1. Field of the Invention
The present invention relates generally to safes. More particularly, the present invention relates to an internal low-voltage power system for a safe.
2. Related Art
Home and gun safes are gradually becoming more popular and desirable. While high security metal safes are very secure, they tend to be very expensive and very heavy, and are not generally suitable for a typical consumer. On the other hand, lower cost safes have almost become a new household appliance. These safes are typically fabricated of thinner steel than high security safes (i.e. sheet steel, rather than steel plates), and are intended to provide moderate security. However, they provide high fire protection, which is generally more important for a home safe. The interior of such safes may include gun racks, shelves, file drawers, and other storage systems for holding various types of valuables such as guns, cash, coins, jewels, stocks, bonds, important documents, records, electronic storage media (e.g. videotapes, floppy disks, compact disks, etc.), and so forth. Gun safes of this type have also become popular in recent years in view of some widely publicized incidents related to unsecure storage of firearms.
For convenience, a variety of electrical devices and features are often included in home safes. For example, it is desirable to include interior lighting in a safe, in order to allow a user to view and sort the contents of the safe. Some safes also include electric locks, alarm systems, alarm indicator lights, timer clocks, etc. Additionally, it is also desirable to control the interior environment of a safe in order to improve conditions for the preservation of items in the safe, such as metal, paper, etc. For this purpose, many safes include electric heaters, etc. to help control temperature and humidity in the safe.
In order to provide electrical power for these devices, many safes have an electrical power cord that extends through the back wall of the safe. The power cord is configured to connect to an electric outlet for obtaining common household AC current. Inside the safe, the power cord is connected to a power strip, with sockets into which other electric devices can be plugged. Additionally, it will be apparent that some of the above-mentioned electrical devices run on DC power. For example, timer clocks, alarms, even interior lights that use lower voltage DC power, rather than 110 volts AC, may be more desirable for use in a safe. Accordingly, each DC device can include its own transformer for converting AC to DC, with a power cord that plugs into the power strip. Alternatively, assuming all the DC devices have the same voltage requirements, the safe can include a single transformer that plugs into the AC power strip, and converts the higher voltage AC current into lower voltage DC power for the safe interior devices. A power distribution device for connecting each of the DC devices to the transformer will also be required to distribute power.
Unfortunately, either of these approaches tends to result in a sort of cluttered hodge-podge of devices inside a safe. If each DC device includes its own transformer, this will increase the bulk of these devices, and the separate power cords must all be routed to the power strip. Even if only one transformer is provided, the interior of the safe will include the various electrical devices, the power strip, the transformer, the power distribution device, and the cords associated with each device.
Additionally, because of the typical power supply system, the electric heater in many lower cost home safes is frequently a device configured to operate on 110 volt AC power. While such devices are readily available, they tend to be expensive, bulky, and consume more power than is really needed for the purpose they serve.
It has been recognized that it would be advantageous to develop an integrated, low voltage DC power distribution system for a safe.
It has also been recognized that it would be advantageous to develop a safe with a low voltage dehumidifying system that is simple, effective, and low cost.
The invention advantageously provides a safe with an integrated power system, including a transformer, associated with the safe, configured to convert AC power input to low voltage DC power. A power distribution system is disposed within the safe, and configured to distribute low voltage power from the transformer to DC powered devices inside the safe.
In accordance with a more detailed aspect of the present invention, the DC powered devices inside the safe can be selected from the group consisting of lights, a dehumidifying system, a safe locking mechanism, alarm devices, sensors, and a clock.
In accordance with another more detailed aspect thereof, the dehumidifying system can be selected from the group consisting of a heater, a cooler, and an electro-resistively heated rack. In one embodiment, the cooler is a thermoelectric device, configured to transfer heat between two conductive plates and cause one conductive plate to become cold, thereby causing water vapor in the air within the safe to condense on the cold plate, and further including a drain, configured to direct condensation from the cooler to a point outside the safe.
Additional features and advantages of the invention will be apparent from the detailed description which follows, taken in conjunction with the accompanying drawings, which together illustrate, by way of example, features of the invention.
Reference will now be made to the exemplary embodiments illustrated in the drawings, and specific language will be used herein to describe the same. It will nevertheless be understood that no limitation of the scope of the invention is thereby intended. Alterations and further modifications of the inventive features illustrated herein, and additional applications of the principles of the inventions as illustrated herein, which would occur to one skilled in the relevant art and having possession of this disclosure, are to be considered within the scope of the invention.
The present invention relates to metal safes, particularly lower cost home and gun safes. Such a safe 10 is depicted pictorially in
The interior of the safe 10 includes an interior structure 22 disposed inside of the insulation 20. The interior structure can include shelves, racks (e.g. gun racks), dividers, file drawers, and other storage systems for holding various types of items. For example, the safe shown in
The rack 26 includes a first cutout portion 32 with an undulating shape that is configured to receive long narrow articles, such as guns, archer's bows, fishing rods, etc. In
Advantageously, the interior structure 22 can be reconfigurable in various ways to allow greater flexibility of use and configuration. For example, the rack 26 and any shelves with cutout portions can be provided with removable cover plates (not shown) configured for covering the cutout portions to give the rack and/or the shelves the appearance and function of a continuous shelf. Such a reconfigurable interior structure for a safe is disclosed in U.S. Pat. No. 6,042,207, the disclosure of which is incorporated herein by reference in its entirety. In another aspect, the interior structure can be reconfigurable by means of removable shelves. Specifically, the upper shelf 28 and lower shelves 30 can be supported by removable shelf support clips (not shown). This feature allows these shelves to be removed if desired to allow additional long or bulky articles to be stored in the safe 10, if needed.
As noted above, it is desirable to include a variety of electric devices inside a safe, such as interior lighting, electric locks, alarm systems, alarm indicator lights, timer clocks, etc. Additionally, it is also desirable to control the interior environment of a safe in order to improve conditions for the preservation of items in the safe, such as metal, paper, etc. For this purpose, many safes include electric heaters, etc. to help control temperature and humidity in the safe.
The present invention advantageously provides a safe 10 configured with an integrated low voltage power system 50. Viewing
As shown in
The low voltage DC power can be used for a wide variety of devices. While certain combinations of low voltage devices are shown in
As shown in
Other desirable DC devices can also be included in the safe. For example, the safe can include an electric locking mechanism 66, shown attached to the safe door 14 in
As an alternative to a purely local security or alarm system, the alarm system 70 can include a communications link 80 (e.g. a telephone line) extending outside of the safe 10 for interconnection with a remote security system, such as a professionally monitored security service, similar to home alarm security systems. This sort of alarm system can provide a remote alarm if the security of the safe is compromised in some way. It will be apparent that the clock or timer 68 can be interconnected with either or both the safe locking mechanism 66 and the security alarm system 70.
The low voltage DC power distribution system 50 can also include a temperature control/dehumidifying system. This system can be configured in a variety of ways. It is well known that providing an electric heater inside a safe will both heat the air in the safe and naturally dehumidify it. Accordingly, in the embodiment of the invention shown in
The electric heater 82 can be associated with a sensor or thermostat 84 that is interconnected to controls for the heater, so as to cause the heater to cycle on and off as needed to maintain a desired temperature. Additionally or alternatively, the sensor/thermostat can include a humidity sensor that controls or assists with control of the heater, allowing the heater to operate as needed to maintain the relative humidity in the safe at a desired level.
As an alternative or additional heating system, the safe can include an electro-resistively heated rack. Such a system is depicted in
As shown in
The heated rack 26a can be configured to heat items in contact therewith to a point above the surrounding ambient air temperature. The heated rack can also be configured to heat the air and contents of the safe to a point above the dewpoint of the surrounding ambient air, so as to reduce or eliminate condensation on items stored in the safe. The thermostat/humidity sensor 84 can be provided in the safe as discussed above to assist in controlling the heated rack system to substantially maintain a desired temperature and/or humidity level in the safe. In one embodiment, the electro-resistively heated rack is configured to conductively heat the objects in contact with it such that they will not be the coldest surface inside the safe, thereby causing any condensation to form elsewhere. The inventors have found that for a safe having a volume of 23 cu. ft., a suitable electro-resistively heated rack will typically consume from about 5 to 15 watts to maintain a temperature differential of 1-5° F. between the interior and exterior of the safe.
Another aspect or embodiment of a temperature control/dehumidifying system suitable for use with the safe of the present invention is depicted in
Shown in
As with the other heating/cooling devices discussed above, the TEC 90 can have its own thermostat/humidity sensor 104, or be interconnected to a separate thermostat/humidity sensor (84 in
The invention can thus be described as providing a safe, comprising a safe body, enclosing an interior, and having a lockable door. An AC power supply conduit extends from outside the safe to the interior of the safe. A transformer is disposed in the interior, and is configured to convert AC power to low-voltage DC power. A power distribution system is disposed within the safe, and is configured to distribute the low-voltage DC power to DC devices disposed inside the safe. The DC devices can include a low-voltage DC dehumidifying system that is configured to reduce humidity in the interior of the safe to reduce deterioration of items disposed therein.
It is to be understood that the above-referenced arrangements are illustrative of the application of the principles of the present invention. It will be apparent to those of ordinary skill in the art that numerous modifications can be made without departing from the principles and concepts of the invention as set forth in the claims.