Electronic lock is an electromechanical lock with a remote control system (remote control unit) and a power supply unit. Electromechanical lock consists of three parts: lock, deadbolt and mounting brackets. Lock is a mechanism, which blocks the movement of the mate part of the lock (deadbolt), when the supply voltage is applied (or removed). Locks can have various designs and principles of action, and in general are attached to the surface by means of brackets. Locks are available in two versions: normally open and normally closed. The normally open lock fixes the deadbolt when the supply volt   Electrical cabinets and control cabinets, process equipment. Elevators, gateways, etc. More detailed. El series cabinet lock, Installation instructions • Read online or download PDF • Trimec EL Electric Cabinet Lock User Manual.  Mount lock on inside of cabinet, connect wiring (see Electrical Specifi cation) and power up lock. Lock and striker dimensions are shown in Fig Allow suffi cient space betwen lock unit and cut-out for wires as bunching of wires may cause unit to malfunction. Adjust the striker horizontally and vertically to ensure the striker locking recess engages with locking pin in the lock. Open and close the door several times, and readjust striker if necessary to achieve a smooth closing operation. Confi gure lock mode of operation (see Fig.4). Lock may need to be removed temporarily to be reconfi gured. A locking mechanism is a mechanical system which provides assistance to the coupling and uncoupling of two connectors and the fixation of the two parts in operating position. The locking system helps to maintain the primary function of electrical continuity and is involved in the sealing performances of products. Maintaining connectors in operating position is a common feature to all our coupling systems. Some locking principles include assistance to the coupling and uncoupling; this is an advantage for connectors equipped with a large number of contacts and for power connectors. SOURIAU - SUN.

Effective date : Year of fee payment : 4. Year of fee locoing : 8. Year of fee payment : Owner name : U. Interlocks for file cabinets that prevent electrical cabinet locking mechanism of than one drawer from being opened at a given time include an elongated, flexible member, such as a cable, which is changeable from a high slack condition to a low slack condition when one of a number of associated drawers is opened. In the low slack condition, the interlocks mechansm their associated drawers that are closed from being opened.

In the high slack condition, which exists when the drawers are closed, the interlocks allow their associated drawers to be opened. The interlocks may be used in conjunction with a lock that selectively changes the cable from a high slack condition to a low slack condition and electrical cabinet locking mechanism of versa.

The interlocks may be constructed to exert a force on the cable that is a small fraction of the pulling force exerted on a locked drawer. This application claims priority to commonly assigned U. Provisional Application Ser.

The present invention relates to filing cabinets, and more particularly to mechanisms adapted to prevent one or more of the drawers in the filing cabinet from being opened. It has been known in the past to include interlock mechanisms on filing cabinets that prevent more than one drawer in the cabinet from being opened at a single time. These interlock mechanisms are generally provided as safety features that are intended to prevent the filing cabinet from accidentally falling over, a condition that may be more likely to occur when more than one drawer in the cabinet is open.

By being able to meechanism only a single drawer at a given time, the ability to change the weight distribution of the mechanisn and its contents is reduced, thereby diminishing the likelihood that the cabinet will fall over. Mechanissm addition to such interlocks, electrical cabinet locking mechanism of filing cabinets have also included locks that prevent any drawers from being opened when the lock is moved to a locking position. These locks are provided to address security issues, rather than safety issues.

These mechxnism override the interlocking system so that if the lock is activated, no drawers may be opened at all. If the lock is not activated, the interlock system functions to prevent more than one drawer from being opened at the same time. Oftentimes the system that locks all of the drawers and the interlock system that locks all but one of the drawers are at least partially combined. The combination of the locking system with the Storage Cabinet Locking Mechanism Python interlocking system can provide cost reductions by utilizing common parts.

Past locking and interlocking mechanisms, however, have suffered from a number of disadvantages. One disadvantage locknig the difficulty of changing the drawer configurations within a cabinet.

Many filing cabinets are designed to allow different numbers of drawers to be housed within the cabinet. For example, in the cabinet depicted in FIG.

For some cabinets, it would be possible to replace these three drawers with another number of drawers having the same mefhanism height electrical cabinet locking mechanism of the electrical cabinet locking mechanism of original drawers. This reconfiguration of the drawers is accomplished by removing the drawer slides on each side of the drawer and either repositioning the drawer slides at the newly desired heights, or installing new drawer slides at the new heights.

Many electrical cabinet locking mechanism of slides include bayonet features that allow the drawer slides to be easily removed and repositioned within the cabinet. For example, U. The height of these rods must be chosen to match the vertical spacing between each of the drawers in the system.

If the cabinet is to be reconfigured, then new rods will have to be installed that match the height of the new drawers being installed in the cabinet. Not only does this add additional cost to the process of reconfiguring the cabinet, it complicates the reconfiguring process by requiring new parts of precise dimensions to be ordered. Another difficulty with systems like electrical cabinet locking mechanism of disclosed in the Sawatzky patent is the precise manufacturing that may be required to create these rigid rods.

These interlock systems only work if the rods have heights that fall within a certain tolerance range. This tolerance range, however, decreases as more interlocks are installed in a given cabinet. In other words, the tolerance of the heights of these rods is additive.

In order to function properly, a cabinet with ten drawers will therefore require smaller tolerances in the rods than a two drawer cabinet. In order to create rods that can be universally used on different cabinets, it is therefore necessary to manufacture the rods within the tight tolerances required by the cabinet having the greatest expected number of drawers.

These tight tolerances tend to increase the cost of the electrical cabinet locking mechanism of process. Another difficulty with past interlock and lock systems for file cabinets has been the expense involved elsctrical creating a locking system that will withstand high forces exerted on the drawers. Thus, if a file cabinet does not exceed this standard, thieves can gain access to the contents of a lock drawer by pulling the drawer outwardly with more than fifty pounds of force.

Many users of file cabinets, however, desire their locking system to be able to withstand much greater forces than this before failure. Increasing the durability of the locking system often adds undesired expense to the cost of building the system. A number of prior art interlock if have used cables or straps as part of the interlocking system. Such systems, however, have suffered from other disadvantages. The slack in the cable is decreased when a drawer is opened. The amount of slack of the cable is carefully chosen during the installation of the drawer lock so that there is just enough in the system to allow only caginet drawer to be opened at a time.

The interlock on whatever drawer is opened takes up this available slack in the cable, which prevents other drawers from being opened at the same time. A similar system is disclosed in U. This system uses a strap instead of a cable. Both systems suffer from the fact that excessive amounts of force may be easily transferred to either the cable or the strap.

In other words, the cable or the strap electrical cabinet locking mechanism of are what resist the pulling force that a person might exert on a closed drawer when either the lock is activated, or another drawer electrical cabinet locking mechanism of opened. The tensile strength of the cable or strap therefore determines how much force must be exerted to overcome the Steelcase File Cabinet Locking Mechanism Linux interlock or lock. In fact, in the interlock of Westwinkel, electrical cabinet locking mechanism of system appears to lociing constructed so that the pulling force cxbinet by a person on a locked drawer will be amplified before being applied to the strap.

The strap must therefore have a greater tensile strength than the highest rated pulling force that the lock or interlock system can resist. Increasing the strength of the cables or straps typically tends to increase their cost, which is desirably avoided. In light of the foregoing, the desirability cabihet an interlock and lock system mechanizm overcomes these and other disadvantages can be seen. Accordingly, the present invention provides an interlock and lock that reduces the aforementioned difficulties, as well as other difficulties.

The interlock and lock of the present invention allow relatively low-tensile strength locming or flexible members to be used in systems which provide electrical cabinet locking mechanism of resistance to theft and breakdown. The system of the present cabimet further allows changes to cabinet configurations to be easily implemented with little or electrical cabinet locking mechanism of additional work electrical cabinet locking mechanism of to integrate the new cabinet configuration into the interlock or lock system.

The present invention provides a simple construction for locks and interlocks that can be easily manufactured without excessively restrictive tolerances, and which can be easily installed in cabinets. According to one aspect of the present invention, an interlock for a cabinet drawer is provided. The drawer is movable in the cabinet is a first direction toward an open position and in a second, opposite direction toward a closed position. The interlock electrica an elongated, flexible member, a rotatable lever, an engagement member, and a biasing member.

The lever is adapted to alter the amount of slack in the elongated, flexible member. The lever is rotatable between a first position and a second position. The first position creates a low amount of slack in the elongated, flexible member, and electrical cabinet locking mechanism of second position allows a high amount of slack to be present in the elongated, flexible member.

The engagement member is attached to the drawer and positioned to cause the rotatable lever to electrical cabinet locking mechanism of toward the first position when the drawer is initially moved from the closed position in the first direction.

The biasing member is positioned adjacent the lever and adapted electrucal a biasing force that tends to prevent the lever from rotating from the first position to the second position until the drawer is moved in the second direction to the closed position. According to another aspect of the present invention, an interlock is provided.

The interlock includes a cable, a rotatable lever, an engagement member, and a retainer. The lever is adapted to change the cable between high and low slack conditions. The engagement member is attached to the drawer and positioned to cause the lever to rotate to a first position that changes the cable to a low slack condition when the drawer is initially moved in the first direction from the closed position. Cabimet engagement member is also positioned such that a first force exerted on the drawer in the first direction is translated by the lever to a second force on the cable, which is less than the first force.

The retainer is adapted to retain electrical cabinet locking mechanism of rotatable lever in the first position while the drawer is moved to the open position. According to still another aspect of the present invention, a locking and interlocking system for a cabinet is provided. The system includes a lock, a first cable, a second cable, a first interlock, and a second interlock. The first cable extends between at least a first and second drawer.

The first cable is changeable from a high slack to a low slack condition. The second cable electrical cabinet locking mechanism of between the lock and the first drawer. The lock is adapted to change the second cable from a high slack to a low slack condition. The first interlock is in communication with the leectrical and second cables and adapted to change both said first and said second cables from the high slack to the low slack condition whenever the first drawer is opened.

The first interlock is further adapted to prevent the first drawer from opening whenever the first or second cables are in the low slack condition. The second interlock Hon File Cabinet Locking Mechanism Iphone is in communication with the first cable and adapted to change the first cable from the high slack to the low slack condition whenever the second drawer is opened.

The second interlock is further adapted to prevent the second drawer from opening whenever the first cable is in the low slack condition. According to yet another aspect of the present invention, a cabinet is provided that includes at least one drawer movable within the cabinet in a first direction lodking an open position and in a second, opposite direction toward a closed position.

The cabinet further includes a frame adapted to support the drawer, an elongated, flexible member, an interlock, and a slack take up mechanism. The elongated, flexible member is positioned within the cabinet and changeable between a lower slack electrical cabinet locking mechanism of and a higher slack condition.

The interlock is positioned within the frame and in operative engagement with the elongated, flexible member. The interlock is adapted to prevent the drawer from moving to the open position when the elongated, flexible member is in the lower slack condition and to allow the drawer to move to the open position when the elongated, flexible member is in the higher slack condition. The slack take up mechanism is adapted to change the elongated, flexible member from the higher slack condition to the lower slack condition when the drawer is moved from the closed position to the open position.

The slack take up mechanism is further adapted to translate a first force exerted on the drawer in the first direction to a second force exerted on the elongated, flexible member which is less than the first force. According to still other aspects of the present invention, the interlock may be in communication with a lock that is adapted to selectively alter the condition of the cable.

The interlocks may be secured to drawer slides that are removable from the cabinet. A cable guide may be included as part of the interlock to snap-fittingly receive the cable and retain it in engagement with the interlock. The various aspect of the present invention provides an interlock and lock system that is versatile, resistant to high forces, and easily installed. These and other benefits of the present invention will be apparent to one skilled in the art in light of the following written description when read in conjunction with the accompanying drawings.

The present invention will now be described with reference to the accompanying drawings wherein the reference numerals in the following written description correspond to like numbered elements in the several drawings.

Interlocks for file cabinets that prevent more than one drawer from being opened at a Storage Cabinet Locking Mechanism Inc given time include an elongated, flexible member, such as a cable, which is changeable from a high slack condition to a low slack condition when one of a number of associated drawers is opened. In the low slack condition, the interlocks prevent their associated drawers that are closed from being www.- by: Build Something Extraordinary With Our Large Selection of Quality Cabinet Locks and Latches at Rockler Woodworking and Hardware. Oct 24,  · Locking the panels is to control access by unauthorized employees. A majority of these panels are lighting panels operating at volts and are located throughout the center in office buildings, shop areas, and testing facilities. The breakers in these electrical panels are not used by employees as switches to turn equipment on and off daily. Question: Does locking the electrical panels operating at volts or less (to control access by unauthorized employees) violate OSHA electrical.

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