Abstract:
A jumper, by its insertion at a particular position of a circuit board, selects one of plural strobe intensities. The jumper includes a flag listing available strobe intensity values. The flag is seated in a pocket when the jumper is inserted onto the circuit board, one face of said pocket comprising a viewing slot. The selected strobe intensity value on the jumper flag is observable through the viewing slot during normal operation of the visual notification appliance.

Description:
RELATED APPLICATION 
   This application claims the benefit of U.S. Provisional Application No. 60/405,685, filed Aug. 22, 2002. The entire teachings of the above application are incorporated herein by reference. 

   BACKGROUND 
   Warning lights, i.e., visual notification appliances, are often used within buildings in conjunction with audio warning alarms so that the hearing impaired can be alerted to emergency conditions such as a fire. Typically, the warning light includes a flashing bulb positioned horizontally or vertically within a reflector. The bulb receives power from a power supply in a control panel. This power supply is normally powered by the building&#39;s AC supply, but also provides battery backup to ensure that the warning light will have power in the event power to the building is disrupted. 
   Warning lights are subject to light intensity requirements as specified in various standards, such as Underwriters Laboratories UL 1971 (as well as UL 1638), “Standard for Safety Signalling Devices for the Hearing Impaired,” and the National Fire Protection Association&#39;s NFPA 72,  The National Fire Alarm Code , all of which are incorporated herein by reference in their entirety. 
   The required intensity of the strobe, measured in candela, is dependent on occupancy, location, and local and national codes, standards and guidelines. For example, a strobe that is in a sleeping area and is required to wake the occupants is required to put out more candela than a strobe located in a hallway. 
   U.S. Pat. No. 6,411,201 to Hur et al., describes a notification appliance that provides multiple candela settings. A “menu” on the device provides the available strobe intensity settings. An installer can select a setting by positioning an actuator such that the actuator indicates the selection. The actuator engages a selector switch so that lateral movement of the actuator is translated to the selector switch. 
   SUMMARY OF THE INVENTION 
   Since each unit can be configured for the desired strobe intensity output, on-site inventory can be minimized and changes encountered during construction can be easily accommodated. However, for a unit that is relatively inexpensive to build, it is critical when adding a new feature, such as the availability of selecting one of plural strobe intensities, that the costs of adding the new feature be kept to a minimum. In addition to being inexpensive, the present invention offers a reliable means for providing the multi-candela option. That is, the jumper of the present invention is expected to be less expensive and less susceptible to breakage than an actuator/switch. 
   According to an embodiment of the invention, a visual notification appliance includes a jumper and a viewing slot. The jumper, by its insertion at a particular position of a circuit board within the appliance, selects one of the strobe intensities that are provided by the appliance. The jumper is inscribed (i.e., imprinted, engraved, etched, stamped or the like) with a list of the available strobe intensity values. The value of the selected strobe intensity, as a result of the position into which the jumper has been inserted, is observable through the view slot during normal operation of the visual notification appliance, e.g., after installation and mounting on a wall or ceiling. 
   In one embodiment, the jumper includes a flag portion on which the list of available strobe intensity values is inscribed. Upon insertion of the jumper onto the circuit board, the flag portion seats into a pocket, one face of which defines the viewing slot. 
   A cover or escutcheon may have a dimple through which the viewing slot can be viewed. Preferably, the dimple is displaced from the viewing slot such that the selected strobe intensity value on the jumper flag is observable through the viewing slot when viewed from an angle. For example, on a wall mounting appliance, the dimple may be vertically displaced below the viewing slot by about ⅛″ to ¼″ so that the selected value is observable to an inspector looking up at the appliance. 
   To help the installer identify the location at which the jumper should be inserted in order to select a desired strobe intensity, in one embodiment, the jumper also includes a pointer portion which, when the jumper has been inserted, indicates the selected strobe intensity from a list printed on the circuit board. 
   Preferably, the jumper is located such that it cannot be tampered with without removing the notification appliance from its mounting. For example, it may be accessible to an installer at the back of the appliance, which is normally not accessible once the appliance has been mounted. 
   In other embodiments, a jumper, by insertion at a particular position of a circuit board, selects one of plural strobe intensities, and a selection indicator, which is observable during normal operation of the visual notification appliance, indicates the value of the selected strobe intensity. 
   For example, the list of available strobe intensity values may be fixed on the escutcheon or another off-jumper location. When the jumper has been inserted, a pointer on the jumper, i.e., the selection indicator, points to an indication of the selected strobe intensity. 
   In various embodiments, the selection indicator becomes active when the strobe is activated, and/or when power is applied to the appliance, and/or upon a command. For example, the selection indicator can be an audible device, such as a horn or speaker, which audibly identifies the selected intensity, for example by sounding a horn or bell, or by enunciation of a recorded or synthesized voice or some other predefined sound. 
   In another embodiment, the selection indicator consists of one or more lamps that visually identify the selected intensity, for example using pulse-coding, binary coding and color coding, or some combination thereof, to identify the selected intensity. The lamps can be, for example, discrete LEDs, or bar graph or multi-segment displays. 
   In another embodiment, the selection indicator comprises a coded component such as a color-coded (e.g., painted) or marked resistor or other electronic or mechanical component that can be manually inserted. 
   In one embodiment, the visual notification appliance is addressable and can receive commands over the wires that power it. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The foregoing and other objects, features and advantages of the invention will be apparent from the following more particular description of preferred embodiments of the invention, as illustrated in the accompanying drawings in which like reference characters refer to the same parts throughout the different views. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. 
       FIGS. 1A–1D  are illustrations showing an assortment of different types of notification appliances that implement an embodiment of the present invention. 
       FIG. 2  is a drawing illustrating for exemplary purposes certain components of the notification appliance of  FIG. 1B . 
       FIGS. 3A and 3B  are mechanical drawings of the intensity selection plug of  FIG. 2 . 
       FIG. 4  illustrates some of the components of a strobe-only wall-mount appliance such as that shown in  FIG. 1A . 
       FIG. 5  is an illustration presenting a rear view of the notification appliance of  FIGS. 1B and 2 . 
       FIG. 6  illustrates an embodiment of the present invention in a ceiling-mount appliance, such as that of  FIG. 1C . 
       FIG. 7  is an illustration showing how the selected intensity is visible through a slot in the pocket in which the flag of  FIG. 6  is seated. 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   A description of preferred embodiments of the invention follows. 
     FIGS. 1A–1D  are illustrations showing an assortment of different types of notification appliances that implement an embodiment of the present invention. The notification appliance  10 A of  FIG. 1A  is strobe-only and is intended for wall-mounting. The notification appliance  10 B of  FIG. 1B , also intended for wall-mounting, additionally has a horn or speaker for enunciating an audible alarm. The notification appliance  10 C of  FIG. 1C  is a strobe-only, ceiling-mount unit, while the notification appliance  10 D of  FIG. 1D , also a ceiling-mount unit, includes an audible alarm. 
     FIG. 2  is a drawing illustrating for exemplary purposes certain components of the notification appliance  10 B of  FIG. 1B . A removable cover or escutcheon  20  fits over a transparent housing  22 , which includes dome  23 . A reflector  24 , positioned behind the dome  23 , directs light from the bulb  25  in certain directions. In the illustrated notification appliance  10 B, a speaker  26  produces an audible warning. The speaker  26  is not required, but is merely shown for exemplary purposes. 
   Toward one side of the dome  23  is a viewing section  28 . A viewing dimple  34  in the escutcheon  20  allows an installer, inspector or other viewer to verify the current strobe intensity selection  39 , in this example  75  candela, through a strobe intensity viewing slot  36 . The viewing slot  36  is formed on a front portion  30  of a pocket in which the flag of the intensity selection plug  40  sits when installed. The viewing dimple  34  may be offset (vertically in this wall-mounting example) from the slot  36  so that a viewer standing below the appliance  10 B and looking upward would have a direct line of sight to the slot  36  and the selection  39 . 
     FIGS. 3A and 3B  are mechanical drawings of the intensity selection plug  40  of  FIG. 2 . The plug  40  includes jumper pins  44  that, when inserted into various pairs of receptacles, cause the selection of a specific intensity. The plug  40  also includes a flag  42  that lists the available intensity settings. When the plug  40  is installed, the flag  42  is seated in a pocket  30  ( FIG. 2 ), and only the selected setting is visible through the slot  36  ( FIG. 2 ). 
   In the illustrated embodiment, the plug  40  includes a handle  48  that allows easy handling of the plug  40 . For ease of installation, as will be seen in  FIG. 5 , pointer  46  aids an installer in placing the plug  40  in order to select the desired intensity. 
     FIG. 4  illustrates some of the components of a strobe-only wall-mount appliance such as that shown in  FIG. 1A . The escutcheon is not shown. The transparent housing  52  fits over a circuit board  53 , which carries the operating circuitry for the appliance. The reflector  55 , which directs light from the strobe bulb (not shown), is mounted to the circuit board  53 . One part of the reflector  55  is shaped into a pocket  30  having a solid rear wall and a front wall having a window or strobe intensity viewing slot  36 . In the embodiment shown, the pins  44  of the intensity selection plug  40  are inserted through holes in the printed circuit  53  and into a rear-insertion jumper socket  54 . The flag  42  of the intensity selection plug  40  is seated in the pocket  30 , and the selected intensity is visible through the strobe viewing slot  36 . 
     FIG. 5  is an illustration presenting a rear view of the notification appliance  10 B of  FIGS. 1B and 2 . A printed circuit  60  is mounted to the transparent housing  22 . Accessible to the rear of the printed circuit  60  (and accessible only when the appliance  10 B is removed from its wall mounting) are a series of holes  62  into which the jumper pins  44  of the intensity selection plug  40  can be inserted. Upon insertion of the plug  40 , the plug flag  42  is seated into the pocket  30 , such that the selected intensity setting is visible through the strobe viewing slot  36 . A list  64  of intensity settings printed on the printed circuit  60 , combined with the selection pointer  46  on the plug  40 , enable an installer to easily select the desired setting. When the plug  40  is inserted, the selection pointer  46  points to the selected intensity value  64 . 
     FIG. 6  illustrates an embodiment of the present invention in a ceiling-mount appliance  10 C, such as that of  FIG. 1C . The unit comprises a transparent dome  70  and a printed circuit  72 . In this embodiment, the pins  84  of an intensity selection plug  80  are inserted directly into a jumper socket  74 , which is mounted on the back side of the printed circuit  72 . The flag portion  82  of the plug  80  extends beyond the printed circuit board  72  and is visible through the dome  70 . 
     FIG. 7  illustrates how, as with previously discussed embodiments, the selected intensity is visible through a slot  88  in the pocket  86  in which the plug&#39;s flag  82  ( FIG. 6 ) is seated. 
   Other embodiments, while using a jumper or plug to select the intensity, alternatively or additionally use LEDs (or other lamps) or audible signals to indicate the selected intensity. LEDs are preferably mounted where they are visible when the appliance is correctly mounted on the wall or ceiling, as is appropriate. In one embodiment, the LEDs are visible when the escutcheon is in place. Alternatively, an embodiment can be configured such that the LEDs are visible only when the escutcheon is removed. 
   In one embodiment, for example, multiple LEDs are used to indicate the selected intensity. The intensity can be color coded, using, for example, red, green, white, and yellow to indicate different levels of intensity; or the LEDs can be binary coded so that, for example, two LEDs can represent any of four possible intensities, e.g., where {on/on; on/off; off/on; off/off} represent, respectively, 15, 30, 75 and 110 candela. 
   In another embodiment, an LED is alternately turned on and off according to a pulse code. For example, the LED can be flashed on once per second to indicate a first intensity, twice per second to indicate a second intensity, and so on. Alternatively, one long pulse can indicate a first intensity, while two short pulses indicate a second intensity, and so on. 
   Alternatively, multiple LEDs can be aligned in a bar formation (or, more economically, a bar graph LED display can be used) such that the highest (or lowest) LED that is on (or off) indicates the current intensity selection. 
   Alternatively, LEDs can be placed at different locations on the notification appliance, each LED representing a specific intensity so that the location of an LED that is on indicates the selected intensity. 
   Seven-segment or other multiple segment displays can also be used to indicate the selected intensity. 
   The LEDs may activate either a) when the strobe is activated or b) when power is applied to the strobe or c) on command, or any combination of the above. 
   In yet another embodiment, an audible signal can identify the selected intensity. For example, a horn can be pulsed according to some pattern to identify the selected intensity. Alternatively, a synthesized or recorded voice can state the selected intensity. 
   In yet another embodiment, different colored resistors or other key components are used to select strobe setting amplitude. The resistors can be dipped in paint, i.e., red, white, blue, yellow, or printed with the values 15, 30, 75, 110 to reflect the intensity setting. During installation the installer selects and inserts the appropriate component. Since the strobe cover is clear plastic, the selected component, and thus the selection, is evident. 
   Of course, although the examples are limited to four possible intensity settings, it would be understood by one skilled in the art that more or less available intensity settings can be offered in other embodiments. 
   While this invention has been particularly shown and described with references to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention encompassed by the appended claims.