JP5523602B2 - Alarm - Google Patents

Description

  The present invention relates to an alarm device that issues an alarm by detecting an abnormality such as a fire or a gas leak in a monitoring area.

  2. Description of the Related Art Conventionally, an alarm device that is installed in a monitoring area and detects various abnormalities occurring in the monitoring area and issues an alarm has been widely used. For example, in general buildings, underground malls, offices, or general houses, gas alarms that detect gas and issue a gas leak alarm, and fire alarms that detect smoke and generate a fire alarm are used. Such an alarm device is generally provided with an inspection function for checking the normality of the alarm function at the time of installation in a monitoring area or at a periodic inspection.

  Specifically, an inspection switch is provided inside the alarm casing, and an operation button for pressing the inspection switch is provided on the operation surface of the casing. When a check switch is pressed by pressing an operation button on the operation surface, a predetermined check function is activated. In this inspection function, the buzzer inside the alarm is sounded or an alarm sound is output by voice, and the alarm lamp is turned on, and the contents of these buzzers, voice alarm, or the normality of the alarm lamp are confirmed. it can.

  Alternatively, in order to facilitate the inspection operation of an alarm device installed at a relatively high place such as a ceiling surface in an alarm device having such an inspection function, an operation string for operating the inspection switch from below is provided. What has been proposed is proposed. For example, in FIG. 6 of Patent Document 1 (Japanese Patent Laid-Open No. 2003-36488), as a conventional example, the lever 208 is displaced by the pull string 204 to press the push button 203a to operate the switch 203 for operation confirmation. A fire detector is shown.

JP 2003-36488 A

  However, the conventional alarm device is configured to include only one of the operation button on the operation surface and the operation string as the operation means of the inspection switch. For example, the alarm device having the operation button is provided on the ceiling surface or the like. When installed, the inspection operation becomes difficult, and the installation position of the alarm may be restricted.

  In order to solve such a problem, it is considered that both the operation button and the operation string may be simply provided. However, since the operation string is attached to the alarm device in advance regardless of the necessity of the operation string, the cost of the alarm device is increased.

  Further, when the alarm device is installed at a height that allows the operation buttons to be easily operated, an operation string is not required. In this case, it is desirable to remove the operation string in order to prevent malfunction due to erroneously hooking the operation string on the operation string, but for this purpose, it is necessary to disassemble the alarm device. Furthermore, when an attachment / detachment structure is provided so that the operation strap can be attached / detached without disassembling the alarm device, if the attachment / detachment structure is exposed on the outer surface of the alarm device, the attachment / detachment structure is caused by contact from the outside. This could cause the operation buttons to malfunction.

  This invention is made in view of the above, Comprising: It aims at providing the alarm device which can suppress the power consumption of the alarm device from the time of shipment to the time of installation.

In order to solve the above-described problems and achieve the object, the alarm device according to claim 1 is an alarm device that detects an abnormality in the monitoring region and issues an alarm, and detects the abnormality in the monitoring region. Detection means, a housing that houses the detection means, and control means for controlling a detection operation by the detection means, wherein the detection means is in a normal monitoring mode for detecting occurrence of an abnormality in the monitoring region; A control means for switching to a low power mode in which power consumption is reduced compared to the normal monitoring mode, a switch for giving an instruction to the alarm device, and a linking means for pressing the switch by being pushed by a user Holding means for holding the switch in a pressed state, and the housing has an installation surface facing the installation target of the alarm device, An operation surface that is not opposed to the installation target of the alarm device and is exposed to the monitoring area, and a part of the linking means is provided on the operation surface, and the holding means is provided via the installation surface. The control means is detachably attached to the housing, and the control means sets the detection means to the low power mode when the switch is pressed for a predetermined time or more and the switch is pressed, and the switch is released. In this state, the detection means is set to the normal monitoring mode.

  The alarm device according to claim 2 is the alarm device according to claim 1, wherein the holding means is inserted into the housing through a part of the holding means through the installation surface. It is possible to attach to the casing, and the insertion direction of the holding means into the casing and the pressing direction of the switch via the linkage means are opposite to each other.

  The alarm device according to claim 3 is the alarm device according to claim 2, wherein the holding means generates an elastic force in a direction orthogonal to the insertion direction, and the linkage means The elastic force is converted into a pressing force along the pressing direction and pressing the switch.

According to the alarm device of the first aspect, in a state where the switch is pressed for a predetermined time or longer and the switch is continuously pressed, the control unit stops the detection operation of the detection unit, and the pressed state of the switch is released. If so, the detection means is caused to perform a detection operation. Thereby, also in the alarm device of the type which connects a battery and an alarm device with a connector, the power consumption of the alarm device from the time of shipment to the time of installation can be suppressed. In addition, the pressed state of the switch can be maintained and released by attaching / detaching the holding means.

It is a side view in the attachment state of the alarm device which concerns on Embodiment 1. FIG. FIG. 2A is a plan view of the alarm device of FIG. 1, FIG. 2A is a front view of the alarm device, and FIG. 2B is a rear view of the alarm device. It is a decomposition perspective view of the alarm device of FIG. It is a block diagram conceptually showing an electrical configuration of the alarm device. It is an enlarged perspective view of a near neighbor of the mounting hole. An A-A sectional view taken along line of FIG. 2, FIG. 6 (a) non-pressed state of the inspection switch, FIG. 6 (b) is a diagram showing a pressing pressure state inspection switch. It is an enlarged perspective view showing another example of the shape of the hook portion. It is an enlarged perspective view showing another example of the shape of the hook portion. The alarm device according to the second embodiment is a rear view seen from the setting surface. It is an enlarged perspective view of a near neighbor of the mounting hole. It is DD sectional view taken on the line of FIG. It is a flowchart illustrating a flow of a process that by the control unit of the alarm device according to the second embodiment.

  Embodiments of an alarm device according to the present invention will be described below in detail with reference to the accompanying drawings. [I] First, the basic concept of each embodiment will be described, then [II] the specific contents of each embodiment will be described, and [III] Finally, modifications to each embodiment will be described. However, the present invention is not limited to each embodiment.

[I] Basic concept of each embodiment First, a basic concept common to each embodiment will be described. Each embodiment relates to an alarm device that detects an abnormality in a monitoring area and issues an alarm. Here, a specific monitoring area is arbitrary, and can be arranged on a ceiling, a wall surface, or the like in each room such as a kitchen or a bedroom of a general house or each room of an office. Also, the abnormality detection target is arbitrary, for example, detecting smoke to issue a fire alarm, detecting gas to issue a gas leak alarm, or detecting carbon monoxide (CO) and incomplete combustion An alarm can be issued. In the following embodiments, a case will be described in which the present invention is applied to a composite type gas fire alarm that detects fire, gas leakage, and incomplete combustion.

  Here, it is assumed that the alarm device in each embodiment includes an instruction unit for giving an instruction to the alarm device. The specific content of this instruction operation is arbitrary. For example, switching between the start and stop of the inspection operation for inspecting (testing) the function of the alarm device, various alarm devices such as setting content and battery voltage, etc. An instruction operation or the like for outputting the state by voice or display is applicable. Below, the example which provided the inspection means for starting inspection operation | movement as an instruction | indication means is demonstrated. The specific content of the inspection operation activated by the inspection means is arbitrary. For example, by outputting a predetermined sound via a speaker and intentionally blinking or lighting the alarm lamp, the speaker or the alarm lamp The normality of the can be confirmed. Note that the switching of operations is not limited to switching between two operations, but includes starting or stopping a plurality of operations simultaneously. For example, when the inspection means is operated, in addition to performing the inspection function, the alarm output is stopped, the threshold value for abnormality detection is changed, the history information about abnormality detection is output, the history information about the alarm output stop operation Output, execution of inspection operation in other alarm devices, and change of alarm sound volume.

  Here, one of the characteristics of the alarm device is that the operation of one inspection means can be performed using either an operation button provided on the operation surface or an operation string hanging from the alarm device. is there. For this reason, the operation by the operation string does not directly operate the inspection unit, but indirectly operates the inspection unit by operating the operation button. That is, by operating the operation string, the operation button is operated and the operation button is pressed. In particular, in order to eliminate the difference between the operation direction of the operation string and the operation direction of the operation button, linkage means for linking operations along the respective operation directions by rotation operations is provided. Therefore, from the outside of the alarm device, the inspection unit can be activated by pressing the operation button, and the inspection unit can be activated by pulling the operation string.

  In addition, one of the different features of the alarm device is that the attachment part between the operation string and the linking means is arranged inside the casing, and the operation string and the linking means can be easily attached and detached from the outside of the casing. This is because the mounting holes are provided in the housing. Since the linking means is not exposed to the outside of the housing, it is possible to prevent malfunction due to contact with the linking means from the outside. Moreover, even when it becomes necessary to attach an operation string after purchasing an alarm device, the operation string can be attached extremely easily and reliably.

[II] Specific contents of each embodiment Hereinafter, specific contents of each embodiment according to the present invention will be described.

[Embodiment 1]
First, the first embodiment will be described. FIG. 1 is a side view of the alarm device according to the first embodiment when attached, FIG. 2 is a plan view of the alarm device of FIG. 1, FIG. 2 (a) is a front view of the alarm device, and FIG. FIG. 3 is a rear view of the alarm device, and FIG. 3 is an exploded perspective view of the alarm device of FIG. Although the installation target of the alarm device is arbitrary, in the first embodiment, the alarm device 1 is assumed to be attached to the ceiling C via the attachment base 2 as shown in FIG. In the following description, the direction close to the ceiling C is referred to as the upper side, the direction opposite to the upper side is referred to as the lower side, and the surface facing the ceiling C in the alarm device 1 is referred to as the upper surface. As shown in FIGS. 1 to 3, the alarm device 1 is configured such that the smoke detection unit 20, the first substrate 30, the middle case 40, and the second substrate 50 are accommodated inside the housing 10 in a superposed manner. ing.

  The housing 10 is a basic structure of the alarm device 1 and is made of, for example, resin, and is configured by combining a front case 11 and a back case 12 with each other. The front case 11 is provided with a plurality of smoke inlets 13 and a plurality of gas inlets 14. The plurality of smoke inlets 13 are openings that allow smoke from the outside of the alarm device 1 to enter the inside of the housing 10, and the concentration of smoke that has entered the inside of the housing 10 through these smoke inlets 13. Is measured by a known method in the smoke detector 20 to determine the presence or absence of a fire. The plurality of gas inlets 14 are openings that allow gas from outside the alarm device 1 to enter the inside of the housing 10, and the gas that has entered the inside of the housing 10 through the gas inlets 14. Among them, the presence or absence of gas leakage is determined by measuring methane by a known method, and the presence or absence of incomplete combustion is determined by measuring carbon monoxide by a known method.

  Further, as shown in FIG. 2, the front case 11 has a display unit 110 for displaying a fire alarm, a gas leak alarm, a power supply state, and the like, and an acoustic output from a speaker 56 to be described later. A speaker hole 15 for discharging to the outside is provided.

  As shown in FIG. 3, the back case 12 is provided with a plurality of power terminals 16 extending from the upper surface (the surface facing the ceiling C to be installed; hereinafter referred to as “installation surface”) to the lower surface. . And by attaching this power supply terminal 16 to the attachment base 2 shown in FIG. 1 detachably, the alarm device 1 can be attached to the installation object, and power is supplied to the alarm device 1. be able to. The power terminal 16 is connected at its lower end to a power terminal 53 of the second substrate 50 described later. As shown in FIG. 2, a mounting hole 120 is provided on the installation surface of the back case 12. The attachment hole 120 is an opening through which the operation string 70 is inserted into the housing 10 when the operation string 70 described later is attached to an operation member 60 described later. Details of the structure of the mounting hole 120 and the attachment and detachment of the operation string 70 will be described later.

  Returning to FIG. 3, the smoke detection unit 20 is a fire detection unit that detects the occurrence of a fire in the monitoring area, and corresponds to the detection unit in the claims. Specifically, the smoke detection unit 20 detects the concentration of smoke flowing in from the smoke inlet 13, and outputs a detection signal indicating a numerical value corresponding to the concentration to the control unit 59 described later. Since the smoke concentration detection method is a known technique, the description thereof is omitted.

  The first substrate 30 is a circuit board for mounting various electric elements, and here, the smoke detection unit 20 and the display unit 110 described above are mounted (the display unit 110 is not shown in FIG. 3). To do).

The middle case 40 is a circular plate that substantially corresponds to the outer shape of the housing 10 .

  The second board 50 is a circuit board for mounting various electric elements. Here, the gas sensor 51, the connection terminal 52, the power supply terminal 53, and the inspection switch 54 are mounted.

  The gas sensor 51 is gas detection means for detecting methane gas and carbon monoxide in the monitoring region, and corresponds to the detection means in the claims. When the gas sensor 51 detects methane gas or carbon monoxide, the gas sensor 51 outputs a detection signal indicating a numerical value corresponding to the concentration to the control unit 59 described later. A specific method for detecting methane gas or carbon monoxide is arbitrary, and a known method can be adopted.

  The connection terminal 52 is a connection means for electrically connecting the first substrate 30 and the second substrate 50 to each other. The power terminal 53 relays power to the second substrate 50 by contacting the power terminal 16 of the back case 12.

  The inspection switch 54 is for switching the operation of the alarm device 1 and corresponds to the indicating means in the claims. Specifically, the inspection switch 54 is configured as a push switch, and when the leading end of the inspection switch 54 is pressed toward the second substrate 50, the ON state is transferred to an inspection processing unit 59c described later. And a predetermined inspection operation is started.

(Electrical configuration of alarm device 1)
Next, the electrical configuration of the alarm device 1 will be described. FIG. 4 is a block diagram conceptually showing the electrical configuration of the alarm device 1. As described above, the alarm device 1 includes the first substrate 30 and the second substrate 50, the smoke detection unit 20 and the display unit 110 are mounted on the first substrate 30, and the second substrate 50. Are mounted with a gas sensor 51 and an inspection switch 54. Furthermore, a speaker 56, a storage unit 57, a display output unit 58, and a control unit 59 are mounted on the second substrate 50. Note that the mounting configuration for the first substrate 30 and the second substrate 50 can be arbitrarily changed.

  The speaker 56 is an alarm sound output means for outputting an alarm sound. The storage unit 57 is a means for storing data necessary for various processes and information such as a program according to the present invention. The storage unit 57 is configured using a rewritable storage unit such as a RAM (Random Access Memory). In addition, the display output unit 58 performs output control of the display unit 110 in accordance with an instruction from the control unit 59.

The control unit 59 performs various controls in the alarm device 1 and corresponds to the control means in the claims. The specific configuration of the control unit 59 is arbitrary. For example, the control unit 59 can be configured as a CPU (Central Processing Unit) that calls, analyzes, and executes a program stored in the storage unit 57. In the present embodiment , the control unit 59 includes a detection processing unit 59a, an alarm processing unit 59b, and an inspection processing unit 59c.

  The detection processing unit 59a is a processing unit that determines whether or not a fire has occurred based on the detection values input from the smoke detection unit 20 and the gas sensor 51.

  Further, the alarm processing unit 59b is a processing unit that causes the speaker 56 or the display unit 110 to issue an alarm such as a fire based on an alarm signal from the detection processing unit 59a.

  The inspection processing unit 59c is a means for performing a predetermined process for executing an inspection operation and a predetermined operation other than the inspection operation according to the operation method when the inspection switch 54 is operated. is there. Schematically, the inspection processing unit 59c starts inspection and stops alarm output according to the operation method of the inspection switch 54. For example, when the inspection switch 54 is pressed in the normal monitoring state, a predetermined inspection process is started, and when the inspection switch 54 is pressed during alarm output, the alarm output is stopped. However, since this inspection process itself can be performed in the same manner as in the prior art, its description is omitted.

(About inspection switch 54)
Next, the operation structure of the inspection switch 54 will be described. 5 is an enlarged perspective view of the vicinity of the mounting hole 120, FIG. 6 is a cross-sectional view taken along arrow AA in FIG. 2, FIG. 6 (a) is a non-pressed state of the inspection switch 54, and FIG. FIGS. 7 and 8 are enlarged perspective views showing other examples of the shape of the latching portion 62. FIG. As described above, the inspection switch 54 is provided on the second substrate 50. The inspection switch 54 is provided on the lower surface side of the second substrate 50 and is disposed so as to protrude downward. When the inspection switch 54 is pressed in the direction B (the direction indicated by the arrow B in FIG. 6B) from the front case 11 toward the second substrate 50, the pressed state is detected by the control unit 59. . A direction B indicated by an arrow B in FIG. 6B corresponds to a predetermined direction in the claims.

(Regarding the inspection switch 54-the operation member 60)
Here, an operation member 60 is provided in the vicinity of the inspection switch 54. The operation member 60 is for operating the inspection switch 54 by an external operation, and corresponds to the linking means in the claims. Specifically, the operation member 60 includes an operation unit 61, a latching unit 62, and a support unit 63.

The operation unit 61 is for abutting the inspection switch 54 to operate the inspection switch 54, and corresponds to the abutting portion in the claims. The operation unit 61 is formed in a substantially flat plate shape. A contact piece 61 a that contacts the inspection switch 54 is extended on the upper surface of the operation unit 61 that faces the inspection switch 54. Operation unit 61, the upper surface of the operating portion 61 is opposed to the test switch 54, and, as the upper and lower surfaces of the operating portion 61 is substantially perpendicular to the pressing direction of the test switch 54 is arranged. Further, the surface of the operation unit 61 that does not face the inspection switch 54 is exposed to the outside of the housing 10 through the opening 111 formed in the front case 11, and the operation unit 61 can be operated from the outside of the housing 10. It is arranged to become.

The latching portion 62 is for latching an operation string 70 to be described later and transmitting an operation to the operation string 70 to the operation member 60, so that it is not exposed to the outside from the outer surface of the housing 10. Are disposed inside the housing 10. Although the specific shape of the latching | locking part 62 is arbitrary, it is extended from the peripheral part of the said operation part 61 along the direction substantially orthogonal to the flat plate surface of the operation part 61 formed in the substantially flat plate shape , for example. It can be formed as a substantially rod-shaped body. The latching part 62 and the operation part 61 may be formed integrally with each other, or those formed individually may be connected.

A slit 62 a is provided at the tip of the latching portion 62. The slit 62a is for hooking the operation string 70 . Although the specific shape of the slit 62a is arbitrary, for example, as shown in FIG. 5, two substantially flat plates facing each other are provided with the slit 62a along a direction substantially parallel to the outer periphery of the housing 10. May be formed. Alternatively, as shown in FIG. 7 and FIG. 8, the slit 62a along the direction substantially orthogonal to the outer periphery of the housing 10 is formed by a substantially U-shaped groove or two substantially flat plates facing each other. You can also At least one end of the slit 62a is an open end. In addition, the width of the gap of the slit 62a is formed so as to be larger than the outer diameter of the operation string 70 and smaller than the outer diameter of the fixed end 71 described later. Accordingly, the operation string 70 can be inserted into the slit 62a from the open end of the slit 62a, and the fixed end 71 can be hooked by the slit 62a.

  The support portion 63 is a portion serving as a fulcrum for the rotation operation of the operation member 60. Although the specific structure of the support part 63 is arbitrary, for example, as shown in FIG. 6, the support part 63 can be provided as a substantially protruding body at the periphery of the operation part 61. The support portion 63 is fixed to the housing 100 by holding the support portion 63 with the internal structure of the alarm device 1, for example, the housing 10 and the smoke detection unit 20. The operation member 60 can be rotated as a fulcrum.

  In addition, although the material of the operation member 60 is arbitrary, since the operation member 60 is rotated with the support portion 63 as a fulcrum as described above, at least the coupling portion between the operation portion 61 and the support portion 63 is elastic. It is desirable to use a material such as a resin such as plastic or a metal such as aluminum.

(About the inspection switch 54-operation string 70)
As shown in FIG. 6, an operation string 70 is hooked on the operation member 60. The operation string 70 is for operating the inspection switch 54 via the operation member 60 . Specifically, a fixed end 71 (for example, a knot) having an outer diameter larger than that of the operation string 70 is formed at one end portion of the operation string 70, and the fixed end 71 is formed by the slit 62 a of the hook 62. Is locked. The operation string 70 is drawn out of the housing 10 from the latching portion 62 through the attachment hole 120, and the operation string 70 can be operated outside the housing 10. In addition, although the material and shape of the operation string 70 are arbitrary, for example, it is comprised using nylon, and it can form in sufficient length from the alarm device 1 to the vicinity of an inspector.

(Details of the structure of the mounting hole 120)
As described above, the attachment hole 120 is provided in the back case 12 as an opening through which the operation string 70 is inserted into the housing 10 when the operation string 70 is attached to or detached from the operation member 60. Specifically, as shown in FIG. 5, FIG. 7, or FIG. 8, the mounting hole 120 is an open space provided from the hook 62 to the outside of the housing 10, and It has a space 120a and a second space 120b.

  The first space 120 a is provided so that the fixed end 71 of the operation string 70 can be inserted from the outside of the housing 10 to the open end of the slit 62 a, and specifically, at least the fixed end 71. As the opening having an outer diameter larger than the outer diameter, the back case 12 is provided so that the open end of the slit 62 a communicates with the outside of the housing 10.

  The second space 120b is provided to allow the operation string 70 to be inserted from the open end of the slit 62a into the gap of the slit 62a. Specifically, the second space 120b is at least from the outer diameter of the operation string 70. An opening having a larger outer diameter is provided in the back case 12 so as to be along a direction substantially orthogonal to the longitudinal direction of the operation string 70 and along the slit 62a.

  The first space 120a and the second space 120b are integrated to form the mounting hole 120. Note that the attachment hole 120 may be formed so that either one of the first space 120a or the second space 120b includes the other.

(Removal of operation string 70)
Next, attachment / detachment of the operation string 70 with respect to the operation member 60 will be described. As described above, the operation string 70 is attached to the operation member 60 by being hooked by the hook portion 62, and is drawn out of the housing 10 from the attachment hole 120. Specifically, when attaching the operation string 70 to the operation member 60, first, the fixed end 71 of the operation string 70 is attached to the housing 10 via the first space 120 a of the attachment hole 120 provided in the back case 12. Is inserted to the open end of the slit 62a. Subsequently, the operation string 70 is inserted into the gap of the slit 62a by inserting the operation string 70 into the second space 120b. Thereby, the fixed end 71 of the operation string 70 is latched by the latching part 62. As described above, the operation string 70 can be attached to the operation member 60 inside the housing 10 very easily without disassembling the housing 10.

(Operation of inspection switch 54)
Next, an operation on the inspection switch 54 using the above-described operation structure will be described. There are two methods for operating the inspection switch 54: a method of pressing the operation unit 61 and a method of pulling the operation string 70.

  When operating the inspection switch 54 by pressing the operation unit 61, the operator presses the operation unit 61 in the direction B from the outside of the front case 11. The operation portion 61 rotates in the direction B with the support portion 63 as a fulcrum, and the contact piece 61a in the operation portion 61 contacts the inspection switch 54. The pressing state is detected by the control unit 59 when the contact piece 61a that is in contact with the inspection switch 54 presses the inspection switch 54 in the direction B.

  When operating the inspection switch 54 by pulling the operation string 70, the operator pulls the operation string 70 in a predetermined direction. The direction in which the operator pulls the operation string 70 is arbitrary. For example, as shown in FIG. 6B, the operator can pull the operation string 70 downward from the ceiling C where the alarm device 1 is installed. As described above, the operation string 70 is hooked to the hooking portion 62 inside the housing 10 through the mounting hole 120. In this case, when the operation string 70 is pulled downward, the operation string 70 moves the hook 62 upward using the peripheral edge of the mounting hole 120 as a fulcrum. Along with this, the operation part 61 connected to the latching part 62 rotates in the direction B with the support part 63 as a fulcrum, and the contact piece 61a in the operation part 61 presses the inspection switch 54 in the direction B. Thus, the pressing state is detected by the control unit 59.

(Effect of Embodiment 1)
As described above, according to the first embodiment, by pulling the operation string 70 in a predetermined direction, the latching portion 62 is operated, the operation portion 61 is rotated in the direction B with the support portion 63 as a fulcrum, and the inspection switch 54 can be pressed. Thereby, the inspection switch 54 can be pressed not only by pressing the operation unit 61 but also by pulling the operation string 70. Moreover, in order to operate the latching part 62 by the operation string 70, the operation string 70 may be latched to the latching part 62 through the mounting hole 120. An operation string 70 can be attached. Furthermore, since the latching part 62 is not exposed to the outside of the housing 10, it is possible to prevent malfunction of the inspection switch 54 due to contact with the latching part 62 from the outside.

  Further, as the mounting hole 120, a first space 120a that allows the fixed end 71 to be inserted from the outside of the housing 10 to the slit 62a and a second space 120b that allows the operation string 70 to be inserted into the slit 62a are provided. Therefore, by inserting the fixed end 71 provided at one end of the operation string 70 into the slit 62a, the operation string 70 can be attached to and detached from the latching part 62 inside the case 10 without disassembling the case 10. Can be performed very easily.

  Further, the surface of the operation unit 61 that does not face the inspection switch 54 is exposed to the outside of the housing 10 through the opening 111 formed in the front case 11, and the operation unit 61 can be operated from the outside of the housing 10. Therefore, the inspection switch 54 can also be operated by directly pressing the operation unit 61.

[Embodiment 2]
Next, a second embodiment will be described. This form is a form provided with a holding means.

  The configuration of the second embodiment is substantially the same as the configuration of the first embodiment except where otherwise specified, and the same configuration as that of the first embodiment is used in the first embodiment. The same reference numerals and / or names are attached as necessary, and the description thereof is omitted.

(Outline of the alarm device according to the second embodiment)
First, the outline | summary of the alarm device which concerns on this Embodiment 2 is demonstrated. Conventionally, in battery-powered alarms installed in ordinary houses, etc., in order to eliminate the need for users to install and replace batteries, manufacturers install batteries into alarms, and connect battery electrodes and alarms. Ships with an insulator sandwiched between the power supply terminal, removes the insulator when the alarm is installed, supplies power from the battery to the alarm, and starts the monitoring operation by the alarm Alarms have been proposed.

  However, the method in which an insulator is sandwiched between a battery and an alarm device cannot be applied to an alarm device of a type in which the battery and the alarm device are connected by a connector. Therefore, the alarm device according to the second embodiment has a low power consumption while the inspection switch 54 is pressed through the operation member 60 by a predetermined holding unit from the initial setting at the time of shipment from the manufacturer. When the power mode is maintained, the holding means is removed, and the pressing state of the inspection switch 54 is released, the monitoring operation is started. Hereinafter, the configuration of the above-described holding unit and the operation of the alarm device by attaching and detaching the holding unit will be described.

(Configuration of holding means)
9 is a rear view of the alarm device 1 according to the second embodiment as viewed from the installation surface, FIG. 10 is an enlarged perspective view of the vicinity of the mounting hole 120, and FIG. 11 is a cross-sectional view taken along line DD in FIG. . 9 to 11 show the alarm device when the holding means is attached. The holding means is attached to the alarm device from the time of shipment from the manufacturer to the time of installation of the alarm device by the user, and it is not necessary to attach the operation string 70 to the operation member 60 during that time. From FIG. 11, the operation string 70 is not illustrated.

(Back case 12)
As shown in FIGS. 9 to 11, the back case 12 according to the second embodiment is provided with a holding portion 17 for holding a holding body 80 described later. Although the specific structure of the holding | maintenance part 17 is arbitrary, it can provide in the side surface of the back case 12 in the vicinity of the attachment hole 120 as an insertion hole which can insert the holding body 80, for example.

(Holding body 80)
The holding body 80 is for holding the operation member 60 in a state where the inspection switch 54 is pressed by the operation portion 61 of the operation member 60, and corresponds to the holding means in the claims. Although the shape and material of the holding body 80 are arbitrary, it can be formed as a film having a substantially U-shaped curved surface using, for example, an elastic material (for example, a resin such as plastic or a metal such as aluminum). When one end of the holding body 80 is inserted into the holding portion 17 and the other end is installed in contact with the operation member 60 in the vicinity of the latching portion 62 via the mounting hole 120 (for example, the other end is inserted into the slit 62a). When the operation member 60 is pressed by the elastic force of the holding body 80, the operation member 60 rotates about the support portion 63, and the contact piece 61a of the operation portion 61 is directed to the inspection switch 54. A pressing force is applied to B. Thus, by installing the holding body 80, the inspection switch 54 can be in a pressed state. On the other hand, when the holding body 80 is removed, the pressed state of the inspection switch 54 is released. Further, the holding portion 17 is exposed to the outside of the back case 12, and the latching portion 62 is disposed at a position that can be easily accessed from the outside of the housing 10 through the mounting hole 120. And the holding body 80 can be attached and detached with respect to the latching part 62 very easily.

(Operation of control unit 59)
As described in the first embodiment, the control unit 59 performs various controls in the alarm device 1. Here, a flow from the initial setting at the time of factory shipment from the manufacturer to the installation of the alarm device 1 and the start of the monitoring operation by the user will be described in the control executed by the control unit 59. FIG. 12 is a flowchart showing a flow of processing by the control unit 59 of the alarm device according to the second embodiment .

  First, when an initialization process is performed by a predetermined input operation (step SA-1), the control unit 59 causes the detection processing unit 59a to perform a normal monitoring operation (step SA-2). During the normal monitoring operation, when the inspection switch 54 is pressed for a predetermined time or longer (for example, 3 seconds or longer) (step SA-3, Yes), the control unit 59 instructs to shift to the low power mode. The alarm device 1 is set to the low power mode in which power consumption is reduced (step SA-4). In the alarm device 1 according to the second embodiment, when the holding body 80 is installed in the alarm device 1, the pressed state of the inspection switch 54 is maintained, and the alarm device 1 is shifted to the low power mode. As specific settings in the low power mode, for example, the stop of the clock oscillation operation in the CPU can be set. The alarm device 1 is shipped to the user in this low power mode state.

  During the low power mode, the control unit 59 confirms the pressed state of the inspection switch 54 (step SA-5), and when the pressed state is maintained (step SA-5, Yes), the low power mode. Is maintained (step SA-6). On the other hand, when the pressed state of the inspection switch 54 is released (step SA-5, No), the control unit 59 determines that there is an instruction to shift to the normal monitoring operation, and the detection processing unit 59a performs the detection process. The alarm device 1 is shifted to a monitoring operation for performing (step SA-7). In the alarm device 1 according to the second embodiment, the pressing state of the inspection switch 54 of the alarm device 1 in the low power mode is released by removing the holding body 80 installed in the alarm device 1. In the normal monitoring operation, the detection processing unit 59a performs detection processing for fire occurrence, gas leakage occurrence, and incomplete combustion occurrence. When a fire occurrence is detected, the alarm processing unit 59b performs alarm processing. Let it be done. In addition, when the inspection switch 54 is operated, the inspection processing unit 59c performs processing such as an inspection operation according to the operation method. Since these processes can be performed in the same manner as in the prior art, the description thereof is omitted.

(Effect of Embodiment 2)
As described above, according to the second embodiment, while the inspection switch 54 is in the pressed state, the control unit 59 maintains the low power mode, and when the pressed state of the inspection switch 54 is released, the detection processing unit 59a. The alarm device 1 is shifted to a monitoring operation that causes the detection processing to be performed. Thereby, also in the alarm device of the type which connects a battery and an alarm device with a connector, the power consumption of the alarm device 1 from the time of shipment to the time of installation can be suppressed. In addition, the pressed state of the inspection switch 54 can be maintained and released by attaching and detaching the holding body 80.

  Also, the inspection switch 54 is provided via the operation member 60 by inserting one end of the holding body 80 formed of an elastic material into a substantially U shape into the holding portion 17 and placing the other end in contact with the operation member 60. Therefore, the holding body 80 can be attached and detached very easily, and the pressing state of the inspection switch 54 can be easily maintained and released.

[III] Modifications to Each Embodiment While each embodiment according to the present invention has been described above, the specific configuration and means of the present invention are the same as the technical idea of each invention described in the claims. Modifications and improvements can be arbitrarily made within the range. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About support part 63)
In each of the embodiments described above, it has been described that the support portion 63 is a substantially protruding body provided on the periphery of the operation portion 61 and is fixed to the housing 10. However, the support portion 63 is formed as a shaft body. The support portion 63 can be held by a predetermined bearing provided in the housing 10. Thereby, the operation member 60 can be rotated about the support part 63 as a rotation axis.

[IV] Appendix In order to solve the above-described problems and achieve the object, the alarm device described in Appendix 1 is an alarm device that detects an abnormality in the monitoring area and issues an alarm, and detects the abnormality occurrence. Detection means, a housing for housing the detection means, an instruction for the alarm device, an instruction means provided in the housing and pressed in a predetermined direction, and a contact with the instruction means. A link means having a contact portion in contact with the contact portion, and a latching portion connected to the contact portion; and the latching portion is detachably latched, and the indication means is connected to the predetermined means via the link means. Operating means for pressing in the direction of, and the engaging portion is disposed inside the housing, and the operating means is attached to and detached from the engaging portion from the outside of the housing to the housing It is characterized in that a mounting hole for making it freely is provided.

  Further, the alarm device according to appendix 2 is the alarm device according to appendix 1, in which the operation means is formed in a string-like body, and a fixing portion latched by the latching portion is attached to one end of the cord-like body. The hooking portion is formed as a groove having a predetermined width through which the string-like body can be inserted and the fixing portion can be hooked, and the attachment hole extends from the hooking portion to the outside of the casing. A first space through which the fixing portion can be inserted into the open end of the groove from the outside of the housing, and the longitudinal direction of the string-like body from the open end. And a second space through which the string-like body can be inserted along the orthogonal direction.

  Further, the alarm device according to appendix 3 is the alarm device according to appendix 1 or 2, wherein a part of the abutting portion is exposed to the outside of the casing, and the abutting portion is exposed from the outside of the casing. It is characterized in that a part can be operated.

  Moreover, the alarm device according to appendix 4 is the alarm device according to any one of appendices 1 to 3, wherein the alarm unit according to any one of appendixes 1 to 3 is detachably attached to a control unit for controlling a detection operation by the detection unit. And holding means for holding the linkage means in a state where the instruction means is pressed by the abutting portion, and the control means is configured such that the instruction means is pressed. The detection operation of the detection means is stopped in the state of being present, and when the instruction means is not pressed, the detection means is caused to start the detection operation.

  Further, the alarm device according to appendix 5 is the alarm device according to appendix 4, wherein the holding means is a substantially U-shaped elastic body, one end of the holding means is fixed to the housing, and the other end Is in contact with the linking means and presses the linking means in a direction to press the indicating means through the abutting portion.

  According to the present invention described in appendix 1, the latching portion is operated by pulling the operating means, the abutting portion is operated in accordance with the operation of the latching portion, and the instruction means can be pressed. Thereby, not only the contact portion can be pressed, but also the instruction means can be pressed by pulling the operation means. Further, in order to operate the latching portion by the operating means, the operating means may be latched to the latching portion through the mounting hole, so that the operating means can be attached to the latching portion very easily. Is possible. Furthermore, since the latching portion is disposed inside the housing and is not exposed to the outside, it is possible to prevent malfunction of the instruction means due to contact with the latching portion from the outside.

  Further, according to the present invention described in appendix 2, as the mounting hole, the first space that allows the fixing portion of the operating means to be inserted from the outside of the housing to the open end of the groove of the latching portion, and the operating means Since the second space that allows a certain string-like body to be inserted into the groove is provided, the fixing portion provided at one end of the string-like body is hooked into the groove, so that the casing is not disassembled at all. The operating means can be attached and detached with respect to the latching portion inside the body very easily.

  Further, according to the present invention described in appendix 3, the surface of the abutting portion that does not face the instruction means is exposed to the outside of the casing through the opening formed in the casing, and from the outside of the casing. Since the contact portion is arranged so as to be operable, the instruction means can be operated also by directly pressing the contact portion.

  Further, according to the present invention described in appendix 4, the control unit stops the detection operation of the detection unit while the instruction unit is in the pressed state, and the detection unit receives the detection unit when the pressed state of the instruction unit is released. Perform detection operation. Thereby, also in the alarm device of the type which connects a battery and an alarm device with a connector, the power consumption of the alarm device from the time of shipment to the time of installation can be suppressed. Moreover, the pressing state of the instruction means can be maintained and released by attaching / detaching the holding means.

  Further, according to the present invention described in appendix 5, the one end of the holding means formed in a substantially U shape by an elastic material is fixed to the casing, and the other end is installed so as to be in contact with the linkage means. Since the instruction means can be pressed via the means, the holding means can be attached and detached very easily, and the pressing state of the instruction means can be easily maintained and released.

  The alarm device according to the present invention can be applied to an alarm device that generates an alarm by detecting an abnormality such as a fire occurrence or gas leakage in a monitoring region, and in particular, an operation string can be easily detached from the alarm device, It is useful for an alarm device that can perform an inspection operation using either an operation button or an operation string and can prevent malfunction due to contact from the outside.

DESCRIPTION OF SYMBOLS 1 Alarm 2 Mounting base 10 Case 11 Front case 12 Back case 13 Smoke inlet 14 Gas inlet 15 Speaker hole 16, 53 Power supply terminal 17 Holding part 20 Smoke detection part 30 1st board | substrate 40 Middle case 50 2nd board | substrate 51 Gas sensor 52 Connection terminal 54 Inspection switch 56 Speaker 57 Storage unit 58 Display output unit 59 Control unit 59a Detection processing unit 59b Alarm processing unit 59c Inspection processing unit 60 Operation member 61 Operation unit 61a Contact piece 62 Latching unit 62a Slit 63 Support unit 70 Operation string 71 Fixed end 80 Holding body 110 Display unit 111 Opening 120 Mounting hole 120a First space 120b Second space

Claims (3)

An alarm device that detects an abnormality in a monitoring area and gives an alarm,
Detecting means for detecting occurrence of abnormality in the monitoring area;
A housing that houses the detection means;
A control means for controlling a detection operation by the detection means, wherein the detection means includes a normal monitoring mode for detecting occurrence of an abnormality in the monitoring region, and a low power with a lower power consumption than the normal monitoring mode. Control means to switch between modes,
A switch for instructing the alarm,
Linkage means for pressing the switch by being pressed by a user;
Holding means for holding the switch in a state where the switch is pressed,
The housing has an installation surface that faces the installation target of the alarm device, and an operation surface that is a surface that does not face the installation target of the alarm device and is exposed to the monitoring area,
A part of the linkage means is provided on the operation surface, and the holding means is detachably attached to the housing via the installation surface,
The control means sets the detection means to the low power mode when the switch is pressed for a predetermined time or more and continues to press the switch, and detects the detection when the switch is released. Means for the normal monitoring mode;
Alarm. The holding means can be attached to the casing by inserting a part of the holding means through the installation surface into the casing.
The insertion direction of the holding means into the housing and the pressing direction of the switch via the linkage means are opposite to each other.
The alarm device according to claim 1. The holding means generates an elastic force in a direction perpendicular to the insertion direction;
The linkage means converts the elastic force of the holding means into a pressing force along the pressing direction and pressing the switch.
The alarm device according to claim 2.

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