JP5891395B2 - Packing for waterproof socket, waterproof socket and lighting device using the same - Google Patents

Description

  The present invention relates to a packing for a waterproof socket on which a tube-shaped lamp is mounted, and a waterproof socket and an illumination device using the same.

  2. Description of the Related Art Conventionally, lighting devices having lamp sockets to which fluorescent lamps are attached have been widely used as lighting devices in homes and various facilities. There is also a waterproof socket that has waterproofness in consideration of the use of the lamp socket outdoors and around the water.

  As this type of waterproof socket, as shown in FIGS. 8 and 9, a waterproof socket 75 to which a straight tube fluorescent lamp 77 can be attached is known (for example, Patent Document 1).

  The waterproof socket 75 includes a socket body 711 into which a lamp pin 77 b protruding from the base portion 77 a of the straight tube fluorescent lamp 77 is inserted. The waterproof socket 75 includes a second waterproof packing 715 and a tightening tube assembly 714 that covers the end of the straight fluorescent lamp 77 and is detachably attached to the socket body 711.

  Here, the tightening tube assembly 714 includes a tightening tube 717, a first waterproof packing 713, and a packing presser 719. Further, the socket body 711 is provided with a threaded portion 722 provided with a male screw portion 725 and a packing receiving portion 723 on the outer peripheral surface of a portion connected to the base portion 721, and has a front wall 724 that closes the front surface. ing. The outer peripheral surface portion of the screwing portion 722 uses a root portion 722a of the screwing portion 722 as a packing fitting portion. A second waterproof packing 715 is fitted to the root portion 722a. In addition, the screwing portion 722 is provided with a lamp pin passage groove 726 that is located on the distal end side of the socket body 711 and that crosses the male screw portion 725. The front wall 724 is formed with an inlet / outlet portion 727 a formed continuously with the lamp pin passage groove 726 and a forked lamp pin rotation groove 727. Note that mounting grooves 721a that are fitted to socket mounting bases (not shown) are provided on both side surfaces of the base portion 721.

  An inward edge portion 731 is formed in the opening of the tightening tube 717, and a female screw portion 732 that is screwed into the male screw portion 725 is formed on the rear inner peripheral surface of the tightening tube 717. A first waterproof packing 713 and a packing retainer 719 are accommodated in the fastening cylinder 717, respectively. The first waterproof packing 713 is sandwiched between the packing retainer 719 and the fastening cylinder 717. The packing presser 719 has a plurality of engaging projections 742 protruding rearward. The engaging convex part 742 is engaged with the engaging concave part 728 of the socket body 711 in an uneven manner. The packing presser 719 has an inward packing press flange 719a at its front end. A biting protrusion 719b is integrally projected on the front surface of the packing pressing flange 719a. Furthermore, a plurality of hooking projections 719 c are integrally projected outwardly at the rear end portion of the packing presser 719 in addition to the engaging convex portion 742. Each hooking projection 719c gets over the part of the female screw portion 732 and elastically deforms into the screw groove.

  The above-described waterproof socket 75 is said to be able to ensure waterproofness in close contact with the outer peripheral surface of the straight fluorescent lamp 77 by the deformation of the first waterproof packing 713 as the waterproof socket 75 is assembled.

JP 2001-52830 A

  Incidentally, in recent years, LED lamps using light-emitting diodes that have a longer life than fluorescent lamps and can reduce power consumption are becoming widespread. In addition, a straight tube LED lamp as an alternative light source of the straight tube fluorescent lamp and a direct tube LED lamp dedicated illumination device on which the straight tube LED lamp is mounted are being developed. The straight tube type LED lamp has a structure including two lamp pins protruding from the base portion on one end side of the arc tube which is a tube main body and one lamp pin protruding from the base portion on the other end side. A standard (JEL801: 2010) "Straight-tube LED lamp system with L-type pin cap GX16t-5 (for general lighting)" has been established by the Japan Light Bulb Industry Association.

  Therefore, a waterproof socket having a structure that requires waterproofing in consideration of use outdoors or in water is also desired for straight tube LED lamps as in the case of conventional straight tube fluorescent lamps.

  Here, unlike a straight tube fluorescent lamp, a straight tube LED lamp, which is a straight tube LED lamp with an L-shaped base that conforms to the above-mentioned standard, has a base portion that is more than the outer diameter of the arc tube in the straight tube LED lamp. Some have larger outer diameters.

  When the structure of the waterproof socket 75 in Patent Document 1 described above is applied to a waterproof socket to which a straight tube type LED lamp is mounted, the outer diameter of the base is larger than the outer diameter of the arc tube. It is necessary to bring the arc tube into close contact with the first waterproof packing 713 after passing through the portion. The waterproof socket 75 brings the first waterproof packing 713 into intimate contact with the arc tube whose outer diameter is smaller than the outer diameter of the base part, and therefore, compared with the waterproof socket 75 for the straight fluorescent lamp 77, the first waterproof packing 713. Need to be deformed more greatly. If the deformation amount of the first waterproof packing 713 is too large, the waterproof socket 75 causes unintended buckling before the first waterproof packing 713 comes into close contact with the arc tube of the straight tube LED lamp. Therefore, the waterproof socket 75 may cause the first waterproof packing 713 to escape from the opening of the fastening cylinder 717 to the outside of the waterproof socket 75. In this case, the waterproof socket 75 does not have sufficient adhesion to the straight tube LED lamp, and there is a problem that moisture easily enters the waterproof socket 75.

  This invention is made | formed in view of the said reason, The objective is to provide the waterproof socket packing which can improve waterproofness more, and a waterproof socket and illuminating device using the same.

The waterproof socket packing according to the present invention has a lamp pin protruding from a tube-shaped lamp cap portion inserted into an insertion port of the socket body, and the socket body and the cap portion of the lamp mounted on the socket body. Covers a fastening cover that is fastened to the socket body by screwing around the axis of the lamp, and moisture can be inserted between the lamp body that is inserted between the socket body and the fastening cover. The above-mentioned packing for waterproof sockets, which is provided with a packing that suppresses the intrusion of water, wherein the packing includes a first contact portion that contacts the socket body side and a second contact that contacts the tightening cover side. An outer diameter of the base part formed integrally with the first contact part side and the second contact part side between the contact part and the first contact part and the second contact part. Smaller outside diameter than Has a packing contact portion in close contact with the arc tube side of the upper Symbol lamps have, along the axial direction of the lamp, the packing contact the first from the abutting part and the packing adhesion portion from the second The outer periphery and the inner periphery of the contact portion are formed with curved surfaces that are convex outward, and the inner diameter of the packing contact portion in the packing opening through which the lamp is inserted is greater than the first contact portion. An inner diameter and an inner diameter of the second contact portion are increased , and at least one between the packing contact portion and the first contact portion or between the packing contact portion and the second contact portion. And a convex portion that contacts the lamp when the lamp is inserted and can be deformed in the insertion direction of the lamp on the packing opening side of the packing contact portion. especially Zheng Rukoto To.

  In this packing, along the axial direction, the outer diameter increases from the packing contact portion to the first contact portion and the packing contact portion to the second contact portion, and the radial thickness increases. It is preferable that

In this packing, along the axial direction, the inner diameter increases from the packing contact portion to the first contact portion and the packing contact portion to the second contact portion, and the radial thickness increases. it is preferable that the Te.

In this packing, it is preferable that the a first contact portion and the second contact portion is in the form of a symmetric through the packing contact portion.

The waterproof socket according to the present invention includes any one of the above-described packings.

  The illuminating device of this invention is equipped with one of the above-mentioned waterproof sockets.

  The packing for waterproof sockets of the present invention has a remarkable effect that it is possible to provide a packing for waterproof sockets that can further improve waterproofness.

  The prevention socket of the present invention has a remarkable effect that it can provide a waterproof socket that can further improve waterproofness.

  The illuminating device of the present invention has a remarkable effect that an illuminating device including a waterproof socket that can further improve waterproofness can be provided.

The waterproof socket using the packing for waterproof sockets of Embodiment 1 is shown, (a) is an exploded perspective view of a waterproof socket, (b) is a schematic perspective view which shows the use condition to which the straight tube | pipe type lamp was mounted | worn. The state before compression in the packing for waterproof sockets same as the above is shown, (a) is a side view, (b) is a sectional view, and (c) is a schematic perspective view. The state at the time of compression in the packing for waterproof sockets same as the above is shown, (a) is a side view, (b) is a sectional view, and (c) is a schematic perspective view. It is sectional explanatory drawing of the waterproof socket provided with the packing for waterproof sockets same as the above. It is a longitudinal cross-sectional view which shows the packing for another waterproof socket same as the above. The straight tube | pipe type lamp | ramp mounted to the waterproof socket using the gasket for waterproof sockets same as the above is shown, (a) is a front view, (b) is a 1st nozzle | cap | die part which is a nozzle | cap | die of one end side, and is a nozzle | cap | die of the other end side. It is side surface explanatory drawing which projected the lamp pin of the 2nd nozzle | cap | die part. It is a schematic block diagram which shows the illuminating device of Embodiment 2. It is a disassembled perspective view of the conventional waterproof socket. It is sectional drawing which shows the state which the assembly of the waterproof socket shown in FIG. 8 was completed.

(Embodiment 1)
The waterproof socket 10 and the waterproof socket 10 using the packing 4 according to this embodiment will be described with reference to FIGS. 1 to 5, and the straight tube lamp 20 will be described with reference to FIG. In addition, in each figure, the same number is attached | subjected with respect to the same component, and the overlapping description is abbreviate | omitted.

  First, a straight tube lamp 20 composed of a straight tube LED lamp with an L-shaped cap will be described as a tube-shaped lamp to be mounted on the waterproof socket 10. A straight tube lamp 20 shown in FIG. 6 includes an arc tube 21 which is a tube main body formed in a cylindrical straight tube from a light-transmitting material (for example, glass or synthetic resin). A base is provided at each end of the arc tube 21 in the axial direction. In the straight tube lamp 20, the outer diameter (eg, 30.0 mm) of the base is larger than the outer diameter (eg, 25.5 mm) of the arc tube 21. The straight tube lamp 20 mounted on the waterproof socket 10 is provided with a bottomed cylindrical first power supply base portion 22 as a base at one end portion so as to cover one end portion side of the arc tube 21. ing. Further, the straight tube lamp 20 is provided with a bottomed cylindrical grounding second cap portion 23 as a cap at the other end so as to cover the other end portion side of the arc tube 21 in the axial direction. Yes.

  Inside the arc tube 21, although not shown, a rectangular plate-shaped mounting substrate (for example, a ceramic substrate) having a slightly shorter overall length than the arc tube 21 is accommodated. A circuit pattern for mounting and electrically connecting a plurality of light emitting diodes (not shown) capable of emitting white light at a predetermined interval is formed on one surface side of the mounting substrate. In addition, on the other surface side of the mounting substrate, a C-shaped reflecting plate (not shown) whose side wall portion protruding from the bottom surface portion in contact with the other surface side reflects light from the light emitting diode in a predetermined direction. I have. The reflector is made of aluminum, and also functions as a heat sink that releases the heat of the light emitting diode to the outside from the other surface side of the mounting substrate through the bottom surface.

  The end face of the first base part 22 of the straight tube lamp 20 is provided with recesses 22b and 22b that are recessed substantially semicircularly on both sides of the central part in the radial direction of the first base part 22 in a side view. . The end face of the first base portion 22 of the straight tube lamp 20 is formed with a rectangular parallelepiped protruding portion 22a having a central portion protruding forward from the recessed portion 22b by the recessed portions 22b and 22b (see FIG. 6B). reference). The projecting portion 22 a is formed in a plate shape with a metal material at a symmetrical position across the central axis (not shown) of the cylindrical arc tube 21, and projects along the axial direction of the straight tube lamp 20. Two first lamp pins 24, 24 as power supply lamp pins to be supplied are provided substantially in parallel. Each of the first lamp pins 24 has a plate-like protrusion 24a protruding parallel to the axial direction of the straight tube lamp 20, and the tip of the plate-like protrusion 24a is bent at a substantially right angle, and is opposite to the direction toward the central axis. And a bent portion 24b protruding in the outer direction on the side.

  The two first lamp pins 24, 24 are electrically connected to the circuit pattern of the mounting substrate through lead wires (not shown) inside the arc tube 21, for example. Note that a circuit board (not shown) such as a full-wave rectifier for electrically protecting the light emitting diode is also mounted on the mounting substrate. The straight tube lamp 20 includes the first lamp pins 24 and 24 and each light emitting element so that a forward current flows through each light emitting diode regardless of which first lamp pin 24 or 24 is connected to the positive electrode side of the DC power supply. The diode is electrically connected through a full-wave rectifier. Accordingly, the two first lamp pins 24 and 24 function as terminals for supplying power to the light emitting diodes of the straight tube lamp 20.

In addition, although the light emitting diode accommodated in the straight tube lamp 20 is not illustrated, for example, when energized, an LED chip that emits blue light having a peak wavelength in the range of 420 nm to 490 nm; And a package body made of ceramic (for example, alumina or the like) provided on one surface with a storage recess for storing the LED chip. The storage recess absorbs part of the blue light emitted from the LED chip and emits a longer wavelength fluorescent light (for example, yellow light) (for example, Y ₃ Al ₅ O activated by Ce). ₁₂ , a translucent material containing an aluminate phosphor such as Tb ₃ Al ₅ O ₁₂ activated by Ce or a silicate phosphor such as Ba ₂ SiO ₄ activated by Eu. For example, a wavelength conversion member made of silicone resin, epoxy resin, acrylic resin, polycarbonate resin, glass or the like is embedded. Further, the light emitting diode is provided with an external connection electrode (not shown) on the other surface of the package body, and the external connection electrode and the circuit pattern of the mounting substrate are made of solder (not shown). ).

  The second base part 23 serving as a base on the other end side of the straight tube lamp 20 is one second lamp pin which is a grounding lamp pin protruding from the second base part 23 along the axial direction of the straight tube lamp 20. 25. The second lamp pin 25 includes a shaft portion 25a that protrudes from the center portion of the end face of the second base portion 23 along the axial direction of the straight tube lamp 20 and is formed in a round bar shape from a metal material. A large diameter portion 25b larger than the shaft diameter of the shaft portion 25a is provided at the tip of the shaft portion 25a. The large-diameter portion 25b is parallel to the direction in which the two first lamp pins 24, 24 projecting from the first base portion 22 of the straight tube lamp 20 are arranged in a shape viewed from the axial direction of the straight tube lamp 20. It has an oval shape in the longitudinal direction (see FIG. 6B). The large diameter portion 25b is not limited to an oval shape, and may be an oval shape. The large diameter portion 25b is made of a metal material and formed integrally with the shaft portion 25a.

  The second lamp pin 25 has a round bar-like shaft portion 25a projecting along the axial direction of the straight tube lamp 20 and a large-diameter portion 25b, and has a T-shape (FIG. 6A). )). The second lamp pin 25 is electrically connected to the circuit pattern of the mounting substrate to function as a ground pin for grounding. That is, the straight tube lamp 20 is a one-side power feeding method in which power is fed from the first base portion 22 on one end side.

  In the waterproof socket 10 shown in FIG. 1 in which the first base portion 22 of the straight tube lamp 20 can be mounted, the first lamp pins 24, 24 protruding from the first base portion 22 of the straight tube lamp 20 have socket bodies. 1 is inserted into the insertion slot 1e. The waterproof socket 10 mounts the straight tube lamp 20 by rotating the straight tube lamp 20 around the axis of the straight tube lamp 20. The waterproof socket 10 includes a socket body 1 and a tightening cover 6 that covers the first base portion 22 of the straight tube lamp 20 attached to the socket body 1 and is fastened to the socket body 1 by screwing around the axis. Yes. Further, the waterproof socket 10 allows the straight tube lamp 20 to be inserted, and suppresses moisture from entering between the socket body 1 and the fastening cover 6 and between the straight tube lamp 20 inserted. A packing 4 is provided.

  Here, the packing 4 has a first contact portion 4b that contacts the socket body 1 side and a second contact portion 4d that contacts the tightening cover 6 side. The packing 4 is formed between the first abutting portion 4b and the second abutting portion 4d so as to be integrally formed with the first abutting portion 4b side and the second abutting portion 4d side. The packing contact portion 4c is in close contact with the arc tube 21 side. In the packing 4, the outer periphery from the packing contact portion 4 c to the first contact portion 4 b and from the packing contact portion 4 c to the second contact portion 4 d is convex outward along the axial direction of the straight tube lamp 20. It is formed with a curved surface. Further, the packing 4 has a first contact portion along the axial direction of the straight tube lamp 20 from the inner diameter of the packing contact portion 4c in the packing opening 4a through which the first base portion 22 of the straight tube lamp 20 is inserted. The inner diameter of 4b and the inner diameter of the second contact part 4d are increased.

  More specifically, the socket main body 1 in the waterproof socket 10 using the packing 4 of the present embodiment excludes a body portion 1c having an opening 1ca and a hollow inside, and a peripheral portion of the opening 1ca of the body portion 1c. And a rotor 1i that is rotatable with respect to the covering body portion 1c. The socket body 1 is housed in a cavity surrounded by the body portion 1c and the rotor 1i, and can be electrically connected individually to the two first lamp pins 24, 24 of the straight tube lamp 20. A pair of conductive portions 1h, 1h, which are conductive plates for power feeding, are provided.

  Moreover, the socket main body 1 is provided with the base base 1a for attaching to the instrument side which is not shown in figure via the support part 1b in the body part 1c. The body portion 1c is formed in a bottomed cylindrical shape from a synthetic resin. The rotor 1i is made of synthetic resin and has receiving surfaces 1ia and 1ia with which the concave portion 22b of the first base portion 22 of the straight tube lamp 20 can abut. Here, the outer peripheral wall 1d of the body portion 1c is provided with one insertion port 1e for inserting the two first lamp pins 24, 24 protruding from the first base portion 22 of the straight tube lamp 20. Yes. The rotor 1i includes a linear groove 1kb for inserting the first lamp pins 24, 24 into the socket body 1 along the radial direction of the rotor 1i from the outer peripheral side of the rotor 1i. . Since the rotor 1i is rotatably engaged with a pair of opposing semi-cylindrical protrusions 1j protruding from the central part of the inner bottom surface of the body part 1c, the rotor 1i protrudes toward the body part 1c and is outside the protrusion 1j. A cylindrical protrusion 1k having an inner diameter larger than the diameter is provided. Further, the protrusion 1k of the rotor 1i is provided with an engaging claw portion 1ka for inserting into and engaging with an insertion recess 1ja provided in the protruding portion 1j (see FIG. 4). In other words, the rotor 1i can be aligned with the position of the linear groove 1kb and the insertion port 1e on the outer peripheral wall 1d side by rotation. In addition, the body part 1c and the rotor 1i ensure insulation by forming it using an electrically insulating synthetic resin.

  The pair of conductive portions 1h and 1h are formed by bending a plate-shaped body made of a metal material (for example, a copper alloy) having good conductivity. The pair of conductive portions 1h and 1h are disposed inside the body portion 1c via the protruding portion 1j. Each conductive portion 1h may be formed in the same shape or different shapes. Here, the conductive portion 1h is fixed using an inner wall portion 1m provided inside the body portion 1c.

  Each conductive portion 1h includes a contact piece 1ha that contacts the first lamp pin 24 of the straight tube lamp 20 at the center. Each conductive portion 1h includes a guide piece 1hb that is bent from the contact piece 1ha so as to be wider than the width between the pair of contact pieces 1ha, 1ha at one end of the contact piece 1ha. Each conductive portion 1h includes a base piece 1hc at the other end opposite to the guide piece 1hb via the contact piece 1ha.

  The waterproof socket 10 to which the straight tube lamp 20 is attached has the conductive portion 1h disposed in the body portion 1c in a state where the recess 22b of the straight tube lamp 20 is in contact with the receiving surface 1ia of the rotor 1i. The contact piece 1ha contacts the first lamp pin 24 of the straight tube lamp 20. Here, when the straight tube lamp 20 is mounted on the waterproof socket 10, the plate-like protruding portions 24a of the first lamp pins 24 are elastically contacted with the contact pieces 1ha of the conductive portions 1h, respectively, and the first lamp pins 24 are waterproof. It is held on the socket 10 side. The waterproof socket 10 is configured so that the straight tube lamp 20 is rotated about the axis of the straight tube lamp 20 after the first lamp pin 24 is inserted along the linear groove 1kb from the insertion port 1e. The positions of the insertion port 1e of the part 1c and the linear groove part 1kb of the rotor 1i are shifted. As a result, in the straight tube lamp 20, the plate-like protruding portion 24a of the first lamp pin 24 is held by the contact piece 1ha of the conductive portion 1h, and it is prevented from coming out of the waterproof socket 10.

  Further, the socket body 1 includes a plurality (two in this case) of through holes (not shown) that penetrate from the base base 1a side to the body portion 1c side through the support portion 1b. The through holes of the base base 1a are insertion holes for electric wires (not shown) that can be electrically connected to the pair of conductive portions 1h and 1h, respectively. The conductive portion 1h may be configured to include a quick connection terminal (not shown) so that the electric wire inserted into the through hole can be electrically and easily connected. In addition, the base base 1a of the socket body 1 is suitably provided with mounting grooves 1aa for fitting the waterproof socket 10 on both sides of the base base 1a with the instrument side for mounting.

  Further, the socket body 1 is provided with a male screw portion 1f on the outer peripheral surface of the outer peripheral wall 1d of the body portion 1c. Here, the waterproof socket 10 covers the first base portion 22 of the straight tube lamp 20 attached to the socket body 1, and the fastening cover 6 is fastened to the socket body 1 by screwing with the male screw portion 1 f of the body portion 1 c. It has.

  In the waterproof socket 10 using the packing 4 of the present embodiment, as shown in FIG. 1A, the socket body 1 side to the fastening cover 6 side between the body portion 1 c of the socket body 1 and the fastening cover 6. In order to prevent moisture from entering between the annular socket packing 2, the cylindrical first inner cylinder portion 3 that is brought into contact with the socket body 1, and the straight tube lamp 20 that is inserted therethrough. A packing 4 and an annular second inner cylinder portion 5 that houses the packing 4 and presses the packing 4 toward the first inner cylinder portion 3 by tightening the tightening cover 6 are provided.

  The fastening cover 6 is formed in a cylindrical shape from a synthetic resin. The cylindrical fastening cover 6 has an inner diameter slightly larger than the outer diameter of the first base part 22 so that the first base part 22 of the straight tube lamp 20 can be inserted into the cover opening 6a. Yes. The tightening cover 6 has a female screw portion 6c that is screwed into the male screw portion 1f on the inner peripheral surface of the tightening cover 6 (see FIG. 4). The tightening cover 6 is rotated around the axis of the straight tube lamp 20 and the first cap portion of the straight tube lamp 20 attached to the socket body 1 by screwing the female screw portion 6c and the male screw portion 1f. The outer peripheral surface of the cover 22 is removably attached to the socket body 1. The fastening cover 6 presses the packing 4 toward the first inner cylinder part 3 through the second inner cylinder part 5. The fastening cover 6 includes the second inner cylinder part 5, the packing 4, and the first inner cylinder so that the packing 4 can be compressed between the second inner cylinder part 5 and the first inner cylinder part 3 that supports the packing 4. Part 3 is accommodated.

  The second inner cylinder portion 5 includes a second inner cylinder main body portion 5b on the body portion 1c side and a flange portion 5d protruding from the end portion of the second inner cylinder main body portion 5b. The second inner cylinder portion 5 has an inner diameter slightly larger than the outer diameter of the first cap portion 22 and smaller than the cover opening 6a so that the first cap portion 22 of the straight tube lamp 20 can be inserted. A second inner cylinder opening 5a is provided.

  The packing 4 accommodated in the 2nd inner cylinder part 5 is arrange | positioned between the 2nd inner cylinder part 5 formed with the synthetic resin, and the 1st inner cylinder part 3 formed with the synthetic resin (refer FIG. 4). . The packing 4 is formed using an elastic material. The packing 4 includes an annular first contact portion 4b that contacts the first inner tube portion 3 on the socket body 1 side, and a flange portion 5d of the second inner tube portion 5 on the tightening cover 6 side. And an annular second contact portion 4d to be brought into contact with. Further, the packing 4 is formed integrally with the first contact portion 4b side and the second contact portion 4d side between the first contact portion 4b and the second contact portion 4d, and is a straight tube lamp 20. The packing contact portion 4c that is in close contact with the arc tube 21 is provided.

  In the packing 4, the outer periphery from the packing contact portion 4 c to the first contact portion 4 b and from the packing contact portion 4 c to the second contact portion 4 d is convex outward along the axial direction of the straight tube lamp 20. (See FIG. 2). Further, in the packing 4, the inner diameter of the first contact portion 4b and the inner diameter of the second contact portion 4d are made larger than the inner diameter of the packing contact portion 4c in the packing opening 4a through which the straight tube lamp 20 is inserted.

  Further, the packing 4 has a larger outer diameter along the axial direction of the straight tube lamp 20 from the packing contact portion 4c toward the first contact portion 4b and from the packing contact portion 4c toward the second contact portion 4d, and The thickness in the radial direction is increased. The packing 4 has an inner diameter that increases from the packing contact portion 4c toward the first contact portion 4b and from the packing contact portion 4c toward the second contact portion 4d along the axial direction of the straight tube lamp 20. The wall thickness in the direction is increased.

  Thereby, when the packing 4 is pressed so that the 1st contact part 4b of the packing 4 and the 2nd contact part 4d of the packing 4 may approach (refer FIG. 3), it will buckle in the site | part which is not intended. It is possible to suppress and make close contact with the straight tube lamp 20 side to be inserted. Further, when the packing 4 is pressed so that the first contact portion 4b and the second contact portion 4d approach each other (see FIG. 3), the displacement of the packing 4 to reduce the inner diameter of the packing opening 4a. The amount can be increased.

  Here, in the packing 4 of the present embodiment, the convex portion 4e that comes into contact with the straight tube lamp 20 when the straight tube lamp 20 is inserted and is deformable in the insertion direction of the straight tube lamp 20 is replaced with the packing in the packing contact portion 4c. It is provided on the opening 4a side. When the packing 4 is pressed so that the first contact portion 4b and the second contact portion 4d approach each other (see FIG. 3), the straight tube lamp 20 side to be inserted and the convex portion 4e are in close contact with each other. It will be. Here, even if the packing 4 comes into contact with the straight tube lamp 20 when the straight tube lamp 20 is inserted and slightly interferes with the first cap portion 22, the convex portion 4e is deformed in the insertion direction of the straight tube lamp 20. . Thereby, the packing 4 can insert the straight tube lamp 20 without applying an excessive load to the packing 4 itself or the straight tube lamp 20.

  Further, the packing 4 can make the inner diameter of the packing opening 4 a slightly smaller than the outer diameter of the first base portion 22. When the packing 4 is pressed so that the first contact portion 4b and the second contact portion 4d approach each other (see FIG. 3), the deformation of the packing 4 due to the pressing is reduced, and the packing 4 is buckled. It becomes possible to suppress more.

  Moreover, the packing 4 of this embodiment is provided with the thin part 4f from which the thickness of radial direction becomes the thinnest between the packing contact part 4c and the 1st contact part 4b contacted with the 1st inner cylinder part 3. ing. Similarly, the packing 4 of the present embodiment has a thinned portion 4f where the radial thickness is the smallest between the packing contact portion 4c and the second contact portion 4d that contacts the second inner cylinder portion 5. It has. Therefore, when the packing 4 is pressed so that the first contact portion 4b and the second contact portion 4d approach each other (see FIG. 3), the packing 4 is further suppressed from buckling at an unintended portion and inserted. It becomes possible to make the straight tube | pipe lamp 20 side and the convex part 4e contact | adhere. Further, when the packing 4 is pressed so that the first contact portion 4b and the second contact portion 4d approach each other (see FIG. 3), the displacement of the packing 4 to reduce the inner diameter of the packing opening 4a. The amount can be made larger.

  The packing 4 is configured such that the first contact portion 4b side and the second contact portion 4d side are symmetrical with respect to the packing contact portion 4c. Thereby, when assembling the waterproof socket 10, the waterproof socket 10 can replace the arrangement of the first contact portion 4b and the second contact portion 4d in FIG. Therefore, the waterproof socket 10 can improve workability when the waterproof socket 10 is assembled.

  Further, as shown in FIG. 5, the packing 4 has a packing contact portion 4c and a first contact portion 4b, and a packing contact portion 4c and a second contact portion, as compared with the packing 4 shown in FIG. The thickness between 4d may be made thick and the radial thickness may be made substantially uniform.

  By increasing the thickness of the packing 4, compared to the packing 4 shown in FIG. 4, wrinkles can be made less likely to occur, and the waterproofness of the waterproof socket 10 can be further increased.

  Next, when the tightening cover 6 and the body part 1c are screwed together, the first inner cylinder part 3 comes into contact with the first contact part 4b of the packing 4 and supports the packing 4 on the body part 1c side. be able to. The first inner cylinder part 3 has an inner diameter slightly larger than the outer diameter of the first base part 22 so that the first base part 22 of the straight tube lamp 20 can be inserted into the first inner cylinder opening 3a. The cylindrical first inner cylinder main body 3b is formed.

  In the cross-sectional view shown in FIG. 4, the waterproof socket 10 has a first inner cylinder portion 3, a second inner tube portion 2, and a second inner portion in a space surrounded by the fastening cover 6 and the body portion 1 c screwed with the fastening cover 6. Between the inner cylinder part 5, the packing 4 which closely_contact | adheres with the straight tube | pipe lamp 20 inserted is arrange | positioned.

  The tightening cover 6 is tightened so that the flange portion 5d of the second inner cylinder portion 5 presses the second contact portion 4d of the packing 4 by screwing with the body portion 1c side. As a result, the inner diameter of the packing opening 4a of the packing 4 is reduced from 29 mm to 23.5 mm, for example, and the packing contact portion 4c and the arc tube 21 of the straight tube lamp 20 are in close contact with each other. Here, the second inner cylinder portion 5 is formed of a synthetic resin material having low adhesiveness and a low friction coefficient as compared with the material of the packing 4. Similarly, the first inner cylinder portion 3 is made of a synthetic resin material having low adhesiveness and a low friction coefficient as compared with the material of the packing 4. The tightening cover 6 includes a non-slip portion 6d used to prevent slipping around the shaft on the outer peripheral surface of the tightening cover 6 in order to facilitate screwing with the body portion 1c. For example, the anti-slip portion 6d may be formed by providing a plurality of protrusions provided along the axial direction on the outer peripheral surface of the fastening cover 6 around the axis.

  When the waterproof cover 10 is tightened by rotating the tightening cover 6 around the axis with respect to the body portion 1c, the straight tube lamp is compared with the structure of the waterproof socket in which the tightening cover 6 and the packing 4 are in direct contact. The fastening cover 6 can be easily rotated with respect to the body portion 1c while maintaining the adhesion between the packing 20 and the packing 4.

  Further, in order to prevent the straight tube lamp 20 from rotating together with the tightening cover 6 along with the rotation of the tightening cover 6, the first inner tube portion 3 is provided with an end portion of the first inner tube main body portion 3 b. A sawtooth-shaped rotation restricting portion 3d that protrudes toward the body portion 1c is provided. That is, the first inner cylinder portion 3 includes a plurality of rotation restricting portions 3 d that restrict rotation around the axis of the straight tube lamp 20. The socket body 1 has a sawtooth-shaped body rotation restricting portion 1g that protrudes from the inner wall surface of the outer peripheral wall 1d of the body portion 1c and engages with the rotation restricting portion 3d of the first inner cylinder portion 3. Yes. Thereby, the main body rotation restricting portion 1g enables the first inner cylinder portion 3 to rotate in one direction around the axis of the straight tube lamp 20, and the first inner cylinder in the other direction opposite to the one. The rotation of the part 3 is restricted.

  In the waterproof socket 10, when the straight tube lamp 20 is mounted, the sawtooth rotation restricting portion 3d of the first inner cylinder portion 3 and the sawtooth main body rotation restricting portion 1g of the body portion 1c are engaged. Since the waterproof socket 10 has a sawtooth shape in which the rotation restricting portion 3d and the main body rotation restricting portion 1g engage with each other, the rotation of the first inner cylinder portion 3 in the direction in which the tightening cover 6 is tightened is restricted. It becomes possible. Further, the waterproof socket 10 can easily disengage the rotation restricting portion 3d from the main body rotation restricting portion 1g when the fastening cover 6 is removed from the socket body 1 side.

  The rotation restricting portion 3d and the main body rotation restricting portion 1g only have to engage with each other to restrict the rotation of the first inner cylinder portion 3. Therefore, the main body rotation restricting portion 1g is not necessarily limited to the sawtooth shape but may be, for example, a convex shape. In this case, the rotation restricting portion 3d may have a concave shape that engages with the convex shape of the main body rotation restricting portion 1g.

  Further, the first inner cylinder portion 3 includes a plurality of first position restricting portions 3 c for restricting the straight tube lamp 20 from rotating together with the rotation of the fastening cover 6. The 1st position control part 3c is formed in the rectangular parallelepiped shape which protrudes outside along the axial direction of the straight tube | pipe lamp 20 as a convex part. Further, the waterproof socket 10 is provided with a protruding portion 3 ca on the outer peripheral surface of the first inner cylinder portion 3.

  Here, the fastening cover 6 of the waterproof socket 10 includes a female screw portion 6 c that is screwed into the socket body 1 on the inner peripheral surface of the fastening cover 6. The female screw part 6 c is provided with an insertion part (not shown) in the axial direction of the straight tube lamp 20. The first inner cylinder portion 3 includes a protruding portion 3ca that protrudes outward from the first position restricting portion 3c provided on the outer peripheral surface of the first inner cylinder portion 3. Here, the insertion portion can insert the protruding portion 3 ca in the axial direction of the straight tube lamp 20. In addition, the waterproof socket 10 allows the protruding portion 3ca and the female screw portion 6c to be locked at a position where the protruding portion 3ca inserted through the insertion portion is displaced from the insertion portion about the axis of the straight tube lamp 20. It is said.

  In the waterproof socket 10, when the insertion portion and the projection portion 3 ca are shifted around the axis of the straight tube lamp 20 through the projection portion 3 ca through the insertion portion, the tightening cover 6 and the first inner cylinder portion 3 are easy. It can be hard to come off. Therefore, the waterproof socket 10 incorporates the first inner cylinder part 3 in the fastening cover 6 while holding the packing 4 and the second inner cylinder part 5 between the fastening cover 6 and the first inner cylinder part 3. It becomes possible. As a result, the waterproof socket 10 using the packing 4 of the present embodiment can be easily tightened to the socket body 1 of the tightening cover 6 and can be easily waterproofed by mounting the straight tube lamp 20. .

  The insertion portion of the waterproof socket 10 may be a groove-shaped insertion portion through which the protruding portion 3ca is inserted in the axial direction of the straight tube lamp 20 with a constant width, or as the distance from the socket body 1 side increases. The width of the insertion portion may be narrowed. The insertion portion with the width of the insertion portion narrowed away from the socket body 1 side allows easy insertion of the protruding portion 3ca, making it possible to make it more difficult to remove the first inner cylinder portion 3 with respect to the tightening cover 6. Become.

  Further, the waterproof socket 10 may be provided with an interval between the plurality of insertion portions and an interval between the plurality of protruding portions 3ca at equal intervals around the axis of the straight tube lamp 20. The waterproof socket 10 may be configured such that the interval between the insertion portions and the interval between the protruding portions 3ca are different around the axis of the straight tube lamp 20. The waterproof socket 10 in which the interval between the insertion portions is different can make the first inner cylinder portion 3 more difficult to be detached from the tightening cover 6.

  The second inner cylinder part 5 is configured such that the second inner cylinder part 5 is movable in the axial direction of the straight tube lamp 20 with respect to the first inner cylinder part 3. Further, the second inner cylinder portion 5 is engaged with a plurality of first position restricting portions 3 c provided in the first inner cylinder portion 3, and the second inner cylinder portion around the axis of the straight tube lamp 20 is engaged. The rotation of 5 is restricted. Therefore, the second inner cylinder part 5 is a second position restriction part 5c which is a notch part cut out from the end part of the second inner cylinder main body part 5b on the body part 1c side along the axial direction of the straight tube lamp 20. Are provided along the outer periphery of the second inner cylinder portion 5.

  Accordingly, when the waterproof socket 10 is tightened by rotating the tightening cover 6 around the axis with respect to the body portion 1c, the waterproof cover 10 is restricted from rotating together with the straight tube lamp 20, and the tightening cover 6 is secured to the body portion 1c. Can be screwed together.

  The 1st position control part 3c is comprised not only by the structure which is comprised by the convex part as mentioned above, and uses the 2nd position control part 5c as a notch part. Therefore, one of the first position restricting portion 3c and the second position restricting portion 5c is a convex portion having a convex shape, and the other is engaged with a notch portion or a convex portion engaging with the convex portion. The groove part used as the groove | channel to do may be sufficient.

  The waterproof socket 10 is not necessarily provided with the socket packing 2, the first inner cylinder part 3, and the second inner cylinder part 5 as long as the packing 4 of the present embodiment can be in close contact with the straight tube lamp 20 and waterproofed. There is no. In this case, the waterproof socket 10 may be configured to include an annular projecting portion that projects from the body portion 1c in order to support the packing 4, for example.

  In addition, the waterproof socket to which the second cap portion 23 side of the straight tube lamp 20 is attached is not shown, but the outer shape is substantially the same as that of the waterproof socket 10 to which the first cap portion 22 side of the straight tube lamp 20 is mounted. Same shape. The waterproof socket to which the second cap portion 23 side of the straight tube lamp 20 is attached has a receiving surface with which the second cap portion 23 of the straight tube lamp 20 can come into contact with the socket body. The waterproof socket can be configured to include a groove portion in which the second lamp pin 25 of the straight tube lamp 20 is inserted into the receiving surface and the shaft portion 25a can be rotatably held around the axis of the straight tube lamp 20. . The waterproof socket is provided with a linear groove portion that is provided along the center portion side of the socket main body from the outer peripheral wall side that is the outer peripheral wall of the socket main body, and that can rotatably hold the shaft portion 25a around the axis of the straight tube lamp 20. It is good also as a structure provided. Here, the linear groove portion forms an insertion port for inserting the second lamp pin 25 protruding from the second base portion 23 of the straight tube lamp 20 on the outer peripheral wall side of the outer peripheral wall of the socket body. In addition, the waterproof socket 10 includes a second conductive plate serving as a grounding conductive plate that constitutes a conductive portion that can be electrically connected to one second lamp pin 25 protruding from the second base portion 23. Yes. The second conductive plate can function as a grounding ground terminal by being electrically connected to the second lamp pin 25 serving as a grounding ground pin. Note that the second conductive plate may be configured not only to be electrically connected to the outside of the waterproof socket for grounding but also to simply hold the second lamp pin 25. Further, the waterproof socket to which the second cap portion 23 side of the straight tube lamp 20 is attached is a straight tube shape, similarly to the structure of the waterproof socket 10 to which the first cap portion 22 side of the straight tube lamp 20 is mounted. The second base part 23 that is the base part of the lamp 20 is covered, and is arranged in order from the socket body side to the fastening cover side between the socket body and the fastening cover by screwing around the axis of the straight tube lamp 20. A first inner cylinder part, a packing, and a second inner cylinder part are provided. Furthermore, the socket main body of the waterproof socket to which the second base portion 23 of the straight tube lamp 20 is attached has a main body rotation restricting portion that engages with the rotation restricting portion. The second inner cylinder portion is engaged with the first position restricting portion provided in the first inner cylinder portion so that the second inner cylinder portion is movable in the axial direction of the straight tube lamp 20 with respect to the first inner cylinder portion. A second position restricting portion that restricts the rotation of the combined straight tube lamp 20 in the rotation direction is provided.

  Here, the packing includes a first contact portion that contacts the socket main body side and a second contact portion that contacts the tightening cover side. Further, the packing is formed between the first contact portion and the second contact portion so as to be integrated with the first contact portion side and the second contact portion side, and the arc tube 21 side of the straight tube lamp 20. And a packing contact portion that is in close contact with each other. The packing is formed in a curved surface along the axial direction of the straight tube lamp 20 so that the outer periphery from the packing contact portion to the first contact portion and from the packing contact portion to the second contact portion is convex outward. ing. Further, the packing has an inner diameter of the first abutting portion and an inner diameter of the packing contact portion in the packing opening through which the second cap portion 23 of the straight tube lamp 20 is inserted along the axial direction of the straight tube lamp 20. The inner diameter of the second contact portion is increased.

  That is, the waterproof socket to which the second cap portion 23 side of the straight tube lamp 20 is attached includes the waterproof socket 10 to which the first cap portion 22 side of the straight tube lamp 20 is attached and the second cap of the straight tube lamp 20. The structure is the same except that the portion 23 side is mounted.

  Next, a method for providing a waterproof structure by attaching the straight tube lamp 20 to the waterproof socket 10 using the packing 4 of the present embodiment will be described.

  When the straight tube lamp 20 is attached to the waterproof socket 10, the socket packing opening 2 a of the socket packing 2, the first inner cylinder opening 3 a of the first inner cylinder 3, and the packing opening 4 a of the packing 4 are previously stored. The straight tube lamp 20 is inserted through the second inner cylinder opening 5 a of the second inner cylinder 5 and the cover opening 6 a of the fastening cover 6. Next, in the waterproof socket 10, the first base portion 22 of the straight tube lamp 20 is attached to the receiving surface 1 ia side of the waterproof socket 10, and the second base portion 23 of the straight tube lamp 20 is attached to the second base portion 23. The straight tube lamp 20 is brought close to the waterproof socket 10 on the receiving surface side of the waterproof socket. Then, on the first cap portion 22 side of the straight tube lamp 20, a pair of first lamp pins 24 and 24 are inserted into the insertion port 1 e of the waterproof socket 10. Similarly, on the second cap portion 23 side of the straight tube lamp 20, the second lamp pin 25 is inserted into the second insertion port of the second receiving surface of the waterproof socket for the second cap portion 23. Thereafter, the straight tube lamp 20 is attached to the waterproof socket 10 by rotating around the axis of the straight tube lamp 20 with respect to the waterproof socket 10.

  Thereby, the 1st lamp pin 24 is inserted in the inside of the socket main body 1 from the insertion port 1e, rotates the rotor 1i, and is fitted with the contact piece 1ha of the electroconductive part 1h.

  As the plate-like protruding portion 24a of the first lamp pin 24 is inserted into the insertion port 1e, the contact piece 1ha of the conductive portion 1h is bent outward, and then the plate-like protrusion is caused by the elastic force of the contact piece 1ha. The portion 24a is held in contact with the contact piece 1ha.

  In the waterproof socket 10, the contact pieces 1ha, 1ha of the pair of conductive portions 1h, 1h are electrically connected to the two first lamp pins 24, 24 of the straight tube lamp 20 separately from each other, and the straight tube lamp 20 is held mechanically.

  In this state, the straight tube lamp 20 defines the positional relationship between the mounting board and the first lamp pins 24 and 24 and the second lamp pin 25 so that the light emitting diode inside the light emitting tube 21 faces the predetermined irradiation surface side. ing. At this time, the two first lamp pins 24, 24 are electrically connected to the two conductive portions 1 h, 1 h disposed inside the body portion 1 c of the waterproof socket 10, respectively. Thereby, the waterproof socket 10 supplies a direct current from the waterproof socket 10 side to the light emitting diode of the straight tube lamp 20 through the two conductive portions 1h and 1h arranged inside the body portion 1c. Is possible. In addition, the large diameter portion 25b of one second lamp pin 25 of the straight tube lamp 20 becomes an earth pin for grounding by being electrically connected to the second conductive plate. That is, the waterproof socket for the second cap part 23 can hold the straight tube lamp 20 on the second cap part 23 side and connect the straight tube lamp 20 to the ground.

  Next, the socket packing 2, the first inner cylinder part 3, the packing 4, the second inner cylinder part 5, and the fastening cover 6 inserted through the straight tube lamp 20 are moved to the socket body 1 side. The socket packing 2 brings the outer periphery of the socket packing 2 into contact with the first inner cylinder opening 3 a of the first inner cylinder 3. Here, the first inner cylinder part 3 engages the rotation restricting part 3 d provided in the first inner cylinder part 3 with the main body rotation restricting part 1 g of the socket body 1. Further, the packing 4 brings the end of the first inner cylinder main body 3b of the first inner cylinder 3 into contact with the second contact part 4d. The second inner cylinder portion 5 covers and accommodates the packing 4. The tightening cover 6 covers the second inner cylinder portion 5. Here, in the second inner cylinder portion 5, the second position restriction portion 5 c that is a notch portion is inserted into the first position restriction portion 3 c that is a convex portion of the first inner cylinder portion 3. In this state, the waterproof socket 10 is configured such that the fastening cover 6 that covers the socket packing 2, the first inner cylindrical portion 3, the packing 4, and the second inner cylindrical portion 5 through which the straight tube lamp 20 is inserted is attached to the socket body 1 side. Screwed together. In this state, the straight tube lamp 20 is mounted so that the light emitting diode faces the predetermined irradiation surface side.

  In the waterproof socket 10, since the main body rotation restricting portion 1 g of the socket main body 1 and the rotation restricting portion 3 d of the first inner cylindrical portion 3 are engaged, the first inner cylindrical portion 3 is directly connected to the socket main body 1. Rotation around the axis of the tube lamp 20 can be restricted. Further, the first inner cylinder portion 3 and the second inner cylinder portion 5 of the waterproof socket 10 are engaged with the first position restricting portion 3c and the second position restricting portion 5c. However, the second inner cylinder portion 5 and the first inner cylinder portion 3 can be restricted from rotating around the axis of the straight tube lamp 20 with respect to the socket body 1.

  Accordingly, in the waterproof socket 10 using the packing 4 of the present embodiment, the co-rotation of the straight tube lamp 20 with the rotation of the tightening cover 6 is restricted, and the insertion direction of the straight tube lamp 20 with respect to the waterproof socket 10 is constant. The straight tube lamp 20 can be mounted in a state determined in the direction. That is, the waterproof socket 10 of this embodiment can suppress unintended rotation of the straight tube lamp 20.

  Further, in the waterproof socket 10, the fastening cover 6 is screwed into the socket body 1 side, whereby the first contact portion 4 b and the second contact portion 4 d of the packing 4 are pressed so as to approach each other. In the waterproof socket 10 using the packing 4 of the present embodiment, the packing 4 is prevented from causing unintentional buckling in the axial direction of the straight tube lamp 20, thereby suppressing the deterioration of waterproofness. Is possible.

  In addition, the waterproof socket 10 with improved waterproofness not only suppresses moisture from entering the waterproof socket 10, but also increases dust resistance to prevent dust and soot from entering.

  In addition, the waterproof socket 10 using the packing 4 of the present embodiment has been described using a straight tube type LED lamp with an L-shaped mouthpiece of a single-side power supply type as the straight tube lamp 20, but a straight tube lamp of a double-sided power supply method. It may be used for attaching. That is, the waterproof socket 10 is not only a one-side power feeding method in which power is fed only on the one surface 5a side of the socket main body 1 that is in contact with the first base portion 22 on one end side of the straight tube lamp 20, but also a straight tube type of both-side power feeding method. In order to mount the lamp, the waterproof socket 10 that comes into contact with the first base portion 22 on one end side of the straight tube lamp 20 and the waterproof socket 10 that comes into contact with the second base portion 23 on the other end side of the straight tube lamp 20. It is good also as a structure which can be fed from.

(Embodiment 2)
Below, the illuminating device 30 provided with the waterproof socket 10 demonstrated in Embodiment 1 is demonstrated with reference to the schematic block diagram of FIG.

  The illuminating device 30 according to the present embodiment includes a rectangular parallelepiped luminaire 31 to which the straight tube lamp 20 can be attached. The luminaire 31 includes a waterproof socket 10 using the packing 4 of the first embodiment shown in FIG. 1 for contacting and powering the first base portion 22 on one end side of the straight tube lamp 20. The lighting fixture 31 is in contact with the second base portion 23 on the other end side of the straight tube lamp 20 and can be electrically connected to the second lamp pin 25 serving as a ground terminal. The waterproof socket 11 for the part 23 is provided. Inside the luminaire 31, a terminal block 33 to which a power line from the commercial power supply AC is connected, and an AC voltage from the commercial power supply AC input via the terminal block 33 is a predetermined type adapted to the straight tube lamp 20. A lighting circuit 32 that converts the voltage into a direct current voltage and supplies it to the straight tube lamp 20 is housed. An output terminal of the lighting circuit 32 is connected to the waterproof socket 10 via a wiring 34. The waterproof socket 10 supplies power from the first base portion 22 side of the straight tube lamp 20 attached to the waterproof socket 10. Further, the ground terminal portion of the lighting circuit 32 is electrically connected to the waterproof socket 11 provided at the other end portion (right side in FIG. 7) of the lighting fixture 31 via the wiring 36.

  The lighting device 30 includes waterproof sockets 10 and 11 projecting from the main body of the lighting fixture 31 so that the straight tube lamp 20 can be held at both ends of the lighting fixture 31 in the longitudinal direction. In other words, the lighting device 30 has a straight tube shape by attaching the first base portion 22 and the second base portion 23 provided at both ends of the arc tube 21 in the straight tube lamp 20 to the corresponding waterproof sockets 10 and 11, respectively. Hold the lamp 20. In the lighting device 30, the waterproof sockets 10 and 11 are arranged at a predetermined interval corresponding to the length between the first base part 22 and the second base part 23 of the straight tube lamp 20.

DESCRIPTION OF SYMBOLS 1 Socket main body 1e Insertion port 4 Packing 4a Packing opening part 4b 1st contact part 4c Packing adhesion part 4d 2nd contact part 4e Convex part 4f Thin part 6 Tightening cover 10,11 Waterproof socket 20 Straight tube lamp (lamp) )
21 arc tube 22 first base part (base part)
24 First lamp pin (lamp pin)
30 Lighting device

Claims (6)

A lamp pin protruding from the base portion of the tube-shaped lamp is inserted into the insertion port of the socket body, and the socket body and the base portion of the lamp mounted on the socket body are covered by screwing around the axis of the lamp. A tightening cover to be tightened to the socket body, and a packing capable of inserting the lamp and suppressing moisture from entering between the socket body and the tightening cover from between the lamp to be inserted. A packing for a waterproof socket comprising:
The packing includes a first contact portion that contacts the socket main body side, a second contact portion that contacts the tightening cover side, and the first contact portion and the second contact portion. and a packing contact portion in close contact with the arc tube side of the first contact portion and the second contact portion and is formed continuously and integrally before Symbol lamp outer diameter smaller than the outer diameter of the mouth section Have
Along the axial direction of the lamp, an outer periphery and an inner periphery from the packing contact portion to the first contact portion and from the packing contact portion to the second contact portion are formed as curved surfaces that are convex outward. The inner diameter of the first contact portion and the inner diameter of the second contact portion are larger than the inner diameter of the packing contact portion in the packing opening through which the lamp is inserted ,
At least one of the packing contact portion and the first contact portion, or at least one between the packing contact portion and the second contact portion, includes a thin portion where the radial thickness is the thinnest,
Packing for waterproof sockets characterized that you have provided the lamp in contact with and deformable in the insertion direction of the lamp convex portion during insertion of the lamp in the packing opening side of the packing contact portion.   Along the axial direction, the outer diameter increases from the packing contact portion toward the first contact portion and the packing contact portion toward the second contact portion, and the radial thickness increases. The packing for waterproof sockets of Claim 1 characterized by these.   Along the axial direction, the inner diameter increases from the packing contact portion toward the first contact portion and the packing contact portion toward the second contact portion, and the radial thickness increases. The packing for waterproof sockets according to claim 1 or 2, characterized by the above. The waterproof according to any one of claims 1 to 3, wherein the first contact portion side and the second contact portion side are symmetrical with respect to the packing contact portion. Packing for socket. It claims 1 to waterproof sockets you characterized and this with the packing of any one of claim 4. Lighting device characterized that you provided with the waterproof socket according to claim 5.

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