JPH051114U - Discharge lamp fixtures - Google Patents

Abstract

(57) [Summary] [Purpose] In a discharge lamp device capable of being cut and adjusted in length, it is possible to suppress the occurrence of burrs on the cut surface during cutting and prevent electric shock during use. [Structure] End connector 6 supported on both ends of the transmitter 2.
Both poles 7a, 7b of the discharge lamp 1 are attached to the respective socket portions 8a, 8b of a, 6b.
Are connected respectively. The electric power supplied to the end connector 3a via the power supply cord 13 is supplied to the other end connector 3b via the power transmission path 5 of the transmitter 2, whereby the two poles 7a of the discharge lamp 1 are Voltage is applied to 7b. Power transmission line 5
Has a circular cross section, and its entire circumference is insulated and covered by the base portion 4 of the transmission tool 2. Therefore, even if the transmission tool 2 is cut, burrs are less likely to occur on the cut surface, and the power transmission path during energization. 5
It is also possible to prevent an electric shock by touching.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  The present invention relates to a discharge lamp fixture, and in particular, the length of the fixture can be simplified according to the length of the discharge lamp. The present invention relates to a discharge lamp device that can be cut into pieces.

[0002]

[Prior art]

  For example, a discharge lamp used for lighting a product display shelf has a length of the product display shelf. Different lengths are required to accommodate differences and the like. Traditionally like this Discharge lamps with different lengths at millimeter intervals are available. As a discharge lamp fixture that supplies power to both poles of a discharge lamp, such as changing the length of the discharge lamp It is known that you can easily cut the length so that you can respond quickly. There is.

[0003]   A conventional discharge lamp fixture such as this has a power transmission line made of a conductor and having a substantially U-shaped cross section. , A transmission tool extending over the entire length of the base made of an insulating material with its open side facing up Connected to the contacts of the power tool of this transmitter and the electrodes of the discharge lamp. Has a socket part that is connected to the electrode of the discharge lamp and the power transmission path of the transmitter. And a connection tool, and the connection tool is fixed to both ends of the transmission tool. Power supplied to the other connector via the power transmission path of the transmitter, By doing this, the discharge lamp installed between the sockets of both connectors is turned on. Is.

[0004]   This discharge lamp fixture is composed of a transmitter and a connector that can be connected / disconnected from each other. The size of the transmitter can be adjusted easily by cutting the length of the transmitter. Since the tool has a power transmission path, it has the advantage that wiring can be omitted. . Also, when a plurality of discharge lamps are arranged in a line and turned on (hereinafter, such points The method of lighting is called "continuous row lighting". ), The above discharge lamp fixtures are arranged in a line. However, it is possible if the transmission tools are electrically connected. In this conventional discharge lamp fixture, Electrical connection between each transmitter is made by a cord with connecting plugs at both ends. It was

[0005]

[Problems to be solved by the device]

  In the above-mentioned conventional discharge lamp fixture, the power transmission path having a substantially U-shaped cross section of the transmitter is exposed. Therefore, a part of the human body touches this power transmission line while electricity is flowing, resulting in electric shock. It is conceivable that dust or the like may accumulate in the power transmission path. Also power Since the transmission line is almost U-shaped, when cutting the transmission tool, the base of the cut surface and the power transmission line Burrs are likely to occur at the joint portion with.

[0006]   Further, when the discharge lamps are continuously lit, the distance between the discharge lamps can be increased. It is desirable to reduce the dark portion between the discharge lamps by making the width as narrow as possible. Conventional discharge For lighting fixtures, use a cord with a plug for electrical connection between transmitters. Since the distance between the discharge lamps is large, many dark areas are likely to occur, and the number of parts is large. Also increases.

[0007]   In view of the above problems, the present invention provides a discharge lamp fixture capable of being cut to adjust its length, It is possible to suppress the occurrence of burrs on the cut surface, prevent electric shock, and discharge When operating the lamps in continuous rows, the number of parts is small and the interval between the discharge lamps is narrow. The purpose of the present invention is to provide a discharge lamp fixture capable of reducing dark areas. is there.

[0008]

[Means for Solving the Problems]

  In order to solve the above problems, the discharge lamp fixture according to claim 1 according to the present invention has an elongated shape. Support the discharge lamp, and transmit the power supplied to one end of the discharge lamp to the other end. In a discharge lamp fixture that lights the discharge lamp,   A base and a conductor that is insulated and coated all around the base, extending the entire length of the base. And a power transmission line having a hollow cross-section   Connected to the male contact inserted in the power transmission line and the electrode of the discharge lamp. And a socket portion for supporting the discharge lamp, and the electrodes of the discharge lamp and the power transmission. Fixed and supported on the transmission device at both ends of the transmission device, which conducts between the transmission device and the path. A pair of end connectors,   A power supply device for supplying electric power to one of the pair of end connectors. It is a characteristic.

[0009]   In order to solve the above problems, the discharge lamp fixture according to claim 2 according to the present invention is , Supporting a plurality of elongated discharge lamps arranged in a line, and The power supplied to one of the discharge lamps is transmitted to other discharge lamps to turn on the discharge lamp. In light fixtures, ◆   A base and a conductor that is insulated and coated all around the base, extending the entire length of the base. And a plurality of linearly arranged power transmission tools each having a hollow cross section And ◆   The front end portion of the transmission device arranged at the forefront of the line of the transmission device arranged in a line, and the line At the rear end of the transmission device arranged at the rearmost part of the transmission device. A male contact inserted into the power transmission line and connected to the electrodes of the discharge lamp. And a socket portion for supporting the discharge lamp, the electrode of the discharge lamp and the power transmission. A pair of end connectors that provide electrical continuity with the feed path,   Connected to the male contact inserted in the power transmission line and the electrode of the discharge lamp. And has a socket portion supporting the discharge lamp at both ends of the housing, Conducting electrical connection between the electrodes of the discharge lamp and the power transmission path, and transmission with the transmission tool. An intermediate connecting device that is arranged between the transmitting device and the transmitting device to electrically connect the two transmitting devices,   A power supply device for supplying power to either the end connector or the intermediate connector; It is characterized by comprising.

[0010]

[Action and effect]

  As described above, the discharge lamp fixture according to claim 1 according to the present invention is provided in the base of the transmitter. Since the power transmission path that extends over its entire length is hollow in cross section, cut the transmission tool. When cutting the length by cutting, the cutting is easy and burrs do not easily occur on the cut surface. In addition, since the power transmission path is covered with insulation, the power transmission that allows the human body to communicate electricity Prevents electric shock from contact with the road and dust from adhering to the power transmission line. Can be stopped.

[0011]   Further, as described above, the discharge lamp device according to claim 2 according to the present invention is provided with each transmitter. Since the electric power transmission lines that extend through the entire length of the base of are both hollow in cross section, When cutting the transmission tool to reduce the length, it is easy to cut and the cut surface does not have burrs. Is less likely to occur. Also, since the power transmission path is insulated, the human body can conduct electricity. Being in contact with the electric power transmission line, you may get an electric shock, or dust may have adhered to the inside of the electric power transmission line. Can be prevented. Also, the connection between each transmitter should be Each is made by an intermediate connector with a socket and a male contact This eliminates the need for the cord with a plug that has been used in the past, and the cord with a plug The distance between the transmitters can be significantly reduced compared to when connected by In this way, it is possible to reduce the dark areas between the discharge lamps.

[0012]

【Example】

  Hereinafter, embodiments of the discharge lamp device according to the present invention will be described with reference to the accompanying drawings. To do. FIG. 1 is an exploded perspective view showing a structure of a main part of a discharge lamp fixture according to an embodiment of the present invention. FIG. 2 and FIG. 2 are schematic configurations showing an outline of the electrical overall configuration of the discharge lamp fixture. It is a figure.

[0013]   As shown in FIG. 1, the discharge lamp fixture of the present embodiment includes a rapid start type discharge lamp 1. The transmitter 2 and the terminal connector 3a supported on both ends of the transmitter 2 are to be turned on. , 3b. The transmitter 2 includes a base 4 made of an insulator (for example, synthetic resin). And two electric power transmission lines 5 each having a circular cross section and extending along the entire length in the base 4. It The power transmission line 5 is made of a conductor (for example, phosphor bronze), and its entire circumference is surrounded by the base 4. Is insulated.

[0014]   The terminal connectors 3a and 3b are provided on one side of the box-shaped housings 6a and 6b and at both ends of the discharge lamp 1. Sockets 8a and 8b connected to the respective electrode pins 7a and 7b, and a transmitter It has two male contacts 9a and 9b, which are inserted into the two power transmission paths 5, respectively. ing. In addition, as shown in FIG. 2, in the housing 6a (6b) of the terminal connector 3a (3b), , A ballast 10a (10b) equipped with a transformer is provided, and the socket section 8a (8b) and the male type The contact 9a (9b) is electrically connected via the ballast 10a (10b).

[0015]   Next, the electrical configuration of this embodiment will be described. As shown in FIG. 2, AC100 The power of V is transformed into high frequency 24V by the inverter power supply unit 11 and then railed. It is supplied to the terminal connector 3a via the outlet 12 and the power supply cord 13. Supplied 24V of power is supplied to the ballast 10a and the male contact 9a, respectively. The power supplied to the contact 9a is connected to the other terminal by the power transfer path 5 of the transmitter 2. It is transmitted to the ballast 10b via the male contact 9b of the tie 3b. Ballast 10a, 10b The 24V power supplied to the booster is boosted by a transformer inside the ballast (for example, 150V ~ 300 V), this boosted power becomes the starting voltage, and the socket parts 8a, 8b It is applied to both electrodes 7a and 7b of the discharge lamp 1 via the respective electrodes. Discharge lamp 1 depending on the starting voltage After lit, the voltage applied to both electrodes 7a, 7b of the discharge lamp 1 is applied to the ballasts 10a, 10b. Therefore, the voltage is quickly lowered to the rated voltage (for example, 100 V), and the discharge lamp 1 Transition to stable lighting.

[0016]   For convenience of drawing, FIG. 2 shows the power transmission line 5, male contacts 9a, 9b, and The electrodes 7a, 7b, etc. of the discharge lamp 1 are shown only on one side, respectively. As shown in FIG. 1, two pieces are provided for each.

[0017]   In the discharge lamp fixture of the present embodiment, the power transmission path 5 of the transmitter 2 has a circular cross section, Moreover, since the entire circumference is covered with the base 4 of the insulator, the transmitter 2 is cut. When cutting the length by cutting, it is easy to cut and burrs do not easily occur on the cut surface. . In addition, since the power transmission path 5 is covered with insulation, the electric power that the human body conducts electricity If you touch the transmission line 5 and receive an electric shock, or if dust etc. adheres to the inside of the power transmission line 5. Can be prevented.

[0018]   Next, a discharge lamp device according to another embodiment of the present invention for continuously lighting the discharge lamps Will be described. FIG. 3 is a schematic view of a main part of a discharge lamp fixture according to another embodiment of the present invention. FIG. 4 is an exploded perspective view showing the structure of the discharge lamp fixture, and FIG. It is a schematic block diagram.

[0019]   As shown in FIG. 4, the discharge lamp fixture of this embodiment has two rapid lamps arranged in a line. The starter type discharge lamps 21a and 21b are turned on, and the transmitters 22a and 22b and the transmitter Terminal connection tools 23a supported by the front end of the tool 22a and the rear end of the transmission tool 22b, 23b is installed between the transmitter 22a and the transmitter 22b, and both transmitters 22a and 23a are electrically connected. And an intermediate connection tool 24 that mechanically connects them. As shown in FIG. The transmitter 22a (22b) includes a base portion 25a (25b) made of an insulating material such as synthetic resin, and a base portion 25a (25b). It is composed of two electric power transmission lines 26a (26b) having a circular cross section, which extend through the entire length. The power transmission line 26a (26b) is made of a conductor such as phosphor bronze, and its entire circumference is defined by the base 25a (25b). It is insulation coated.

[0020]   The terminal connector 23a (23b) is a box-shaped housing 27a (27b), one surface of the discharge lamp 21a (21b) Socket portion 30a (28b) connected to the electrode pin 28a (28b) provided at one end of 30b) and two male type contours inserted into the power transmission path 26a (26b) of the transmission tool 22a (22b). 31a (31b). In addition, as shown in FIG. A ballast 32a (32b) equipped with a transformer is provided in the housing 27a (27b) of a (23b). The socket 30a (30b) and the male contact 31a (31b) are connected via the ballast 32a (32b). And is electrically connected. In addition, the socket 30b of the terminal connector 23b It is configured to be detachable from the housing 27b and detachable from the transmitter 22b. With such a configuration, it is possible to shorten the transmission tool 22b without cutting it as shown in the figure. The discharge lamp 21b can be turned on.

[0021]   In addition, the socket portion 30a of the other terminal connection tool 23a and each socket of the intermediate connection tool 24. The parts 33a and 33b also have a detachable structure like the socket part 30b of the terminal connector 23b. It is possible to

[0022]   The intermediate connector 24 is connected to the electrode pin 28b of the discharge lamp 21a at one end of the box-shaped housing 32. Socket part 33a to be continued, and two male parts to be inserted into the power transmission path 26a of the transmission tool 22a. It has a mold contact 33a and is connected to the electrode pin 29a of the discharge lamp 21b at the other end. Two male type contours that are inserted into the socket portion 33b and the power transmission path 26b of the transmission tool 22b. 34b, respectively. In addition, as shown in FIG. Inside the housing 32, two ballasts 35a and 35b equipped with a transformer are provided. The socket portion 33a (33b) and the male contact 34a (34b) are electrically connected via the ballast 35a (35b). Are electrically connected. For convenience of explanation, the socket portion of the intermediate connector 24, the male connector The contact and ballast have different numbers on both sides, but both No difference, so the intermediate fitting 24 can be used with both ends reversed. .

[0023]   Next, the electrical configuration of this embodiment will be described. As shown in FIG. 4, AC100 The V power is converted to high frequency 24V by the inverter power supply 11 ', and then the rail It is supplied to the terminal connection tool 23a via the outlet 12 'and the power supply cord 13'.

[0024]   The supplied 24V power is supplied to the ballast 32a and the male contact 31a, respectively. The power supplied to the male contact 31a is supplied to the power transmission path 26a of the transmitter 22a. Therefore, it is transmitted to the male contact 34a at one end of the intermediate connector 24. Furthermore, this biography The power sent is the two ballasts 35a, 35b of the intermediate connector 24 and the male contactor at the other end. Power supplied to the male contact 34b at the other end is Through the power transmission line of the transmitter 22b and the male contact 31b of the terminal connector 23b. , To the ballast 32b of the terminal fitting 23b.

[0025]   Each ballast 32a, 32b, 35a, 35 of the terminal connection 23a, 23b, and the intermediate connection 24 The 24V power supplied to b is, for example, 150-300V due to the transformer inside the ballast. The boosted electric power becomes the starting voltage, and the socket parts 30a, 33a (30 It is applied to both electrodes 28a, 28b (29a, 29b) of the discharge lamp 21a (21b) via a, 33b). Starting voltage After the discharge lamp 21a (21b) is lit by the discharge lamp 21a (21b), the voltage applied to the discharge lamp 21a (21b) is The voltage is quickly reduced to the rated voltage (for example, 100 V) by the regulators 32a, 35a (35b, 32b), As a result, the discharge lamp 21a (21b) shifts to stable lighting.

[0026]   For convenience of drawing, FIG. 4 shows the power transmission lines 26a and 26b and the male contact 31a. , 31b, 34a, 34b, and electrodes 28a, 28b, 29a, 29b of discharge lamps 21a, 21b, etc. Are shown on one side only, but these are Two are provided each.

[0027]   In the discharge lamp fixture of this embodiment, the power transmission paths of the respective transmission paths 22a and 22b are circular in cross section. And is covered by the bases 25a and 25b of the entire circumference of the insulator, When cutting the transmitters 22a and 22b to cut the length, the cutting is easy and Less burrs on the cross section. In addition, each power transmission line 26a, 26b is covered with an insulation coating. Since the human body is in contact with the power transmission paths 26a and 26b, which are in communication with electricity, It is also possible to prevent dust from adhering to the power transmission paths 26a and 26b. Wear.

[0028]   The connection between the power transmission lines 22a and 22b is performed by the intermediate connector 24. Therefore, the distance between the transmitters 22a and 22b can be significantly reduced, which allows It is possible to reduce the dark area between the lights 21a and 21b. In addition, the intermediate connection of this embodiment The tool 24 not only electrically connects the transmitters 22a and 22b but also mechanically. Therefore, it is possible to fix each transmitter with one touch.

[0029]   In this embodiment, two discharge lamps 21a and 21b are continuously lit. However, the present invention can be applied to a case where more discharge lamps are continuously lit. Wear. Further, in this embodiment, the power is first supplied to the terminal connector 23a. However, power can also be supplied to other fittings, for example intermediate fitting 24. It

[0030]   The two embodiments of the discharge lamp fixture according to the present invention have been described above. The discharge lamp device according to the present invention is not limited to the embodiment and can be variously modified. . For example, in each of the above embodiments, the discharge lamps are rapid start type discharge lamps. However, it is possible to change this to a slim line type discharge lamp or a normal fluorescent lamp. is there.

[0031]   In addition, in each of the above-described embodiments, the base of the transmitter is made of an insulator, and is made of a conductor. The power transmission line is made of an insulating material such as aluminum. It is also possible to use a conductor, in which case the entire circumference of the power transmission line is insulated and coated. The insulator may be formed between the base and the power transmission line.

[0032]   Also, the shape of the transmitter is not limited to the straight type, but it is also possible to make a curved shape. Also, the material of the power transmission path can be appropriately changed. Also, the cross section of the power transmission line The shape may be hollow, and is not limited to the circular shape as in the above embodiment, but may be a substantially C-shape or an ellipse. It is possible to change it to a circular shape.

[Submission date] October 9, 1991

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0022

[Correction method] Change

[Correction content]

[0022] The intermediate connector 24 is connected to the electrode pin 28b of the discharge lamp 21a at one end of the box-shaped housing 32. Socket part 33a to be continued, and two male parts to be inserted into the power transmission path 26a of the transmission tool 22a. It has a mold contact 34a and is connected to the electrode pin 29a of the discharge lamp 21b at the other end. Two male type contours that are inserted into the socket portion 33b and the power transmission path 26b of the transmission tool 22b. 34b, respectively. In addition, as shown in FIG. Inside the housing 32, two ballasts 35a and 35b equipped with a transformer are provided. The socket portion 33a (33b) and the male contact 34a (34b) are electrically connected via the ballast 35a (35b). Are electrically connected. For convenience of explanation, the socket portion of the intermediate connector 24, the male connector The contact and ballast have different numbers on both sides, but both No difference, so the intermediate fitting 24 can be used with both ends reversed. .

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] 0025

[Correction method] Change

[Correction content]

[0025] Each ballast 32a, 32b, 35a, 35 of the terminal connection 23a, 23b, and the intermediate connection 24 The 24V power supplied to b is, for example, 150-300V due to the transformer inside the ballast. The boosted electric power becomes the starting voltage, and the socket parts 30a, 33a (30 It is applied to both electrodes 28a, 28b (29a, 29b) of the discharge lamp 21a (21b) via b, 33b). Starting voltage After the discharge lamp 21a (21b) is lit by the discharge lamp 21a (21b), the voltage applied to the discharge lamp 21a (21b) is The voltage is quickly reduced to the rated voltage (for example, 100 V) by the regulators 32a, 35a (35b, 32b), As a result, the discharge lamp 21a (21b) shifts to stable lighting.

[Procedure 3]

[Document name to be amended] Statement

[Name of item to be corrected] 0027

[Correction method] Change

[Correction content]

[0027] In the discharge lamp fixture of this embodiment, the power transmission paths of the respective transmitters 22a and 22b are circular in cross section. And is covered by the bases 25a and 25b of the entire circumference of the insulator, When cutting the transmitters 22a and 22b to cut the length, the cutting is easy and Less burrs on the cross section. In addition, each power transmission line 26a, 26b is covered with an insulation coating. Since the human body is in contact with the power transmission paths 26a and 26b, which are in communication with electricity, It is also possible to prevent dust from adhering to the power transmission paths 26a and 26b. Wear.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0028

[Correction method] Change

[Correction content]

[0028] The connection between the power transmission lines 26a and 26b is made by the intermediate connector 24. Therefore, the distance between the transmitters 22a and 22b can be significantly reduced, which allows It is possible to reduce the dark area between the lights 21a and 21b. In addition, the intermediate connection of this embodiment The tool 24 not only electrically connects the transmitters 22a and 22b but also mechanically. Therefore, it is possible to fix each transmitter with one touch.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing a configuration of a main part of a discharge lamp fixture according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram showing an outline of an electrical overall configuration of the discharge lamp fixture.

FIG. 3 is an exploded perspective view showing a configuration of a main part of a discharge lamp fixture according to another embodiment of the present invention.

FIG. 4 is a schematic configuration diagram showing an outline of an electrical overall configuration of the discharge lamp fixture.

[Explanation of symbols]

1,21a, 21b discharge lamp 2,22a, 22b transmitter 3a, 3b, 23a, 23b Terminal connector 4,25a, 25b base 5,26a, 26b Power transmission line 8a, 8b, 30a, 30b, 33a, 33b Socket part 9a, 9b, 31a, 31b, 34a, 34b Male contact 11, 11 'power supply 24 Intermediate connection

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Creator Yuji Osawa             1438 Kagawa, Chigasaki, Kanagawa Prefecture (72) Inventor Shigetaro Furuta             3-12-15 Co, Chuorinkan, Yamato City, Kanagawa Prefecture             Topal Kobayashi 206

Claims (2)

[Scope of utility model registration request] 1. A discharge lamp fixture for supporting an elongated discharge lamp and transmitting the electric power supplied to one end of the discharge lamp to the other end to light the discharge lamp, wherein a base portion and an inside of the base portion of the base portion are provided. A transmission tool that includes a power transmission path that has a hollow cross section and that is formed of a conductor that is insulated and coated over the entire circumference and that extends over the entire length.
A male contact inserted into the power transmission path and a socket portion that is connected to the electrode of the discharge lamp and supports the discharge lamp are provided, and the electrode of the discharge lamp and the power transmission path are provided. A pair of end connectors that are fixed to and supported by the transmitter at both ends of the transmitter, and a power supply device that supplies electric power to one of the pair of end connectors. A discharge lamp device characterized in that 2. A discharge lamp for supporting a plurality of elongated discharge lamps arranged in a line and transmitting electric power supplied to any of the discharge lamps to the other discharge lamps to turn on the discharge lamps. In an electric light fixture, a plurality of linearly arranged bases and a power transmission line having a hollow cross section formed of a conductor having an insulating coating on the entire circumference, extending in the base over the entire length of the base. The transmission device, the front end of the transmission device arranged at the forefront of the line of transmission devices arranged in a line, and the rear end of the transmission device arranged at the end of the line are respectively fixed to the transmission device. An electrode of the discharge lamp and the electric power having a supported male contact inserted into the power transmission path and a socket portion connected to the electrode of the discharge lamp and supporting the discharge lamp. A pair of end connectors for establishing electrical continuity with the transmission line, and fitting in the power transmission line. And a socket portion connected to the electrode of the discharge lamp and supporting the discharge lamp, which are provided at both ends of the housing, and connect the electrode of the discharge lamp and the power transmission path. Power is supplied to any one of the end connector and the intermediate connector, which is electrically connected and is disposed between the transmitters and electrically connects the transmitters. A discharge lamp fixture comprising a power supply device.