JP2022081250A - Lamp support structure, and small electrical device with lamp support structure - Google Patents

Abstract

To provide a lamp support structure that can more reliably prevent disconnection of a lamp.SOLUTION: A lamp support structure according to the present invention includes a support portion 38 provided on a mounting target D, and a lamp holder 39 that is supported by the support portion 38 on one side and has a mounting portion 41 on the other side, which allows the connection portion 33 of the lamp 15 to be inserted and mounted. The support portion 38 includes a holding body 51 that holds and supports the lamp holder 39 in a direction orthogonal to the mounting direction of the lamp 15, and the lamp holder 39 is sandwiched and supported so as to be swingable in the sandwiching direction with a holding portion by the pair of holding bodies 51 as a fulcrum. Then, a shock absorber 64 for holding the lamp holder 39 in the neutral posture is provided between the holding body 51 and the lamp holder 39.SELECTED DRAWING: Figure 1

Description

The present invention relates to a lamp support structure in which a filament is supported by a feeding rod in a bulb made of a glass tube, and a small electric device having the lamp support structure.

A lamp such as a halogen lamp is attached to an apparatus via a support member such as a socket, and as a support structure for this type of lamp, for example, Patent Document 1 can be mentioned. In the socket for a small light bulb of Patent Document 1, a lamp support structure is configured by a socket body and pin terminals projecting from a wiring board. Specifically, the socket body is made of elastic heat-resistant rubber, silicon rubber, or the like, and an annular protrusion is provided on the front surface thereof. The annular protrusion is formed with a light bulb insertion hole in which a small light bulb is continuously mounted on the inner peripheral surface thereof and a lead wire insertion hole in parallel with two rows. A notch step for shock absorption is formed on the bottom surface of the tip of the socket body. The pin terminal is provided on the wiring board of the device, and the socket on which the small light bulb is mounted has the pin terminal in the lead wire lead-out hole that opens in the bottom of the notch step provided at the base end of the socket body. It is fixed to the wiring board by inserting it.

Japanese Unexamined Patent Publication No. 10-269830

According to the socket for a small light bulb of Patent Document 1, even when an impact caused by vibration of a device or the like acts on a small light bulb mounted in a light bulb insertion hole, the socket body is elastically deformed to cause an impact. It is possible to prevent the feeding rod and filament of the small light bulb from being broken. However, the impact buffering capacity of the socket of Patent Document 1 is derived from the forming material (silicon rubber) of the socket body, and the impact absorbing capacity is not so large. Therefore, when an impact exceeding the impact buffering capacity acts on a small light bulb (lamp), the filament or the feeding rod may be disconnected, and there is room for improvement in that respect.

It is an object of the present invention to provide a lamp support structure capable of more reliably preventing disconnection of the lamp, and a small electric device provided with the lamp support structure.

The present invention covers a support structure for mounting a lamp 15 having a bulb portion 31 having a filament 34 supported by a pair of feeding rods 35 and a connecting portion 33 provided at one end of the bulb portion 31 on the mounting target D. And. This support structure includes a support portion 38 provided on the mounting target D, and a lamp holder 39 having a mounting portion 41 supported by the support portion 38 on one side and allowing the connecting portion 33 of the lamp 15 to be inserted and mounted on the other side. .. When the mounting direction of the lamp 15 with respect to the lamp holder 39 is defined as the front-rear direction, the support portion 38 has a neutral posture in which the extension direction of the lamp 15 coincides with the front-rear direction and a displacement in which the extension direction of the lamp 15 does not match the front-rear direction. A holding body 51 that swingably holds and supports the lamp holder 39 in one direction in the vertical direction orthogonal to the front-rear direction with respect to the posture is included. Further, a shock absorber 64 for holding the lamp holder 39 in a neutral posture is provided between the holding body 51 and the lamp holder 39.

The holding body 51 includes upper and lower holding bodies 52 and 53 that hold and support the lamp holder 39 from the vertical direction. The shock absorber 64 is configured to include an upper shock absorber 61 provided between the upper holding body 52 and the lamp holder 39, and a lower buffer 62 provided between the lower holding body 53 and the lamp holder 39. be able to.

When the surface defined in the front-rear direction and the left-right direction is defined as a horizontal plane, it is possible to adopt a configuration in which each axis of the feeding rod 35 and the filament 34 is arranged on the horizontal plane.

The holding body 51 is provided at a position displaced in the front-rear direction from the position of the center of gravity of the lamp holder 39.

A plurality of holding bodies 51 are arranged side by side in the left-right direction.

The buffer 64 includes a connecting body 63 connecting both buffers 61 and 62 between the upper buffer 61 and the lower buffer 62, and a through hole 65 penetrating from the upper buffer 61 to the lower buffer 62. Is formed. A bearing shaft 56 extending toward the other holding body 52 and 53 and being inserted into the through hole 65 is formed on one of the upper and lower holding bodies 52 and 53, and a supporting shaft 56 is formed on the other holding body 52 and 53. A bearing hole 57 with which 56 is engaged is formed.

Each of the shock absorbers 61 and 62 is composed of a cylindrical block-shaped elastic body. Each of the holding bodies 52 and 53 includes a holding boss 54 formed of a cylindrical block having a diameter smaller than that of the buffer bodies 61 and 62, and a plurality of auxiliary ribs 55 formed radially from the periphery of the holding boss 54. ..

The small electric device according to the present invention is composed of a lamp 15 whose heat source emits light including infrared rays, and the lamp 15 is supported by a support structure of the lamp having the above configuration.

When the lamp holder 39 is configured to be swingably supported in the vertical direction with the sandwiched portion by the sandwiching body 51 as a fulcrum as in the present invention, when an impact acts on the mounting target D. Further, since the lamp holder 39 swings and displaces in the vertical direction, the impact applied to the lamp holder 39 can be effectively released. As a result, it is possible to suppress the direct impact of the impact on the lamp 15 mounted on the lamp holder 39, so that it is possible to prevent the power feeding rod 35 and the filament 34 arranged inside the bulb portion 31 from being disconnected. ..

In addition, as in the present invention, if the cushioning body 64 for holding the lamp holder 39 in the neutral posture is provided between the holding body 51 and the lamp holder 39, the lamp holder 39 is oscillated and displaced due to an impact. However, the shock absorber 64 can gradually attenuate the swing displacement speed of the lamp holder 39 so that the lamp holder 39 can be slowly returned to the neutral posture. Therefore, the feeding rod arranged inside the bulb portion 31 is caused by the increase in the swing displacement speed of the lamp holder 39 or the swing displacement of the lamp holder 39 for a long period of time. It is possible to prevent the 35 and the filament 34 from being disconnected. Further, since the shock absorber 64 can cushion the impact acting on the lamp holder 39, it is also possible to prevent the feeding rod 35 and the filament 34 from being disconnected.

From the above, according to the support structure of the lamp of the present invention, the lamp holder 39 is configured to be swingable and displaceable in the vertical direction to suppress the direct impact of the impact on the lamp 15, and the holding body 51 and the lamp holder 39 are suppressed. The lamp 15 is disconnected by providing a shock absorber 64 between the lamp holder 64 and slowly returning the lamp holder 39 that has been oscillated and displaced to the neutral position, and further cushioning the impact by the shock absorber 64. You can more reliably prevent this from happening.

The shock absorber 64 is provided between the upper buffer body 61 provided between the upper holding body 52 constituting the holding body 51 and the lamp holder 39, and between the lower holding body 53 constituting the holding body 51 and the lamp holder 39. When configured to include the lower buffer 62, the impact acting on the lamp holder 39 can be more reliably buffered by the two shock absorbers 61 and 62 provided above and below. Since the damping force borne by each of the shock absorbers 61 and 62 can be dispersed, the swing displacement speed of the lamp holder 39 can be gradually damped more reliably. From the above, according to the present invention, it is possible to more reliably prevent the lamp 15 from being disconnected.

When the plane defined in the front-rear direction and the left-right direction is defined as a horizontal plane, when the axis of each of the feeding rod 35 and the filament 34 is arranged on the horizontal plane, the feeding rod 35 is elastically deformed to form the filament 34. The moving direction can be matched with the swinging direction of the lamp holder 39. According to this, in addition to the swing displacement of the lamp holder 39, the elastic deformation of the feeding rod 35 can suppress the impact on the filament 34, so that the impact on the filament 34, which is particularly liable to be broken, is large. Can be relaxed.

When the holding body 51 is provided at a position displaced in the front-rear direction from the position of the center of gravity of the lamp holder 39, the lamp holder 39 is supported as compared with the case where the holding body 51 holds and supports the position of the center of gravity of the lamp holder 39. It can be easily oscillated. Therefore, the function of suppressing disconnection of the lamp 15 due to the swing displacement of the lamp holder 39 is more effectively exhibited.

When a plurality of holding bodies 51 are arranged side by side in the left-right direction, the fulcrum portion can be increased as compared with the configuration including one holding body 51, so that the holding support of the lamp holder 39 by the support portion 38 is more accurate. Can be something like that. Further, in the configuration including one holding body 51, the lamp holder 39 may rotate about the vertical direction, but by providing a plurality of holding bodies 51, the rotation can be prevented, so that the lamp can be prevented from rotating. The holder 39 can be displaced to a more appropriate posture.

When the buffer 64 includes a connecting body 63 for connecting both the buffers 61 and 62 between the upper buffer 61 and the lower buffer 62, each buffer 61 and 62 is individually assembled to the sandwiching body 51. The support structure can be easily constructed as compared with the configuration. Since the number of parts can be reduced, the cost of the support structure can be reduced. Further, on either one of the upper and lower holding bodies 52 and 53, a support shaft 56 extending toward the other holding body 52 and 53 and being inserted into the through hole 65 formed in the buffer body 64 is formed, and the other is formed. When the bearing hole 57 with which the support shaft 56 engages is formed in the holding body 52 and 53, it is possible to reliably prevent the holding body 51 and the buffer body 64 from being displaced from each other. Therefore, the impact buffering action of the upper and lower buffers 61 and 62 can be obtained more accurately. Since the shock absorber 64 can be assembled to the sandwiching body 51 simply by inserting the support shaft 56 into the through hole 65, the support structure can be constructed more easily.

Each of the holding bodies 52 and 53 includes a holding boss 54 formed of a cylindrical block having a diameter smaller than that of the upper and lower shock absorbers 61 and 62, and a plurality of auxiliary ribs 55 formed radially from the periphery of the holding boss 54. Then, each of the shock absorbers 61 and 62 can be deformed in the outward direction of the end face in contact with the holding boss 54 and the auxiliary rib 55 in addition to the outer direction of the peripheral surface thereof. As a result, each of the buffers 61 and 62 can be deformed more greatly, so that each of the buffers 61 and 62 exerts a larger impact buffering action. Incidentally, when the entire end surface of each of the buffers 61 and 62 is in contact with the sandwiching body 51, the buffers 61 and 62 are deformed only in the outward direction of the peripheral surface thereof, so that the buffers 61 and 62 are deformed. The amount becomes smaller.

According to the small electric device in which the lamp 15 configured as a heat source is supported by the support structure of the lamp, it is effective that the lamp 15 is disconnected due to the drop impact when the small electric device is dropped. Can be prevented. Examples of the small electric device of the present invention include a hair dryer and a beauty device for warming the skin surface.

It is a vertical sectional side view of the main part of the hair dryer to which the support structure of the lamp which concerns on Example 1 of this invention is applied. It is a vertical sectional side view of the hair dryer to which the support structure of the lamp which concerns on Example 1 of this invention is applied. It is an exploded perspective view of the support structure of the lamp which concerns on Example 1 of this invention. FIG. 5 is a cross-sectional view taken along the line AA in FIG. 1 showing a cross-sectional plan view of the support structure of the lamp according to the first embodiment of the present invention. It is sectional drawing BB in FIG. 1 which shows the vertical sectional front view of a support part. It is an exploded perspective view of the support structure of the lamp which concerns on Example 2 of this invention. It is an exploded perspective view of the support structure of the lamp which concerns on Example 3 of this invention.

(Example 1) FIGS. 1 to 5 show Example 1 in which the lamp support structure according to the present invention is applied to a hair dryer using a halogen lamp that radiates light including infrared rays as a heat source. The front / rear, left / right, and up / down in this embodiment follow the crossing arrows shown in each figure and the front / back, left / right, and up / down indications shown in the vicinity of each arrow. In FIG. 2, the hair dryer (mounting target) D includes a horizontally long cylindrical main body case 1 and a grip 2 formed so as to project downward from the rear lower surface of the main body case 1. The main body case 1 and the grip 2 are formed by joining a pair of left and right cases 3 and 4 having different shapes (see FIG. 5). Inside the grip 2, a slide-type switch for starting or stopping the operation of the hair dryer and further switching the hot / cold air mode is arranged, and the switch is switched by a slide knob provided on the front surface of the grip 2.

An air suction port 5 is provided at the rear end of the main body case 1, and a dry air outlet 6 is provided at the front end. The suction port 5 is provided with a suction grill 7 made of punching metal, and the outlet 6 is provided with a blow grill 8 made of a metal mesh body. Both grills 7 and 8 are sandwiched and fixed by the left and right cases 3 and 4, and both prevent hair, clothes, fingers and the like from getting into the main body case 1.

Inside the main body case 1, a heater consisting of an axial flow type blower fan 11 that generates dry air, a fan motor 13 that is supported by the fan case 12 and drives the blower fan 11 to rotate, and a nichrome wire that is a heat source. A halogen lamp (lamp) 15 that emits light including infrared rays is provided, and a blower fan 11, a fan motor 13, a heater 14, and a halogen lamp 15 are provided in the order described from the suction port 5 toward the outlet 6. It is arranged. The heater 14 is a heat source for heating the drying air, and the halogen lamp 15 is a heat source for directly heating the object to be dried by synchrotron radiation. The fan case 12 is composed of an outer cylinder 16 and an inner cylinder 17 made of a round cylinder, a radial connecting rib 18 that integrally connects both cylinders 16 and 17, and the like, and is fastened and fixed to the left case 3 with screws. There is. The fan motor 13 is fixed to the inside of the inner cylinder 17, and the blower fan 11 is fixed to the rotating shaft of the fan motor 13 protruding backward.

A baffle cylinder 21 is arranged on the front side of the fan case 12, and the baffle cylinder 21 is formed in a tapered cylindrical shape in which the diameter dimension of the rear end is substantially the same as the diameter dimension of the outer cylinder 16. There is. The outer cylinder 16 and the air guide cylinder 21 form a main flow path 22 for dry air from the suction port 5 to the air outlet 6 inside the main body case 1. Inside the baffle cylinder 21, an insulating frame 23 made of a mica plate assembled in a cross shape is provided, and a heater 14, which is one of the heat sources, is spirally wound around the insulating frame 23. The upper wall of the baffle 21 is opened before and after the portion where the heater 14 is arranged, and the opening on the rear side guides a part of the dry air between the main body case 1 and the baffle 21. The outlet 24 is provided, and the opening on the front side is an introduction port 25 for reintroducing the dry air led out from the outlet port 24 into the air guide tube 21. As a result, a secondary flow path 26 for dry air is formed between the upper wall of the main body case 1 and the upper wall of the baffle cylinder 21.

As shown in FIG. 2, the halogen lamp 15 is arranged in the sub-flow path 26, and an irradiation window 27 for irradiating the light of the halogen lamp 15 toward the front is opened on the upper side of the outlet 6. The irradiation window 27 is equipped with an optical filter 28 that shields the light in the visible light region emitted by the halogen lamp 15, and the optical filter 28 prevents the user from feeling glare. The halogen lamp 15 is cooled by the dry air flowing through the auxiliary flow path 26.

As shown in FIGS. 3 and 4, the halogen lamp 15, which is one of the heat sources, has a bulb portion 31 made of a stepped glass tube and a rectangular parallelepiped block shape provided at the rear end (one end) of the bulb portion 31. A sealing portion 32 and a pair of parallel connecting pins (connecting portions) 33 projecting rearward from the rear end (one end) of the sealing portion 32 are provided. Halogen gas is sealed in the valve portion 31, and a coil-shaped filament 34 is provided inside the valve portion 31. The filament 34 is supported by a pair of left and right feeding rods 35 formed in a long and short L shape extending from the sealing portion 32, and is arranged at a substantially center position of the valve portion 31. Each feeding rod 35 is cantileveredly supported by the sealing portion 32, and each of the feeding rod 35 and the connecting pin 33 on the left side and the feeding rod 35 and the connecting pin 33 on the right side are inside the sealing portion 32. It is connected by.

As shown in FIGS. 1, 3 and 4, the axial core of the filament 34 in this embodiment extends in the front-rear direction. Further, the axis of the filament 34 and the axis of the pair of feeding rods 35 are arranged on a horizontal plane defined in the front-rear direction and the left-right direction. The axis of the connecting pin 33 extends in the front-rear direction, and is arranged on the horizontal plane.

The halogen lamp 15 is supported by the lamp support structure in the auxiliary flow path 26. The lamp support structure includes a support portion 38 provided on the hair dryer D and a lamp holder 39 supported by the support portion 38 (see FIGS. 1 and 4). The lamp holder 39 is formed of a holder base 40 made of a printed circuit board having a rectangular plan view, and a socket portion in which a connection pin 33 of a halogen lamp 15 is inserted and mounted on the front side (one side) of the holder base 40. (Mounting portion) 41 is provided. The holder base 40 is formed with a stepped socket notch 43 having a stepped portion 42 on the leading edge, and the socket notch 43 has a socket portion 41 composed of a pair of left and right socket bodies 44. Be distributed. Each socket body 44 is formed by folding a conductive metal plate material in half, and an annular socket hole 45 into which a connection pin 33 is inserted is provided in the bent portion. Each socket body 44 is fixed by fastening the opposite end of the socket hole 45 to the holder base 40 with a rivet 46 in a state where the socket hole 45 faces the socket notch 43. The holder base 40 is formed with printed wiring connected to the socket body 44. The socket hole 45 is oriented in the front-rear direction, and the halogen lamp 15 is inserted and mounted from the front to the rear of the socket portion 41 in the front-rear direction.

As shown in FIGS. 1 and 3, a support base 49 having a flat upper surface is formed in the middle of the upper wall of the baffle cylinder 21, and the support base 49 has a square box shape with an open lower surface. It is covered with a table cover 50. The support portion 38 is provided in a space surrounded by the support base 49 and the base cover 50, and holds the lamp holder 39 in a direction orthogonal to the mounting direction (front-back direction) of the halogen lamp 15 and in the vertical direction in this embodiment. The holding body 51 for supporting is provided. In this embodiment, the sandwiching body 51 is composed of a pair of upper and lower sandwiching bodies 52 and 53, and the two sandwiching bodies 51 are arranged side by side in the left-right direction.

As shown in FIG. 3, each of the sandwiching bodies 52 and 53 includes a flat columnar sandwiching boss 54 and four auxiliary ribs 55 formed radially at equal intervals from the periphery of the sandwiching boss 54. .. The lower holding body 53 is integrally projected on the upper surface of the support base 49, and the support shaft 56 is projected upward at the center of the holding boss 54. The upper holding body 52 is integrally projected from the inner surface of the base cover 50, and a bearing hole 57 with which the support shaft 56 is engaged is formed at the center of the holding boss 54. By engaging these support shafts 56 with the bearing holes 57, the upper and lower holding bodies 52 and 53 can be connected to the proper positions. In FIG. 3, reference numeral 58 indicates a positioning protrusion for defining a fixed position of the base cover 50. The support shaft 56 may be projected downward from the upper holding body 52 to form a bearing hole 57 in which the support shaft 56 engages with the lower holding body 53. In FIG. 3, reference numeral 59 is a relief notch 59 for preventing interference with the halogen lamp 15, and the relief notch 59 is a part of the front wall of the base cover 50 and a part of the upper wall continuous with the front wall. It is formed by notching.

As shown in FIG. 5, an upper buffer 61 is provided between the upper holding body 52 and the upper surface of the holder base 40, and a lower buffer 62 is provided between the lower holding body 53 and the lower surface of the holder base 40. It is provided. From the above, the holder base 40 is sandwiched and supported by the pair of upper and lower sandwiches 52 and 53 via the upper and lower shock absorbers 61 and 62. The upper buffer body 61 and the lower buffer body 62 together with the sandwiching body 51 (the upper sandwiching body 52 and the lower sandwiching body 53) form a support portion 38.

In FIG. 3, reference numeral 64 indicates a buffer including the upper and lower buffers 61 and 62. The shock absorber 64 is a rubber molded product formed by including upper and lower shock absorbers 61 and 62 and a connecting body 63 connecting both shock absorbers 61 and 62, and these are integrally molded. The upper and lower buffers 61 and 62 are formed of cylindrical blocks having the same diameter and height, and the connecting body 63 is formed of a cylindrical block having a diameter smaller than that of both buffers 61 and 62. The shock absorbers 61 and 62 and the connecting body 63 are formed at concentric positions, and in this embodiment, the thickness dimension of the connecting body 63 is set to be the same as the thickness dimension of the holder base 40. The buffer body 64 is provided with a through hole 65 penetrating from the upper buffer body 61 to the lower buffer body 62 along the axis thereof, and by inserting the previous support shaft 56 through the through hole 65. , The shock absorber 64 can be attached to the holding body 51. As the hardness of the rubber constituting the shock absorber 64, it is possible to select a hardness that exhibits a suitable cushioning force corresponding to the weight of the lamp holder 39 and the halogen lamp 15.

A temporary fixing structure is provided between the shock absorber 64 and the holder base 40 to improve the assembling property of the lamp support structure. This temporary fixing structure is composed of holding slits 68 formed by notches on the left and right edges near the rear end of the holder base 40. Specifically, the holding slit 68 is composed of a linear groove-shaped insertion groove 69 formed in a width dimension smaller than the diameter dimension of the connecting body 63, and a circular holding groove 70 continuous with the insertion groove 69. The diameter dimension of the holding groove 70 is set to be the same as the diameter dimension of the connecting body 63 of the shock absorber 64. In order to facilitate the insertion of the connecting body 63 into the holding groove 70, the boundary between the insertion groove 69 and the edge portion of the holder base 40 is cut diagonally. From the above, the buffer body 64 can be temporarily fixed to the holding slit 68 by inserting the connecting body 63 into the holding slit 68 via the insertion groove 69. In such a temporarily fixed state, the facing surfaces of the upper buffer 61 and the lower buffer 62 of the buffer 64 are in close contact with the upper and lower surfaces of the holder base 40. Further, from this temporarily fixed state, the support shaft 56 of the lower holding body 53 is inserted through the through hole 65 of the buffer body 64, and the bearing hole 57 of the upper holding body 52 is further engaged with the support shaft 56 to engage the buffer body. The lamp holder 39 can be held and supported by the upper and lower holding bodies 52 and 53 via 61 and 62. The temporary fixing structure may also be configured with holes penetrating the holder base 40. From the above, the rear side (other side) of the lamp holder 39 is cantileveredly supported by the support portion 38.

In the state of being sandwiched and supported by the upper and lower sandwiching bodies 52 and 53 (pinching body 51) as described above, the lamp holder 39 swings in one direction in the sandwiching direction, that is, in the vertical direction, with the sandwiched portion by the sandwiching body 51 as a fulcrum. It is movably supported. More specifically, the lamp holder 39 has a neutral posture in which the extension direction of the halogen lamp 15 coincides with the front-rear direction and the extension direction of the halogen lamp 15 is front-back with the sandwiched portion by the upper and lower holding bodies 52 and 53 as a fulcrum. It is sandwiched and supported so as to be swingable in the vertical direction between the direction and the displacement posture that does not match. Since the rear end of the lamp holder 39 in this embodiment is cantilevered by the support portion 38, when a large impact is applied such as by dropping the hair dryer D, the front end side, that is, the halogen lamp 15 The tip side is greatly oscillated. Further, the upper and lower shock absorbers 61 and 62 normally hold the lamp holder 39 in the neutral posture, and when an impact is applied to the hair dryer D and the lamp holder 39 swings and displaces from the neutral posture, the lamp holder 39 After gradually attenuating the swing displacement speed of, it returns to the neutral posture.

As shown in FIG. 4, the diameter dimension of the sandwiching boss 54 constituting each of the sandwiching bodies 52 and 53 is formed to be smaller than the diameter dimension of the upper and lower buffer bodies 61 and 62, and sandwiches the respective buffer bodies 61 and 62. In the state of being assembled to the bodies 52 and 53, the lower surface of the holding boss 54 of the upper holding body 52 and the lower surface of the auxiliary rib 55 come into contact with the upper surface of the upper buffer 61, and the upper surface of the holding boss 54 of the lower holding body 53 and the auxiliary. The upper surface of the rib 55 is in contact with the lower surface of the lower buffer 62. Therefore, when the lamp holder 39 is oscillated and displaced as described above, each of the shock absorbers 61 and 62 is moved outward by the portion not in contact with the holding boss 54 and the auxiliary rib 55 in addition to the peripheral surface portion thereof. It can be transformed.

Further, as shown in FIGS. 1 and 4, the lamp holder 39 is supported by the support portion 38 near the rear end. Therefore, the center of gravity of the lamp holder 39, which is composed of a flat plate-shaped printed circuit board and has a socket portion 41 on the front side, is located on the halogen lamp 15 side (front side) of the sandwiching body 51. Therefore, the holding body 51 is provided at a position deviated from the position of the center of gravity of the lamp holder 39 in the rear direction. Further, since the socket holes 45 are arranged side by side on the left and right, when the halogen lamp 15 is attached to the lamp holder 39, the arrangement plane (horizontal plane) of the filament 34 and the feeding rod 35 and the upper and lower holding bodies 52 and 53 ( It is orthogonal to the pinching direction (vertical direction) of the pinching portion 51).

To assemble the lamp support structure having the above configuration, first, the buffer body 64 is temporarily fixed to the left and right holding slits 68 of the holder base 40. Next, after aligning the through hole 65 of the shock absorber 64 with the support shaft 56, the support shaft 56 is inserted through the through hole 65, and the lower holding body 53 supports the holder base 40. Next, after aligning the support shaft 56 and the bearing hole 57 of the base cover 50, the base cover 50 is placed on the support base 49, and the support base 49 and the base cover 50 are adhesively fixed to the shock absorber 61. The lamp holder 39 can be sandwiched and supported by the upper and lower sandwiches 52 and 53 via 62. Finally, the connection pin 33 of the halogen lamp 15 is inserted into the socket hole 45, and the halogen lamp 15 is attached to the lamp holder 39. In the halogen lamp 15 mounted on the socket portion 41, the rear end of the sealing portion 32 is received by the middle stage portion 42 of the socket notch 43.

As described above, in the lamp support structure according to the embodiment, the lamp holder 39 is shaken in the holding direction with the holding portion by the holding portion 51 (upper and lower holding bodies 52 and 53) provided in the support portion 38 as a fulcrum. Since it is configured to be movablely pinched and supported, the lamp holder 39 swings and displaces when an impact acts on the hair dryer D, so that the impact can be released and the halogen lamp 15 mounted on the lamp holder 39 is impacted. Can be suppressed from acting directly.

In addition, in this embodiment, the lamp holder 39 is normally held in the neutral posture between the sandwiching body 51 and the lamp holder 39, and the lamp holder 39 is oscillatedly displaced from the neutral posture. Since the cushioning body 64 for returning to the neutral posture is provided, even if the lamp holder 39 swings and shifts due to an impact, the swinging displacement speed of the lamp holder 39 is gradually attenuated by the shock absorber 64 to keep the lamp holder 39 in the neutral posture. Can be slowly restored to. Therefore, the feeding rod arranged inside the bulb portion 31 is caused by the increase in the swing displacement speed of the lamp holder 39 or the swing displacement of the lamp holder 39 for a long period of time. It is possible to prevent the 35 and the filament 34 from being disconnected. Further, since the shock absorber 64 can cushion the impact acting on the lamp holder 39, it is also possible to prevent the feeding rod 35 and the filament 34 from being disconnected.

The shock absorber 64 is provided between the upper buffer body 61 provided between the upper holding body 52 constituting the holding body 51 and the lamp holder 39, and between the lower holding body 53 constituting the holding body 51 and the lamp holder 39. Since it is configured to include the lower buffer 62, the impact acting on the lamp holder 39 can be more reliably buffered by the two shock absorbers 61 and 62 provided on the upper and lower sides. Since the damping force borne by each of the shock absorbers 61 and 62 can be dispersed, the swing displacement speed of the lamp holder 39 can be gradually damped more reliably. From the above, according to the lamp support structure having such a configuration, it is possible to more reliably prevent the lamp 15 from being disconnected. Compared with the case where the shock absorbers 61 and 62 are used to cushion the impact, the deterioration of the buffer body 64 can be suppressed, so that there is an advantage that the disconnection prevention effect can be exhibited for a longer period of time.

When the plane defined by the front-rear direction and the left-right direction is defined as a horizontal plane, since the axis of each of the feeding rod 35 and the filament 34 is arranged on the horizontal plane, the moving direction of the filament 34 due to the elastic deformation of the feeding rod 35. Can be matched with the swing direction of the lamp holder 39. According to this, in addition to the swing displacement of the lamp holder 39, the elastic deformation of the feeding rod 35 can suppress the impact on the filament 34, so that the impact on the filament 34, which is particularly liable to be broken, is large. Can be relaxed.

Since the holding body 51 is provided at a position displaced in the front-rear direction from the position of the center of gravity of the lamp holder 39, the lamp holder 39 is swung as compared with the case where the holding body 51 holds and supports the position of the center of gravity of the lamp holder 39. It can be easily displaced, and the function of suppressing disconnection of the halogen lamp 15 due to the swing displacement of the lamp holder 39 can be effectively exerted.

Since the pair of holding bodies 51 are arranged side by side in the left-right direction, the fulcrum portion can be increased as compared with the configuration including one holding body 51, and the holding support of the lamp holder 39 by the support portion 38 can be made more accurate. Further, in the configuration including one holding body 51, the lamp holder 39 may rotate about the vertical direction, but by providing the pair of left and right holding bodies 51, the rotation can be prevented, so that the lamp can be prevented from rotating. The holder 39 can be displaced to a more appropriate posture.

When the holding slit 68 into which the connecting body 63 is inserted and mounted is formed in the lamp holder 39 and the connecting body 63 is inserted and mounted in the holding slit 68, the facing surfaces of the upper and lower shock absorbers 61 and 62 are the lamp holder 39. Since the cushioning body 64 is attached to the lamp holder 39 in a state of being in close contact with the lamp holder 39, the buffering body 64 can be temporarily fixed to the lamp holder 39, and from this temporarily fixed state to the buffering bodies 61 and 62. Since the shock absorber 64 can be assembled, the support structure can be easily constructed.

Since the upper and lower buffers 61 and 62 and the connecting body 63 connecting the upper and lower buffers 61 and 62 are integrated as the buffer 64, compared with the configuration in which each buffer 61 and 62 is individually assembled to the sandwiching body 51. Therefore, the support structure can be constructed more easily. Since the number of parts can be reduced, the cost of the support structure can be reduced. Further, the buffer body 64 is formed with a through hole 65 penetrating from the upper buffer body 61 to the lower buffer body 62, and is inserted into the through hole 65 extending toward one holding body 52 and the other holding body 53. Since the support shaft 56 is formed and the bearing hole 57 with which the support shaft 56 is engaged is formed in the other holding body 53, a positional shift occurs between the pair of holding bodies 52 and 53 and the buffer body 64. You can definitely prevent that. Therefore, the impact buffering action of the upper and lower buffers 61 and 62 can be obtained more accurately. Since the shock absorber 64 can be assembled to the sandwiching body 51 simply by inserting the support shaft 56 into the through hole 65, the support structure can be constructed more easily.

Since each of the shock absorbers 61 and 62 is made of a cylindrical block-shaped elastic body having the same diameter and height, the buffer body 64 can be assembled to the sandwiching bodies 52 and 53 in an upside-down posture. Therefore, the assembly work of the shock absorber 64 can be simplified and the support structure can be constructed more easily. Further, each of the holding bodies 52 and 53 is provided with a holding boss 54 formed of a cylindrical block having a diameter smaller than that of the upper and lower shock absorbers 61 and 62, and a plurality of auxiliary ribs 55 formed radially from the periphery of the holding boss 54. Since the shock absorbers 61 and 62 are provided, they can be deformed in the outward direction of the end face in contact with the holding boss 54 and the auxiliary rib 55 in addition to the outward direction of the peripheral surface thereof. As a result, each of the buffers 61 and 62 can be deformed more greatly, so that each of the buffers 61 and 62 exerts a larger impact buffering action. Incidentally, when the entire end surface of each of the buffers 61 and 62 is in contact with the sandwiching body 52, the buffers 61 and 62 are deformed only in the outward direction of the peripheral surface thereof, so that the buffers 61 and 62 are deformed. The amount becomes smaller.

(Example 2) FIG. 6 shows Example 2 in which the lamp support structure according to the present invention is applied to a hair dryer using a halogen lamp that radiates light including infrared rays as a heat source. In this embodiment, the configuration of the lamp holder 39 is different from that of the previous embodiment 1. Specifically, the holder base 40 constituting the lamp holder 39 is composed of an isosceles trapezoidal base portion 73 and a pair of arm portions 74 extending forward from both ends of the front edge of the base portion 73. ing. A socket notch 43 is formed between the pair of arm portions 74, and a socket portion 41 composed of a pair of left and right socket bodies 44 is arranged in the socket notch 43. Further, holding slits 68 are formed at the tips (front ends) of the pair of arm portions 74, respectively. In this embodiment, the holder base 40 is supported by the front end of each arm portion 74, in other words, the lamp holder 39 is supported by the support portion 38 near the front end thereof. Therefore, the position of the center of gravity of the lamp holder 39 having the socket portion 41 on the rear side is located on the rear side of the holding body 51. As described above, the position of the center of gravity of the lamp holder 39 may be on the rear side of the holding body 51. Others are the same as in the first embodiment, so the same members are designated by the same reference numerals and the description thereof will be omitted. The same shall apply in the following examples.

(Example 3) FIG. 7 shows Example 3 in which the lamp support structure according to the present invention is applied to a hair dryer using a halogen lamp that radiates light including infrared rays as a heat source. In this embodiment, the support portion 38 is composed of one holding body 51 and a pair of cushioning bodies 61 and 62, and one place in the rear left corner of the lamp holder 39 is held and supported by the holding body 51. The point is different from the previous Example 1. Specifically, one holding slit 68 is formed on the left side of the trailing edge of the holder base 40, a shock absorber 64 is arranged in the holding slit 68, and the lamp holder 39 is formed by the upper and lower holding bodies 52 and 53. It is sandwiched and supported so that it can swing in the vertical direction. A socket notch 43 is formed on the right side of the leading edge, which is a diagonal position of the holder base 40, and a socket portion 41 composed of a pair of left and right socket bodies 44 is arranged in the socket notch 43. ..

The upper and lower shock absorbers 61 and 62 are formed of oval blocks, and the connecting body 63 is formed of oval blocks having a diameter smaller than that of both shock absorbers 61 and 62. The buffers 61 and 62 and the connecting body 63 are formed at concentric positions, and a through hole 65 formed of an elliptical hole penetrating from the upper buffer 61 to the lower buffer 62 is provided along the axis thereof. ing. The holding bosses 54 of the upper and lower holding bodies 52 and 53 are formed in a long oval shape in the front and rear, respectively. Further, the support shaft 56 of the lower holding body 53 is formed in an oval shaft shape, and the bearing hole 57 of the upper holding body 52 is composed of an oval hole matching the support shaft 56. The holding groove 70 constituting the holding slit 68 is formed in an oval shape corresponding to the connecting body 63. As described above, the number of sandwiching bodies 51 may be one, and it is not necessary to provide two (plurality) as in each of the above embodiments. According to the support shaft 56 formed in the shape of an oval shaft, it is possible to prevent the lamp holder 39 from rotating about the vertical direction.

In each of the above embodiments, the halogen lamp 15 in which the connecting portion 33 is composed of connecting pins is applied, but for example, the connecting portion 33 may be a connecting portion 33 having a screw-in type base. In this case, the mounting portion 41 uses a female screw type socket. Further, the halogen lamp 15 having a connection portion 33 other than these may be used. As the shock absorber 64, an elastic material such as an elastomer or a foamed resin can be used. Both shock absorbers 61 and 62 may have a cylindrical block shape having different diameters and height dimensions, or may have a rectangular parallelepiped block shape. Either one of the upper and lower shock absorbers 61 and 62 can be omitted. In this case, the omitted side directly sandwiches the lamp holder 39 with the sandwiching body 51. The holder base 40 constituting the lamp holder 39 can be formed of a heat insulating and non-conductive material, and is not limited to the printed circuit board as in the above embodiment. In the above embodiment, the mounting direction of the lamp 15 to the lamp holder 39 and the extending direction of the main body case 1 coincide with each other in the front-rear direction, but the present invention is not limited to this.

The lamp 15 supported by the support structure of the lamp of the present invention is not limited to a halogen lamp, and can be applied to a lamp in which the filament 34 is supported by the feeding rod 35. Further, the attachment target D can be applied not only to a hair dryer but also to a beauty device for warming the skin surface.

15 Lamp 31 Bulb 33 Connection (connection pin)
34 Filament 35 Power supply rod 38 Support part 39 Lamp holder 41 Mounting part (socket part)
51 Holding body 52 Upper holding body 53 Lower holding body 54 Holding boss 55 Auxiliary rib 56 Support shaft 57 Bearing hole 61 Upper shock absorber 62 Lower buffer 63 Connection body 64 Buffer 65 Through hole D Mounting target

Claims (8)

A lamp (15) having a bulb portion (31) having a filament (34) supported by a pair of feeding rods (35) and a connecting portion (33) provided at one end of the bulb portion (31) is to be mounted ( It is a support structure for fixing to D),
A support portion (38) provided on the mounting target (D) and
A lamp holder (39) having a mounting portion (41) supported by the support portion (38) on one side and allowing the connecting portion (33) of the lamp (15) to be inserted and mounted on the other side.
Including
When the mounting direction of the lamp (15) with respect to the lamp holder (39) is defined as the front-rear direction, the support portion (38) has a neutral posture in which the extension direction of the lamp (15) coincides with the front-rear direction, and the lamp (15). A holding body (51) that swingably holds and supports the lamp holder (39) in one direction in the vertical direction orthogonal to the front-back direction between a displacement posture in which the extension direction does not match the front-back direction is included.
A lamp support structure characterized in that a shock absorber (64) for holding the lamp holder (39) in a neutral posture is provided between the holding body (51) and the lamp holder (39). The holding body (51) includes upper and lower holding bodies (52, 53) that hold and support the lamp holder (39) from the vertical direction.
The shock absorber (64) is provided between the upper buffer body (61) provided between the upper holding body (52) and the lamp holder (39), and between the lower holding body (53) and the lamp holder (39). The lamp support structure according to claim 1, comprising the lower shock absorber (62). The lamp according to claim 1 or 2, wherein each axis of the feeding rod (35) and the filament (34) is arranged on the horizontal plane when the plane defined in the front-rear direction and the left-right direction is defined as a horizontal plane. Support structure. The lamp support structure according to any one of claims 1 to 3, wherein the holding body (51) is provided at a position displaced in the front-rear direction from the position of the center of gravity of the lamp holder (39). The lamp support structure according to any one of claims 1 to 4, wherein a plurality of holding bodies (51) are arranged side by side in the left-right direction. The buffer (64) comprises a connecting body (63) connecting both buffers (61.62) between the upper buffer (61) and the lower buffer (62), from the upper buffer (61). A through hole (65) penetrating over the lower buffer (62) is formed.
A bearing shaft (56) extending toward the other holding body (52.53) and being inserted through the through hole (65) is formed in one of the upper and lower holding bodies (52.53), and the other holding body (52.53) is held. The lamp support structure according to claim 2, wherein a bearing hole (57) with which the support shaft (56) is engaged is formed in the body (52, 53). Each buffer (61, 62) is composed of a cylindrical block-shaped elastic body.
Each holding body (52, 53) has a holding boss (54) formed of a cylindrical block having a diameter smaller than that of each cushioning body (61, 62), and a plurality of holding bodies formed radially from the periphery of the holding boss (54). The lamp support structure according to claim 6, further comprising an auxiliary rib (55). The mounting target (D) is a small electric device equipped with a heat source.
A small electric device in which a heat source comprises a lamp (15) that radiates light including infrared rays, and the lamp (15) is supported by the lamp support structure according to any one of claims 1 to 7.

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