JP6408773B2 - Waterproof equipment - Google Patents

Description

  The present invention relates to a waterproof device that prevents water from entering inside.

  For example, a waterproof sensor has been proposed as a waterproof device. Patent Literature 1 discloses a waterproof device that prevents a setting member from falling from a casing by supporting a setting member that sets an accommodated electric circuit by a string member. In this prior art, two batteries are housed in a housing, and an electric circuit is driven by a power source supplied from these two batteries.

Japanese Patent Laying-Open No. 2011-118802 (pages 6 to 7, FIG. 7)

  The battery has a relatively large variation in outer dimensions in the manufacturing process. For this reason, when a battery is housed inside the housing of a waterproof device, there is a technology that uses a cushioning material such as a sponge between the battery and the housing to absorb the variation in outer dimensions. Proposed. However, in this case, the number of parts and manufacturing man-hours of the waterproof device increase. Further, in order to absorb variations in the external dimensions of the battery, if the battery is held by a hook-shaped holding member, a complicated mold is required to manufacture the holding member. Furthermore, although the waterproof device disclosed in Patent Document 1 has two batteries housed inside the casing, no consideration is given to variations in the external dimensions of the batteries.

  The present invention has been made against the background of the above problems, and provides a waterproof device that does not require a complicated mold and reduces the number of parts and the number of manufacturing steps.

A waterproof device according to the present invention includes a protective cover that houses a substrate to which power is supplied from a battery, a device body that is sealed with the protective cover and has a housing portion that houses the battery, and a space between the protective cover and the device body. is a accommodated in the accommodating space, and support the lower surface of the battery, possess a protective cover and the device main body and the battery holder with an elastic force in the stacking direction are laminated, the battery holder is laminated is pressed by a battery It is characterized by bending in the direction .

  According to the present invention, since the battery holder has an elastic force, even if the outer dimensions of the battery vary, the battery holder absorbs the variation. Thus, since the present invention only needs to use a battery holder having an elastic force in order to absorb variations in the outer dimensions of the battery, the present invention does not require a complicated mold, Manufacturing man-hours can be reduced.

1 is an exploded perspective view showing a waterproof device 1 according to Embodiment 1. FIG. 1 is a top view showing a waterproof device 1 according to Embodiment 1. FIG. 1 is a bottom view showing a waterproof device 1 according to Embodiment 1. FIG. 3 is a diagram showing a battery holder 30 according to Embodiment 1. FIG. FIG. 3 is a front sectional view showing a switch cover 13 in the first embodiment. 3 is a front sectional view showing battery holder 30 in the first embodiment. FIG. 3 is a front cross-sectional view showing the operation of the waterproof device 1 according to Embodiment 1. FIG. 3 is a front cross-sectional view showing the operation of the waterproof device 1 according to Embodiment 1. FIG.

  Hereinafter, embodiments of a waterproof device according to the present invention will be described with reference to the drawings. The present invention is not limited to the embodiments described below. Moreover, in the following drawings including FIG. 1, the relationship of the size of each component may be different from the actual one.

Embodiment 1 FIG.
FIG. 1 is an exploded perspective view showing a waterproof device 1 according to the first embodiment. The waterproof device 1 will be described with reference to FIG. As shown in FIG. 1, the waterproof device 1 is a sensor and includes a device body 10, a protective cover 20, and a battery holder 30. In addition, a substrate 40, a protector 50, and a battery 60 are provided. Have.

(Equipment body 10)
FIG. 2 is a top view showing the waterproof device 1 according to the first embodiment. The device main body 10 is attached to an attachment surface such as a ceiling and contacts the upper surface of the battery 60. The device body 10 has, for example, a bottomed cylindrical shape. As shown in FIG. 2, four body screw holes 12 are provided in the peripheral portion of the device body 10, and the protective cover 20 is fixed to the device body 10 using the four screws 70. The device body 10 is provided with a housing portion 11 that houses the upper portion of the battery 60, and the housing portion 11 is formed in a concave shape along the outer shape of the battery 60, for example.

(Protective cover 20)
The protective cover 20 is sealed with the device body 10 and accommodates the substrate 40 to which power is supplied from the battery 60. The protective cover 20 has, for example, a bottomed cylindrical shape, and four cover screw holes 25 are provided on the peripheral edge thereof. The protective cover 20 includes two pins 21 extending upward (in the direction of arrow Z) from the bottom surface 20a that is the bottom surface of the inner wall. The two pins 21 are provided to face each other so as to sandwich the substrate 40 (see FIG. 6).

  FIG. 3 is a bottom view showing the waterproof device 1 according to the first embodiment. As shown in FIG. 3, the bottom surface 20a of the protective cover 20 is provided with an LED opening 20b, and the LED 23 is installed in the LED opening 20b. As shown in FIG. 1, an LED cap 24 is attached to the LED 23, and the LED opening 20 b of the protective cover 20 is closed. When the protective cover 20 and the device main body 10 are sealed, an O-ring 22 is interposed between the protective cover 20 and the device main body 10 to improve the sealing performance. This prevents water from entering the space between the protective cover 20 and the device body 10.

(Substrate 40)
As described above, the substrate 40 is accommodated in the protective cover 20, is connected to the battery 60 via the battery connector 61, and is supplied with power from the battery 60. The substrate 40 has, for example, a rectangular shape, and a plurality of (for example, three) switches 41 for performing various settings of the waterproof device 1 are provided. These switches 41 are used, for example, for starting the waterproof device 1. In addition to this, it is used for testing whether the waterproof device 1 operates normally, or when the waterproof device 1 is used as a slave device, for registration to the parent device, etc. used.

  The board 40 is connected to an antenna 42. The antenna 42 transmits a transmission signal transmitted from the board 40 to a base unit or the like, and receives a reception signal transmitted toward the board 40. It is. The antenna 42 is made of a metal wire extending in a circumferential shape, and is disposed in the vicinity of the bottom surface 20a of the protective cover 20. A sensor for detecting a fire, such as a thermistor (not shown), is provided at the center of the substrate 40, and this thermistor detects the temperature. This thermistor has a rod shape, and the thermistor is inserted into a through hole provided in the central portion of the protective cover 20, and the tip of the thermistor is exposed from the protective cover 20.

  When a fire or the like occurs, if the temperature detected by the thermistor exceeds a threshold value due to the heat, the substrate 40 transmits a signal to the outside of the master unit or the like via the antenna 42. Thereby, the main | base station etc. which manage the place where the waterproof apparatus 1 was installed can grasp | ascertain generation | occurrence | production of a fire etc. As described above, the waterproof device 1 can also be used as a constant temperature spot type heat sensor among the sensors. The waterproof device 1 may be not only a heat detector but also a flame detector that detects a flame with infrared rays or the like, for example.

(Protector 50)
As shown in FIG. 3, a protector 50 is attached to the lower surface 20 c of the protective cover 20. The protector 50 protects the thermistor exposed from the protective cover 20. The protector 50 has a conical shape, and its upper surface 50 a is attached in contact with the lower surface 20 c of the protective cover 20. A part of the side surface of the protector 50 is a protector opening 50b, and when a fire or the like occurs, a hot air current passes through the protector opening 50b and reaches the thermistor.

(Battery holder 30)
FIG. 4 is a diagram showing the battery holder 30 in the first embodiment. 4 (a) is a rear view of the battery holder 30, FIG. 4 (b) is a left side view of the battery holder 30, FIG. 4 (c) is a plan view of the battery holder 30, and FIG. 4B is a front view of the battery holder 30, FIG. 4F is a perspective view of the battery holder 30, and FIG. 4G is a bottom view of the battery holder 30. is there. The battery holder 30 is housed in a housing space 62 (see FIG. 6) between the protective cover 20 and the device main body 10, supports the lower surface of the battery 60, and the stacking direction in which the protective cover 20 and the device main body 10 are stacked. It has an elastic force (in the direction of arrow Z). As shown in FIGS. 4A to 4G, the battery holder 30 includes a placement portion 31 and two foot portions 35 provided on both side ends of the placement portion 31, for example. Made of resin.

  The placement unit 31 is for placing the battery 60 and has a shape along the outer shape of the battery 60. The battery 60 has, for example, an elliptical cross section. In this case, the placement unit 31 includes a flat portion 32 and a curved surface portion 33 that curves and extends upward (arrow Z direction) from both side ends of the flat portion 32. It has. By these two curved surface portions 33, the battery 60 placed on the flat portion 32 is suppressed from shifting laterally (in the direction of the arrow X). Further, on the four sides of the flat portion 32, the protruding portions 34 extending upward (in the direction of the arrow Z) are provided on two sides where the curved surface portion 33 is not formed. These two protrusions 34 prevent the battery 60 placed on the flat part 32 from being displaced in the direction in which the protrusions 34 are provided (arrow Y direction). That is, the battery 60 placed on the flat portion 32 is suppressed from being shifted by the curved surface portion 33 and the protruding portion 34.

  The foot portion 35 supports the placement portion 31 and is placed on the protective cover 20. For example, the foot portion 35 extends while curving from the placement portion 31, and has a bending portion 36 having elasticity and a bending portion 36. And a support portion 37 that supports the placement portion 31 and a leg portion 38 provided at the lower end of the support portion 37. Specifically, the curved portion 36 is curved from the upper end of the curved surface portion 33 in the mounting portion 31, and the support portion 37 further extends from the curved portion 36 toward the protective cover 20. A leg portion 38 is provided at the lower end. The leg portion 38 includes a horizontal plane (XY plane) that is substantially parallel to the surface of the protective cover 20, and these surfaces are in contact with each other. Further, a guide hole 39 is provided in the leg portion 38, and the pin 21 provided in the protective cover 20 is inserted into the guide hole 39. Since the guide hole 39 has an elliptical shape extending to the side of the battery holder 30 (in the direction of the arrow X), the pin 21 is movably inserted into the guide hole 39. .

(Switch cover 13)
The device body 10 includes a switch opening 10 a and a switch cover 13. FIG. 5 is a front sectional view showing the switch cover 13 according to the first embodiment, and is a sectional view taken along the line AA in FIG. As shown in FIG. 5, the switch opening 10 a is provided at a position above the switch 41 provided on the substrate 40. The switch cover 13 is made of an elastic body that covers the switch 41 while closing the switch opening 10a. That is, the switch cover 13 covers the three switches 41 when the protective cover 20 in which the substrate 40 is accommodated and the device body 10 are sealed. As a result, the switch cover 13 and the switch 41 come into contact with each other, and therefore the switch 41 can be pressed in a state through the switch cover 13. The switch cover 13 is made of an elastic body such as a thermoplastic elastomer, and is formed by injection molding. The injection-molded switch cover 13 is welded to the device main body 10 by heat welding or the like.

  Next, an assembly process of the waterproof device 1 according to the first embodiment will be described. First, the substrate 40 is placed on the protective cover 20. The protective cover 20 and the substrate 40 are fixed by thermal welding. However, the fixing method is not limited to this, and for example, by providing a hook for locking the substrate 40 on the protective cover 20, the protective cover 20 and the substrate 40 are fixed. 40 may be fixed. At that time, the thermistor is exposed from the protective cover 20. Next, in this state, the guide hole 39 of the battery holder 30 is inserted into the pin 21 of the protective cover 20, thereby placing the battery holder 30 on the protective cover 20 and further mounting the battery 60 on the battery holder 30. Put. Then, the battery 60 and the substrate 40 are connected by the battery connector 61. At this time, the placement portion 31 of the battery holder 30 is positioned above the substrate 40. Thereafter, the device main body 10 is covered via the O-ring 22, and screws 70 are inserted into the four main body screw holes 12 in the device main body 10 and the four cover screw holes 25 in the protective cover 20. The protective cover 20 is engaged. Then, the protector 50 is attached to the lower surface of the protective cover 20. Thereby, the waterproof device 1 is assembled.

  6 is a front cross-sectional view showing battery holder 30 in the first embodiment, and is a cross-sectional view taken along the line BB in FIG. As shown in FIG. 6, when the device main body 10 and the protective cover 20 are engaged, the battery 60 is held between the device main body 10 and the battery holder 30. In the waterproof device 1, the distance in the height direction (arrow Z direction) of the holding space 63 between the device body 10 and the battery holder 30 is the distance between the upper surface and the lower surface of the battery 60, that is, the minimum thickness. It is designed to be equal to the allowable dimension Dmin. In addition, when the thickness of the battery 60 is the minimum allowable dimension Dmin, the pins 21 of the protective cover 20 are designed to be positioned outside the respective guide holes 39 of the battery holder 30.

  Next, the operation of the waterproof device 1 according to the first embodiment will be described. 7 and 8 are front sectional views showing the operation of the waterproof device 1 according to the first embodiment. When the waterproof device 1 is assembled, when the battery holder 30 is placed on the protective cover 20 and the device main body 10 and the protective cover 20 are to be sealed, the battery holder 30 is placed on the battery holder 30 as shown in FIG. The upper surface of the placed battery 60 comes into contact with the accommodating portion 11 in the device main body 10. As described above, the distance in the height direction (arrow Z direction) of the holding space 63 is designed to be equal to the minimum allowable dimension Dmin of the thickness of the battery 60. For this reason, when the thickness of the battery 60 is larger than the minimum allowable dimension Dmin by ΔD, the device main body 10 and the protective cover 20 do not come into close contact with each other, and the device main body 10 floats upward (arrow Z direction) by ΔD.

  When the device body 10 and the protective cover 20 are connected from this state, the battery 60 is pressed against the device body 10. Accordingly, when the battery 60 is pressed downward, the curved portion 36 of the battery holder 30 has elasticity, so the curved portion 36 of the battery holder 30 is bent and the battery holder 30 sinks downward (in the direction of arrow Z). . At that time, the leg portion 38 in the foot portion 35 of the battery holder 30 moves in the width direction (arrow X direction) of the battery holder 30 by the guide hole 39 and the pin 21 provided in the protective cover 20. That is, when the battery holder 30 sinks downward (in the direction of the arrow Z), the legs 38 each move outward. Thus, when the battery 60 is pressed against the device body 10, the leg portion 35 of the battery holder 30 moves along the pin 21 and the bending portion 36 bends. As a result, as shown in FIG. 8, the device main body 10 and the protective cover 20 are sealed while the battery 60 is held by the device main body 10 and the battery holder 30.

  When the thickness of the battery 60 is the maximum allowable dimension Dmax, the pins 21 of the protective cover 20 are located inside the respective guide holes 39 of the battery holder 30, so that the thickness of the battery 60 is the minimum allowable dimension Dmin. Compared with the case, the leg part 38 is in a state of opening outward. Further, when the thickness of the battery 60 is the minimum allowable dimension Dmin, the foot portion 35 may be formed to be inclined as a whole so as to open outward as it goes downward (in the direction of arrow Z). Accordingly, the position of the leg portion 38 is easily moved according to the thickness of the battery 60.

  As described above, since the battery holder 30 in the waterproof device 1 has elasticity, even if the outer dimensions of the battery 60 vary, the battery holder 30 absorbs the variation. Thereby, the battery 60 is appropriately held by the device main body 10 and the battery holder 30. In the first embodiment, since it is only necessary to use the battery holder 30 having an elastic force in order to absorb variations in the external dimensions of the battery 60, a complicated mold is not required, and the number of parts and the manufacturing can be reduced. There is an effect that man-hours can be reduced. Further, since the battery 60 is provided on the protective cover 20 side (via the battery holder 30), the battery connector of the battery 60 is compared with the device (Patent Document 1) in which the battery is provided on the device main body side. It becomes easy to connect 61 to the substrate 40.

  Furthermore, the waterproof device 1 according to the first embodiment includes a switch cover 13. The waterproof device 1 is hermetically sealed to prevent water from entering inside. For this reason, when the temperature around the place where the waterproof device 1 is installed suddenly changes, the atmospheric pressure fluctuates inside the waterproof device 1. Since the switch cover 13 is an elastic body made of a thermoplastic elastomer or the like, even if the air pressure inside the waterproof device 1 is reduced and contracted, the switch cover 13 is deformed so as to have a curved surface directed downward. The decrease in the atmospheric pressure inside the waterproof device 1 can be absorbed.

  On the other hand, even if the air pressure inside the waterproof device 1 rises and expands, the switch cover 13 is deformed so as to move upward, so that the rise in air pressure inside the waterproof device 1 can be absorbed. As described above, by providing the switch cover 13, the pressure inside the waterproof device 1 can be adjusted, and the waterproof device 1 can be prevented from being damaged.

  In the above description, the battery holder 30 is illustrated as including two feet 35. However, the number of the feet 35 may be one. In this case, instead of the one foot portion 35, a column not provided with an elastic force is provided, and one side portion of the placement portion 31 is supported by this column. Then, the other side portion of the placement portion 31 is supported by the foot portion 35. In this case, when the battery 60 is pressed against the device main body 10, the pillar does not move, only the foot 35 is bent while moving, and the placing portion 31 is slightly inclined. Play in the same way.

  In addition, the guide hole 39 provided in the leg portion 38 of the foot portion 35 of the battery holder 30 is illustrated as an elliptical shape extending to the side of the battery holder 30, but the guide hole 39 includes the pin 21. If it is larger than that, the shape may be circular or rectangular. Furthermore, although the material of the battery holder 30 is illustrated as a resin, the material of the battery holder 30 may be a metal, a ceramic, or any material having elasticity.

  In the above description, the waterproof device 1 is applied to a sensor, but the scope of application of the present invention is not limited to this.

  DESCRIPTION OF SYMBOLS 1 Waterproof type apparatus, 10 apparatus main body, 10a switch opening part, 11 accommodating part, 12 main body screw hole, 13 switch cover, 20 protective cover, 20a bottom face, 20b LED opening part, 20c lower surface, 21 pin, 22 O-ring, 23 LED, 24 LED cap, 25 Cover screw hole, 30 Battery holder, 31 Placement part, 32 Flat part, 33 Curved part, 34 Projection part, 35 Foot part, 36 Curved part, 37 Support part, 38 Leg part, 39 Guide hole , 40 substrate, 41 switch, 42 antenna, 50 protector, 50a upper surface, 50b protector opening, 60 battery, 61 battery connector, 62 housing space, 63 holding space, 70 screw.

Claims (3)

A protective cover for accommodating a substrate to which power is supplied from the battery;
A device main body that is sealed with the protective cover and has a housing for housing the battery;
A battery holder that is housed in a housing space between the protective cover and the device main body, supports a lower surface of the battery, and has an elastic force in a stacking direction in which the protective cover and the device main body are stacked; Yes, and
The waterproof device is characterized in that the battery holder is pressed by the battery and bends in the stacking direction . The battery holder is
A mounting portion on which the battery is mounted;
Supporting the placement portion, and a foot portion placed on the bottom surface of the inner wall of the protective cover;
The foot is
A curved portion extending from the mounting portion while being curved and having an elastic force;
A support portion extending from the curved portion and supporting the placement portion;
The waterproof device according to claim 1, further comprising: a leg portion provided at a lower end of the support portion. A protective cover for accommodating a substrate to which power is supplied from the battery;
A device main body that is sealed with the protective cover and has a housing for housing the battery;
A battery holder that is housed in a housing space between the protective cover and the device main body, supports a lower surface of the battery, and has an elastic force in a stacking direction in which the protective cover and the device main body are stacked; Yes, and
The battery holder is
A mounting portion on which the battery is mounted;
Supporting the mounting portion, and a foot portion placed on the protective cover,
The foot is
A curved portion extending from the mounting portion while being curved and having an elastic force;
A support portion extending from the curved portion and supporting the placement portion;
A leg portion provided at a lower end of the support portion,
The leg is provided with a guide hole,
The protective cover is
Having a pin movably inserted into the guide hole;
The foot is
When the battery is pressed against the device main body, the bending portion is bent while moving along the pin .

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