formed resistance circuit 42 are connected between the terminals 5 and 5 or the caps 3 and 3 at both ends of the discharge lamp 1 via lead wires 6.
Here, the discharge lamp protective cover 4 in which the resistance circuit 42 is formed is used when a DC starter for starting the discharge lamp is used in the discharge lamp lighting device.
[0015]
FIG. 2 is a diagram showing a configuration of a discharge lamp lighting device that makes it possible to detect that the discharge lamp 1 is covered by the discharge lamp protective cover 4 according to the invention of the present embodiment.
As shown in the figure, this discharge lamp lighting device includes an AC power supply 11, a primary rectifying / smoothing circuit 12 that rectifies and smoothes an AC voltage, and a switching that converts a DC voltage output from the primary rectifying and smoothing circuit 12 into an AC voltage. The circuit 13, the step-up transformer 14 that converts the AC voltage output from the switching circuit 13 into a high-voltage AC voltage, the secondary rectifying / smoothing circuit 15 that rectifies and smoothes the AC high voltage into a DC high voltage, and the discharge lamp 1. A current / voltage detection circuit 16 for detecting a current / voltage generated, a DC starter 17 for causing a breakdown by applying a DC high voltage between the electrodes of the discharge lamp 1 when the discharge lamp 1 is lit, a discharge lamp A control circuit 18 that outputs a control signal for controlling each part of the lighting device, an auxiliary power circuit 19 that supplies a DC voltage to each part of the discharge lamp lighting device, and the like It has been made.
[0016]
Here, for some reason, if the user forgets to remove the discharge lamp protective cover 4 covering the discharge lamp 1 and tries to turn on the discharge lamp 1 with the discharge lamp protective cover 4 attached, a DC starter is used. The DC high voltage from 17 is applied to the resistance circuit 42 of the discharge lamp protective cover 4 connected between the discharge lamp 1 and the terminals 5 and 5 of the discharge lamp 1. However, since the DC high voltage is bypassed through the resistance circuit 42, no DC high voltage is applied to the discharge lamp 1, and breakdown (insulation breakdown) does not occur, and the discharge lamp 1 is lit. Absent. Thereby, when the discharge lamp 1 is not lit, the operator can confirm that the discharge lamp protective cover 4 is attached.
[0017]
As an example of the discharge lamp lighting device described above, when the output resistance of the DC starter 17 is set to 100 MΩ, the output voltage is set to 8 kV, and the minimum breakdown voltage of the discharge lamp 1 is set to 1 kV, the resistance of the protective cover 4 for the discharge lamp is considered. When the resistance value of the circuit 42 is set to 5 MΩ, the output voltage of the DC starter 17 is lowered to 400 V when the discharge lamp protective cover 4 is attached. Therefore, the minimum breakdown voltage of the discharge lamp 1 is less than 1 kV, and the discharge lamp 1 does not light up.
[0018]
As described above, according to the present embodiment, the resistance circuit 42 connected between the terminals 5 or the caps 3 of the discharge lamp 1 is provided on the discharge lamp protective cover 4 that covers the discharge lamp 1. Therefore, if the discharge lamp 1 is turned on while the discharge lamp protective cover 4 is attached to the discharge lamp 1, the discharge lamp 1 is not turned on, so that the discharge lamp protective cover 4 is attached to the discharge lamp 1. It can be detected.
[0019]
FIG. 3 is a diagram showing a configuration of a discharge lamp protection cover having a resistance circuit different from the resistance circuit 42 of the discharge lamp protection cover 4 shown in FIG. 1, and FIG. FIG. 3B is a sectional side view of the discharge lamp protective cover, and FIG. 3C is a diagram showing an equivalent circuit of the discharge lamp protective cover.
In these drawings, reference numeral 7 is a discharge lamp protective cover, 71 is a protective cover body, 72 is a surface-mounted resistor, and 73 is a conductive path formed on the protective cover body 71.
The discharge lamp protective cover 7 has a plurality of surface-mounted resistors 72 arranged on the surface of the protective cover body 71. Here, the surface-mounted resistors 72 are connected to a conductive path made of a metal film or conductive paint. 73 shows a case where three are connected in series to 73 and connected in parallel.
Similarly to the discharge lamp protective cover 4 shown in FIG. 1, the discharge lamp protective cover 7 has both ends (AB) of the conductive path 73 of the discharge lamp protective cover 7 at the terminals 5 at both ends of the discharge lamp 1. , 5 to the caps 3 and 3 through lead wires or the like.
Since the discharge lamp protective cover 7 can be connected to an arbitrary number of surface mount type resistors 72 in series and parallel as appropriate, as compared with the resistance circuit 42 of the discharge lamp protective cover 4 shown in FIG. The resistance value can be set to an arbitrary value as required.
[0020]
Next, a second embodiment of the present invention will be described with reference to FIGS.
The protective cover for the discharge lamp of the present embodiment has a resistance circuit formed on the protective cover for the discharge lamp in the first embodiment, whereas a capacitor circuit is formed on the protective cover for the discharge lamp. Is different.
[0021]
FIG. 4 shows a configuration of a discharge lamp lighting device that makes it possible to detect that the discharge lamp 1 is covered by the discharge lamp protective cover in which the capacitor circuit 20 is formed on the discharge lamp protective cover. FIG.
Here, the discharge lamp protective cover in which the capacitor circuit 20 is formed is used when an AC starter for starting the discharge lamp is used in the discharge lamp lighting device.
In the figure, 20 is a capacitor circuit formed on the discharge lamp protective cover, and 21 is a breakdown by applying an alternating high voltage between the electrodes of the discharge lamp 1 when the discharge lamp 1 is lit. This is an AC starter.
Other configurations correspond to the configurations of the same reference numerals shown in FIG.
[0022]
Also in the invention of the present embodiment, if for some reason, forgetting to remove the discharge lamp protective cover covering the discharge lamp 1 and trying to light the discharge lamp 1 with the discharge lamp protective cover attached, An AC high voltage from the AC starter 21 is applied to the discharge lamp 1 and the capacitor circuit 20 of the discharge lamp protective cover connected between the terminals 5 and 5 of the discharge lamp 1. However, since this AC high voltage is bypassed via the capacitor circuit 20, no AC high voltage is applied to the discharge lamp 1, and no breakdown (insulation breakdown) occurs, and the discharge lamp 1 is lit. Absent. If the discharge lamp 1 does not light up, the operator can confirm that the discharge lamp protective cover is attached to the discharge lamp.
[0023]
As an example of the discharge lamp lighting device described above, considering the case where the output resistance of the AC starter 21 is set to 100Ω, the output voltage is set to 30 kV, the pulse frequency is set to 10 MHz, and the minimum breakdown voltage of the discharge lamp 1 is set to 2 kV. When the capacitor capacity of the cover capacitor circuit 20 is set to 3000 pF, the output voltage of the AC starter 21 drops to 1.5 kV when the discharge lamp protective cover is attached. It will be below 2 kV, and the discharge lamp 1 will not light up.
[0024]
Thus, also in the invention of this embodiment, the capacitor circuit 20 connected between the terminals 5 and 5 of the discharge lamp 1 or between the caps 3 and 3 is provided on the discharge lamp protective cover that covers the discharge lamp 1. Since the discharge lamp 1 is not lit when attempting to turn on the discharge lamp 1 with the discharge lamp protective cover attached to the discharge lamp 1, the discharge lamp protective cover is attached to the discharge lamp 1. It is possible to detect that it is in a state.
[0025]
FIG. 5 is a diagram showing a configuration of a discharge lamp protective cover having a capacitor circuit composed of a plurality of surface mount capacitors, and FIG. 5A is a plan view of the discharge lamp protective cover. FIG. 5B is a sectional side view of the discharge lamp protective cover, and FIG. 5C is a diagram showing an equivalent circuit of the discharge lamp protective cover.
In this figure, 22 is a discharge lamp protective cover, 221 is a protective cover body, 222 is a surface-mount type capacitor, and 223 is a conductive path made of a metal film or conductive paint formed on the discharge lamp protective cover 22. is there.
[0026]
In the discharge lamp protective cover 222, a plurality of surface mount capacitors 222 are arranged on the surface of the protective cover main body 221, and here, four capacitors 222 connected in series to the conductive path 223 are connected in parallel. It shows the case where it is configured. The discharge lamp protective cover 22 also has both ends (AB) of the conductive path 223 of the discharge lamp protective cover 22 between the terminals 5 and 5 or the caps 3 and 3 of the discharge lamp 1 via lead wires or the like. Connected.
The discharge lamp protective cover 22 can also set the capacitance value of the capacitor circuit to an arbitrary value as necessary by appropriately connecting an arbitrary number of surface-mount type capacitors 222 in series and parallel.
[0027]
Next, a third embodiment of the present invention will be described with reference to FIG.
FIG. 6 is a diagram showing a configuration of a discharge lamp lighting device including a detection circuit that detects that the discharge lamp 1 is covered with a discharge lamp protective cover in which a resistance circuit 42 is formed on the discharge lamp protective cover. It is.
In the figure, reference numeral 23 is a detection circuit for detecting a change in the conduction state depending on whether or not the discharge lamp 1 is covered with a discharge lamp protective cover, and 231 is provided for applying a detection voltage across the discharge lamp 1. The detected power supply 232 is a voltage dividing circuit for detecting the voltage across the discharge lamp 1 via the DC starter 17, and 233 is the voltage dividing circuit 2. 3 2 is compared with a predetermined threshold value, and when the detected voltage is lower than the predetermined threshold value, a comparator that sends an abnormal signal to the control circuit 18, and an abnormal signal is input to the control circuit 18. And a display lamp 25 for displaying an alarm by a notification signal output from the control circuit 18, and a switch SW for outputting a control signal for lighting the discharge lamp 1 and a control signal for operating the detection circuit 23 from the control circuit 18. , 26 is a reset switch RS for resetting the control circuit 18.
Other configurations correspond to the configurations of the same reference numerals shown in FIG.
[0028]
The operation of the discharge lamp lighting device first operates the detection circuit 23 by turning on the switch SW25 prior to the lighting of the discharge lamp 1. As for the operation of the detection circuit 23, when the switch SW25 is turned on, the detection voltage Vcc is output from the control circuit 18 and supplied to the detection power source 231. The detection voltage Vcc is applied between both terminals of the discharge lamp 1 via the resistor R1, the diode D, and the DC starter 17. Here, if for some reason it is forgotten to remove the discharge lamp protective cover covering the discharge lamp 1 and the discharge lamp protective cover is attached to the discharge lamp 1, the detection power source 231 The supplied current does not flow to the discharge lamp 1, but flows through the resistance circuit 42 of the discharge lamp protective cover 4 connected between the terminals 5 and 5 of the discharge lamp 1. Therefore, the output voltage from the detection power source 231 drops due to the resistor R1. When the resistance value of the resistance circuit 42 is R2, the detection voltage detected by the voltage dividing circuit 232 is v1 = R2 · Vcc / (R1 + R2). This detection voltage v1 is detected as a voltage lower than the detection voltage Vcc. On the other hand, when the discharge lamp protective cover is removed from the discharge lamp 1, the current from the detection power source 231 does not flow to the discharge lamp 1, so the output voltage from the detection power source 231 does not drop and The detection voltage detected by the voltage circuit 232 is v2≈Vcc. As described above, the voltage dividing circuit 232 detects different detection voltages v depending on whether the discharge lamp protective cover is attached to the discharge lamp 1 or not. become.
[0029]
The detection voltage v detected by the voltage dividing circuit 232 is input to the comparator 233 and compared with a predetermined threshold value. When the detection voltage v is lower than the threshold value, an abnormal signal is output to the control circuit 18. When an abnormal signal is input to the control circuit 18, a notification signal is output to the display lamp 24 by notification means provided in the control circuit 18, and it is displayed that the discharge lamp protective cover is attached to the discharge lamp 1. The Further, when an abnormal signal is input, the lighting circuit limiting means provided in the control circuit 18 works so that the switching circuit 13 and the starter 17 do not operate. On the other hand, when the detection voltage is higher than the threshold value, a normal signal is output from the comparator 233 to the control circuit 18, and the supply of the detection voltage Vcc is stopped from the control circuit 18, and the switching circuit 13 and the starter 17 are turned on. When activated, the discharge lamp 1 is turned on.
[0030]
After the indicator lamp 24 is turned on and it is displayed that the discharge lamp protective cover is attached to the discharge lamp 1, the reset switch RS is removed after the discharge lamp protective cover is removed from the discharge lamp 1. Is turned on, the circuit state of the control circuit 18 is reset, and the previous lighting restriction means is also reset. Next, to turn on the discharge lamp 1, when the switch SW is turned on again, the detection voltage Vcc is supplied again from the control circuit 18 to the detection power supply 231, and the detection power supply 231 is operated. 1, detection of whether the discharge lamp protective cover is attached is started, but since the discharge lamp protective cover is not attached to the discharge lamp 1, a normal signal is output from the comparator 233 to the control circuit 18. Is done. As a result, the supply of the detection voltage Vcc from the control circuit 18 is stopped, the switching circuit 13 and the starter 17 are activated, and the lighting of the discharge lamp 1 is started.
[0031]
As described above, according to the discharge lamp lighting device according to the present embodiment, when the discharge lamp is lit while the discharge lamp protective cover is attached to the discharge lamp, the discharge lamp protective cover is attached. It is possible to turn on the discharge lamp only after the indicator lamp is notified that the discharge lamp protective cover is removed from the discharge lamp.
[0032]
Next, a fourth embodiment of the present invention will be described with reference to FIG.
FIG. 7 is a diagram illustrating a configuration of a discharge lamp lighting device including a detection circuit that detects that the discharge lamp 1 is covered with a discharge lamp protection cover in which a capacitor circuit is formed on the discharge lamp protection cover. is there.
[0033]
In the figure, reference numeral 27 denotes a detection circuit that detects a change in conduction state depending on whether or not the discharge lamp 1 is covered with a discharge lamp protective cover, and reference numeral 271 denotes a detection power source that applies a detection voltage to both ends of the discharge lamp 1. Reference numeral 272 denotes a voltage dividing circuit that detects the voltage across the discharge lamp 1 via the AC starter 21. Reference numeral 273 denotes a filter circuit that removes an unnecessary high-frequency wave component from the detected voltage detected by the voltage dividing circuit 272. Reference numeral 274 denotes a filter circuit. A rectifying circuit that rectifies the detection voltage output from 273 and converts it into a direct current, 275 compares the detection voltage output from the rectification circuit 274 with a predetermined threshold, and if the detection voltage falls below the predetermined threshold, A comparator 24 that sends a signal to the control circuit 18, a notification signal output from the control circuit 18 when an abnormal signal is input to the control circuit 18. A display lamp 25 for displaying an alarm, a switch SW for outputting a control signal for lighting the discharge lamp 1 and a control signal for operating the detection circuit 27 from the control circuit 18, and 26 for resetting the control circuit 18. This is a reset switch RS.
Other configurations correspond to the configurations of the same reference numerals shown in FIG.
[0034]
In the operation of the discharge lamp lighting device, first, prior to lighting of the discharge lamp 1, the switch SW25 is turned on to operate the detection circuit 27. The detection circuit 27 operates by turning on the switch SW25 so that a DC voltage is supplied from the control circuit 18 to the high frequency generator of the detection power supply 271 and a high frequency voltage is output from the high frequency generator to generate a transformer T, an AC starter. The voltage is applied between both terminals of the discharge lamp 1 via 21. Here, forgetting to remove the discharge lamp protective cover covering the discharge lamp 1 and assuming that the discharge lamp protective cover is attached to the discharge lamp 1, the detection power supply 2 7 1 does not flow into the discharge lamp 1 but flows through the capacitor circuit 20 of the discharge lamp protective cover connected between the terminals 5 and 5 of the discharge lamp 1. Therefore, when the power supply side is viewed from the voltage dividing circuit 272, the capacitor capacity on the power supply side composed of capacitors provided in the secondary rectifying and smoothing circuit 15 and the like is C1, the capacitor capacity of the capacitor circuit 20 is C2, and the output of the high frequency generator When the voltage is Vf, the detection voltage detected by the voltage dividing circuit 272 is v1 = C1 · Vf / (C1 + C2). This detection voltage v1 is detected as a voltage lower than the output voltage Vf. On the other hand, when the discharge lamp protective cover is removed from the discharge lamp 1, the current from the detection power supply 271 does not flow to the discharge lamp 1, so that the output voltage from the detection power supply 271 does not drop and is divided. The detection voltage detected by the voltage circuit 272 is v2≈Vf.
[0035]
As described above, the voltage dividing circuit 272 detects a different detection voltage v depending on whether the discharge lamp protective cover is attached to the discharge lamp 1 or not. become.
[0036]
The detection voltage v detected by the voltage dividing circuit 272 is input to the comparator 275 via the filter circuit 273 and the rectifier circuit 274, and is compared with a predetermined threshold value. When the detection voltage v is lower than the threshold value, an abnormal signal is output from the comparator 275 to the control circuit 18. When an abnormal signal is input to the control circuit 18, a notification signal for notifying the display lamp 24 that the discharge lamp protective cover is attached to the display lamp 24 is output by the notification means provided in the control circuit 18. . Furthermore, when an abnormal signal is input, the lighting circuit limiting means provided in the control circuit 18 works so that the switching circuit 13 and the AC starter 21 do not operate. On the other hand, when the detected voltage is higher than the threshold value, the comparator 2 75 A normal signal is output from the control circuit 18 to the control circuit 18, and the supply of the DC voltage to the high-frequency AC generator of the detection power supply 271 is stopped and the switching circuit 13 and the AC starter 21 are activated to discharge. Lamp 1 starts to light.
[0037]
After the indicator lamp 24 is turned on and it is displayed that the discharge lamp protective cover is attached to the discharge lamp 1, the reset switch RS is removed after the discharge lamp protective cover is removed from the discharge lamp 1. Is turned on, the circuit state of the control circuit 18 is reset, and the previous lighting restriction means is also reset. Next, to turn on the discharge lamp 1, when the switch SW is turned on again, a DC voltage is supplied again from the control circuit 18 to the detection power supply 271 and the detection power supply 271 operates to discharge the discharge lamp 1. Detection of whether or not the lamp protective cover is attached is started, but since the discharge lamp protective cover is not attached to the discharge lamp 1, a normal signal is output from the comparator 275 to the control circuit 18. As a result, the supply of DC voltage from the control circuit 18 to the detection power supply 271 is stopped, the switching circuit 13 and the starter 17 are started, and the discharge lamp 1 is turned on.
[0038]
As described above, also in the discharge lamp lighting device according to the present embodiment, when the discharge lamp is lit while the discharge lamp protective cover is attached to the discharge lamp, the discharge lamp protective cover is attached. It is possible to turn on the discharge lamp only after the display lamp is notified that the discharge lamp protective cover is removed from the discharge lamp.
[0039]
【The invention's effect】
According to the first aspect of the present invention, since the resistance circuit connected between the terminals or the caps of the discharge lamp is provided on the discharge lamp protective cover for covering the discharge lamp, Forgetting to remove the protective cover for the discharge lamp and trying to turn on the discharge lamp with the protective cover for the discharge lamp attached. Can be confirmed.
[0040]
According to the second aspect of the present invention, the capacitor circuit connected between the terminals of the discharge lamp or between the caps is provided on the discharge lamp protective cover for covering the discharge lamp. Forgetting to remove the protective cover for the discharge lamp and trying to turn on the discharge lamp with the protective cover for the discharge lamp attached. Can be confirmed.
[0041]
According to invention of Claim 3, The cover is covered with the discharge lamp protective cover according to claim 1 or 2, which is scheduled to be removed before the discharge lamp is turned on. Between both terminals of the discharge lamp For detection before the discharge lamp is lit Apply voltage Shi Discharge run Both Between terminals Detect voltage Since the continuity detection means for detecting the continuity state and the notification means for outputting a notification signal based on the detection result of the continuity detection means, the discharge lamp protective cover is attached to the discharge lamp. When the discharge lamp is lit, it is notified that the discharge lamp protective cover is attached, so that the operator can know that the discharge lamp protective cover is attached.
[0042]
According to the fourth aspect of the present invention, since the lighting limiting means for limiting the lighting of the discharge lamp is provided based on the detection result of the continuity detecting means, the lighting operation of the discharge lamp is not started, and the discharge lamp Only when the protective cover is removed can the discharge lamp be turned on.
[0043]
According to the fifth aspect of the present invention, there is provided a method for detecting forgetting to remove a protective cover for a discharge lamp provided with a resistance circuit or a capacitor circuit connected between both terminals or between both caps of the discharge lamp, When a conduction state between the input terminals of the discharge lamp is detected before starting the lamp, it is notified that a discharge lamp protective cover provided with a resistance circuit or a capacitor circuit is attached to the discharge lamp. As a result, the operator can prevent forgetting to remove the discharge lamp protective cover, so that it is possible to prevent the discharge lamp from being turned on in a state where the discharge lamp protective cover is attached.
[Brief description of the drawings]
FIG. 1 is a plan view showing a state in which a discharge lamp is covered with a discharge lamp protective cover according to the invention of a first embodiment;
FIG. 2 is a diagram showing a configuration of a discharge lamp lighting device that makes it possible to detect that the discharge lamp is covered with a discharge lamp protective cover according to the invention of the first embodiment.
FIG. 3 is a view showing a configuration of a protective cover for a discharge lamp having a resistance circuit composed of a plurality of surface mount type resistors according to the invention of the first embodiment;
FIG. 4 is a diagram showing a configuration of a discharge lamp lighting device that makes it possible to detect that a discharge lamp is covered with a discharge lamp protective cover according to the invention of a second embodiment.
FIG. 5 is a view showing a configuration of a protective cover for a discharge lamp having a capacitor circuit composed of a plurality of surface mount capacitors according to the invention of the second embodiment.
FIG. 6 is a diagram showing a configuration of a discharge lamp lighting device including a detection circuit for detecting that the discharge lamp is covered with a discharge lamp protective cover according to the invention of the third embodiment.
FIG. 7 is a diagram showing a configuration of a discharge lamp lighting device including a detection circuit for detecting that the discharge lamp is covered with a discharge lamp protective cover according to the invention of the fourth embodiment.
[Explanation of symbols]
1 Discharge lamp
2 Lamp envelope
3 base
4 Protective cover for discharge lamp
41 Protective cover body
42 Resistance circuit
5 Discharge lamp terminal,
6 Lead wire
7 Protection cover for discharge lamp
71 Protective cover body
72 Surface mount resistors
73 Conduction path
11 AC power supply
12 Primary rectification smoothing circuit
13 Switching circuit
14 Step-up transformer
15 Secondary rectification smoothing circuit
16 Current-voltage detection circuit
17 DC starter
18 Control circuit
19 Auxiliary power circuit
20 Capacitor circuit
21 AC Starter
22 Protective cover for discharge lamp
221 Protective cover body
222 Surface Mount Type Capacitor
223 conductive path
23 Detection circuit
231 Power supply for detection
232 Voltage divider circuit
233 Comparator
24 Indicator lamp
25 Switch SW
26 Reset switch RS
27 Detection circuit
271 Power supply for detection
272 Voltage divider circuit
273 Filter circuit
274 Rectifier circuit
275 Comparator

Claims (5)

  A protective cover for a discharge lamp, wherein a resistance circuit connected between both terminals or both caps of the discharge lamp is provided on a protective cover for the discharge lamp for covering the discharge lamp.   A protective cover for a discharge lamp, wherein a capacitor circuit connected between both terminals or both caps of the discharge lamp is provided on a protective cover for the discharge lamp for covering the discharge lamp. In a discharge lamp lighting device for lighting a discharge lamp by applying a high voltage,
A detection voltage is applied between the terminals of the discharge lamp covered with the protective cover for the discharge lamp according to claim 1 or 2 which is scheduled to be removed before the discharge lamp is turned on. and the characteristics and continuity detection means for detecting the conducting state by detecting a voltage between both terminals of the discharge lamp, based on a detection result of the conductor through sensing means, in that a notification means for outputting a notification signal Discharge lamp lighting device.  The discharge lamp lighting device according to claim 3, further comprising a lighting restriction unit that restricts lighting of the discharge lamp based on a detection result of the conduction detection unit.  A method for detecting forgetting to remove a protective cover for a discharge lamp provided with a resistance circuit or a capacitor circuit connected between both terminals or between both caps of the discharge lamp, wherein the input of the discharge lamp is performed before starting the discharge lamp. A method for detecting forgetting to remove a protective cover for a discharge lamp, wherein when a conductive state between terminals is detected, the discharge lamp is notified that the protective cover for a discharge lamp is attached.

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